Add files using upload-large-folder tool

2c3c408 verified 2 months ago

6.96 kB

	import tempfile
	import unittest

	import numpy as np
	import pytest

	import tiledb
	import tiledb.cc as lt

	if not (tiledb.libtiledb.version()[0] == 2 and tiledb.libtiledb.version()[1] >= 25):
	pytest.skip(
	"CurrentDomain is only available in TileDB 2.25 and later",
	allow_module_level=True,
	)


	class NDRectangleTest(unittest.TestCase):
	def test_ndrectagle_standalone_string(self):
	ctx = tiledb.Ctx()
	dom = tiledb.Domain(
	tiledb.Dim(name="d1", dtype="S0"),
	tiledb.Dim(name="d2", dtype="S0"),
	)
	ndrect = tiledb.NDRectangle(ctx, dom)

	range_one = ("a", "c")
	range_two = ("b", "db")

	ndrect.set_range(0, range_one[0], range_one[1])
	ndrect.set_range(1, range_two[0], range_two[1])

	self.assertEqual(ndrect.range(0), range_one)
	self.assertEqual(ndrect.range(1), range_two)

	# should be the same
	self.assertEqual(ndrect.range("d1"), range_one)
	self.assertEqual(ndrect.range("d2"), range_two)

	def test_ndrectagle_standalone_integer(self):
	ctx = tiledb.Ctx()
	dom = tiledb.Domain(
	tiledb.Dim(name="x", domain=(0, 100), tile=10, dtype=np.int64),
	tiledb.Dim(name="y", domain=(0, 100), tile=10, dtype=np.int64),
	)
	ndrect = tiledb.NDRectangle(ctx, dom)

	range_one = (10, 20)
	range_two = (30, 40)

	ndrect.set_range(0, range_one[0], range_one[1])
	ndrect.set_range(1, range_two[0], range_two[1])

	self.assertEqual(ndrect.range(0), range_one)
	self.assertEqual(ndrect.range(1), range_two)

	# should be the same
	self.assertEqual(ndrect.range("x"), range_one)
	self.assertEqual(ndrect.range("y"), range_two)


	class CurrentDomainTest(unittest.TestCase):
	def test_current_domain_with_ndrectangle_integer(self):
	ctx = tiledb.Ctx()
	dom = tiledb.Domain(
	tiledb.Dim(name="x", domain=(0, 100), tile=10, dtype=np.int64),
	tiledb.Dim(name="y", domain=(0, 100), tile=10, dtype=np.int64),
	)
	ndrect = tiledb.NDRectangle(ctx, dom)

	range_one = (10, 20)
	range_two = (30, 40)

	ndrect.set_range(0, range_one[0], range_one[1])
	ndrect.set_range(1, range_two[0], range_two[1])

	self.assertEqual(ndrect.range(0), range_one)
	self.assertEqual(ndrect.range(1), range_two)

	current_domain = tiledb.CurrentDomain(ctx)

	self.assertTrue(current_domain.is_empty)
	current_domain.set_ndrectangle(ndrect)
	self.assertFalse(current_domain.is_empty)

	# let's try to get the NDRectangle back from the current domain object
	rect = current_domain.ndrectangle

	range1 = rect.range(0)
	range2 = rect.range(1)

	self.assertEqual(range1, range_one)
	self.assertEqual(range2, range_two)

	range1 = rect.range("x")
	range2 = rect.range("y")

	# should be the same
	self.assertEqual(range1, range_one)
	self.assertEqual(range2, range_two)

	def test_current_domain_with_ndrectangle_string(self):
	ctx = tiledb.Ctx()
	dom = tiledb.Domain(
	tiledb.Dim(name="d1", dtype="S0"),
	tiledb.Dim(name="d2", dtype="S0"),
	)
	ndrect = tiledb.NDRectangle(ctx, dom)

	range_one = ("a", "c")
	range_two = ("b", "db")

	ndrect.set_range(0, range_one[0], range_one[1])
	ndrect.set_range(1, range_two[0], range_two[1])

	self.assertEqual(ndrect.range(0), range_one)
	self.assertEqual(ndrect.range(1), range_two)

	current_domain = tiledb.CurrentDomain(ctx)

	self.assertTrue(current_domain.is_empty)
	current_domain.set_ndrectangle(ndrect)
	self.assertFalse(current_domain.is_empty)

	# let's try to get the NDRectangle back from the current domain object
	rect = current_domain.ndrectangle

	range1 = rect.range(0)
	range2 = rect.range(1)

	self.assertEqual(range1, range_one)
	self.assertEqual(range2, range_two)

	range1 = rect.range("d1")
	range2 = rect.range("d2")

	# should be the same
	self.assertEqual(range1, range_one)
	self.assertEqual(range2, range_two)

	def test_array_schema_with_current_domain_with_ndrectangle(self):
	uri = tempfile.mkdtemp()
	ctx = tiledb.Ctx()
	dom = tiledb.Domain(
	tiledb.Dim(name="d", domain=(1, 999), tile=2, dtype=np.int64),
	tiledb.Dim(name="d2", domain=(1, 999), tile=2, dtype=np.int64),
	)
	att = tiledb.Attr(name="a", dtype=np.int64)
	schema = tiledb.ArraySchema(sparse=True, ctx=ctx, domain=dom, attrs=(att,))

	ndrect = tiledb.NDRectangle(ctx, dom)
	range_one = (10, 20)
	range_two = (30, 40)
	ndrect.set_range(0, range_one[0], range_one[1])
	ndrect.set_range(1, range_two[0], range_two[1])

	current_domain = tiledb.CurrentDomain(ctx)
	current_domain.set_ndrectangle(ndrect)
	schema.set_current_domain(current_domain)

	# create the array
	tiledb.Array.create(uri, schema)

	# open the array and check the current domain and the NDRectangle
	A = tiledb.Array(uri, mode="r")

	cd = A.schema.current_domain
	self.assertFalse(cd.is_empty)
	self.assertEqual(cd.type, lt.CurrentDomainType.NDRECTANGLE)

	ndr = cd.ndrectangle
	self.assertEqual(ndr.range(0), range_one)
	self.assertEqual(ndr.range(1), range_two)

	# a 3rd dimension should raise an error
	with self.assertRaises(tiledb.TileDBError):
	ndr.range(2)

	A.close()

	def test_current_domain_evolve(self):
	uri = tempfile.mkdtemp()
	ctx = tiledb.Ctx()
	dom = tiledb.Domain(
	tiledb.Dim(name="d", domain=(1, 999), tile=2, dtype=np.int64),
	)

	att = tiledb.Attr(name="a", dtype=np.int64)
	schema = tiledb.ArraySchema(sparse=True, ctx=ctx, domain=dom, attrs=(att,))

	ndrect = tiledb.NDRectangle(ctx, dom)
	range_one = (10, 20)
	ndrect.set_range(0, range_one[0], range_one[1])

	current_domain = tiledb.CurrentDomain(ctx)
	current_domain.set_ndrectangle(ndrect)
	schema.set_current_domain(current_domain)

	tiledb.Array.create(uri, schema)

	new_range = (5, 30)
	new_ndrect = tiledb.NDRectangle(ctx, dom)
	new_ndrect.set_range(0, new_range[0], new_range[1])
	new_current_domain = tiledb.CurrentDomain(ctx)
	new_current_domain.set_ndrectangle(new_ndrect)

	se = tiledb.ArraySchemaEvolution(ctx)
	se.expand_current_domain(new_current_domain)
	se.array_evolve(uri)

	A = tiledb.Array(uri, mode="r")
	s = A.schema
	cd = s.current_domain
	n = cd.ndrectangle
	self.assertEqual(n.range(0), new_range)
	A.close()