Mercurial > hg > auditok

annotate tests/test_signal.py @ 331:9741b52f194a

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Reformat code and documentation
author Amine Sehili <amine.sehili@gmail.com>
date Thu, 24 Oct 2019 20:49:51 +0200
parents 5f1859160fd7
children 379e36e4fe88
rev   line source
amine@315 1 import unittest
amine@257 2 from unittest import TestCase
amine@257 3 from array import array as array_
amine@257 4 from genty import genty, genty_dataset
amine@257 5 import numpy as np
amine@257 6 from auditok import signal as signal_
amine@257 7 from auditok import signal_numpy
amine@257 8
amine@257 9
amine@257 10 @genty
amine@257 11 class TestSignal(TestCase):
amine@257 12 def setUp(self):
amine@257 13 self.data = b"012345679ABC"
amine@257 14 self.numpy_fmt = {"b": np.int8, "h": np.int16, "i": np.int32}
amine@257 15
amine@257 16 @genty_dataset(
amine@315 17 int8_mono=(1, [48, 49, 50, 51, 52, 53, 54, 55, 57, 65, 66, 67]),
amine@315 18 int16_mono=(2, [12592, 13106, 13620, 14134, 16697, 17218]),
amine@315 19 int32_mono=(4, [858927408, 926299444, 1128415545]),
amine@331 20 int8_stereo=(1, [[48, 50, 52, 54, 57, 66], [49, 51, 53, 55, 65, 67]]),
amine@315 21 int16_stereo=(2, [[12592, 13620, 16697], [13106, 14134, 17218]]),
amine@315 22 int32_3channel=(4, [[858927408], [926299444], [1128415545]]),
amine@257 23 )
amine@315 24 def test_to_array(self, sample_width, expected):
amine@315 25 if isinstance(expected[0], list):
amine@315 26 channels = len(expected)
amine@331 27 expected = [
amine@331 28 array_(signal_.FORMAT[sample_width], xi) for xi in expected
amine@331 29 ]
amine@315 30 else:
amine@315 31 channels = 1
amine@315 32 expected = array_(signal_.FORMAT[sample_width], expected)
amine@315 33 resutl = signal_.to_array(self.data, sample_width, channels)
amine@315 34 resutl_numpy = signal_numpy.to_array(self.data, sample_width, channels)
amine@257 35 self.assertEqual(resutl, expected)
amine@315 36 self.assertTrue((resutl_numpy == np.asarray(expected)).all())
amine@257 37 self.assertEqual(resutl_numpy.dtype, np.float64)
amine@257 38
amine@257 39 @genty_dataset(
amine@257 40 int8_1channel_select_0=(
amine@257 41 "b",
amine@257 42 1,
amine@257 43 0,
amine@257 44 [48, 49, 50, 51, 52, 53, 54, 55, 57, 65, 66, 67],
amine@257 45 ),
amine@257 46 int8_2channel_select_0=("b", 2, 0, [48, 50, 52, 54, 57, 66]),
amine@257 47 int8_3channel_select_0=("b", 3, 0, [48, 51, 54, 65]),
amine@257 48 int8_3channel_select_1=("b", 3, 1, [49, 52, 55, 66]),
amine@257 49 int8_3channel_select_2=("b", 3, 2, [50, 53, 57, 67]),
amine@257 50 int8_4channel_select_0=("b", 4, 0, [48, 52, 57]),
amine@257 51 int16_1channel_select_0=(
amine@257 52 "h",
amine@257 53 1,
amine@257 54 0,
amine@257 55 [12592, 13106, 13620, 14134, 16697, 17218],
amine@257 56 ),
amine@257 57 int16_2channel_select_0=("h", 2, 0, [12592, 13620, 16697]),
amine@257 58 int16_2channel_select_1=("h", 2, 1, [13106, 14134, 17218]),
amine@257 59 int16_3channel_select_0=("h", 3, 0, [12592, 14134]),
amine@257 60 int16_3channel_select_1=("h", 3, 1, [13106, 16697]),
amine@257 61 int16_3channel_select_2=("h", 3, 2, [13620, 17218]),
amine@257 62 int32_1channel_select_0=(
amine@257 63 "i",
amine@257 64 1,
amine@257 65 0,
amine@257 66 [858927408, 926299444, 1128415545],
amine@257 67 ),
amine@257 68 int32_3channel_select_0=("i", 3, 0, [858927408]),
amine@257 69 int32_3channel_select_1=("i", 3, 1, [926299444]),
amine@257 70 int32_3channel_select_2=("i", 3, 2, [1128415545]),
amine@257 71 )
amine@257 72 def test_extract_single_channel(self, fmt, channels, selected, expected):
amine@257 73 resutl = signal_.extract_single_channel(
amine@257 74 self.data, fmt, channels, selected
amine@257 75 )
amine@257 76 expected = array_(fmt, expected)
amine@315 77 expected_numpy_fmt = self.numpy_fmt[fmt]
amine@257 78 self.assertEqual(resutl, expected)
amine@257 79 resutl_numpy = signal_numpy.extract_single_channel(
amine@257 80 self.data, self.numpy_fmt[fmt], channels, selected
amine@257 81 )
amine@257 82 self.assertTrue(all(resutl_numpy == expected))
amine@315 83 self.assertEqual(resutl_numpy.dtype, expected_numpy_fmt)
amine@257 84
amine@257 85 @genty_dataset(
amine@257 86 int8_2channel=("b", 2, [48, 50, 52, 54, 61, 66]),
amine@257 87 int8_4channel=("b", 4, [50, 54, 64]),
amine@257 88 int16_1channel=("h", 1, [12592, 13106, 13620, 14134, 16697, 17218]),
amine@257 89 int16_2channel=("h", 2, [12849, 13877, 16958]),
amine@257 90 int32_3channel=("i", 3, [971214132]),
amine@257 91 )
amine@257 92 def test_average_channels(self, fmt, channels, expected):
amine@257 93 resutl = signal_.average_channels(self.data, fmt, channels)
amine@257 94 expected = array_(fmt, expected)
amine@315 95 expected_numpy_fmt = self.numpy_fmt[fmt]
amine@257 96 self.assertEqual(resutl, expected)
amine@257 97 resutl_numpy = signal_numpy.average_channels(
amine@257 98 self.data, self.numpy_fmt[fmt], channels
amine@257 99 )
amine@257 100 self.assertTrue(all(resutl_numpy == expected))
amine@315 101 self.assertEqual(resutl_numpy.dtype, expected_numpy_fmt)
amine@257 102
amine@257 103 @genty_dataset(
amine@257 104 int8_1channel=(
amine@257 105 "b",
amine@257 106 1,
amine@257 107 [[48, 49, 50, 51, 52, 53, 54, 55, 57, 65, 66, 67]],
amine@257 108 ),
amine@257 109 int8_2channel=(
amine@257 110 "b",
amine@257 111 2,
amine@257 112 [[48, 50, 52, 54, 57, 66], [49, 51, 53, 55, 65, 67]],
amine@257 113 ),
amine@257 114 int8_4channel=(
amine@257 115 "b",
amine@257 116 4,
amine@257 117 [[48, 52, 57], [49, 53, 65], [50, 54, 66], [51, 55, 67]],
amine@257 118 ),
amine@257 119 int16_2channel=(
amine@257 120 "h",
amine@257 121 2,
amine@257 122 [[12592, 13620, 16697], [13106, 14134, 17218]],
amine@257 123 ),
amine@257 124 int32_3channel=("i", 3, [[858927408], [926299444], [1128415545]]),
amine@257 125 )
amine@257 126 def test_separate_channels(self, fmt, channels, expected):
amine@257 127 resutl = signal_.separate_channels(self.data, fmt, channels)
amine@257 128 expected = [array_(fmt, exp) for exp in expected]
amine@315 129 expected_numpy_fmt = self.numpy_fmt[fmt]
amine@257 130 self.assertEqual(resutl, expected)
amine@257 131
amine@257 132 resutl_numpy = signal_numpy.separate_channels(
amine@257 133 self.data, self.numpy_fmt[fmt], channels
amine@257 134 )
amine@257 135 self.assertTrue((resutl_numpy == expected).all())
amine@315 136 self.assertEqual(resutl_numpy.dtype, expected_numpy_fmt)
amine@257 137
amine@257 138 @genty_dataset(
amine@315 139 simple=([300, 320, 400, 600], 2, 52.50624901923348),
amine@315 140 zero=([0], 2, -200),
amine@315 141 zeros=([0, 0, 0], 2, -200),
amine@257 142 )
amine@315 143 def test_calculate_energy_single_channel(self, x, sample_width, expected):
amine@315 144 x = array_(signal_.FORMAT[sample_width], x)
amine@315 145 energy = signal_.calculate_energy_single_channel(x, sample_width)
amine@257 146 self.assertEqual(energy, expected)
amine@315 147 energy = signal_numpy.calculate_energy_single_channel(x, sample_width)
amine@257 148 self.assertEqual(energy, expected)
amine@257 149
amine@257 150 @genty_dataset(
amine@257 151 min_=(
amine@257 152 [[300, 320, 400, 600], [150, 160, 200, 300]],
amine@315 153 2,
amine@257 154 min,
amine@315 155 46.485649105953854,
amine@257 156 ),
amine@257 157 max_=(
amine@257 158 [[300, 320, 400, 600], [150, 160, 200, 300]],
amine@315 159 2,
amine@257 160 max,
amine@315 161 52.50624901923348,
amine@257 162 ),
amine@257 163 )
amine@331 164 def test_calculate_energy_multichannel(
amine@331 165 self, x, sample_width, aggregation_fn, expected
amine@331 166 ):
amine@315 167 x = [array_(signal_.FORMAT[sample_width], xi) for xi in x]
amine@331 168 energy = signal_.calculate_energy_multichannel(
amine@331 169 x, sample_width, aggregation_fn
amine@331 170 )
amine@257 171 self.assertEqual(energy, expected)
amine@257 172
amine@331 173 energy = signal_numpy.calculate_energy_multichannel(
amine@331 174 x, sample_width, aggregation_fn
amine@331 175 )
amine@257 176 self.assertEqual(energy, expected)
amine@315 177
amine@331 178
amine@315 179 if __name__ == "__main__":
amine@331 180 unittest.main()