source: python/tests/test_fft.py @ ede63e3

feature/autosinkfeature/cnnfeature/cnn_orgfeature/constantqfeature/crepefeature/crepe_orgfeature/pitchshiftfeature/pydocstringsfeature/timestretchfix/ffmpeg5sampler
Last change on this file since ede63e3 was d98f3c0, checked in by Paul Brossier <piem@piem.org>, 8 years ago

python/tests/test_fft.py: skip test fft(zeros).phas == 0 if needed, expected powerpc

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1#! /usr/bin/env python
2
3from unittest import main
4from numpy.testing import TestCase
5from numpy.testing import assert_equal, assert_almost_equal
6import numpy as np
7from aubio import fvec, fft, cvec
8from math import pi, floor
9from random import random
10
11class aubio_fft_test_case(TestCase):
12
13    def test_members(self):
14        """ check members are set correctly """
15        win_s = 2048
16        f = fft(win_s)
17        assert_equal (f.win_s, win_s)
18
19    def test_output_dimensions(self):
20        """ check the dimensions of output """
21        win_s = 1024
22        timegrain = fvec(win_s)
23        f = fft (win_s)
24        fftgrain = f (timegrain)
25        del f
26        assert_equal (fftgrain.norm.shape, (win_s/2+1,))
27        assert_equal (fftgrain.phas.shape, (win_s/2+1,))
28
29    def test_zeros(self):
30        """ check the transform of zeros is all zeros """
31        win_s = 512
32        timegrain = fvec(win_s)
33        f = fft (win_s)
34        fftgrain = f (timegrain)
35        assert_equal ( fftgrain.norm, 0 )
36        try:
37            assert_equal ( fftgrain.phas, 0 )
38        except AssertionError:
39            assert_equal (fftgrain.phas[fftgrain.phas > 0], +pi)
40            assert_equal (fftgrain.phas[fftgrain.phas < 0], -pi)
41            assert_equal (np.abs(fftgrain.phas[np.abs(fftgrain.phas) != pi]), 0)
42            self.skipTest('fft(fvec(%d)).phas != +0, ' % win_s \
43                    + 'This is expected when using fftw3 on powerpc.')
44
45    def test_impulse(self):
46        """ check the transform of one impulse at a random place """
47        win_s = 256
48        i = int(floor(random()*win_s))
49        impulse = pi * random()
50        f = fft(win_s)
51        timegrain = fvec(win_s)
52        timegrain[i] = impulse
53        fftgrain = f ( timegrain )
54        #self.plot_this ( fftgrain.phas )
55        assert_almost_equal ( fftgrain.norm, impulse, decimal = 6 )
56        assert_equal ( fftgrain.phas <= pi, True)
57        assert_equal ( fftgrain.phas >= -pi, True)
58
59    def test_impulse_negative(self):
60        """ check the transform of a negative impulse at a random place """
61        win_s = 256
62        i = int(floor(random()*win_s))
63        impulse = -.1
64        f = fft(win_s)
65        timegrain = fvec(win_s)
66        timegrain[0] = 0
67        timegrain[i] = impulse
68        fftgrain = f ( timegrain )
69        #self.plot_this ( fftgrain.phas )
70        assert_almost_equal ( fftgrain.norm, abs(impulse), decimal = 5 )
71        if impulse < 0:
72            # phase can be pi or -pi, as it is not unwrapped
73            #assert_almost_equal ( abs(fftgrain.phas[1:-1]) , pi, decimal = 6 )
74            assert_almost_equal ( fftgrain.phas[0], pi, decimal = 6)
75            assert_almost_equal ( np.fmod(fftgrain.phas[-1], pi), 0, decimal = 6)
76        else:
77            #assert_equal ( fftgrain.phas[1:-1] == 0, True)
78            assert_equal ( fftgrain.phas[0], 0)
79            assert_almost_equal ( np.fmod(fftgrain.phas[-1], pi), 0, decimal = 6)
80        # now check the resynthesis
81        synthgrain = f.rdo ( fftgrain )
82        #self.plot_this ( fftgrain.phas.T )
83        assert_equal ( fftgrain.phas <= pi, True)
84        assert_equal ( fftgrain.phas >= -pi, True)
85        #self.plot_this ( synthgrain - timegrain )
86        assert_almost_equal ( synthgrain, timegrain, decimal = 6 )
87
88    def test_impulse_at_zero(self):
89        """ check the transform of one impulse at a index 0 """
90        win_s = 1024
91        impulse = pi
92        f = fft(win_s)
93        timegrain = fvec(win_s)
94        timegrain[0] = impulse
95        fftgrain = f ( timegrain )
96        #self.plot_this ( fftgrain.phas )
97        assert_equal ( fftgrain.phas[0], 0)
98        # could be 0 or -0 depending on fft implementation (0 for fftw3, -0 for ooura)
99        assert_almost_equal ( fftgrain.phas[1], 0)
100        assert_almost_equal ( fftgrain.norm[0], impulse, decimal = 6 )
101
102    def test_rdo_before_do(self):
103        """ check running fft.rdo before fft.do works """
104        win_s = 1024
105        f = fft(win_s)
106        fftgrain = cvec(win_s)
107        t = f.rdo( fftgrain )
108        assert_equal ( t, 0 )
109
110    def plot_this(self, this):
111        from pylab import plot, show
112        plot ( this )
113        show ()
114
115    def test_local_fftgrain(self):
116        """ check aubio.fft() result can be accessed after deletion """
117        def compute_grain(impulse):
118            win_s = 1024
119            timegrain = fvec(win_s)
120            timegrain[0] = impulse
121            f = fft(win_s)
122            fftgrain = f ( timegrain )
123            return fftgrain
124        impulse = pi
125        fftgrain = compute_grain(impulse)
126        assert_equal ( fftgrain.phas[0], 0)
127        assert_almost_equal ( fftgrain.phas[1], 0)
128        assert_almost_equal ( fftgrain.norm[0], impulse, decimal = 6 )
129
130    def test_local_reconstruct(self):
131        """ check aubio.fft.rdo() result can be accessed after deletion """
132        def compute_grain(impulse):
133            win_s = 1024
134            timegrain = fvec(win_s)
135            timegrain[0] = impulse
136            f = fft(win_s)
137            fftgrain = f ( timegrain )
138            r = f.rdo(fftgrain)
139            return r
140        impulse = pi
141        r = compute_grain(impulse)
142        assert_almost_equal ( r[0], impulse, decimal = 6)
143        assert_almost_equal ( r[1:], 0)
144
145    def test_large_input_timegrain(self):
146        win_s = 1024
147        f = fft(win_s)
148        t = fvec(win_s + 1)
149        with self.assertRaises(ValueError):
150            f(t)
151
152    def test_small_input_timegrain(self):
153        win_s = 1024
154        f = fft(win_s)
155        t = fvec(1)
156        with self.assertRaises(ValueError):
157            f(t)
158
159    def test_large_input_fftgrain(self):
160        win_s = 1024
161        f = fft(win_s)
162        s = cvec(win_s + 5)
163        with self.assertRaises(ValueError):
164            f.rdo(s)
165
166    def test_small_input_fftgrain(self):
167        win_s = 1024
168        f = fft(win_s)
169        s = cvec(16)
170        with self.assertRaises(ValueError):
171            f.rdo(s)
172
173class aubio_fft_wrong_params(TestCase):
174
175    def test_wrong_buf_size(self):
176        win_s = -1
177        with self.assertRaises(ValueError):
178            fft(win_s)
179
180    def test_buf_size_not_power_of_two(self):
181        # when compiled with fftw3, aubio supports non power of two fft sizes
182        win_s = 320
183        try:
184            with self.assertRaises(RuntimeError):
185                fft(win_s)
186        except AssertionError:
187            self.skipTest('creating aubio.fft with size %d did not fail' % win_s)
188
189    def test_buf_size_too_small(self):
190        win_s = 1
191        with self.assertRaises(RuntimeError):
192            fft(win_s)
193
194if __name__ == '__main__':
195    main()
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