Pracownia_programowania/venv/Lib/site-packages/numpy/matrixlib/tests/test_interaction.py

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2020-02-01 19:54:00 +01:00
"""Tests of interaction of matrix with other parts of numpy.
Note that tests with MaskedArray and linalg are done in separate files.
"""
from __future__ import division, absolute_import, print_function
import pytest
import textwrap
import warnings
import numpy as np
from numpy.testing import (assert_, assert_equal, assert_raises,
assert_raises_regex, assert_array_equal,
assert_almost_equal, assert_array_almost_equal)
def test_fancy_indexing():
# The matrix class messes with the shape. While this is always
# weird (getitem is not used, it does not have setitem nor knows
# about fancy indexing), this tests gh-3110
# 2018-04-29: moved here from core.tests.test_index.
m = np.matrix([[1, 2], [3, 4]])
assert_(isinstance(m[[0, 1, 0], :], np.matrix))
# gh-3110. Note the transpose currently because matrices do *not*
# support dimension fixing for fancy indexing correctly.
x = np.asmatrix(np.arange(50).reshape(5, 10))
assert_equal(x[:2, np.array(-1)], x[:2, -1].T)
def test_polynomial_mapdomain():
# test that polynomial preserved matrix subtype.
# 2018-04-29: moved here from polynomial.tests.polyutils.
dom1 = [0, 4]
dom2 = [1, 3]
x = np.matrix([dom1, dom1])
res = np.polynomial.polyutils.mapdomain(x, dom1, dom2)
assert_(isinstance(res, np.matrix))
def test_sort_matrix_none():
# 2018-04-29: moved here from core.tests.test_multiarray
a = np.matrix([[2, 1, 0]])
actual = np.sort(a, axis=None)
expected = np.matrix([[0, 1, 2]])
assert_equal(actual, expected)
assert_(type(expected) is np.matrix)
def test_partition_matrix_none():
# gh-4301
# 2018-04-29: moved here from core.tests.test_multiarray
a = np.matrix([[2, 1, 0]])
actual = np.partition(a, 1, axis=None)
expected = np.matrix([[0, 1, 2]])
assert_equal(actual, expected)
assert_(type(expected) is np.matrix)
def test_dot_scalar_and_matrix_of_objects():
# Ticket #2469
# 2018-04-29: moved here from core.tests.test_multiarray
arr = np.matrix([1, 2], dtype=object)
desired = np.matrix([[3, 6]], dtype=object)
assert_equal(np.dot(arr, 3), desired)
assert_equal(np.dot(3, arr), desired)
def test_inner_scalar_and_matrix():
# 2018-04-29: moved here from core.tests.test_multiarray
for dt in np.typecodes['AllInteger'] + np.typecodes['AllFloat'] + '?':
sca = np.array(3, dtype=dt)[()]
arr = np.matrix([[1, 2], [3, 4]], dtype=dt)
desired = np.matrix([[3, 6], [9, 12]], dtype=dt)
assert_equal(np.inner(arr, sca), desired)
assert_equal(np.inner(sca, arr), desired)
def test_inner_scalar_and_matrix_of_objects():
# Ticket #4482
# 2018-04-29: moved here from core.tests.test_multiarray
arr = np.matrix([1, 2], dtype=object)
desired = np.matrix([[3, 6]], dtype=object)
assert_equal(np.inner(arr, 3), desired)
assert_equal(np.inner(3, arr), desired)
def test_iter_allocate_output_subtype():
# Make sure that the subtype with priority wins
# 2018-04-29: moved here from core.tests.test_nditer, given the
# matrix specific shape test.
# matrix vs ndarray
a = np.matrix([[1, 2], [3, 4]])
b = np.arange(4).reshape(2, 2).T
i = np.nditer([a, b, None], [],
[['readonly'], ['readonly'], ['writeonly', 'allocate']])
assert_(type(i.operands[2]) is np.matrix)
assert_(type(i.operands[2]) is not np.ndarray)
assert_equal(i.operands[2].shape, (2, 2))
# matrix always wants things to be 2D
b = np.arange(4).reshape(1, 2, 2)
assert_raises(RuntimeError, np.nditer, [a, b, None], [],
[['readonly'], ['readonly'], ['writeonly', 'allocate']])
# but if subtypes are disabled, the result can still work
i = np.nditer([a, b, None], [],
[['readonly'], ['readonly'],
['writeonly', 'allocate', 'no_subtype']])
assert_(type(i.operands[2]) is np.ndarray)
assert_(type(i.operands[2]) is not np.matrix)
assert_equal(i.operands[2].shape, (1, 2, 2))
def like_function():
# 2018-04-29: moved here from core.tests.test_numeric
a = np.matrix([[1, 2], [3, 4]])
for like_function in np.zeros_like, np.ones_like, np.empty_like:
b = like_function(a)
assert_(type(b) is np.matrix)
c = like_function(a, subok=False)
assert_(type(c) is not np.matrix)
def test_array_astype():
# 2018-04-29: copied here from core.tests.test_api
# subok=True passes through a matrix
a = np.matrix([[0, 1, 2], [3, 4, 5]], dtype='f4')
b = a.astype('f4', subok=True, copy=False)
assert_(a is b)
# subok=True is default, and creates a subtype on a cast
b = a.astype('i4', copy=False)
assert_equal(a, b)
assert_equal(type(b), np.matrix)
# subok=False never returns a matrix
b = a.astype('f4', subok=False, copy=False)
assert_equal(a, b)
assert_(not (a is b))
assert_(type(b) is not np.matrix)
def test_stack():
# 2018-04-29: copied here from core.tests.test_shape_base
# check np.matrix cannot be stacked
m = np.matrix([[1, 2], [3, 4]])
assert_raises_regex(ValueError, 'shape too large to be a matrix',
np.stack, [m, m])
def test_object_scalar_multiply():
# Tickets #2469 and #4482
# 2018-04-29: moved here from core.tests.test_ufunc
arr = np.matrix([1, 2], dtype=object)
desired = np.matrix([[3, 6]], dtype=object)
assert_equal(np.multiply(arr, 3), desired)
assert_equal(np.multiply(3, arr), desired)
def test_nanfunctions_matrices():
# Check that it works and that type and
# shape are preserved
# 2018-04-29: moved here from core.tests.test_nanfunctions
mat = np.matrix(np.eye(3))
for f in [np.nanmin, np.nanmax]:
res = f(mat, axis=0)
assert_(isinstance(res, np.matrix))
assert_(res.shape == (1, 3))
res = f(mat, axis=1)
assert_(isinstance(res, np.matrix))
assert_(res.shape == (3, 1))
res = f(mat)
assert_(np.isscalar(res))
# check that rows of nan are dealt with for subclasses (#4628)
mat[1] = np.nan
for f in [np.nanmin, np.nanmax]:
with warnings.catch_warnings(record=True) as w:
warnings.simplefilter('always')
res = f(mat, axis=0)
assert_(isinstance(res, np.matrix))
assert_(not np.any(np.isnan(res)))
assert_(len(w) == 0)
with warnings.catch_warnings(record=True) as w:
warnings.simplefilter('always')
res = f(mat, axis=1)
assert_(isinstance(res, np.matrix))
assert_(np.isnan(res[1, 0]) and not np.isnan(res[0, 0])
and not np.isnan(res[2, 0]))
assert_(len(w) == 1, 'no warning raised')
assert_(issubclass(w[0].category, RuntimeWarning))
with warnings.catch_warnings(record=True) as w:
warnings.simplefilter('always')
res = f(mat)
assert_(np.isscalar(res))
assert_(res != np.nan)
assert_(len(w) == 0)
def test_nanfunctions_matrices_general():
# Check that it works and that type and
# shape are preserved
# 2018-04-29: moved here from core.tests.test_nanfunctions
mat = np.matrix(np.eye(3))
for f in (np.nanargmin, np.nanargmax, np.nansum, np.nanprod,
np.nanmean, np.nanvar, np.nanstd):
res = f(mat, axis=0)
assert_(isinstance(res, np.matrix))
assert_(res.shape == (1, 3))
res = f(mat, axis=1)
assert_(isinstance(res, np.matrix))
assert_(res.shape == (3, 1))
res = f(mat)
assert_(np.isscalar(res))
for f in np.nancumsum, np.nancumprod:
res = f(mat, axis=0)
assert_(isinstance(res, np.matrix))
assert_(res.shape == (3, 3))
res = f(mat, axis=1)
assert_(isinstance(res, np.matrix))
assert_(res.shape == (3, 3))
res = f(mat)
assert_(isinstance(res, np.matrix))
assert_(res.shape == (1, 3*3))
def test_average_matrix():
# 2018-04-29: moved here from core.tests.test_function_base.
y = np.matrix(np.random.rand(5, 5))
assert_array_equal(y.mean(0), np.average(y, 0))
a = np.matrix([[1, 2], [3, 4]])
w = np.matrix([[1, 2], [3, 4]])
r = np.average(a, axis=0, weights=w)
assert_equal(type(r), np.matrix)
assert_equal(r, [[2.5, 10.0/3]])
def test_trapz_matrix():
# Test to make sure matrices give the same answer as ndarrays
# 2018-04-29: moved here from core.tests.test_function_base.
x = np.linspace(0, 5)
y = x * x
r = np.trapz(y, x)
mx = np.matrix(x)
my = np.matrix(y)
mr = np.trapz(my, mx)
assert_almost_equal(mr, r)
def test_ediff1d_matrix():
# 2018-04-29: moved here from core.tests.test_arraysetops.
assert(isinstance(np.ediff1d(np.matrix(1)), np.matrix))
assert(isinstance(np.ediff1d(np.matrix(1), to_begin=1), np.matrix))
def test_apply_along_axis_matrix():
# this test is particularly malicious because matrix
# refuses to become 1d
# 2018-04-29: moved here from core.tests.test_shape_base.
def double(row):
return row * 2
m = np.matrix([[0, 1], [2, 3]])
expected = np.matrix([[0, 2], [4, 6]])
result = np.apply_along_axis(double, 0, m)
assert_(isinstance(result, np.matrix))
assert_array_equal(result, expected)
result = np.apply_along_axis(double, 1, m)
assert_(isinstance(result, np.matrix))
assert_array_equal(result, expected)
def test_kron_matrix():
# 2018-04-29: moved here from core.tests.test_shape_base.
a = np.ones([2, 2])
m = np.asmatrix(a)
assert_equal(type(np.kron(a, a)), np.ndarray)
assert_equal(type(np.kron(m, m)), np.matrix)
assert_equal(type(np.kron(a, m)), np.matrix)
assert_equal(type(np.kron(m, a)), np.matrix)
class TestConcatenatorMatrix(object):
# 2018-04-29: moved here from core.tests.test_index_tricks.
def test_matrix(self):
a = [1, 2]
b = [3, 4]
ab_r = np.r_['r', a, b]
ab_c = np.r_['c', a, b]
assert_equal(type(ab_r), np.matrix)
assert_equal(type(ab_c), np.matrix)
assert_equal(np.array(ab_r), [[1, 2, 3, 4]])
assert_equal(np.array(ab_c), [[1], [2], [3], [4]])
assert_raises(ValueError, lambda: np.r_['rc', a, b])
def test_matrix_scalar(self):
r = np.r_['r', [1, 2], 3]
assert_equal(type(r), np.matrix)
assert_equal(np.array(r), [[1, 2, 3]])
def test_matrix_builder(self):
a = np.array([1])
b = np.array([2])
c = np.array([3])
d = np.array([4])
actual = np.r_['a, b; c, d']
expected = np.bmat([[a, b], [c, d]])
assert_equal(actual, expected)
assert_equal(type(actual), type(expected))
def test_array_equal_error_message_matrix():
# 2018-04-29: moved here from testing.tests.test_utils.
try:
assert_equal(np.array([1, 2]), np.matrix([1, 2]))
except AssertionError as e:
msg = str(e)
msg2 = msg.replace("shapes (2L,), (1L, 2L)", "shapes (2,), (1, 2)")
msg_reference = textwrap.dedent("""\
Arrays are not equal
(shapes (2,), (1, 2) mismatch)
x: array([1, 2])
y: matrix([[1, 2]])""")
try:
assert_equal(msg, msg_reference)
except AssertionError:
assert_equal(msg2, msg_reference)
else:
raise AssertionError("Did not raise")
def test_array_almost_equal_matrix():
# Matrix slicing keeps things 2-D, while array does not necessarily.
# See gh-8452.
# 2018-04-29: moved here from testing.tests.test_utils.
m1 = np.matrix([[1., 2.]])
m2 = np.matrix([[1., np.nan]])
m3 = np.matrix([[1., -np.inf]])
m4 = np.matrix([[np.nan, np.inf]])
m5 = np.matrix([[1., 2.], [np.nan, np.inf]])
for assert_func in assert_array_almost_equal, assert_almost_equal:
for m in m1, m2, m3, m4, m5:
assert_func(m, m)
a = np.array(m)
assert_func(a, m)
assert_func(m, a)