test_is_pos_def() - Code Metrics - Inspection of "More work on unit tests and docstrings." - wmkouw/libTLDA - Measure and Improve Code Quality continuously with Scrutinizer

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by Wouter

created 2018-06-15 19:16 UTC

test_is_pos_def() A

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Complexity

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Duplication

Lines	0
Ratio	0 %

Code Coverage

Tests	5
CRAP Score	3

Importance

Changes	1
Bugs	0	Features	0

Metric	Value
cc	3
dl	0
loc	11
ccs	5
cts	5
cp	1
crap	3
rs	9.4285
c	1
b	0
f	0

import numpy as np
import numpy.random as rnd
import pytest
from libtlda.util import is_pos_def, one_hot, regularize_matrix


def test_is_pos_def():
    """Check if function returns boolean positive-definiteness."""
    # Positive-definite matrix
    A = np.array([[1, 0], [0, 1]])

    # Not positive-definite matrix
    B = np.array([[-1, 0], [0, 1]])

    # Assert correct positive-definiteness
    assert is_pos_def(A)
    assert not is_pos_def(B)


def test_one_hot():
    """Check if one_hot returns correct label matrices."""
    # Generate label vector
    y = np.hstack((np.ones((10,))*0,
                   np.ones((10,))*1,
                   np.ones((10,))*2))

    # Map to matrix
    Y, labels = one_hot(y)

    # Check for only 0's and 1's
    assert len(np.setdiff1d(np.unique(Y), [0, 1])) == 0

    # Check for correct labels
    assert np.all(labels == np.unique(y))

    # Check correct shape of matrix
    assert Y.shape[0] == y.shape[0]
    assert Y.shape[1] == len(labels)


def test_regularize_matrix():
    """Test whether function regularizes matrix correctly."""
    # Generate test matrix
    A = rnd.randn(3)

    # Check for inappropriate input argument
    with pytest.raises(ValueError):
        regularize_matrix(A, a=-1.0)


1	1	import numpy as np
2	1	import numpy.random as rnd
3	1	import pytest
4	1	from libtlda.util import is_pos_def, one_hot, regularize_matrix
5
6
7	1	def test_is_pos_def():
8		"""Check if function returns boolean positive-definiteness."""
9		# Positive-definite matrix
10	1	A = np.array([[1, 0], [0, 1]])
11
12		# Not positive-definite matrix
13	1	B = np.array([[-1, 0], [0, 1]])
14
15		# Assert correct positive-definiteness
16	1	assert is_pos_def(A)
17	1	assert not is_pos_def(B)
18
19
20	1	def test_one_hot():
21		"""Check if one_hot returns correct label matrices."""
22		# Generate label vector
23	1	y = np.hstack((np.ones((10,))*0,
24		np.ones((10,))*1,
25		np.ones((10,))*2))
26
27		# Map to matrix
28	1	Y, labels = one_hot(y)
29
30		# Check for only 0's and 1's
31	1	assert len(np.setdiff1d(np.unique(Y), [0, 1])) == 0
32
33		# Check for correct labels
34	1	assert np.all(labels == np.unique(y))
35
36		# Check correct shape of matrix
37	1	assert Y.shape[0] == y.shape[0]
38	1	assert Y.shape[1] == len(labels)
39
40
41	1	def test_regularize_matrix():
42		"""Test whether function regularizes matrix correctly."""
43		# Generate test matrix
44	1	A = rnd.randn(3)
45
46		# Check for inappropriate input argument
47	1	with pytest.raises(ValueError):
48		regularize_matrix(A, a=-1.0)
49

wmkouw / libTLDA

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test_is_pos_def() A

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