source: python/tests/test_phasevoc.py @ 689106e

feature/autosinkfeature/cnnfeature/cnn_orgfeature/constantqfeature/crepefeature/crepe_orgfeature/pitchshiftfeature/pydocstringsfeature/timestretchfix/ffmpeg5pitchshiftsamplertimestretchyinfft+
Last change on this file since 689106e was 689106e, checked in by Paul Brossier <piem@piem.org>, 8 years ago

python/tests/: prepare for python3 (see #33)

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File size: 2.5 KB
Line 
1#! /usr/bin/env python
2
3from numpy.testing import TestCase, assert_equal, assert_almost_equal
4from aubio import fvec, cvec, pvoc
5from numpy import array, shape
6from numpy.random import random
7
8precision = 6
9
10class aubio_pvoc_test_case(TestCase):
11    """ pvoc object test case """
12
13    def test_members_automatic_sizes_default(self):
14        """ check object creation with default parameters """
15        f = pvoc()
16        assert_equal ([f.win_s, f.hop_s], [1024, 512])
17
18    def test_members_unnamed_params(self):
19        """ check object creation with unnamed parameters """
20        f = pvoc(2048, 128)
21        assert_equal ([f.win_s, f.hop_s], [2048, 128])
22
23    def test_members_named_params(self):
24        """ check object creation with named parameters """
25        f = pvoc(hop_s = 128, win_s = 2048)
26        assert_equal ([f.win_s, f.hop_s], [2048, 128])
27
28    def test_zeros(self):
29        """ check the resynthesis of zeros gives zeros """
30        win_s, hop_s = 1024, 256
31        f = pvoc (win_s, hop_s)
32        t = fvec (hop_s)
33        for time in range( 4 * win_s / hop_s ):
34            s = f(t)
35            r = f.rdo(s)
36            assert_equal ( array(t), 0)
37            assert_equal ( s.norm, 0)
38            assert_equal ( s.phas, 0)
39            assert_equal ( r, 0)
40
41    def test_resynth_two_steps(self):
42        """ check the resynthesis of steps is correct with 50% overlap """
43        hop_s = 512
44        buf_s = hop_s * 2
45        f = pvoc(buf_s, hop_s)
46        sigin = fvec(hop_s)
47        zeros = fvec(hop_s)
48        # negative step
49        sigin[20:50] = -.1
50        # positive step
51        sigin[100:200] = .1
52        s1 = f(sigin)
53        r1 = f.rdo(s1)
54        s2 = f(zeros)
55        r2 = f.rdo(s2)
56        #self.plot_this ( s2.norm.T )
57        assert_almost_equal ( r2, sigin, decimal = precision )
58   
59    def test_resynth_three_steps(self):
60        """ check the resynthesis of steps is correct with 25% overlap """
61        hop_s = 16
62        buf_s = hop_s * 4
63        sigin = fvec(hop_s)
64        zeros = fvec(hop_s)
65        f = pvoc(buf_s, hop_s)
66        for i in range(hop_s):
67            sigin[i] = random() * 2. - 1.
68        t2 = f.rdo( f(sigin) )
69        t2 = f.rdo( f(zeros) )
70        t2 = f.rdo( f(zeros) )
71        t2 = f.rdo( f(zeros) )
72        assert_almost_equal( sigin, t2, decimal = precision )
73   
74    def plot_this( self, this ):
75        from pylab import semilogy, show
76        semilogy ( this )
77        show ()
78
79if __name__ == '__main__':
80  from unittest import main
81  main()
82
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