Sam Chaudry

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	""" Test functions for linalg module
	"""

	import pytest

	import numpy as np
	from numpy import linalg, arange, float64, array, dot, transpose
	from numpy.testing import (
	assert_, assert_raises, assert_equal, assert_array_equal,
	assert_array_almost_equal, assert_array_less
	)


	class TestRegression:

	def test_eig_build(self):
	# Ticket #652
	rva = array([1.03221168e+02 + 0.j,
	-1.91843603e+01 + 0.j,
	-6.04004526e-01 + 15.84422474j,
	-6.04004526e-01 - 15.84422474j,
	-1.13692929e+01 + 0.j,
	-6.57612485e-01 + 10.41755503j,
	-6.57612485e-01 - 10.41755503j,
	1.82126812e+01 + 0.j,
	1.06011014e+01 + 0.j,
	7.80732773e+00 + 0.j,
	-7.65390898e-01 + 0.j,
	1.51971555e-15 + 0.j,
	-1.51308713e-15 + 0.j])
	a = arange(13 * 13, dtype=float64)
	a.shape = (13, 13)
	a = a % 17
	va, ve = linalg.eig(a)
	va.sort()
	rva.sort()
	assert_array_almost_equal(va, rva)

	def test_eigh_build(self):
	# Ticket 662.
	rvals = [68.60568999, 89.57756725, 106.67185574]

	cov = array([[77.70273908, 3.51489954, 15.64602427],
	[3.51489954, 88.97013878, -1.07431931],
	[15.64602427, -1.07431931, 98.18223512]])

	vals, vecs = linalg.eigh(cov)
	assert_array_almost_equal(vals, rvals)

	def test_svd_build(self):
	# Ticket 627.
	a = array([[0., 1.], [1., 1.], [2., 1.], [3., 1.]])
	m, n = a.shape
	u, s, vh = linalg.svd(a)

	b = dot(transpose(u[:, n:]), a)

	assert_array_almost_equal(b, np.zeros((2, 2)))

	def test_norm_vector_badarg(self):
	# Regression for #786: Frobenius norm for vectors raises
	# ValueError.
	assert_raises(ValueError, linalg.norm, array([1., 2., 3.]), 'fro')

	def test_lapack_endian(self):
	# For bug #1482
	a = array([[5.7998084, -2.1825367],
	[-2.1825367, 9.85910595]], dtype='>f8')
	b = array(a, dtype='<f8')

	ap = linalg.cholesky(a)
	bp = linalg.cholesky(b)
	assert_array_equal(ap, bp)

	def test_large_svd_32bit(self):
	# See gh-4442, 64bit would require very large/slow matrices.
	x = np.eye(1000, 66)
	np.linalg.svd(x)

	def test_svd_no_uv(self):
	# gh-4733
	for shape in (3, 4), (4, 4), (4, 3):
	for t in float, complex:
	a = np.ones(shape, dtype=t)
	w = linalg.svd(a, compute_uv=False)
	c = np.count_nonzero(np.absolute(w) > 0.5)
	assert_equal(c, 1)
	assert_equal(np.linalg.matrix_rank(a), 1)
	assert_array_less(1, np.linalg.norm(a, ord=2))

	w_svdvals = linalg.svdvals(a)
	assert_array_almost_equal(w, w_svdvals)

	def test_norm_object_array(self):
	# gh-7575
	testvector = np.array([np.array([0, 1]), 0, 0], dtype=object)

	norm = linalg.norm(testvector)
	assert_array_equal(norm, [0, 1])
	assert_(norm.dtype == np.dtype('float64'))

	norm = linalg.norm(testvector, ord=1)
	assert_array_equal(norm, [0, 1])
	assert_(norm.dtype != np.dtype('float64'))

	norm = linalg.norm(testvector, ord=2)
	assert_array_equal(norm, [0, 1])
	assert_(norm.dtype == np.dtype('float64'))

	assert_raises(ValueError, linalg.norm, testvector, ord='fro')
	assert_raises(ValueError, linalg.norm, testvector, ord='nuc')
	assert_raises(ValueError, linalg.norm, testvector, ord=np.inf)
	assert_raises(ValueError, linalg.norm, testvector, ord=-np.inf)
	assert_raises(ValueError, linalg.norm, testvector, ord=0)
	assert_raises(ValueError, linalg.norm, testvector, ord=-1)
	assert_raises(ValueError, linalg.norm, testvector, ord=-2)

	testmatrix = np.array([[np.array([0, 1]), 0, 0],
	[0, 0, 0]], dtype=object)

	norm = linalg.norm(testmatrix)
	assert_array_equal(norm, [0, 1])
	assert_(norm.dtype == np.dtype('float64'))

	norm = linalg.norm(testmatrix, ord='fro')
	assert_array_equal(norm, [0, 1])
	assert_(norm.dtype == np.dtype('float64'))

	assert_raises(TypeError, linalg.norm, testmatrix, ord='nuc')
	assert_raises(ValueError, linalg.norm, testmatrix, ord=np.inf)
	assert_raises(ValueError, linalg.norm, testmatrix, ord=-np.inf)
	assert_raises(ValueError, linalg.norm, testmatrix, ord=0)
	assert_raises(ValueError, linalg.norm, testmatrix, ord=1)
	assert_raises(ValueError, linalg.norm, testmatrix, ord=-1)
	assert_raises(TypeError, linalg.norm, testmatrix, ord=2)
	assert_raises(TypeError, linalg.norm, testmatrix, ord=-2)
	assert_raises(ValueError, linalg.norm, testmatrix, ord=3)

	def test_lstsq_complex_larger_rhs(self):
	# gh-9891
	size = 20
	n_rhs = 70
	G = np.random.randn(size, size) + 1j * np.random.randn(size, size)
	u = np.random.randn(size, n_rhs) + 1j * np.random.randn(size, n_rhs)
	b = G.dot(u)
	# This should work without segmentation fault.
	u_lstsq, res, rank, sv = linalg.lstsq(G, b, rcond=None)
	# check results just in case
	assert_array_almost_equal(u_lstsq, u)

	@pytest.mark.parametrize("upper", [True, False])
	def test_cholesky_empty_array(self, upper):
	# gh-25840 - upper=True hung before.
	res = np.linalg.cholesky(np.zeros((0, 0)), upper=upper)
	assert res.size == 0

	@pytest.mark.parametrize("rtol", [0.0, [0.0] * 4, np.zeros((4,))])
	def test_matrix_rank_rtol_argument(self, rtol):
	# gh-25877
	x = np.zeros((4, 3, 2))
	res = np.linalg.matrix_rank(x, rtol=rtol)
	assert res.shape == (4,)

	def test_openblas_threading(self):
	# gh-27036
	# Test whether matrix multiplication involving a large matrix always
	# gives the same (correct) answer
	x = np.arange(500000, dtype=np.float64)
	src = np.vstack((x, -10*x)).T
	matrix = np.array([[0, 1], [1, 0]])
	expected = np.vstack((-10*x, x)).T # src @ matrix
	for i in range(200):
	result = src @ matrix
	mismatches = (~np.isclose(result, expected)).sum()
	if mismatches != 0:
	assert False, ("unexpected result from matmul, "
	"probably due to OpenBLAS threading issues")