Add files using upload-large-folder tool

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	import sys
	import xml.etree.ElementTree

	import numpy as np
	import pytest
	from numpy.testing import assert_array_equal

	import tiledb

	from .common import DiskTestCase, assert_captured, has_pandas


	class AttributeTest(DiskTestCase):
	def test_minimal_attribute(self):
	attr = tiledb.Attr()
	self.assertEqual(attr, attr)
	self.assertTrue(attr.isanon)
	self.assertEqual(attr.name, "")
	self.assertEqual(attr.dtype, np.float64)
	self.assertFalse(attr.isvar)
	self.assertFalse(attr.isnullable)

	try:
	assert xml.etree.ElementTree.fromstring(attr._repr_html_()) is not None
	except:
	pytest.fail(f"Could not parse attr._repr_html_(). Saw {attr._repr_html_()}")

	def test_attribute_name_only(self, capfd):
	attr = tiledb.Attr("foo")

	attr.dump()
	assert_captured(capfd, "Name: foo")

	assert attr == attr
	assert attr.name == "foo"
	assert attr.dtype == np.float64, "default attribute type is float64"

	@pytest.mark.parametrize(
	"dtype, fill",
	[
	(np.dtype(bytes), b"abc"),
	(str, "defg"),
	(np.float32, np.float32(0.4023573667780681)),
	(np.float64, np.float64(0.0560602549760851)),
	(np.dtype("M8[ns]"), np.timedelta64(11, "ns")),
	(np.dtype([("f0", "<i4"), ("f1", "<i4"), ("f2", "<i4")]), (1, 2, 3)),
	],
	)
	def test_attribute_fill(self, dtype, fill):
	attr = tiledb.Attr("", dtype=dtype, fill=fill)
	assert attr == attr
	assert np.array(attr.fill, dtype=dtype) == np.array(fill, dtype=dtype)

	path = self.path()
	dom = tiledb.Domain(tiledb.Dim(domain=(0, 0), tile=1, dtype=np.int64))
	schema = tiledb.ArraySchema(domain=dom, attrs=(attr,))
	tiledb.DenseArray.create(path, schema)

	with tiledb.open(path) as R:
	assert R.multi_index[0][""] == np.array(fill, dtype=dtype)
	assert R[0] == np.array(fill, dtype=dtype)
	if has_pandas() and not hasattr(dtype, "fields"):
	# record type unsupported for .df
	assert R.df[0][""].values == np.array(fill, dtype=dtype)

	def test_full_attribute(self, capfd):
	filter_list = tiledb.FilterList([tiledb.ZstdFilter(10)])
	filter_list = tiledb.FilterList([tiledb.ZstdFilter(10)])
	attr = tiledb.Attr("foo", dtype=np.int64, filters=filter_list)

	attr.dump()
	assert_captured(capfd, "Name: foo")

	self.assertEqual(attr, attr)
	self.assertEqual(attr.name, "foo")
	self.assertEqual(attr.dtype, np.int64)
	self.assertIsInstance(attr.filters[0], tiledb.ZstdFilter)
	self.assertEqual(attr.filters[0].level, 10)

	def test_ncell_attribute(self):
	dtype = np.dtype([("", np.int32), ("", np.int32), ("", np.int32)])
	attr = tiledb.Attr("foo", dtype=dtype)

	self.assertEqual(attr, attr)
	self.assertEqual(attr.dtype, dtype)
	self.assertEqual(attr.ncells, 3)

	# dtype subarrays not supported
	with self.assertRaises(TypeError):
	tiledb.Attr("foo", dtype=np.dtype((np.int32, 2)))

	# mixed type record arrays not supported
	with self.assertRaises(TypeError):
	tiledb.Attr("foo", dtype=np.dtype([("", np.float32), ("", np.int32)]))

	def test_complex64_attribute(self):
	attr = tiledb.Attr("foo", fill=(0 + 1j), dtype=np.dtype("complex64"))
	assert attr == attr
	assert attr.fill == attr.fill
	assert attr.dtype == np.complex64
	assert attr.ncells == 2

	def test_complex128_attribute(self):
	dtype = np.dtype([("", np.double), ("", np.double)])
	attr = tiledb.Attr("foo", fill=(2.0, 2.0), dtype=dtype)

	assert attr == attr
	assert attr.fill == attr.fill
	assert attr.dtype == np.complex128
	assert attr.ncells == 2

	@pytest.mark.parametrize(
	"fill", [(1.0, 1.0), np.array((1.0, 1.0), dtype=np.dtype("f4, f4"))]
	)
	def test_two_cell_float_attribute(self, fill):
	attr = tiledb.Attr("foo", fill=fill, dtype=np.dtype("f4, f4"))

	assert attr == attr
	assert attr.dtype == np.complex64
	assert attr.fill == attr.fill
	assert attr.ncells == 2

	@pytest.mark.parametrize(
	"fill", [(1.0, 1.0), np.array((1.0, 1.0), dtype=np.dtype("f8, f8"))]
	)
	def test_two_cell_double_attribute(self, fill):
	attr = tiledb.Attr("foo", fill=fill, dtype=np.dtype("f8, f8"))
	assert attr == attr
	assert attr.dtype == np.complex128
	assert attr.fill == attr.fill
	assert attr.ncells == 2

	def test_ncell_double_attribute(self):
	dtype = np.dtype([("", np.double), ("", np.double), ("", np.double)])
	fill = np.array((0, np.nan, np.inf), dtype=dtype)
	attr = tiledb.Attr("foo", dtype=dtype, fill=fill)

	self.assertEqual(attr, attr)
	self.assertEqual(attr.dtype, dtype)
	self.assertEqual(attr.ncells, 3)

	def test_ncell_not_equal_fill_attribute(self):
	dtype = np.dtype([("", np.double), ("", np.double), ("", np.double)])
	fill1 = np.array((0, np.nan, np.inf), dtype=dtype)
	fill2 = np.array((np.nan, -1, np.inf), dtype=dtype)
	attr1 = tiledb.Attr("foo", dtype=dtype, fill=fill1)
	attr2 = tiledb.Attr("foo", dtype=dtype, fill=fill2)
	assert attr1 != attr2

	def test_ncell_bytes_attribute(self):
	dtype = np.dtype((np.bytes_, 10))
	attr = tiledb.Attr("foo", dtype=dtype)
	self.assertEqual(attr, attr)
	self.assertEqual(attr.dtype, dtype)
	self.assertEqual(attr.ncells, 10)

	def test_bytes_var_attribute(self):
	with pytest.warns(DeprecationWarning, match="Attr given `var=True` but"):
	attr = tiledb.Attr("foo", var=True, dtype="S1")
	self.assertEqual(attr.dtype, np.dtype("S"))
	self.assertTrue(attr.isvar)

	with pytest.warns(DeprecationWarning, match="Attr given `var=False` but"):
	attr = tiledb.Attr("foo", var=False, dtype="S")
	self.assertEqual(attr.dtype, np.dtype("S"))
	self.assertTrue(attr.isvar)

	attr = tiledb.Attr("foo", var=True, dtype="S")
	self.assertEqual(attr, attr)
	self.assertEqual(attr.dtype, np.dtype("S"))
	self.assertTrue(attr.isvar)

	attr = tiledb.Attr("foo", var=False, dtype="S1")
	self.assertEqual(attr, attr)
	self.assertEqual(attr.dtype, np.dtype("S1"))
	self.assertFalse(attr.isvar)

	attr = tiledb.Attr("foo", dtype="S1")
	self.assertEqual(attr, attr)
	self.assertEqual(attr.dtype, np.dtype("S1"))
	self.assertFalse(attr.isvar)

	attr = tiledb.Attr("foo", dtype="S")
	self.assertEqual(attr, attr)
	self.assertEqual(attr.dtype, np.dtype("S"))
	self.assertTrue(attr.isvar)

	def test_nullable_attribute(self):
	attr = tiledb.Attr("nullable", nullable=True, dtype=np.int32)
	self.assertEqual(attr, attr)
	self.assertEqual(attr.dtype, np.dtype(np.int32))
	self.assertTrue(attr.isnullable)

	def test_blob_attribute(self):
	attr = tiledb.Attr(name="foo", dtype="blob")
	self.assertEqual(attr, attr)
	self.assertEqual(attr.dtype, np.bytes_)

	def test_blob_attribute_dump(self, capfd):
	attr = tiledb.Attr(name="foo", dtype="blob")
	attr.dump()
	assert_captured(capfd, "Type: BLOB")

	def test_datetime_attribute(self):
	attr = tiledb.Attr("foo", dtype=np.datetime64("", "D"))
	self.assertEqual(attr, attr)
	assert attr.dtype == np.dtype(np.datetime64("", "D"))
	assert attr.dtype != np.dtype(np.datetime64("", "Y"))
	assert attr.dtype != np.dtype(np.datetime64)

	@pytest.mark.parametrize("sparse", [True, False])
	def test_ascii_attribute(self, sparse, capfd):
	path = self.path("test_ascii")
	dom = tiledb.Domain(
	tiledb.Dim(name="d", domain=(1, 4), tile=1, dtype=np.uint32)
	)

	with pytest.raises(TypeError) as exc_info:
	tiledb.Attr(name="A", dtype="ascii", var=False)
	assert (
	str(exc_info.value) == "dtype is not compatible with var-length attribute"
	)

	attrs = [tiledb.Attr(name="A", dtype="ascii")]

	schema = tiledb.ArraySchema(domain=dom, attrs=attrs, sparse=sparse)
	tiledb.Array.create(path, schema)

	ascii_data = ["a", "b", "c", "ABC"]
	unicode_data = ["±", "×", "÷", "√"]

	with tiledb.open(path, "w") as A:
	if sparse:
	with self.assertRaises(tiledb.TileDBError):
	A[np.arange(1, 5)] = unicode_data
	A[np.arange(1, 5)] = ascii_data
	else:
	with self.assertRaises(tiledb.TileDBError):
	A[:] = unicode_data
	A[:] = ascii_data

	with tiledb.open(path, "r") as A:
	assert A.schema.nattr == 1
	A.schema.dump()
	assert_captured(capfd, "Type: STRING_ASCII")
	assert A.schema.attr("A").isvar
	assert A.schema.attr("A").dtype == np.bytes_
	assert A.schema.attr("A").isascii
	assert_array_equal(A[:]["A"], np.asarray(ascii_data, dtype=np.bytes_))

	def test_modify_attribute_in_schema(self):
	path = self.path("test_modify_attribute_in_schema")
	tiledb.from_numpy(path, np.random.rand(10))

	with tiledb.open(path, "r") as A:
	assert A.schema.nattr == 1
	assert A.schema.attr(0).name == ""
	with pytest.raises(AttributeError) as exc:
	A.schema.attr(0).name = "can't change"

	if sys.version_info < (3, 11):
	assert "can't set attribute" in str(exc.value)
	else:
	assert "object has no setter" in str(exc.value)

	def test_wkt_attribute(self):
	A = np.array(
	["POINT (30 10)", "POLYGON ((3 1, 4 5, 2 2, 1 2, 3 1))"],
	dtype="S",
	)

	dom = tiledb.Domain(tiledb.Dim(domain=(0, 1), tile=2))
	att = tiledb.Attr(dtype="wkt", var=True)

	schema = tiledb.ArraySchema(dom, (att,))

	tiledb.DenseArray.create(self.path("foo"), schema)
	with tiledb.DenseArray(self.path("foo"), mode="w") as T:
	T[:] = A

	# read back the data
	with tiledb.DenseArray(self.path("foo"), mode="r") as T:
	for i in range(2):
	assert_array_equal(T[i], A[i])

	def test_wkb_attribute(self):
	A = np.array(
	[
	# representation of POINT (30 10)
	b"\x01\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00>@\x00\x00\x00\x00\x00\x00$@",
	# representation of POLYGON ((3 1, 4 5, 2 2, 1 2, 3 1))
	(
	b"\x01\x03\x00\x00\x00\x01\x00\x00\x00\x05\x00\x00\x00\x00\x00\x00\x00\x00\x00\x08@"
	b"\x00\x00\x00\x00\x00\x00\xf0?\x00\x00\x00\x00\x00\x00\x10@\x00\x00\x00\x00\x00\x00\x14@"
	b"\x00\x00\x00\x00\x00\x00\x00@\x00\x00\x00\x00\x00\x00\x00@\x00\x00\x00\x00\x00\x00\xf0?"
	b"\x00\x00\x00\x00\x00\x00\x00@\x00\x00\x00\x00\x00\x00\x08@\x00\x00\x00\x00\x00\x00\xf0?"
	),
	],
	)

	dom = tiledb.Domain(tiledb.Dim(domain=(0, 1), tile=2))
	att = tiledb.Attr(dtype="wkb", var=True)

	schema = tiledb.ArraySchema(dom, (att,))

	tiledb.DenseArray.create(self.path("foo"), schema)
	with tiledb.DenseArray(self.path("foo"), mode="w") as T:
	T[:] = A

	# read back the data
	with tiledb.DenseArray(self.path("foo"), mode="r") as T:
	for i in range(2):
	assert_array_equal(T[:][i].tobytes(), A[i])