[75e715f] | 1 | #! /usr/bin/env python |
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[312826c] | 2 | |
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| 3 | from numpy.testing import TestCase, assert_equal, assert_almost_equal |
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| 4 | from numpy import random, arange, log, zeros |
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[4c01c0f] | 5 | from aubio import specdesc, cvec |
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[0536612] | 6 | from math import pi |
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| 7 | |
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[312826c] | 8 | methods = ["default", |
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| 9 | "energy", |
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| 10 | "hfc", |
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| 11 | "complex", |
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| 12 | "phase", |
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| 13 | "specdiff", |
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| 14 | "kl", |
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| 15 | "mkl", |
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| 16 | "specflux", |
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| 17 | "centroid", |
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| 18 | "spread", |
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| 19 | "skewness", |
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| 20 | "kurtosis", |
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| 21 | "slope", |
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| 22 | "decrease", |
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| 23 | "rolloff"] |
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| 24 | buf_size = 2048 |
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| 25 | |
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[0536612] | 26 | class aubio_specdesc(TestCase): |
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| 27 | |
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| 28 | def test_members(self): |
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| 29 | o = specdesc() |
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[312826c] | 30 | |
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| 31 | for method in methods: |
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| 32 | o = specdesc(method, buf_size) |
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| 33 | assert_equal ([o.buf_size, o.method], [buf_size, method]) |
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| 34 | |
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| 35 | spec = cvec(buf_size) |
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| 36 | spec.norm[0] = 1 |
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| 37 | spec.norm[1] = 1./2. |
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| 38 | #print "%20s" % method, str(o(spec)) |
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| 39 | o(spec) |
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| 40 | spec.norm = random.random_sample((len(spec.norm),)).astype('float32') |
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| 41 | spec.phas = random.random_sample((len(spec.phas),)).astype('float32') |
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| 42 | #print "%20s" % method, str(o(spec)) |
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| 43 | assert (o(spec) != 0.) |
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[0536612] | 44 | |
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| 45 | def test_hfc(self): |
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[312826c] | 46 | o = specdesc("hfc", buf_size) |
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| 47 | spec = cvec(buf_size) |
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| 48 | # hfc of zeros is zero |
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| 49 | assert_equal (o(spec), 0.) |
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| 50 | # hfc of ones is sum of all bin numbers |
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| 51 | spec.norm[:] = 1 |
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| 52 | expected = sum(range(buf_size/2 + 2)) |
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| 53 | assert_equal (o(spec), expected) |
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| 54 | # changing phase doesn't change anything |
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| 55 | spec.phas[:] = 1 |
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| 56 | assert_equal (o(spec), sum(range(buf_size/2 + 2))) |
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| 57 | |
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| 58 | def test_phase(self): |
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| 59 | o = specdesc("phase", buf_size) |
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| 60 | spec = cvec(buf_size) |
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| 61 | # phase of zeros is zero |
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| 62 | assert_equal (o(spec), 0.) |
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| 63 | spec.phas = random.random_sample((len(spec.phas),)).astype('float32') |
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| 64 | # phase of random is not zero |
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| 65 | spec.norm[:] = 1 |
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| 66 | assert (o(spec) != 0.) |
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| 67 | |
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| 68 | def test_specdiff(self): |
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| 69 | o = specdesc("phase", buf_size) |
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| 70 | spec = cvec(buf_size) |
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| 71 | # specdiff of zeros is zero |
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| 72 | assert_equal (o(spec), 0.) |
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| 73 | spec.phas = random.random_sample((len(spec.phas),)).astype('float32') |
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| 74 | # phase of random is not zero |
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| 75 | spec.norm[:] = 1 |
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| 76 | assert (o(spec) != 0.) |
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| 77 | |
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| 78 | def test_hfc(self): |
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[0536612] | 79 | o = specdesc("hfc") |
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| 80 | c = cvec() |
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| 81 | assert_equal( 0., o(c)) |
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| 82 | a = arange(c.length, dtype='float32') |
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| 83 | c.norm = a |
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[1a6ef2c] | 84 | assert_equal (a, c.norm) |
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[0536612] | 85 | assert_equal ( sum(a*(a+1)), o(c)) |
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| 86 | |
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| 87 | def test_complex(self): |
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| 88 | o = specdesc("complex") |
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| 89 | c = cvec() |
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| 90 | assert_equal( 0., o(c)) |
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| 91 | a = arange(c.length, dtype='float32') |
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| 92 | c.norm = a |
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[1a6ef2c] | 93 | assert_equal (a, c.norm) |
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[0536612] | 94 | # the previous run was on zeros, so previous frames are still 0 |
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| 95 | # so we have sqrt ( abs ( r2 ^ 2) ) == r2 |
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| 96 | assert_equal ( sum(a), o(c)) |
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| 97 | # second time. c.norm = a, so, r1 = r2, and the euclidian distance is 0 |
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| 98 | assert_equal ( 0, o(c)) |
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| 99 | |
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| 100 | def test_kl(self): |
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| 101 | o = specdesc("kl") |
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| 102 | c = cvec() |
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| 103 | assert_equal( 0., o(c)) |
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| 104 | a = arange(c.length, dtype='float32') |
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| 105 | c.norm = a |
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[8e9cb57] | 106 | assert_almost_equal( sum(a * log(1.+ a/1.e-1 ) ) / o(c), 1., decimal=6) |
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[0536612] | 107 | |
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| 108 | def test_mkl(self): |
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| 109 | o = specdesc("mkl") |
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| 110 | c = cvec() |
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| 111 | assert_equal( 0., o(c)) |
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| 112 | a = arange(c.length, dtype='float32') |
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| 113 | c.norm = a |
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[8e9cb57] | 114 | assert_almost_equal( sum(log(1.+ a/1.e-1 ) ) / o(c), 1, decimal=6) |
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[0536612] | 115 | |
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| 116 | def test_specflux(self): |
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| 117 | o = specdesc("specflux") |
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| 118 | c = cvec() |
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| 119 | assert_equal( 0., o(c)) |
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| 120 | a = arange(c.length, dtype='float32') |
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| 121 | c.norm = a |
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| 122 | assert_equal( sum(a), o(c)) |
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| 123 | assert_equal( 0, o(c)) |
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| 124 | c.norm = zeros(c.length, dtype='float32') |
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| 125 | assert_equal( 0, o(c)) |
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| 126 | |
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| 127 | def test_centroid(self): |
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| 128 | o = specdesc("centroid") |
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| 129 | c = cvec() |
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| 130 | # make sure centroid of zeros is zero |
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| 131 | assert_equal( 0., o(c)) |
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| 132 | a = arange(c.length, dtype='float32') |
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| 133 | c.norm = a |
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| 134 | centroid = sum(a*a) / sum(a) |
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| 135 | assert_almost_equal (centroid, o(c), decimal = 2) |
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| 136 | |
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| 137 | c.norm = a * .5 |
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| 138 | assert_almost_equal (centroid, o(c), decimal = 2) |
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| 139 | |
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| 140 | def test_spread(self): |
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| 141 | o = specdesc("spread") |
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[312826c] | 142 | c = cvec(2048) |
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| 143 | ramp = arange(c.length, dtype='float32') |
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[0536612] | 144 | assert_equal( 0., o(c)) |
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[312826c] | 145 | |
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| 146 | a = ramp |
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[0536612] | 147 | c.norm = a |
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| 148 | centroid = sum(a*a) / sum(a) |
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[312826c] | 149 | spread = sum( a * pow(ramp - centroid, 2.) ) / sum(a) |
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| 150 | assert_almost_equal (o(c), spread, decimal = 1) |
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[0536612] | 151 | |
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| 152 | def test_skewness(self): |
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| 153 | o = specdesc("skewness") |
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| 154 | c = cvec() |
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| 155 | assert_equal( 0., o(c)) |
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| 156 | a = arange(c.length, dtype='float32') |
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| 157 | c.norm = a |
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| 158 | centroid = sum(a*a) / sum(a) |
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| 159 | spread = sum( (a - centroid)**2 *a) / sum(a) |
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| 160 | skewness = sum( (a - centroid)**3 *a) / sum(a) / spread **1.5 |
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| 161 | assert_almost_equal (skewness, o(c), decimal = 2) |
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| 162 | |
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| 163 | c.norm = a * 3 |
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| 164 | assert_almost_equal (skewness, o(c), decimal = 2) |
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| 165 | |
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| 166 | def test_kurtosis(self): |
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| 167 | o = specdesc("kurtosis") |
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| 168 | c = cvec() |
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| 169 | assert_equal( 0., o(c)) |
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| 170 | a = arange(c.length, dtype='float32') |
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| 171 | c.norm = a |
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| 172 | centroid = sum(a*a) / sum(a) |
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| 173 | spread = sum( (a - centroid)**2 *a) / sum(a) |
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| 174 | kurtosis = sum( (a - centroid)**4 *a) / sum(a) / spread **2 |
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| 175 | assert_almost_equal (kurtosis, o(c), decimal = 2) |
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| 176 | |
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| 177 | def test_slope(self): |
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| 178 | o = specdesc("slope") |
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| 179 | c = cvec() |
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| 180 | assert_equal( 0., o(c)) |
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| 181 | a = arange(c.length * 2, 0, -2, dtype='float32') |
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| 182 | k = arange(c.length, dtype='float32') |
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| 183 | c.norm = a |
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| 184 | num = len(a) * sum(k*a) - sum(k)*sum(a) |
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| 185 | den = (len(a) * sum(k**2) - sum(k)**2) |
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| 186 | slope = num/den/sum(a) |
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| 187 | assert_almost_equal (slope, o(c), decimal = 5) |
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| 188 | |
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| 189 | a = arange(0, c.length * 2, +2, dtype='float32') |
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| 190 | c.norm = a |
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| 191 | num = len(a) * sum(k*a) - sum(k)*sum(a) |
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| 192 | den = (len(a) * sum(k**2) - sum(k)**2) |
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| 193 | slope = num/den/sum(a) |
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| 194 | assert_almost_equal (slope, o(c), decimal = 5) |
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| 195 | |
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| 196 | a = arange(0, c.length * 2, +2, dtype='float32') |
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| 197 | c.norm = a * 2 |
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| 198 | assert_almost_equal (slope, o(c), decimal = 5) |
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| 199 | |
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| 200 | def test_decrease(self): |
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| 201 | o = specdesc("decrease") |
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| 202 | c = cvec() |
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| 203 | assert_equal( 0., o(c)) |
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| 204 | a = arange(c.length * 2, 0, -2, dtype='float32') |
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| 205 | k = arange(c.length, dtype='float32') |
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| 206 | c.norm = a |
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| 207 | decrease = sum((a[1:] - a [0]) / k[1:]) / sum(a[1:]) |
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| 208 | assert_almost_equal (decrease, o(c), decimal = 5) |
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| 209 | |
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| 210 | a = arange(0, c.length * 2, +2, dtype='float32') |
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| 211 | c.norm = a |
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| 212 | decrease = sum((a[1:] - a [0]) / k[1:]) / sum(a[1:]) |
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| 213 | assert_almost_equal (decrease, o(c), decimal = 5) |
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| 214 | |
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| 215 | a = arange(0, c.length * 2, +2, dtype='float32') |
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| 216 | c.norm = a * 2 |
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| 217 | decrease = sum((a[1:] - a [0]) / k[1:]) / sum(a[1:]) |
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| 218 | assert_almost_equal (decrease, o(c), decimal = 5) |
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| 219 | |
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| 220 | def test_rolloff(self): |
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| 221 | o = specdesc("rolloff") |
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| 222 | c = cvec() |
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| 223 | assert_equal( 0., o(c)) |
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| 224 | a = arange(c.length * 2, 0, -2, dtype='float32') |
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| 225 | k = arange(c.length, dtype='float32') |
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| 226 | c.norm = a |
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| 227 | cumsum = .95*sum(a*a) |
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| 228 | i = 0; rollsum = 0 |
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| 229 | while rollsum < cumsum: |
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| 230 | rollsum += a[i]*a[i] |
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| 231 | i+=1 |
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| 232 | rolloff = i |
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| 233 | assert_equal (rolloff, o(c)) |
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| 234 | |
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[312826c] | 235 | |
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[0536612] | 236 | if __name__ == '__main__': |
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| 237 | from unittest import main |
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| 238 | main() |
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