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annotate tests/test_io.py @ 119:c768fa017e21

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Add tests for _extract_selected_channel
author Amine Sehili <amine.sehili@gmail.com>
date Sat, 02 Feb 2019 11:53:59 +0100
parents 1af0c6050073
children 9b117eb6ecfd
rev   line source
amine@106 1 import os
amine@106 2 import sys
amine@106 3 import math
amine@107 4 from array import array
amine@110 5 from tempfile import NamedTemporaryFile
amine@110 6 import filecmp
amine@108 7 from unittest import TestCase
amine@108 8 from genty import genty, genty_dataset
amine@110 9 from auditok.io import (
amine@110 10 DATA_FORMAT,
amine@110 11 AudioParameterError,
amine@110 12 check_audio_data,
amine@116 13 _array_to_bytes,
amine@118 14 _mix_audio_channels,
amine@119 15 _extract_selected_channel,
amine@111 16 _save_raw,
amine@110 17 _save_wave,
amine@110 18 )
amine@106 19
amine@106 20
amine@106 21 if sys.version_info >= (3, 0):
amine@106 22 PYTHON_3 = True
amine@106 23 else:
amine@106 24 PYTHON_3 = False
amine@106 25
amine@106 26
amine@106 27 def _sample_generator(*data_buffers):
amine@106 28 """
amine@106 29 Takes a list of many mono audio data buffers and makes a sample generator
amine@106 30 of interleaved audio samples, one sample from each channel. The resulting
amine@106 31 generator can be used to build a multichannel audio buffer.
amine@106 32 >>> gen = _sample_generator("abcd", "ABCD")
amine@106 33 >>> list(gen)
amine@106 34 ["a", "A", "b", "B", "c", "C", "d", "D"]
amine@106 35 """
amine@106 36 frame_gen = zip(*data_buffers)
amine@106 37 return (sample for frame in frame_gen for sample in frame)
amine@106 38
amine@106 39
amine@107 40 def _generate_pure_tone(
amine@107 41 frequency, duration_sec=1, sampling_rate=16000, sample_width=2, volume=1e4
amine@107 42 ):
amine@107 43 """
amine@107 44 Generates a pure tone with the given frequency.
amine@107 45 """
amine@107 46 assert frequency <= sampling_rate / 2
amine@107 47 max_value = (2 ** (sample_width * 8) // 2) - 1
amine@107 48 if volume > max_value:
amine@107 49 volume = max_value
amine@107 50 fmt = DATA_FORMAT[sample_width]
amine@107 51 total_samples = int(sampling_rate * duration_sec)
amine@107 52 step = frequency / sampling_rate
amine@107 53 two_pi_step = 2 * math.pi * step
amine@107 54 data = array(
amine@107 55 fmt,
amine@107 56 (
amine@107 57 int(math.sin(two_pi_step * i) * volume)
amine@107 58 for i in range(total_samples)
amine@107 59 ),
amine@107 60 )
amine@107 61 return data
amine@107 62
amine@107 63
amine@107 64 PURE_TONE_DICT = {
amine@107 65 freq: _generate_pure_tone(freq, 1, 16000, 2) for freq in (400, 800, 1600)
amine@107 66 }
amine@107 67 PURE_TONE_DICT.update(
amine@107 68 {
amine@107 69 freq: _generate_pure_tone(freq, 0.1, 16000, 2)
amine@107 70 for freq in (600, 1150, 2400, 7220)
amine@107 71 }
amine@107 72 )
amine@108 73
amine@108 74
amine@108 75 @genty
amine@108 76 class TestIO(TestCase):
amine@108 77 @genty_dataset(
amine@108 78 valid_mono=(b"\0" * 113, 1, 1),
amine@108 79 valid_stereo=(b"\0" * 160, 1, 2),
amine@108 80 invalid_mono_sw_2=(b"\0" * 113, 2, 1, False),
amine@108 81 invalid_stereo_sw_1=(b"\0" * 113, 1, 2, False),
amine@108 82 invalid_stereo_sw_2=(b"\0" * 158, 2, 2, False),
amine@108 83 )
amine@108 84 def test_check_audio_data(self, data, sample_width, channels, valid=True):
amine@108 85
amine@108 86 if not valid:
amine@108 87 with self.assertRaises(AudioParameterError):
amine@108 88 check_audio_data(data, sample_width, channels)
amine@108 89 else:
amine@108 90 self.assertIsNone(check_audio_data(data, sample_width, channels))
amine@110 91
amine@110 92 @genty_dataset(
amine@118 93 mono_1byte=([400], 1),
amine@118 94 stereo_1byte=([400, 600], 1),
amine@118 95 three_channel_1byte=([400, 600, 2400], 1),
amine@118 96 mono_2byte=([400], 2),
amine@118 97 stereo_2byte=([400, 600], 2),
amine@118 98 three_channel_2byte=([400, 600, 1150], 2),
amine@118 99 mono_4byte=([400], 4),
amine@118 100 stereo_4byte=([400, 600], 4),
amine@118 101 four_channel_2byte=([400, 600, 1150, 7220], 4),
amine@118 102 )
amine@118 103 def test_mix_audio_channels(self, frequencies, sample_width):
amine@118 104 sampling_rate = 16000
amine@118 105 sample_width = 2
amine@118 106 channels = len(frequencies)
amine@118 107 mono_channels = [
amine@118 108 _generate_pure_tone(
amine@118 109 freq,
amine@118 110 duration_sec=0.1,
amine@118 111 sampling_rate=sampling_rate,
amine@118 112 sample_width=sample_width,
amine@118 113 )
amine@118 114 for freq in frequencies
amine@118 115 ]
amine@118 116 fmt = DATA_FORMAT[sample_width]
amine@118 117 expected = _array_to_bytes(
amine@118 118 array(
amine@118 119 fmt,
amine@118 120 (sum(samples) // channels for samples in zip(*mono_channels)),
amine@118 121 )
amine@118 122 )
amine@118 123 data = _array_to_bytes(array(fmt, _sample_generator(*mono_channels)))
amine@118 124 mixed = _mix_audio_channels(data, channels, sample_width)
amine@118 125 self.assertEqual(mixed, expected)
amine@118 126
amine@118 127 @genty_dataset(
amine@119 128 mono_1byte=([400], 1, 0),
amine@119 129 stereo_1byte_2st_channel=([400, 600], 1, 1),
amine@119 130 mono_2byte=([400], 2, 0),
amine@119 131 stereo_2byte_1st_channel=([400, 600], 2, 0),
amine@119 132 stereo_2byte_2nd_channel=([400, 600], 2, 1),
amine@119 133 three_channel_2byte_last_negative_idx=([400, 600, 1150], 2, -1),
amine@119 134 three_channel_2byte_2nd_negative_idx=([400, 600, 1150], 2, -2),
amine@119 135 three_channel_2byte_1st_negative_idx=([400, 600, 1150], 2, -3),
amine@119 136 three_channel_4byte_1st=([400, 600, 1150], 4, 0),
amine@119 137 three_channel_4byte_last_negative_idx=([400, 600, 1150], 4, -1),
amine@119 138 )
amine@119 139 def test_extract_selected_channel(
amine@119 140 self, frequencies, sample_width, use_channel
amine@119 141 ):
amine@119 142
amine@119 143 mono_channels = [
amine@119 144 _generate_pure_tone(
amine@119 145 freq,
amine@119 146 duration_sec=0.1,
amine@119 147 sampling_rate=16000,
amine@119 148 sample_width=sample_width,
amine@119 149 )
amine@119 150 for freq in frequencies
amine@119 151 ]
amine@119 152 channels = len(frequencies)
amine@119 153 fmt = DATA_FORMAT[sample_width]
amine@119 154 expected = _array_to_bytes(mono_channels[use_channel])
amine@119 155 data = _array_to_bytes(array(fmt, _sample_generator(*mono_channels)))
amine@119 156 selected_channel = _extract_selected_channel(
amine@119 157 data, channels, sample_width, use_channel
amine@119 158 )
amine@119 159 self.assertEqual(selected_channel, expected)
amine@119 160
amine@119 161 @genty_dataset(
amine@111 162 mono=("mono_400Hz.raw", (400,)),
amine@111 163 three_channel=("3channel_400-800-1600Hz.raw", (400, 800, 1600)),
amine@111 164 )
amine@111 165 def test_save_raw(self, filename, frequencies):
amine@111 166 filename = "tests/data/test_16KHZ_{}".format(filename)
amine@111 167 sample_width = 2
amine@111 168 fmt = DATA_FORMAT[sample_width]
amine@111 169 mono_channels = [PURE_TONE_DICT[freq] for freq in frequencies]
amine@111 170 data = _array_to_bytes(array(fmt, _sample_generator(*mono_channels)))
amine@111 171 tmpfile = NamedTemporaryFile()
amine@111 172 _save_raw(tmpfile.name, data)
amine@111 173 self.assertTrue(filecmp.cmp(tmpfile.name, filename, shallow=False))
amine@111 174
amine@111 175 @genty_dataset(
amine@110 176 mono=("mono_400Hz.wav", (400,)),
amine@110 177 three_channel=("3channel_400-800-1600Hz.wav", (400, 800, 1600)),
amine@110 178 )
amine@110 179 def test_save_wave(self, filename, frequencies):
amine@110 180 filename = "tests/data/test_16KHZ_{}".format(filename)
amine@110 181 sampling_rate = 16000
amine@110 182 sample_width = 2
amine@110 183 channels = len(frequencies)
amine@110 184 fmt = DATA_FORMAT[sample_width]
amine@110 185 mono_channels = [PURE_TONE_DICT[freq] for freq in frequencies]
amine@110 186 data = _array_to_bytes(array(fmt, _sample_generator(*mono_channels)))
amine@110 187 tmpfile = NamedTemporaryFile()
amine@110 188 _save_wave(tmpfile.name, data, sampling_rate, sample_width, channels)
amine@110 189 self.assertTrue(filecmp.cmp(tmpfile.name, filename, shallow=False))