| import itertools |
| import re |
| import textwrap |
| import warnings |
|
|
| import numpy as np |
|
|
| import tiledb |
|
|
| from .common import ( |
| DiskTestCase, |
| fx_sparse_cell_order, |
| ) |
|
|
|
|
| class ReprTest(DiskTestCase): |
| def test_attr_repr(self): |
| attr = tiledb.Attr(name="itsanattr", dtype=np.float64) |
| self.assertTrue( |
| re.match( |
| r"Attr\(name=[u]?'itsanattr', dtype='float64', var=False, nullable=False, enum_label=None\)", |
| repr(attr), |
| ) |
| ) |
|
|
| g = dict() |
| exec("from tiledb import Attr; from numpy import float64", g) |
| self.assertEqual(eval(repr(attr), g), attr) |
|
|
| def test_dim_repr(self): |
| dtype_set = [bytes, np.bytes_] |
| opts = { |
| None: None, |
| "var": True, |
| "domain": (None, None), |
| "filters": [tiledb.GzipFilter()], |
| } |
|
|
| dim_test_imports = textwrap.dedent( |
| """ |
| from tiledb import Dim, FilterList, GzipFilter |
| import numpy |
| from numpy import float64 |
| """ |
| ) |
|
|
| for dtype in dtype_set: |
| opt_choices = [ |
| itertools.combinations(opts.keys(), r=n) |
| for n in range(1, len(opts) + 1) |
| ] |
| for opt_set in itertools.chain(*opt_choices): |
| opt_kwarg = {k: opts[k] for k in opt_set if k} |
| g = dict() |
| exec(dim_test_imports, g) |
|
|
| dim = tiledb.Dim(name="d1", dtype=dtype, **opt_kwarg) |
| self.assertEqual(eval(repr(dim), g), dim) |
|
|
| |
| g = dict() |
| exec(dim_test_imports, g) |
| dim = tiledb.Dim( |
| name="d1", |
| domain=(np.datetime64("2010-01-01"), np.datetime64("2020")), |
| tile=2, |
| dtype=np.datetime64("", "D"), |
| ) |
| self.assertEqual(eval(repr(dim), g), dim) |
|
|
| def test_arrayschema_repr(self, fx_sparse_cell_order): |
| filters = tiledb.FilterList([tiledb.ZstdFilter(-1)]) |
| for sparse in [False, True]: |
| cell_order = fx_sparse_cell_order if sparse else None |
| domain = tiledb.Domain( |
| tiledb.Dim(domain=(1, 8), tile=2), tiledb.Dim(domain=(1, 8), tile=2) |
| ) |
| a1 = tiledb.Attr("val", dtype="f8", filters=filters) |
| orig_schema = tiledb.ArraySchema( |
| domain=domain, attrs=(a1,), sparse=sparse, cell_order=cell_order |
| ) |
|
|
| schema_repr = repr(orig_schema) |
| g = dict() |
| setup = "from tiledb import *\n" "import numpy as np\n" |
|
|
| exec(setup, g) |
| new_schema = None |
| try: |
| new_schema = eval(schema_repr, g) |
| except Exception: |
| warn_str = ( |
| """Exception during ReprTest schema eval""" |
| + """, schema string was:\n""" |
| + """'''""" |
| + """\n{}\n'''""".format(schema_repr) |
| ) |
| warnings.warn(warn_str) |
| raise |
|
|
| self.assertEqual(new_schema, orig_schema) |
|
|
| def test_arrayschema_repr_hilbert(self): |
| domain = tiledb.Domain(tiledb.Dim(domain=(1, 8), tile=2)) |
| a = tiledb.Attr("a", dtype="f8") |
| schema = tiledb.ArraySchema( |
| domain=domain, attrs=(a,), cell_order="hilbert", sparse=True |
| ) |
|
|
| assert schema.cell_order == "hilbert" |
| assert schema.tile_order is None |
|
|
