source: python/tests/test_specdesc.py @ 43de50d

feature/autosinkfeature/cnnfeature/cnn_orgfeature/constantqfeature/crepefeature/crepe_orgfeature/pitchshiftfeature/pydocstringsfeature/timestretchfix/ffmpeg5pitchshiftsamplertimestretchyinfft+
Last change on this file since 43de50d was c4b2183, checked in by Paul Brossier <piem@piem.org>, 9 years ago

python/tests: use aubio.float_type

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1#! /usr/bin/env python
2
3from numpy.testing import TestCase, assert_equal, assert_almost_equal
4from numpy import random, arange, log, zeros
5from aubio import specdesc, cvec, float_type
6from math import pi
7
8methods = ["default",
9     "energy",
10     "hfc",
11     "complex",
12     "phase",
13     "specdiff",
14     "kl",
15     "mkl",
16     "specflux",
17     "centroid",
18     "spread",
19     "skewness",
20     "kurtosis",
21     "slope",
22     "decrease",
23     "rolloff"]
24buf_size = 2048
25
26class aubio_specdesc(TestCase):
27
28    def test_members(self):
29        o = specdesc()
30
31        for method in methods:
32          o = specdesc(method, buf_size)
33          assert_equal ([o.buf_size, o.method], [buf_size, method])
34
35          spec = cvec(buf_size)
36          spec.norm[0] = 1
37          spec.norm[1] = 1./2.
38          #print "%20s" % method, str(o(spec))
39          o(spec)
40          spec.norm = random.random_sample((len(spec.norm),)).astype(float_type)
41          spec.phas = random.random_sample((len(spec.phas),)).astype(float_type)
42          #print "%20s" % method, str(o(spec))
43          assert (o(spec) != 0.)
44
45    def test_hfc(self):
46        o = specdesc("hfc", buf_size)
47        spec = cvec(buf_size)
48        # hfc of zeros is zero
49        assert_equal (o(spec), 0.)
50        # hfc of ones is sum of all bin numbers
51        spec.norm[:] = 1
52        expected = sum(range(buf_size/2 + 2))
53        assert_equal (o(spec), expected)
54        # changing phase doesn't change anything
55        spec.phas[:] = 1
56        assert_equal (o(spec), sum(range(buf_size/2 + 2)))
57
58    def test_phase(self):
59        o = specdesc("phase", buf_size)
60        spec = cvec(buf_size)
61        # phase of zeros is zero
62        assert_equal (o(spec), 0.)
63        spec.phas = random.random_sample((len(spec.phas),)).astype(float_type)
64        # phase of random is not zero
65        spec.norm[:] = 1
66        assert (o(spec) != 0.)
67
68    def test_specdiff(self):
69        o = specdesc("phase", buf_size)
70        spec = cvec(buf_size)
71        # specdiff of zeros is zero
72        assert_equal (o(spec), 0.)
73        spec.phas = random.random_sample((len(spec.phas),)).astype(float_type)
74        # phase of random is not zero
75        spec.norm[:] = 1
76        assert (o(spec) != 0.)
77   
78    def test_hfc(self):
79        o = specdesc("hfc")
80        c = cvec()
81        assert_equal( 0., o(c))
82        a = arange(c.length, dtype=float_type)
83        c.norm = a
84        assert_equal (a, c.norm)
85        assert_equal ( sum(a*(a+1)), o(c))
86
87    def test_complex(self):
88        o = specdesc("complex")
89        c = cvec()
90        assert_equal( 0., o(c))
91        a = arange(c.length, dtype=float_type)
92        c.norm = a
93        assert_equal (a, c.norm)
94        # the previous run was on zeros, so previous frames are still 0
95        # so we have sqrt ( abs ( r2 ^ 2) ) == r2
96        assert_equal ( sum(a), o(c))
97        # second time. c.norm = a, so, r1 = r2, and the euclidian distance is 0
98        assert_equal ( 0, o(c))
99
100    def test_kl(self):
101        o = specdesc("kl")
102        c = cvec()
103        assert_equal( 0., o(c))
104        a = arange(c.length, dtype=float_type)
105        c.norm = a
106        assert_almost_equal( sum(a * log(1.+ a/1.e-1 ) ) / o(c), 1., decimal=6)
107
108    def test_mkl(self):
109        o = specdesc("mkl")
110        c = cvec()
111        assert_equal( 0., o(c))
112        a = arange(c.length, dtype=float_type)
113        c.norm = a
114        assert_almost_equal( sum(log(1.+ a/1.e-1 ) ) / o(c), 1, decimal=6)
115
116    def test_specflux(self):
117        o = specdesc("specflux")
118        c = cvec()
119        assert_equal( 0., o(c))
120        a = arange(c.length, dtype=float_type)
121        c.norm = a
122        assert_equal( sum(a), o(c))
123        assert_equal( 0, o(c))
124        c.norm = zeros(c.length, dtype=float_type)
125        assert_equal( 0, o(c))
126
127    def test_centroid(self):
128        o = specdesc("centroid")
129        c = cvec()
130        # make sure centroid of zeros is zero
131        assert_equal( 0., o(c))
132        a = arange(c.length, dtype=float_type)
133        c.norm = a
134        centroid = sum(a*a) / sum(a)
135        assert_almost_equal (centroid, o(c), decimal = 2)
136
137        c.norm = a * .5 
138        assert_almost_equal (centroid, o(c), decimal = 2)
139
140    def test_spread(self):
141        o = specdesc("spread")
142        c = cvec(2048)
143        ramp = arange(c.length, dtype=float_type)
144        assert_equal( 0., o(c))
145
146        a = ramp
147        c.norm = a
148        centroid = sum(a*a) / sum(a)
149        spread = sum( a * pow(ramp - centroid, 2.) ) / sum(a)
150        assert_almost_equal (o(c), spread, decimal = 1)
151
152    def test_skewness(self):
153        o = specdesc("skewness")
154        c = cvec()
155        assert_equal( 0., o(c))
156        a = arange(c.length, dtype=float_type)
157        c.norm = a
158        centroid = sum(a*a) / sum(a)
159        spread = sum( (a - centroid)**2 *a) / sum(a)
160        skewness = sum( (a - centroid)**3 *a) / sum(a) / spread **1.5
161        assert_almost_equal (skewness, o(c), decimal = 2)
162
163        c.norm = a * 3
164        assert_almost_equal (skewness, o(c), decimal = 2)
165
166    def test_kurtosis(self):
167        o = specdesc("kurtosis")
168        c = cvec()
169        assert_equal( 0., o(c))
170        a = arange(c.length, dtype=float_type)
171        c.norm = a
172        centroid = sum(a*a) / sum(a)
173        spread = sum( (a - centroid)**2 *a) / sum(a)
174        kurtosis = sum( (a - centroid)**4 *a) / sum(a) / spread **2
175        assert_almost_equal (kurtosis, o(c), decimal = 2)
176
177    def test_slope(self):
178        o = specdesc("slope")
179        c = cvec()
180        assert_equal( 0., o(c))
181        a = arange(c.length * 2, 0, -2, dtype=float_type)
182        k = arange(c.length, dtype=float_type)
183        c.norm = a
184        num = len(a) * sum(k*a) - sum(k)*sum(a)
185        den = (len(a) * sum(k**2) - sum(k)**2)
186        slope = num/den/sum(a)
187        assert_almost_equal (slope, o(c), decimal = 5)
188
189        a = arange(0, c.length * 2, +2, dtype=float_type)
190        c.norm = a
191        num = len(a) * sum(k*a) - sum(k)*sum(a)
192        den = (len(a) * sum(k**2) - sum(k)**2)
193        slope = num/den/sum(a)
194        assert_almost_equal (slope, o(c), decimal = 5)
195
196        a = arange(0, c.length * 2, +2, dtype=float_type)
197        c.norm = a * 2
198        assert_almost_equal (slope, o(c), decimal = 5)
199
200    def test_decrease(self):
201        o = specdesc("decrease")
202        c = cvec()
203        assert_equal( 0., o(c))
204        a = arange(c.length * 2, 0, -2, dtype=float_type)
205        k = arange(c.length, dtype=float_type)
206        c.norm = a
207        decrease = sum((a[1:] - a [0]) / k[1:]) / sum(a[1:]) 
208        assert_almost_equal (decrease, o(c), decimal = 5)
209
210        a = arange(0, c.length * 2, +2, dtype=float_type)
211        c.norm = a
212        decrease = sum((a[1:] - a [0]) / k[1:]) / sum(a[1:]) 
213        assert_almost_equal (decrease, o(c), decimal = 5)
214
215        a = arange(0, c.length * 2, +2, dtype=float_type)
216        c.norm = a * 2
217        decrease = sum((a[1:] - a [0]) / k[1:]) / sum(a[1:]) 
218        assert_almost_equal (decrease, o(c), decimal = 5)
219
220    def test_rolloff(self):
221        o = specdesc("rolloff")
222        c = cvec()
223        assert_equal( 0., o(c))
224        a = arange(c.length * 2, 0, -2, dtype=float_type)
225        k = arange(c.length, dtype=float_type)
226        c.norm = a
227        cumsum = .95*sum(a*a)
228        i = 0; rollsum = 0
229        while rollsum < cumsum:
230          rollsum += a[i]*a[i]
231          i+=1
232        rolloff = i
233        assert_equal (rolloff, o(c))
234
235
236if __name__ == '__main__':
237    from unittest import main
238    main()
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