source: interfaces/python/test_fft.py @ 3cd2434

feature/autosinkfeature/cnnfeature/cnn_orgfeature/constantqfeature/crepefeature/crepe_orgfeature/pitchshiftfeature/pydocstringsfeature/timestretchfix/ffmpeg5pitchshiftsamplertimestretchyinfft+
Last change on this file since 3cd2434 was 1ebf8770, checked in by Paul Brossier <piem@piem.org>, 12 years ago

interfaces/python/test_*.py: make executables

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[1ebf8770]1#! /usr/bin/python
2
[0536612]3from numpy.testing import TestCase, run_module_suite
4from numpy.testing import assert_equal, assert_almost_equal
5# WARNING: numpy also has an fft object
[4c01c0f]6from aubio import fvec, fft, cvec
[0536612]7from numpy import array, shape
8from math import pi
9
10class aubio_fft_test_case(TestCase):
11
12  def test_members(self):
13    f = fft()
[1a6ef2c]14    assert_equal (f.win_s, 1024)
[0536612]15
16  def test_output_dimensions(self):
17    """ check the dimensions of output """
[1a6ef2c]18    win_s = 1024
19    timegrain = fvec(win_s)
20    f = fft(win_s)
[0536612]21    fftgrain = f (timegrain)
22    assert_equal (fftgrain.norm, 0)
[1a6ef2c]23    assert_equal (shape(fftgrain.norm), (win_s/2+1,))
[0536612]24    assert_equal (fftgrain.phas, 0)
[1a6ef2c]25    assert_equal (shape(fftgrain.phas), (win_s/2+1,))
[0536612]26
27  def test_zeros(self):
28    """ check the transform of zeros """
[1a6ef2c]29    win_s = 512
30    timegrain = fvec(win_s)
31    f = fft(win_s)
[0536612]32    fftgrain = f(timegrain)
33    assert_equal ( fftgrain.norm == 0, True )
34    assert_equal ( fftgrain.phas == 0, True )
35
36  def test_impulse(self):
37    """ check the transform of one impulse at a random place """
38    from random import random
39    from math import floor
[1a6ef2c]40    win_s = 256
[0536612]41    i = floor(random()*win_s)
42    impulse = pi * random() 
[1a6ef2c]43    f = fft(win_s)
44    timegrain = fvec(win_s)
45    timegrain[i] = impulse
[0536612]46    fftgrain = f ( timegrain )
[1a6ef2c]47    #self.plot_this ( fftgrain.phas )
[0536612]48    assert_almost_equal ( fftgrain.norm, impulse, decimal = 6 )
49    assert_equal ( fftgrain.phas <= pi, True)
50    assert_equal ( fftgrain.phas >= -pi, True)
51
52  def test_impulse_negative(self):
53    """ check the transform of one impulse at a random place """
54    from random import random
55    from math import floor
[1a6ef2c]56    win_s = 256
[0536612]57    i = 0 
58    impulse = -10. 
[1a6ef2c]59    f = fft(win_s)
60    timegrain = fvec(win_s)
61    timegrain[i] = impulse
[0536612]62    fftgrain = f ( timegrain )
[1a6ef2c]63    #self.plot_this ( fftgrain.phas )
[0536612]64    assert_almost_equal ( fftgrain.norm, abs(impulse), decimal = 6 )
65    if impulse < 0:
66      # phase can be pi or -pi, as it is not unwrapped
[1a6ef2c]67      assert_almost_equal ( abs(fftgrain.phas[1:-1]) , pi, decimal = 6 )
68      assert_almost_equal ( fftgrain.phas[0], pi, decimal = 6)
69      assert_almost_equal ( fftgrain.phas[-1], pi, decimal = 6)
[0536612]70    else:
[1a6ef2c]71      assert_equal ( fftgrain.phas[1:-1] == 0, True)
72      assert_equal ( fftgrain.phas[0] == 0, True)
73      assert_equal ( fftgrain.phas[-1] == 0, True)
[0536612]74    # now check the resynthesis
75    synthgrain = f.rdo ( fftgrain )
76    #self.plot_this ( fftgrain.phas.T )
77    assert_equal ( fftgrain.phas <= pi, True)
78    assert_equal ( fftgrain.phas >= -pi, True)
79    #self.plot_this ( synthgrain - timegrain )
80    assert_almost_equal ( synthgrain, timegrain, decimal = 6 )
81
82  def test_impulse_at_zero(self):
[1a6ef2c]83    """ check the transform of one impulse at a index 0 """
84    win_s = 1024
[0536612]85    impulse = pi
[1a6ef2c]86    f = fft(win_s)
87    timegrain = fvec(win_s)
88    timegrain[0] = impulse
[0536612]89    fftgrain = f ( timegrain )
90    #self.plot_this ( fftgrain.phas )
91    assert_equal ( fftgrain.phas[0], 0)
[299c2b0]92    assert_equal ( abs(fftgrain.phas[1]), 0)
[1a6ef2c]93    assert_almost_equal (fftgrain.norm[0], impulse, decimal = 6 )
[0536612]94
95  def test_rdo_before_do(self):
96    """ check running fft.rdo before fft.do works """
[1a6ef2c]97    win_s = 1024
[0536612]98    impulse = pi
[1a6ef2c]99    f = fft(win_s)
100    fftgrain = cvec(win_s)
[0536612]101    t = f.rdo( fftgrain )
102    assert_equal ( t, 0 )
103
104  def plot_this(self, this):
105    from pylab import plot, show
106    plot ( this )
107    show ()
108
109if __name__ == '__main__':
110  from unittest import main
111  main()
112
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