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amine@192
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1 import os
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amine@221
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2 import math
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amine@88
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3 from random import random
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amine@192
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4 from tempfile import TemporaryDirectory
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amine@221
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5 from unittest import TestCase
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amine@86
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6 from genty import genty, genty_dataset
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amine@207
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7 from auditok import split, AudioRegion, AudioParameterError
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amine@215
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8 from auditok.core import _duration_to_nb_windows
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amine@212
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9 from auditok.util import AudioDataSource
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amine@210
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10 from auditok.io import (
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amine@210
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11 _normalize_use_channel,
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amine@210
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12 _extract_selected_channel,
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amine@210
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13 get_audio_source,
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amine@210
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14 )
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amine@86
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15
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amine@86
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16
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amine@88
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17 def _make_random_length_regions(
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amine@88
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18 byte_seq, sampling_rate, sample_width, channels
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amine@88
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19 ):
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amine@88
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20 regions = []
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amine@88
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21 for b in byte_seq:
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amine@88
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22 duration = round(random() * 10, 6)
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amine@95
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23 data = b * int(duration * sampling_rate) * sample_width * channels
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amine@88
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24 start = round(random() * 13, 3)
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amine@88
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25 region = AudioRegion(
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amine@88
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26 data, start, sampling_rate, sample_width, channels
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amine@88
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27 )
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amine@88
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28 regions.append(region)
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amine@88
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29 return regions
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amine@88
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30
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amine@88
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31
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amine@86
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32 @genty
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amine@215
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33 class TestFunctions(TestCase):
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amine@215
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34 @genty_dataset(
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amine@221
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35 zero_duration=(0, 1, None, 0),
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amine@221
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36 multiple=(0.3, 0.1, round, 3),
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amine@221
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37 not_multiple_ceil=(0.35, 0.1, math.ceil, 4),
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amine@221
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38 not_multiple_floor=(0.35, 0.1, math.floor, 3),
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amine@221
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39 small_duration=(0.05, 0.1, round, 0),
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amine@221
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40 small_duration_ceil=(0.05, 0.1, math.ceil, 1),
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amine@221
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41 negative_duration=(-0.5, 0.1, math.ceil, ValueError),
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amine@221
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42 negative_analysis_window=(0.5, -0.1, math.ceil, ValueError),
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amine@215
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43 )
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amine@221
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44 def test_duration_to_nb_windows(
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amine@221
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45 self, duration, analysis_window, round_fn, expected
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amine@221
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46 ):
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amine@221
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47 if expected == ValueError:
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amine@215
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48 with self.assertRaises(expected):
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amine@221
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49 _duration_to_nb_windows(duration, analysis_window, round_fn)
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amine@215
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50 else:
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amine@221
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51 result = _duration_to_nb_windows(
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amine@221
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52 duration, analysis_window, round_fn
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amine@221
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53 )
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amine@215
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54 self.assertEqual(result, expected)
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amine@215
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55
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amine@215
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56
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amine@215
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57 @genty
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amine@207
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58 class TestSplit(TestCase):
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amine@207
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59 @genty_dataset(
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amine@207
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60 simple=(
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amine@207
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61 0.2,
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amine@207
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62 5,
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amine@207
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63 0.2,
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amine@207
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64 False,
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amine@207
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65 False,
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amine@207
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66 {"eth": 50},
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amine@207
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67 [(2, 16), (17, 31), (34, 76)],
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amine@207
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68 ),
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amine@214
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69 short_max_dur=(
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amine@214
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70 0.3,
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amine@214
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71 2,
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amine@214
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72 0.2,
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amine@214
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73 False,
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amine@214
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74 False,
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amine@214
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75 {"eth": 50},
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amine@214
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76 [(2, 16), (17, 31), (34, 54), (54, 74), (74, 76)],
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amine@214
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77 ),
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amine@214
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78 long_min_dur=(3, 5, 0.2, False, False, {"eth": 50}, [(34, 76)]),
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amine@214
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79 long_max_silence=(0.2, 80, 10, False, False, {"eth": 50}, [(2, 76)]),
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amine@214
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80 zero_max_silence=(
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amine@214
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81 0.2,
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amine@214
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82 5,
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amine@214
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83 0.0,
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amine@214
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84 False,
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amine@214
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85 False,
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amine@214
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86 {"eth": 50},
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amine@214
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87 [(2, 14), (17, 24), (26, 29), (34, 76)],
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amine@214
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88 ),
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amine@207
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89 low_energy_threshold=(
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amine@207
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90 0.2,
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amine@207
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91 5,
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amine@207
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92 0.2,
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amine@207
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93 False,
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amine@207
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94 False,
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amine@207
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95 {"energy_threshold": 40},
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amine@207
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96 [(0, 50), (50, 76)],
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amine@207
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97 ),
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amine@207
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98 high_energy_threshold=(
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amine@207
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99 0.2,
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amine@207
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100 5,
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amine@207
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101 0.2,
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amine@207
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102 False,
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amine@207
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103 False,
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amine@207
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104 {"energy_threshold": 60},
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amine@207
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105 [],
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amine@207
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106 ),
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amine@207
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107 trim_leading_and_trailing_silence=(
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amine@207
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108 0.2,
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amine@207
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109 10, # use long max_dur
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amine@207
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110 0.5, # and a max_silence longer than any inter-region silence
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amine@207
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111 True,
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amine@207
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112 False,
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amine@207
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113 {"eth": 50},
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amine@207
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114 [(2, 76)],
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amine@207
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115 ),
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amine@207
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116 drop_trailing_silence=(
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amine@207
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117 0.2,
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amine@207
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118 5,
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amine@207
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119 0.2,
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amine@207
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120 True,
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amine@207
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121 False,
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amine@207
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122 {"eth": 50},
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amine@207
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123 [(2, 14), (17, 29), (34, 76)],
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amine@207
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124 ),
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amine@207
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125 drop_trailing_silence_2=(
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amine@207
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126 1.5,
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amine@207
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127 5,
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amine@207
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128 0.2,
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amine@207
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129 True,
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amine@207
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130 False,
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amine@207
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131 {"eth": 50},
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amine@207
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132 [(34, 76)],
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amine@207
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133 ),
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amine@207
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134 strict_min_dur=(
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amine@207
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135 0.3,
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amine@207
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136 2,
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amine@207
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137 0.2,
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amine@207
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138 False,
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amine@207
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139 True,
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amine@207
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140 {"eth": 50},
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amine@207
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141 [(2, 16), (17, 31), (34, 54), (54, 74)],
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amine@207
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142 ),
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amine@207
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143 )
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amine@207
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144 def test_split_params(
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amine@207
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145 self,
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amine@207
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146 min_dur,
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amine@207
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147 max_dur,
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amine@207
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148 max_silence,
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amine@207
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149 drop_trailing_silence,
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amine@207
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150 strict_min_dur,
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amine@207
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151 kwargs,
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amine@207
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152 expected,
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amine@207
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153 ):
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amine@207
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154 with open("tests/data/test_split_10HZ_mono.raw", "rb") as fp:
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amine@207
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155 data = fp.read()
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amine@207
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156
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amine@207
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157 regions = split(
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amine@207
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158 data,
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amine@207
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159 min_dur,
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amine@207
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160 max_dur,
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amine@207
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161 max_silence,
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amine@207
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162 drop_trailing_silence,
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amine@207
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163 strict_min_dur,
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amine@207
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164 analysis_window=0.1,
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amine@207
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165 sr=10,
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amine@207
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166 sw=2,
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amine@207
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167 ch=1,
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amine@207
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168 **kwargs
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amine@207
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169 )
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amine@207
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170 regions = list(regions)
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amine@207
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171 err_msg = "Wrong number of regions after split, expected: "
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amine@210
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172 err_msg += "{}, found: {}".format(len(expected), len(regions))
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amine@207
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173 self.assertEqual(len(regions), len(expected), err_msg)
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amine@207
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174
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amine@207
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175 sample_width = 2
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amine@207
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176 for reg, exp in zip(regions, expected):
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amine@207
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177 onset, offset = exp
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amine@207
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178 exp_data = data[onset * sample_width : offset * sample_width]
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amine@207
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179 self.assertEqual(bytes(reg), exp_data)
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amine@207
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180
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amine@211
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181 @genty_dataset(
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amine@211
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182 stereo_all_default=(2, {}, [(2, 16), (17, 31), (34, 76)]),
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amine@213
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183 mono_max_read=(1, {"max_read": 5}, [(2, 16), (17, 31), (34, 50)]),
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amine@213
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184 mono_max_read_short_name=(1, {"mr": 5}, [(2, 16), (17, 31), (34, 50)]),
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amine@211
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185 mono_use_channel_1=(
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amine@211
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186 1,
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amine@211
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187 {"eth": 50, "use_channel": 1},
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amine@211
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188 [(2, 16), (17, 31), (34, 76)],
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amine@211
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189 ),
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amine@211
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190 mono_uc_1=(1, {"eth": 50, "uc": 1}, [(2, 16), (17, 31), (34, 76)]),
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amine@211
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191 mono_use_channel_left=(
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amine@211
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192 1,
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amine@211
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193 {"eth": 50, "use_channel": "left"},
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amine@211
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194 [(2, 16), (17, 31), (34, 76)],
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amine@211
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195 ),
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amine@211
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196 mono_uc_left=(
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amine@211
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197 1,
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amine@211
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198 {"eth": 50, "uc": "left"},
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amine@211
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199 [(2, 16), (17, 31), (34, 76)],
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amine@211
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200 ),
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amine@211
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201 mono_use_channel_None=(
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amine@211
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202 1,
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amine@211
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203 {"eth": 50, "use_channel": None},
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amine@211
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204 [(2, 16), (17, 31), (34, 76)],
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amine@211
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205 ),
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amine@211
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206 stereo_use_channel_1=(
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amine@211
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207 2,
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amine@211
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208 {"eth": 50, "use_channel": 1},
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amine@211
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209 [(2, 16), (17, 31), (34, 76)],
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amine@211
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210 ),
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amine@211
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211 stereo_use_channel_left=(
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amine@211
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212 2,
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amine@211
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213 {"eth": 50, "use_channel": "left"},
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amine@211
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214 [(2, 16), (17, 31), (34, 76)],
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amine@211
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215 ),
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amine@211
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216 stereo_use_channel_no_use_channel_given=(
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amine@211
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217 2,
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amine@211
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218 {"eth": 50},
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amine@211
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219 [(2, 16), (17, 31), (34, 76)],
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amine@211
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220 ),
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amine@211
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221 stereo_use_channel_minus_2=(
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amine@211
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222 2,
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amine@211
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223 {"eth": 50, "use_channel": -2},
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amine@211
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224 [(2, 16), (17, 31), (34, 76)],
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amine@211
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225 ),
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amine@211
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226 stereo_uc_2=(2, {"eth": 50, "uc": 2}, [(10, 32), (36, 76)]),
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amine@211
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227 stereo_use_channel_right=(
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amine@211
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228 2,
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amine@211
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229 {"eth": 50, "use_channel": "right"},
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amine@211
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230 [(10, 32), (36, 76)],
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amine@211
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231 ),
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amine@211
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232 stereo_uc_minus_1=(2, {"eth": 50, "uc": -1}, [(10, 32), (36, 76)]),
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amine@213
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233 mono_uc_mix=(
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amine@213
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234 1,
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amine@213
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235 {"eth": 50, "uc": "mix"},
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amine@213
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236 [(2, 16), (17, 31), (34, 76)],
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amine@213
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237 ),
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amine@213
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238 stereo_use_channel_mix=(
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amine@213
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239 2,
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amine@213
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240 {"energy_threshold": 53.5, "use_channel": "mix"},
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amine@213
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241 [(54, 76)],
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amine@213
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242 ),
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amine@213
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243 stereo_uc_mix=(2, {"eth": 52, "uc": "mix"}, [(17, 26), (54, 76)]),
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amine@213
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244 stereo_uc_mix_default_eth=(
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amine@213
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245 2,
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amine@213
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246 {"uc": "mix"},
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amine@213
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247 [(10, 16), (17, 31), (36, 76)],
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amine@213
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248 ),
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amine@211
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249 )
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amine@211
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250 def test_split_kwargs(self, channels, kwargs, expected):
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amine@211
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251
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amine@211
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252 mono_or_stereo = "mono" if channels == 1 else "stereo"
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amine@211
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253 filename = "tests/data/test_split_10HZ_{}.raw".format(mono_or_stereo)
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amine@211
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254 with open(filename, "rb") as fp:
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amine@211
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255 data = fp.read()
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amine@211
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256
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amine@211
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257 regions = split(
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amine@211
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258 data,
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amine@211
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259 min_dur=0.2,
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amine@211
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260 max_dur=5,
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amine@211
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261 max_silence=0.2,
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amine@211
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262 drop_trailing_silence=False,
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amine@211
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263 strict_min_dur=False,
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amine@211
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264 analysis_window=0.1,
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amine@211
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265 sr=10,
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amine@211
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266 sw=2,
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amine@211
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267 ch=channels,
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amine@211
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268 **kwargs
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amine@211
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269 )
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amine@212
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270 regions = list(regions)
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amine@211
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271 sample_width = 2
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amine@211
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272 import numpy as np
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amine@211
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273
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amine@211
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274 use_channel = kwargs.get("use_channel", kwargs.get("uc"))
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amine@211
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275 # extrat channel of interest
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amine@211
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276 if channels != 1:
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amine@211
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277 use_channel = kwargs.get("use_channel", kwargs.get("uc"))
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amine@211
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278 use_channel = _normalize_use_channel(use_channel)
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amine@211
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279 data = _extract_selected_channel(
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amine@211
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280 data, channels, sample_width, use_channel=use_channel
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amine@211
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281 )
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amine@211
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282 err_msg = "Wrong number of regions after split, expected: "
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amine@211
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283 err_msg += "{}, found: {}".format(expected, regions)
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amine@211
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284 self.assertEqual(len(regions), len(expected), err_msg)
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amine@212
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285 for reg, exp in zip(regions, expected):
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amine@212
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286 onset, offset = exp
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amine@212
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287 exp_data = data[onset * sample_width : offset * sample_width]
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amine@212
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288 self.assertEqual(bytes(reg), exp_data)
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amine@211
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289
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amine@212
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290 @genty_dataset(
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amine@220
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291 mono_aw_0_2_max_silence_0_2=(
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amine@220
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292 0.2,
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amine@220
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293 5,
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amine@220
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294 0.2,
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amine@220
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295 1,
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amine@220
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296 {"uc": 1, "aw": 0.2},
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amine@220
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297 [(2, 30), (34, 76)],
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amine@220
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298 ),
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amine@220
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299 mono_aw_0_2_max_silence_0_3=(
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amine@220
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300 0.2,
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amine@220
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301 5,
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amine@220
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302 0.3,
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amine@220
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303 1,
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amine@220
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304 {"uc": 1, "aw": 0.2},
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amine@220
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305 [(2, 32), (34, 76)],
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amine@220
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306 ),
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amine@220
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307 mono_aw_0_2_max_silence_0_4=(
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amine@220
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308 0.2,
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amine@220
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309 5,
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amine@220
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310 0.3,
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amine@220
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311 1,
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amine@220
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312 {"uc": 1, "aw": 0.2},
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amine@220
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313 [(2, 32), (34, 76)],
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amine@220
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314 ),
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amine@220
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315 mono_aw_0_2=(
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amine@220
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316 0.2,
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amine@220
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317 5,
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amine@220
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318 0.2,
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amine@220
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319 1,
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amine@220
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320 {"uc": 1, "aw": 0.2},
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amine@220
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321 [(2, 30), (34, 76)],
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amine@220
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322 ),
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amine@220
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323 stereo_uc_1_analysis_window_0_2=(
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amine@220
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324 0.2,
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amine@220
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325 5,
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amine@220
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326 0.2,
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amine@220
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327 2,
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amine@220
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328 {"uc": 1, "analysis_window": 0.2},
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amine@220
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329 [(2, 30), (34, 76)],
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amine@220
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330 ),
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amine@220
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331 )
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amine@220
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332 def test_split_analysis_window(
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amine@220
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333 self, min_dur, max_dur, max_silence, channels, kwargs, expected
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amine@220
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334 ):
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amine@220
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335
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amine@220
|
336 mono_or_stereo = "mono" if channels == 1 else "stereo"
|
|
amine@220
|
337 filename = "tests/data/test_split_10HZ_{}.raw".format(mono_or_stereo)
|
|
amine@220
|
338 with open(filename, "rb") as fp:
|
|
amine@220
|
339 data = fp.read()
|
|
amine@220
|
340
|
|
amine@220
|
341 regions = split(
|
|
amine@220
|
342 data,
|
|
amine@220
|
343 min_dur=min_dur,
|
|
amine@220
|
344 max_dur=max_dur,
|
|
amine@220
|
345 max_silence=max_silence,
|
|
amine@220
|
346 drop_trailing_silence=False,
|
|
amine@220
|
347 strict_min_dur=False,
|
|
amine@220
|
348 sr=10,
|
|
amine@220
|
349 sw=2,
|
|
amine@220
|
350 ch=channels,
|
|
amine@220
|
351 **kwargs
|
|
amine@220
|
352 )
|
|
amine@220
|
353 regions = list(regions)
|
|
amine@220
|
354 sample_width = 2
|
|
amine@220
|
355 import numpy as np
|
|
amine@220
|
356
|
|
amine@220
|
357 use_channel = kwargs.get("use_channel", kwargs.get("uc"))
|
|
amine@220
|
358 # extrat channel of interest
|
|
amine@220
|
359 if channels != 1:
|
|
amine@220
|
360 use_channel = kwargs.get("use_channel", kwargs.get("uc"))
|
|
amine@220
|
361 use_channel = _normalize_use_channel(use_channel)
|
|
amine@220
|
362 data = _extract_selected_channel(
|
|
amine@220
|
363 data, channels, sample_width, use_channel=use_channel
|
|
amine@220
|
364 )
|
|
amine@220
|
365 err_msg = "Wrong number of regions after split, expected: "
|
|
amine@220
|
366 err_msg += "{}, found: {}".format(expected, regions)
|
|
amine@220
|
367 self.assertEqual(len(regions), len(expected), err_msg)
|
|
amine@220
|
368 for reg, exp in zip(regions, expected):
|
|
amine@220
|
369 onset, offset = exp
|
|
amine@220
|
370 exp_data = data[onset * sample_width : offset * sample_width]
|
|
amine@220
|
371 self.assertEqual(bytes(reg), exp_data)
|
|
amine@220
|
372
|
|
amine@220
|
373 @genty_dataset(
|
|
amine@212
|
374 filename_audio_format=(
|
|
amine@212
|
375 "tests/data/test_split_10HZ_stereo.raw",
|
|
amine@212
|
376 {"audio_format": "raw", "sr": 10, "sw": 2, "ch": 2},
|
|
amine@212
|
377 ),
|
|
amine@212
|
378 filename_audio_format_short_name=(
|
|
amine@212
|
379 "tests/data/test_split_10HZ_stereo.raw",
|
|
amine@212
|
380 {"fmt": "raw", "sr": 10, "sw": 2, "ch": 2},
|
|
amine@212
|
381 ),
|
|
amine@212
|
382 filename_no_audio_format=(
|
|
amine@212
|
383 "tests/data/test_split_10HZ_stereo.raw",
|
|
amine@212
|
384 {"sr": 10, "sw": 2, "ch": 2},
|
|
amine@212
|
385 ),
|
|
amine@212
|
386 filename_no_long_audio_params=(
|
|
amine@212
|
387 "tests/data/test_split_10HZ_stereo.raw",
|
|
amine@212
|
388 {"sampling_rate": 10, "sample_width": 2, "channels": 2},
|
|
amine@212
|
389 ),
|
|
amine@212
|
390 bytes_=(
|
|
amine@212
|
391 open("tests/data/test_split_10HZ_stereo.raw", "rb").read(),
|
|
amine@212
|
392 {"sr": 10, "sw": 2, "ch": 2},
|
|
amine@212
|
393 ),
|
|
amine@212
|
394 audio_reader=(
|
|
amine@212
|
395 AudioDataSource(
|
|
amine@212
|
396 "tests/data/test_split_10HZ_stereo.raw",
|
|
amine@212
|
397 sr=10,
|
|
amine@212
|
398 sw=2,
|
|
amine@212
|
399 ch=2,
|
|
amine@212
|
400 block_dur=0.1,
|
|
amine@212
|
401 ),
|
|
amine@212
|
402 {},
|
|
amine@212
|
403 ),
|
|
amine@212
|
404 audio_region=(
|
|
amine@212
|
405 AudioRegion(
|
|
amine@212
|
406 open("tests/data/test_split_10HZ_stereo.raw", "rb").read(),
|
|
amine@212
|
407 0,
|
|
amine@212
|
408 10,
|
|
amine@212
|
409 2,
|
|
amine@212
|
410 2,
|
|
amine@212
|
411 ),
|
|
amine@212
|
412 {},
|
|
amine@212
|
413 ),
|
|
amine@212
|
414 audio_source=(
|
|
amine@212
|
415 get_audio_source(
|
|
amine@212
|
416 "tests/data/test_split_10HZ_stereo.raw", sr=10, sw=2, ch=2
|
|
amine@212
|
417 ),
|
|
amine@212
|
418 {},
|
|
amine@212
|
419 ),
|
|
amine@212
|
420 )
|
|
amine@212
|
421 def test_split_input_type(self, input, kwargs):
|
|
amine@212
|
422
|
|
amine@212
|
423 with open("tests/data/test_split_10HZ_mono.raw", "rb") as fp:
|
|
amine@212
|
424 data = fp.read()
|
|
amine@212
|
425
|
|
amine@212
|
426 regions = split(
|
|
amine@212
|
427 input,
|
|
amine@212
|
428 min_dur=0.2,
|
|
amine@212
|
429 max_dur=5,
|
|
amine@212
|
430 max_silence=0.2,
|
|
amine@212
|
431 drop_trailing_silence=False,
|
|
amine@212
|
432 strict_min_dur=False,
|
|
amine@212
|
433 analysis_window=0.1,
|
|
amine@212
|
434 **kwargs
|
|
amine@212
|
435 )
|
|
amine@212
|
436 regions = list(regions)
|
|
amine@212
|
437 expected = [(2, 16), (17, 31), (34, 76)]
|
|
amine@212
|
438 sample_width = 2
|
|
amine@212
|
439 err_msg = "Wrong number of regions after split, expected: "
|
|
amine@212
|
440 err_msg += "{}, found: {}".format(expected, regions)
|
|
amine@212
|
441 self.assertEqual(len(regions), len(expected), err_msg)
|
|
amine@211
|
442 for reg, exp in zip(regions, expected):
|
|
amine@211
|
443 onset, offset = exp
|
|
amine@211
|
444 exp_data = data[onset * sample_width : offset * sample_width]
|
|
amine@211
|
445 self.assertEqual(bytes(reg), exp_data)
|
|
amine@211
|
446
|
|
amine@207
|
447
|
|
amine@207
|
448 @genty
|
|
amine@207
|
449 class TestAudioRegion(TestCase):
|
|
amine@86
|
450 @genty_dataset(
|
|
amine@86
|
451 simple=(b"\0" * 8000, 0, 8000, 1, 1, 1, 1, 1000),
|
|
amine@86
|
452 one_ms_less_than_1_sec=(
|
|
amine@86
|
453 b"\0" * 7992,
|
|
amine@86
|
454 0,
|
|
amine@86
|
455 8000,
|
|
amine@86
|
456 1,
|
|
amine@86
|
457 1,
|
|
amine@86
|
458 0.999,
|
|
amine@86
|
459 0.999,
|
|
amine@86
|
460 999,
|
|
amine@86
|
461 ),
|
|
amine@86
|
462 tree_quarter_ms_less_than_1_sec=(
|
|
amine@86
|
463 b"\0" * 7994,
|
|
amine@86
|
464 0,
|
|
amine@86
|
465 8000,
|
|
amine@86
|
466 1,
|
|
amine@86
|
467 1,
|
|
amine@86
|
468 0.99925,
|
|
amine@86
|
469 0.99925,
|
|
amine@86
|
470 999,
|
|
amine@86
|
471 ),
|
|
amine@86
|
472 half_ms_less_than_1_sec=(
|
|
amine@86
|
473 b"\0" * 7996,
|
|
amine@86
|
474 0,
|
|
amine@86
|
475 8000,
|
|
amine@86
|
476 1,
|
|
amine@86
|
477 1,
|
|
amine@86
|
478 0.9995,
|
|
amine@86
|
479 0.9995,
|
|
amine@86
|
480 1000,
|
|
amine@86
|
481 ),
|
|
amine@86
|
482 quarter_ms_less_than_1_sec=(
|
|
amine@86
|
483 b"\0" * 7998,
|
|
amine@86
|
484 0,
|
|
amine@86
|
485 8000,
|
|
amine@86
|
486 1,
|
|
amine@86
|
487 1,
|
|
amine@86
|
488 0.99975,
|
|
amine@86
|
489 0.99975,
|
|
amine@86
|
490 1000,
|
|
amine@86
|
491 ),
|
|
amine@86
|
492 simple_sample_width_2=(b"\0" * 8000 * 2, 0, 8000, 2, 1, 1, 1, 1000),
|
|
amine@86
|
493 simple_stereo=(b"\0" * 8000 * 2, 0, 8000, 1, 2, 1, 1, 1000),
|
|
amine@86
|
494 simple_multichannel=(b"\0" * 8000 * 5, 0, 8000, 1, 5, 1, 1, 1000),
|
|
amine@86
|
495 simple_sample_width_2_multichannel=(
|
|
amine@86
|
496 b"\0" * 8000 * 2 * 5,
|
|
amine@86
|
497 0,
|
|
amine@86
|
498 8000,
|
|
amine@86
|
499 2,
|
|
amine@86
|
500 5,
|
|
amine@86
|
501 1,
|
|
amine@86
|
502 1,
|
|
amine@86
|
503 1000,
|
|
amine@86
|
504 ),
|
|
amine@86
|
505 one_ms_less_than_1s_sw_2_multichannel=(
|
|
amine@86
|
506 b"\0" * 7992 * 2 * 5,
|
|
amine@86
|
507 0,
|
|
amine@86
|
508 8000,
|
|
amine@86
|
509 2,
|
|
amine@86
|
510 5,
|
|
amine@86
|
511 0.999,
|
|
amine@86
|
512 0.999,
|
|
amine@86
|
513 999,
|
|
amine@86
|
514 ),
|
|
amine@86
|
515 tree_qrt_ms_lt_1_s_sw_2_multichannel=(
|
|
amine@86
|
516 b"\0" * 7994 * 2 * 5,
|
|
amine@86
|
517 0,
|
|
amine@86
|
518 8000,
|
|
amine@86
|
519 2,
|
|
amine@86
|
520 5,
|
|
amine@86
|
521 0.99925,
|
|
amine@86
|
522 0.99925,
|
|
amine@86
|
523 999,
|
|
amine@86
|
524 ),
|
|
amine@86
|
525 half_ms_lt_1s_sw_2_multichannel=(
|
|
amine@86
|
526 b"\0" * 7996 * 2 * 5,
|
|
amine@86
|
527 0,
|
|
amine@86
|
528 8000,
|
|
amine@86
|
529 2,
|
|
amine@86
|
530 5,
|
|
amine@86
|
531 0.9995,
|
|
amine@86
|
532 0.9995,
|
|
amine@86
|
533 1000,
|
|
amine@86
|
534 ),
|
|
amine@86
|
535 quarter_ms_lt_1s_sw_2_multichannel=(
|
|
amine@86
|
536 b"\0" * 7998 * 2 * 5,
|
|
amine@86
|
537 0,
|
|
amine@86
|
538 8000,
|
|
amine@86
|
539 2,
|
|
amine@86
|
540 5,
|
|
amine@86
|
541 0.99975,
|
|
amine@86
|
542 0.99975,
|
|
amine@86
|
543 1000,
|
|
amine@86
|
544 ),
|
|
amine@86
|
545 arbitrary_length_1=(
|
|
amine@86
|
546 b"\0" * int(8000 * 1.33),
|
|
amine@86
|
547 2.7,
|
|
amine@86
|
548 8000,
|
|
amine@86
|
549 1,
|
|
amine@86
|
550 1,
|
|
amine@86
|
551 4.03,
|
|
amine@86
|
552 1.33,
|
|
amine@86
|
553 1330,
|
|
amine@86
|
554 ),
|
|
amine@86
|
555 arbitrary_length_2=(
|
|
amine@86
|
556 b"\0" * int(8000 * 0.476),
|
|
amine@86
|
557 11.568,
|
|
amine@86
|
558 8000,
|
|
amine@86
|
559 1,
|
|
amine@86
|
560 1,
|
|
amine@86
|
561 12.044,
|
|
amine@86
|
562 0.476,
|
|
amine@86
|
563 476,
|
|
amine@86
|
564 ),
|
|
amine@86
|
565 arbitrary_length_sw_2_multichannel=(
|
|
amine@86
|
566 b"\0" * int(8000 * 1.711) * 2 * 3,
|
|
amine@86
|
567 9.415,
|
|
amine@86
|
568 8000,
|
|
amine@86
|
569 2,
|
|
amine@86
|
570 3,
|
|
amine@86
|
571 11.126,
|
|
amine@86
|
572 1.711,
|
|
amine@86
|
573 1711,
|
|
amine@86
|
574 ),
|
|
amine@86
|
575 arbitrary_samplig_rate=(
|
|
amine@86
|
576 b"\0" * int(3172 * 1.318),
|
|
amine@86
|
577 17.236,
|
|
amine@86
|
578 3172,
|
|
amine@86
|
579 1,
|
|
amine@86
|
580 1,
|
|
amine@86
|
581 17.236 + int(3172 * 1.318) / 3172,
|
|
amine@86
|
582 int(3172 * 1.318) / 3172,
|
|
amine@86
|
583 1318,
|
|
amine@86
|
584 ),
|
|
amine@86
|
585 arbitrary_sr_sw_2_multichannel=(
|
|
amine@86
|
586 b"\0" * int(11317 * 0.716) * 2 * 3,
|
|
amine@86
|
587 18.811,
|
|
amine@86
|
588 11317,
|
|
amine@86
|
589 2,
|
|
amine@86
|
590 3,
|
|
amine@86
|
591 18.811 + int(11317 * 0.716) / 11317,
|
|
amine@86
|
592 int(11317 * 0.716) / 11317,
|
|
amine@86
|
593 716,
|
|
amine@86
|
594 ),
|
|
amine@86
|
595 )
|
|
amine@86
|
596 def test_creation(
|
|
amine@86
|
597 self,
|
|
amine@86
|
598 data,
|
|
amine@86
|
599 start,
|
|
amine@86
|
600 sampling_rate,
|
|
amine@86
|
601 sample_width,
|
|
amine@86
|
602 channels,
|
|
amine@86
|
603 expected_end,
|
|
amine@86
|
604 expected_duration_s,
|
|
amine@86
|
605 expected_duration_ms,
|
|
amine@86
|
606 ):
|
|
amine@86
|
607 region = AudioRegion(
|
|
amine@86
|
608 data, start, sampling_rate, sample_width, channels
|
|
amine@86
|
609 )
|
|
amine@86
|
610 self.assertEqual(region.sampling_rate, sampling_rate)
|
|
amine@86
|
611 self.assertEqual(region.sr, sampling_rate)
|
|
amine@86
|
612 self.assertEqual(region.sample_width, sample_width)
|
|
amine@86
|
613 self.assertEqual(region.sw, sample_width)
|
|
amine@86
|
614 self.assertEqual(region.channels, channels)
|
|
amine@86
|
615 self.assertEqual(region.ch, channels)
|
|
amine@86
|
616 self.assertEqual(region.start, start)
|
|
amine@86
|
617 self.assertEqual(region.end, expected_end)
|
|
amine@86
|
618 self.assertEqual(region.duration, expected_duration_s)
|
|
amine@86
|
619 self.assertEqual(len(region), expected_duration_ms)
|
|
amine@86
|
620 self.assertEqual(bytes(region), data)
|
|
amine@88
|
621
|
|
amine@97
|
622 def test_creation_invalid_data_exception(self):
|
|
amine@97
|
623 with self.assertRaises(AudioParameterError) as audio_param_err:
|
|
amine@97
|
624 _ = AudioRegion(
|
|
amine@97
|
625 data=b"ABCDEFGHI",
|
|
amine@97
|
626 start=0,
|
|
amine@97
|
627 sampling_rate=8,
|
|
amine@97
|
628 sample_width=2,
|
|
amine@97
|
629 channels=1,
|
|
amine@97
|
630 )
|
|
amine@97
|
631 self.assertEqual(
|
|
amine@97
|
632 "The length of audio data must be an integer "
|
|
amine@97
|
633 "multiple of `sample_width * channels`",
|
|
amine@97
|
634 str(audio_param_err.exception),
|
|
amine@97
|
635 )
|
|
amine@97
|
636
|
|
amine@88
|
637 @genty_dataset(
|
|
amine@192
|
638 simple=("output.wav", 1.230, "output.wav"),
|
|
amine@192
|
639 start=("output_{start}.wav", 1.230, "output_1.23.wav"),
|
|
amine@192
|
640 start_2=("output_{start}.wav", 1.233712, "output_1.233712.wav"),
|
|
amine@192
|
641 start_3=("output_{start}.wav", 1.2300001, "output_1.23.wav"),
|
|
amine@192
|
642 start_4=("output_{start:.3f}.wav", 1.233712, "output_1.234.wav"),
|
|
amine@192
|
643 start_5=(
|
|
amine@192
|
644 "output_{start:.8f}.wav",
|
|
amine@192
|
645 1.233712345,
|
|
amine@192
|
646 "output_1.23371200.wav",
|
|
amine@192
|
647 ),
|
|
amine@192
|
648 start_end_duration=(
|
|
amine@192
|
649 "output_{start}_{end}_{duration}.wav",
|
|
amine@192
|
650 1.455,
|
|
amine@192
|
651 "output_1.455_2.455_1.0.wav",
|
|
amine@192
|
652 ),
|
|
amine@192
|
653 start_end_duration_2=(
|
|
amine@192
|
654 "output_{start}_{end}_{duration}.wav",
|
|
amine@192
|
655 1.455321,
|
|
amine@192
|
656 "output_1.455321_2.455321_1.0.wav",
|
|
amine@192
|
657 ),
|
|
amine@192
|
658 )
|
|
amine@192
|
659 def test_save(self, format, start, expected):
|
|
amine@192
|
660 with TemporaryDirectory() as tmpdir:
|
|
amine@192
|
661 region = AudioRegion(b"0" * 160, start, 160, 1, 1)
|
|
amine@192
|
662 format = os.path.join(tmpdir, format)
|
|
amine@192
|
663 filename = region.save(format)[len(tmpdir) + 1 :]
|
|
amine@192
|
664 self.assertEqual(filename, expected)
|
|
amine@192
|
665
|
|
amine@193
|
666 def test_save_file_exists_exception(self):
|
|
amine@193
|
667 with TemporaryDirectory() as tmpdir:
|
|
amine@193
|
668 filename = os.path.join(tmpdir, "output.wav")
|
|
amine@193
|
669 open(filename, "w").close()
|
|
amine@193
|
670 region = AudioRegion(b"0" * 160, 0, 160, 1, 1)
|
|
amine@193
|
671 with self.assertRaises(FileExistsError):
|
|
amine@193
|
672 region.save(filename, exists_ok=False)
|
|
amine@193
|
673
|
|
amine@192
|
674 @genty_dataset(
|
|
amine@194
|
675 first_half=(
|
|
amine@194
|
676 AudioRegion(b"a" * 80 + b"b" * 80, 0, 160, 1, 1),
|
|
amine@194
|
677 slice(0, 500),
|
|
amine@194
|
678 0,
|
|
amine@194
|
679 b"a" * 80,
|
|
amine@194
|
680 ),
|
|
amine@194
|
681 second_half=(
|
|
amine@194
|
682 AudioRegion(b"a" * 80 + b"b" * 80, 0, 160, 1, 1),
|
|
amine@194
|
683 slice(500, None),
|
|
amine@194
|
684 0.5,
|
|
amine@194
|
685 b"b" * 80,
|
|
amine@194
|
686 ),
|
|
amine@194
|
687 second_half_negative=(
|
|
amine@194
|
688 AudioRegion(b"a" * 80 + b"b" * 80, 0, 160, 1, 1),
|
|
amine@194
|
689 slice(-500, None),
|
|
amine@194
|
690 0.5,
|
|
amine@194
|
691 b"b" * 80,
|
|
amine@194
|
692 ),
|
|
amine@194
|
693 middle=(
|
|
amine@194
|
694 AudioRegion(b"a" * 80 + b"b" * 80, 0, 160, 1, 1),
|
|
amine@194
|
695 slice(200, 750),
|
|
amine@194
|
696 0.2,
|
|
amine@194
|
697 b"a" * 48 + b"b" * 40,
|
|
amine@194
|
698 ),
|
|
amine@194
|
699 middle_negative=(
|
|
amine@194
|
700 AudioRegion(b"a" * 80 + b"b" * 80, 0, 160, 1, 1),
|
|
amine@194
|
701 slice(-800, -250),
|
|
amine@194
|
702 0.2,
|
|
amine@194
|
703 b"a" * 48 + b"b" * 40,
|
|
amine@194
|
704 ),
|
|
amine@194
|
705 middle_sw2=(
|
|
amine@194
|
706 AudioRegion(b"a" * 160 + b"b" * 160, 0, 160, 2, 1),
|
|
amine@194
|
707 slice(200, 750),
|
|
amine@194
|
708 0.2,
|
|
amine@194
|
709 b"a" * 96 + b"b" * 80,
|
|
amine@194
|
710 ),
|
|
amine@194
|
711 middle_ch2=(
|
|
amine@194
|
712 AudioRegion(b"a" * 160 + b"b" * 160, 0, 160, 1, 2),
|
|
amine@194
|
713 slice(200, 750),
|
|
amine@194
|
714 0.2,
|
|
amine@194
|
715 b"a" * 96 + b"b" * 80,
|
|
amine@194
|
716 ),
|
|
amine@194
|
717 middle_sw2_ch2=(
|
|
amine@194
|
718 AudioRegion(b"a" * 320 + b"b" * 320, 0, 160, 2, 2),
|
|
amine@194
|
719 slice(200, 750),
|
|
amine@194
|
720 0.2,
|
|
amine@194
|
721 b"a" * 192 + b"b" * 160,
|
|
amine@194
|
722 ),
|
|
amine@194
|
723 but_first_sample=(
|
|
amine@194
|
724 AudioRegion(b"a" * 4000 + b"b" * 4000, 0, 8000, 1, 1),
|
|
amine@194
|
725 slice(1, None),
|
|
amine@194
|
726 0.001,
|
|
amine@194
|
727 b"a" * (4000 - 8) + b"b" * 4000,
|
|
amine@194
|
728 ),
|
|
amine@194
|
729 but_first_sample_negative=(
|
|
amine@194
|
730 AudioRegion(b"a" * 4000 + b"b" * 4000, 0, 8000, 1, 1),
|
|
amine@194
|
731 slice(-999, None),
|
|
amine@194
|
732 0.001,
|
|
amine@194
|
733 b"a" * (4000 - 8) + b"b" * 4000,
|
|
amine@194
|
734 ),
|
|
amine@194
|
735 but_last_sample=(
|
|
amine@194
|
736 AudioRegion(b"a" * 4000 + b"b" * 4000, 0, 8000, 1, 1),
|
|
amine@194
|
737 slice(0, 999),
|
|
amine@194
|
738 0,
|
|
amine@194
|
739 b"a" * 4000 + b"b" * (4000 - 8),
|
|
amine@194
|
740 ),
|
|
amine@194
|
741 but_last_sample_negative=(
|
|
amine@194
|
742 AudioRegion(b"a" * 4000 + b"b" * 4000, 0, 8000, 1, 1),
|
|
amine@194
|
743 slice(0, -1),
|
|
amine@194
|
744 0,
|
|
amine@194
|
745 b"a" * 4000 + b"b" * (4000 - 8),
|
|
amine@194
|
746 ),
|
|
amine@194
|
747 big_negative_start=(
|
|
amine@194
|
748 AudioRegion(b"a" * 160, 0, 160, 1, 1),
|
|
amine@194
|
749 slice(-5000, None),
|
|
amine@194
|
750 0,
|
|
amine@194
|
751 b"a" * 160,
|
|
amine@194
|
752 ),
|
|
amine@194
|
753 big_negative_stop=(
|
|
amine@194
|
754 AudioRegion(b"a" * 160, 0, 160, 1, 1),
|
|
amine@194
|
755 slice(None, -1500),
|
|
amine@194
|
756 0,
|
|
amine@194
|
757 b"",
|
|
amine@194
|
758 ),
|
|
amine@194
|
759 empty=(
|
|
amine@194
|
760 AudioRegion(b"a" * 80 + b"b" * 80, 0, 160, 1, 1),
|
|
amine@194
|
761 slice(0, 0),
|
|
amine@194
|
762 0,
|
|
amine@194
|
763 b"",
|
|
amine@194
|
764 ),
|
|
amine@194
|
765 empty_start_stop_reversed=(
|
|
amine@194
|
766 AudioRegion(b"a" * 80 + b"b" * 80, 0, 160, 1, 1),
|
|
amine@194
|
767 slice(200, 100),
|
|
amine@194
|
768 0.2,
|
|
amine@194
|
769 b"",
|
|
amine@194
|
770 ),
|
|
amine@194
|
771 empty_big_positive_start=(
|
|
amine@194
|
772 AudioRegion(b"a" * 80 + b"b" * 80, 0, 160, 1, 1),
|
|
amine@194
|
773 slice(2000, 3000),
|
|
amine@194
|
774 2,
|
|
amine@194
|
775 b"",
|
|
amine@194
|
776 ),
|
|
amine@194
|
777 empty_negative_reversed=(
|
|
amine@194
|
778 AudioRegion(b"a" * 80 + b"b" * 80, 0, 160, 1, 1),
|
|
amine@194
|
779 slice(-100, -200),
|
|
amine@194
|
780 0.9,
|
|
amine@194
|
781 b"",
|
|
amine@194
|
782 ),
|
|
amine@194
|
783 empty_big_negative_stop=(
|
|
amine@194
|
784 AudioRegion(b"a" * 80 + b"b" * 80, 0, 160, 1, 1),
|
|
amine@194
|
785 slice(0, -2000),
|
|
amine@194
|
786 0,
|
|
amine@194
|
787 b"",
|
|
amine@194
|
788 ),
|
|
amine@194
|
789 )
|
|
amine@194
|
790 def test_region_slicing(
|
|
amine@194
|
791 self, region, slice_, expected_start, expected_data
|
|
amine@194
|
792 ):
|
|
amine@194
|
793 sub_region = region[slice_]
|
|
amine@194
|
794 self.assertEqual(sub_region.start, expected_start)
|
|
amine@194
|
795 self.assertEqual(bytes(sub_region), expected_data)
|
|
amine@194
|
796
|
|
amine@194
|
797 @genty_dataset(
|
|
amine@88
|
798 simple=(8000, 1, 1),
|
|
amine@88
|
799 stereo_sw_2=(8000, 2, 2),
|
|
amine@88
|
800 arbitray_sr_multichannel=(5413, 2, 3),
|
|
amine@88
|
801 )
|
|
amine@88
|
802 def test_concatenation(self, sampling_rate, sample_width, channels):
|
|
amine@88
|
803
|
|
amine@88
|
804 region_1, region_2 = _make_random_length_regions(
|
|
amine@88
|
805 [b"a", b"b"], sampling_rate, sample_width, channels
|
|
amine@88
|
806 )
|
|
amine@88
|
807
|
|
amine@88
|
808 expected_start = region_1.start
|
|
amine@88
|
809 expected_duration = region_1.duration + region_2.duration
|
|
amine@88
|
810 expected_end = expected_start + expected_duration
|
|
amine@88
|
811 expected_data = bytes(region_1) + bytes(region_2)
|
|
amine@88
|
812 concat_region = region_1 + region_2
|
|
amine@88
|
813
|
|
amine@88
|
814 self.assertEqual(concat_region.start, expected_start)
|
|
amine@88
|
815 self.assertAlmostEqual(concat_region.end, expected_end, places=6)
|
|
amine@88
|
816 self.assertAlmostEqual(
|
|
amine@88
|
817 concat_region.duration, expected_duration, places=6
|
|
amine@88
|
818 )
|
|
amine@88
|
819 self.assertEqual(bytes(concat_region), expected_data)
|
|
amine@88
|
820
|
|
amine@88
|
821 @genty_dataset(
|
|
amine@88
|
822 simple=(8000, 1, 1),
|
|
amine@88
|
823 stereo_sw_2=(8000, 2, 2),
|
|
amine@88
|
824 arbitray_sr_multichannel=(5413, 2, 3),
|
|
amine@88
|
825 )
|
|
amine@88
|
826 def test_concatenation_many(self, sampling_rate, sample_width, channels):
|
|
amine@88
|
827
|
|
amine@88
|
828 regions = _make_random_length_regions(
|
|
amine@88
|
829 [b"a", b"b", b"c"], sampling_rate, sample_width, channels
|
|
amine@88
|
830 )
|
|
amine@88
|
831 expected_start = regions[0].start
|
|
amine@88
|
832 expected_duration = sum(r.duration for r in regions)
|
|
amine@88
|
833 expected_end = expected_start + expected_duration
|
|
amine@88
|
834 expected_data = b"".join(bytes(r) for r in regions)
|
|
amine@88
|
835 concat_region = sum(regions)
|
|
amine@88
|
836
|
|
amine@88
|
837 self.assertEqual(concat_region.start, expected_start)
|
|
amine@88
|
838 self.assertAlmostEqual(concat_region.end, expected_end, places=6)
|
|
amine@88
|
839 self.assertAlmostEqual(
|
|
amine@88
|
840 concat_region.duration, expected_duration, places=6
|
|
amine@88
|
841 )
|
|
amine@88
|
842 self.assertEqual(bytes(concat_region), expected_data)
|
|
amine@88
|
843
|
|
amine@88
|
844 def test_concatenation_different_sampling_rate_error(self):
|
|
amine@88
|
845
|
|
amine@88
|
846 region_1 = AudioRegion(b"a" * 100, 0, 8000, 1, 1)
|
|
amine@88
|
847 region_2 = AudioRegion(b"b" * 100, 0, 3000, 1, 1)
|
|
amine@88
|
848
|
|
amine@88
|
849 with self.assertRaises(ValueError) as val_err:
|
|
amine@88
|
850 region_1 + region_2
|
|
amine@88
|
851 self.assertEqual(
|
|
amine@88
|
852 "Can only concatenate AudioRegions of the same "
|
|
amine@88
|
853 "sampling rate (8000 != 3000)",
|
|
amine@88
|
854 str(val_err.exception),
|
|
amine@88
|
855 )
|
|
amine@88
|
856
|
|
amine@88
|
857 def test_concatenation_different_sample_width_error(self):
|
|
amine@88
|
858
|
|
amine@88
|
859 region_1 = AudioRegion(b"a" * 100, 0, 8000, 2, 1)
|
|
amine@88
|
860 region_2 = AudioRegion(b"b" * 100, 0, 8000, 4, 1)
|
|
amine@88
|
861
|
|
amine@88
|
862 with self.assertRaises(ValueError) as val_err:
|
|
amine@88
|
863 region_1 + region_2
|
|
amine@88
|
864 self.assertEqual(
|
|
amine@88
|
865 "Can only concatenate AudioRegions of the same "
|
|
amine@88
|
866 "sample width (2 != 4)",
|
|
amine@88
|
867 str(val_err.exception),
|
|
amine@88
|
868 )
|
|
amine@88
|
869
|
|
amine@88
|
870 def test_concatenation_different_number_of_channels_error(self):
|
|
amine@88
|
871
|
|
amine@88
|
872 region_1 = AudioRegion(b"a" * 100, 0, 8000, 1, 1)
|
|
amine@88
|
873 region_2 = AudioRegion(b"b" * 100, 0, 8000, 1, 2)
|
|
amine@88
|
874
|
|
amine@88
|
875 with self.assertRaises(ValueError) as val_err:
|
|
amine@88
|
876 region_1 + region_2
|
|
amine@88
|
877 self.assertEqual(
|
|
amine@88
|
878 "Can only concatenate AudioRegions of the same "
|
|
amine@88
|
879 "number of channels (1 != 2)",
|
|
amine@88
|
880 str(val_err.exception),
|
|
amine@88
|
881 )
|
|
amine@196
|
882
|
|
amine@196
|
883 @genty_dataset(
|
|
amine@196
|
884 simple=(0.01, 0.03, 30),
|
|
amine@196
|
885 rounded_len_floor=(0.00575, 0.01725, 17),
|
|
amine@196
|
886 rounded_len_ceil=(0.00625, 0.01875, 19),
|
|
amine@196
|
887 )
|
|
amine@196
|
888 def test_multiplication(
|
|
amine@196
|
889 self, duration, expected_duration, expected_length
|
|
amine@196
|
890 ):
|
|
amine@196
|
891 sw = 2
|
|
amine@196
|
892 data = b"0" * int(duration * 8000 * sw)
|
|
amine@196
|
893 region = AudioRegion(data, 0, 8000, sw, 1)
|
|
amine@196
|
894 m_region = 1 * region * 3
|
|
amine@196
|
895 self.assertEqual(bytes(m_region), data * 3)
|
|
amine@196
|
896 self.assertEqual(m_region.sr, 8000)
|
|
amine@196
|
897 self.assertEqual(m_region.sw, 2)
|
|
amine@196
|
898 self.assertEqual(m_region.ch, 1)
|
|
amine@196
|
899 self.assertEqual(m_region.duration, expected_duration)
|
|
amine@196
|
900 self.assertEqual(len(m_region), expected_length)
|
|
amine@197
|
901
|
|
amine@198
|
902 @genty_dataset(_str=("x", "str"), _float=(1.4, "float"))
|
|
amine@197
|
903 def test_multiplication_non_int(self, factor, _type):
|
|
amine@197
|
904 with self.assertRaises(TypeError) as type_err:
|
|
amine@198
|
905 AudioRegion(b"0" * 80, 0, 8000, 1, 1) * factor
|
|
amine@197
|
906 err_msg = "Can't multiply AudioRegion by a non-int of type '{}'"
|
|
amine@197
|
907 self.assertEqual(err_msg.format(_type), str(type_err.exception))
|
