1 | #! /usr/bin/python |
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2 | |
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3 | from numpy.testing import TestCase, run_module_suite |
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4 | from numpy.testing import assert_equal, assert_almost_equal |
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5 | # WARNING: numpy also has an fft object |
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6 | from aubio import fvec, fft, cvec |
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7 | from numpy import array, shape |
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8 | from math import pi |
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9 | |
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10 | class aubio_fft_test_case(TestCase): |
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11 | |
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12 | def test_members(self): |
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13 | f = fft() |
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14 | assert_equal (f.win_s, 1024) |
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15 | |
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16 | def test_output_dimensions(self): |
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17 | """ check the dimensions of output """ |
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18 | win_s = 1024 |
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19 | timegrain = fvec(win_s) |
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20 | f = fft(win_s) |
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21 | fftgrain = f (timegrain) |
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22 | assert_equal (fftgrain.norm, 0) |
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23 | assert_equal (shape(fftgrain.norm), (win_s/2+1,)) |
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24 | assert_equal (fftgrain.phas, 0) |
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25 | assert_equal (shape(fftgrain.phas), (win_s/2+1,)) |
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26 | |
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27 | def test_zeros(self): |
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28 | """ check the transform of zeros """ |
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29 | win_s = 512 |
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30 | timegrain = fvec(win_s) |
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31 | f = fft(win_s) |
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32 | fftgrain = f(timegrain) |
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33 | assert_equal ( fftgrain.norm == 0, True ) |
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34 | assert_equal ( fftgrain.phas == 0, True ) |
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35 | |
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36 | def test_impulse(self): |
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37 | """ check the transform of one impulse at a random place """ |
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38 | from random import random |
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39 | from math import floor |
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40 | win_s = 256 |
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41 | i = floor(random()*win_s) |
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42 | impulse = pi * random() |
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43 | f = fft(win_s) |
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44 | timegrain = fvec(win_s) |
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45 | timegrain[i] = impulse |
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46 | fftgrain = f ( timegrain ) |
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47 | #self.plot_this ( fftgrain.phas ) |
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48 | assert_almost_equal ( fftgrain.norm, impulse, decimal = 6 ) |
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49 | assert_equal ( fftgrain.phas <= pi, True) |
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50 | assert_equal ( fftgrain.phas >= -pi, True) |
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51 | |
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52 | def test_impulse_negative(self): |
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53 | """ check the transform of one impulse at a random place """ |
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54 | from random import random |
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55 | from math import floor |
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56 | win_s = 256 |
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57 | i = 0 |
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58 | impulse = -10. |
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59 | f = fft(win_s) |
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60 | timegrain = fvec(win_s) |
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61 | timegrain[i] = impulse |
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62 | fftgrain = f ( timegrain ) |
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63 | #self.plot_this ( fftgrain.phas ) |
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64 | assert_almost_equal ( fftgrain.norm, abs(impulse), decimal = 6 ) |
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65 | if impulse < 0: |
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66 | # phase can be pi or -pi, as it is not unwrapped |
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67 | assert_almost_equal ( abs(fftgrain.phas[1:-1]) , pi, decimal = 6 ) |
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68 | assert_almost_equal ( fftgrain.phas[0], pi, decimal = 6) |
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69 | assert_almost_equal ( fftgrain.phas[-1], pi, decimal = 6) |
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70 | else: |
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71 | assert_equal ( fftgrain.phas[1:-1] == 0, True) |
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72 | assert_equal ( fftgrain.phas[0] == 0, True) |
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73 | assert_equal ( fftgrain.phas[-1] == 0, True) |
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74 | # now check the resynthesis |
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75 | synthgrain = f.rdo ( fftgrain ) |
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76 | #self.plot_this ( fftgrain.phas.T ) |
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77 | assert_equal ( fftgrain.phas <= pi, True) |
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78 | assert_equal ( fftgrain.phas >= -pi, True) |
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79 | #self.plot_this ( synthgrain - timegrain ) |
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80 | assert_almost_equal ( synthgrain, timegrain, decimal = 6 ) |
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81 | |
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82 | def test_impulse_at_zero(self): |
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83 | """ check the transform of one impulse at a index 0 """ |
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84 | win_s = 1024 |
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85 | impulse = pi |
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86 | f = fft(win_s) |
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87 | timegrain = fvec(win_s) |
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88 | timegrain[0] = impulse |
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89 | fftgrain = f ( timegrain ) |
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90 | #self.plot_this ( fftgrain.phas ) |
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91 | assert_equal ( fftgrain.phas[0], 0) |
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92 | assert_equal ( abs(fftgrain.phas[1]), 0) |
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93 | assert_almost_equal (fftgrain.norm[0], impulse, decimal = 6 ) |
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94 | |
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95 | def test_rdo_before_do(self): |
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96 | """ check running fft.rdo before fft.do works """ |
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97 | win_s = 1024 |
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98 | impulse = pi |
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99 | f = fft(win_s) |
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100 | fftgrain = cvec(win_s) |
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101 | t = f.rdo( fftgrain ) |
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102 | assert_equal ( t, 0 ) |
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103 | |
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104 | def plot_this(self, this): |
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105 | from pylab import plot, show |
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106 | plot ( this ) |
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107 | show () |
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108 | |
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109 | if __name__ == '__main__': |
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110 | from unittest import main |
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111 | main() |
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112 | |
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