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annotate data/model/test/TestFFTModel.h @ 1886:f803d3c33f76 tip

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Switch off copious debug in soft synth driving
author Chris Cannam
date Fri, 14 Aug 2020 10:44:44 +0100
parents 6d09d68165a4
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Chris@1086 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
Chris@1086 2
Chris@1086 3 /*
Chris@1086 4 Sonic Visualiser
Chris@1086 5 An audio file viewer and annotation editor.
Chris@1086 6 Centre for Digital Music, Queen Mary, University of London.
Chris@1086 7
Chris@1086 8 This program is free software; you can redistribute it and/or
Chris@1086 9 modify it under the terms of the GNU General Public License as
Chris@1086 10 published by the Free Software Foundation; either version 2 of the
Chris@1086 11 License, or (at your option) any later version. See the file
Chris@1086 12 COPYING included with this distribution for more information.
Chris@1086 13 */
Chris@1086 14
Chris@1086 15 #ifndef TEST_FFT_MODEL_H
Chris@1086 16 #define TEST_FFT_MODEL_H
Chris@1086 17
Chris@1086 18 #include "../FFTModel.h"
Chris@1086 19
Chris@1086 20 #include "MockWaveModel.h"
Chris@1086 21
Chris@1086 22 #include "Compares.h"
Chris@1086 23
Chris@1086 24 #include <QObject>
Chris@1086 25 #include <QtTest>
Chris@1086 26 #include <QDir>
Chris@1086 27
Chris@1086 28 #include <iostream>
Chris@1088 29 #include <complex>
Chris@1086 30
Chris@1086 31 using namespace std;
Chris@1086 32
Chris@1086 33 class TestFFTModel : public QObject
Chris@1086 34 {
Chris@1086 35 Q_OBJECT
Chris@1086 36
Chris@1088 37 private:
Chris@1744 38 void test(ModelId model, // a DenseTimeValueModel
Chris@1088 39 WindowType window, int windowSize, int windowIncrement, int fftSize,
Chris@1088 40 int columnNo, vector<vector<complex<float>>> expectedValues,
Chris@1088 41 int expectedWidth) {
Chris@1088 42 for (int ch = 0; in_range_for(expectedValues, ch); ++ch) {
Chris@1091 43 FFTModel fftm(model, ch, window, windowSize, windowIncrement, fftSize);
Chris@1091 44 QCOMPARE(fftm.getWidth(), expectedWidth);
Chris@1091 45 int hs1 = fftSize/2 + 1;
Chris@1091 46 QCOMPARE(fftm.getHeight(), hs1);
Chris@1091 47 vector<float> reals(hs1 + 1, 0.f);
Chris@1091 48 vector<float> imags(hs1 + 1, 0.f);
Chris@1091 49 reals[hs1] = 999.f; // overrun guards
Chris@1091 50 imags[hs1] = 999.f;
Chris@1099 51 for (int stepThrough = 0; stepThrough <= 1; ++stepThrough) {
Chris@1099 52 if (stepThrough) {
Chris@1099 53 // Read through the columns in order instead of
Chris@1099 54 // randomly accessing the one we want. This is to
Chris@1099 55 // exercise the case where the FFT model saves
Chris@1099 56 // part of each input frame and moves along by
Chris@1099 57 // only the non-overlapping distance
Chris@1099 58 for (int sc = 0; sc < columnNo; ++sc) {
Chris@1099 59 fftm.getValuesAt(sc, &reals[0], &imags[0]);
Chris@1088 60 }
Chris@1099 61 }
Chris@1088 62 fftm.getValuesAt(columnNo, &reals[0], &imags[0]);
Chris@1088 63 for (int i = 0; i < hs1; ++i) {
Chris@1088 64 float eRe = expectedValues[ch][i].real();
Chris@1088 65 float eIm = expectedValues[ch][i].imag();
Chris@1099 66 float thresh = 1e-5f;
Chris@1099 67 if (abs(reals[i] - eRe) > thresh ||
Chris@1099 68 abs(imags[i] - eIm) > thresh) {
Chris@1428 69 SVCERR << "ERROR: output is not as expected for column "
Chris@1099 70 << i << " in channel " << ch << " (stepThrough = "
Chris@1099 71 << stepThrough << ")" << endl;
Chris@1428 72 SVCERR << "expected : ";
Chris@1088 73 for (int j = 0; j < hs1; ++j) {
Chris@1428 74 SVCERR << expectedValues[ch][j] << " ";
Chris@1088 75 }
Chris@1428 76 SVCERR << "\nactual : ";
Chris@1088 77 for (int j = 0; j < hs1; ++j) {
Chris@1428 78 SVCERR << complex<float>(reals[j], imags[j]) << " ";
Chris@1088 79 }
Chris@1428 80 SVCERR << endl;
Chris@1088 81 }
Chris@1110 82 COMPARE_FUZZIER_F(reals[i], eRe);
Chris@1110 83 COMPARE_FUZZIER_F(imags[i], eIm);
Chris@1088 84 }
Chris@1088 85 QCOMPARE(reals[hs1], 999.f);
Chris@1088 86 QCOMPARE(imags[hs1], 999.f);
Chris@1088 87 }
Chris@1088 88 }
Chris@1088 89 }
Chris@1089 90
Chris@1744 91 ModelId makeMock(std::vector<Sort> sorts, int length, int pad) {
Chris@1744 92 auto mwm = std::make_shared<MockWaveModel>(sorts, length, pad);
Chris@1752 93 return ModelById::add(mwm);
Chris@1744 94 }
Chris@1744 95
Chris@1744 96 void releaseMock(ModelId id) {
Chris@1744 97 ModelById::release(id);
Chris@1744 98 }
Chris@1744 99
Chris@1086 100 private slots:
Chris@1086 101
Chris@1088 102 // NB. FFTModel columns are centred on the sample frame, and in
Chris@1088 103 // particular this means column 0 is centred at sample 0 (i.e. it
Chris@1088 104 // contains only half the window-size worth of real samples, the
Chris@1088 105 // others are 0-valued from before the origin). Generally in
Chris@1088 106 // these tests we are padding our signal with half a window of
Chris@1088 107 // zeros, in order that the result for column 0 is all zeros
Chris@1088 108 // (rather than something with a step in it that is harder to
Chris@1088 109 // reason about the FFT of) and the results for subsequent columns
Chris@1088 110 // are those of our expected signal.
Chris@1089 111
Chris@1088 112 void dc_simple_rect() {
Chris@1744 113 auto mwm = makeMock({ DC }, 16, 4);
Chris@1744 114 test(mwm, RectangularWindow, 8, 8, 8, 0,
Chris@1088 115 { { {}, {}, {}, {}, {} } }, 4);
Chris@1744 116 test(mwm, RectangularWindow, 8, 8, 8, 1,
Chris@1088 117 { { { 4.f, 0.f }, {}, {}, {}, {} } }, 4);
Chris@1744 118 test(mwm, RectangularWindow, 8, 8, 8, 2,
Chris@1088 119 { { { 4.f, 0.f }, {}, {}, {}, {} } }, 4);
Chris@1744 120 test(mwm, RectangularWindow, 8, 8, 8, 3,
Chris@1089 121 { { {}, {}, {}, {}, {} } }, 4);
Chris@1744 122 releaseMock(mwm);
Chris@1088 123 }
Chris@1088 124
Chris@1088 125 void dc_simple_hann() {
Chris@1088 126 // The Hann window function is a simple sinusoid with period
Chris@1088 127 // equal to twice the window size, and it halves the DC energy
Chris@1744 128 auto mwm = makeMock({ DC }, 16, 4);
Chris@1744 129 test(mwm, HanningWindow, 8, 8, 8, 0,
Chris@1088 130 { { {}, {}, {}, {}, {} } }, 4);
Chris@1744 131 test(mwm, HanningWindow, 8, 8, 8, 1,
Chris@1088 132 { { { 4.f, 0.f }, { 2.f, 0.f }, {}, {}, {} } }, 4);
Chris@1744 133 test(mwm, HanningWindow, 8, 8, 8, 2,
Chris@1088 134 { { { 4.f, 0.f }, { 2.f, 0.f }, {}, {}, {} } }, 4);
Chris@1744 135 test(mwm, HanningWindow, 8, 8, 8, 3,
Chris@1089 136 { { {}, {}, {}, {}, {} } }, 4);
Chris@1744 137 releaseMock(mwm);
Chris@1088 138 }
Chris@1088 139
Chris@1099 140 void dc_simple_hann_halfoverlap() {
Chris@1744 141 auto mwm = makeMock({ DC }, 16, 4);
Chris@1744 142 test(mwm, HanningWindow, 8, 4, 8, 0,
Chris@1099 143 { { {}, {}, {}, {}, {} } }, 7);
Chris@1744 144 test(mwm, HanningWindow, 8, 4, 8, 2,
Chris@1099 145 { { { 4.f, 0.f }, { 2.f, 0.f }, {}, {}, {} } }, 7);
Chris@1744 146 test(mwm, HanningWindow, 8, 4, 8, 3,
Chris@1099 147 { { { 4.f, 0.f }, { 2.f, 0.f }, {}, {}, {} } }, 7);
Chris@1744 148 test(mwm, HanningWindow, 8, 4, 8, 6,
Chris@1099 149 { { {}, {}, {}, {}, {} } }, 7);
Chris@1744 150 releaseMock(mwm);
Chris@1099 151 }
Chris@1099 152
Chris@1089 153 void sine_simple_rect() {
Chris@1744 154 auto mwm = makeMock({ Sine }, 16, 4);
Chris@1091 155 // Sine: output is purely imaginary. Note the sign is flipped
Chris@1091 156 // (normally the first half of the output would have negative
Chris@1091 157 // sign for a sine starting at 0) because the model does an
Chris@1091 158 // FFT shift to centre the phase
Chris@1744 159 test(mwm, RectangularWindow, 8, 8, 8, 0,
Chris@1089 160 { { {}, {}, {}, {}, {} } }, 4);
Chris@1744 161 test(mwm, RectangularWindow, 8, 8, 8, 1,
Chris@1089 162 { { {}, { 0.f, 2.f }, {}, {}, {} } }, 4);
Chris@1744 163 test(mwm, RectangularWindow, 8, 8, 8, 2,
Chris@1089 164 { { {}, { 0.f, 2.f }, {}, {}, {} } }, 4);
Chris@1744 165 test(mwm, RectangularWindow, 8, 8, 8, 3,
Chris@1089 166 { { {}, {}, {}, {}, {} } }, 4);
Chris@1744 167 releaseMock(mwm);
Chris@1089 168 }
Chris@1089 169
Chris@1089 170 void cosine_simple_rect() {
Chris@1744 171 auto mwm = makeMock({ Cosine }, 16, 4);
Chris@1091 172 // Cosine: output is purely real. Note the sign is flipped
Chris@1091 173 // because the model does an FFT shift to centre the phase
Chris@1744 174 test(mwm, RectangularWindow, 8, 8, 8, 0,
Chris@1089 175 { { {}, {}, {}, {}, {} } }, 4);
Chris@1744 176 test(mwm, RectangularWindow, 8, 8, 8, 1,
Chris@1091 177 { { {}, { -2.f, 0.f }, {}, {}, {} } }, 4);
Chris@1744 178 test(mwm, RectangularWindow, 8, 8, 8, 2,
Chris@1091 179 { { {}, { -2.f, 0.f }, {}, {}, {} } }, 4);
Chris@1744 180 test(mwm, RectangularWindow, 8, 8, 8, 3,
Chris@1089 181 { { {}, {}, {}, {}, {} } }, 4);
Chris@1744 182 releaseMock(mwm);
Chris@1089 183 }
Chris@1089 184
Chris@1104 185 void twochan_simple_rect() {
Chris@1744 186 auto mwm = makeMock({ Sine, Cosine }, 16, 4);
Chris@1104 187 // Test that the two channels are read and converted separately
Chris@1744 188 test(mwm, RectangularWindow, 8, 8, 8, 0,
Chris@1104 189 {
Chris@1104 190 { {}, {}, {}, {}, {} },
Chris@1104 191 { {}, {}, {}, {}, {} }
Chris@1104 192 }, 4);
Chris@1744 193 test(mwm, RectangularWindow, 8, 8, 8, 1,
Chris@1104 194 {
Chris@1104 195 { {}, { 0.f, 2.f }, {}, {}, {} },
Chris@1104 196 { {}, { -2.f, 0.f }, {}, {}, {} }
Chris@1104 197 }, 4);
Chris@1744 198 test(mwm, RectangularWindow, 8, 8, 8, 2,
Chris@1104 199 {
Chris@1104 200 { {}, { 0.f, 2.f }, {}, {}, {} },
Chris@1104 201 { {}, { -2.f, 0.f }, {}, {}, {} }
Chris@1104 202 }, 4);
Chris@1744 203 test(mwm, RectangularWindow, 8, 8, 8, 3,
Chris@1104 204 {
Chris@1104 205 { {}, {}, {}, {}, {} },
Chris@1104 206 { {}, {}, {}, {}, {} }
Chris@1104 207 }, 4);
Chris@1744 208 releaseMock(mwm);
Chris@1104 209 }
Chris@1104 210
Chris@1089 211 void nyquist_simple_rect() {
Chris@1744 212 auto mwm = makeMock({ Nyquist }, 16, 4);
Chris@1091 213 // Again, the sign is flipped. This has the same amount of
Chris@1091 214 // energy as the DC example
Chris@1744 215 test(mwm, RectangularWindow, 8, 8, 8, 0,
Chris@1089 216 { { {}, {}, {}, {}, {} } }, 4);
Chris@1744 217 test(mwm, RectangularWindow, 8, 8, 8, 1,
Chris@1091 218 { { {}, {}, {}, {}, { -4.f, 0.f } } }, 4);
Chris@1744 219 test(mwm, RectangularWindow, 8, 8, 8, 2,
Chris@1091 220 { { {}, {}, {}, {}, { -4.f, 0.f } } }, 4);
Chris@1744 221 test(mwm, RectangularWindow, 8, 8, 8, 3,
Chris@1089 222 { { {}, {}, {}, {}, {} } }, 4);
Chris@1744 223 releaseMock(mwm);
Chris@1089 224 }
Chris@1089 225
Chris@1089 226 void dirac_simple_rect() {
Chris@1744 227 auto mwm = makeMock({ Dirac }, 16, 4);
Chris@1091 228 // The window scales by 0.5 and some signs are flipped. Only
Chris@1091 229 // column 1 has any data (the single impulse).
Chris@1744 230 test(mwm, RectangularWindow, 8, 8, 8, 0,
Chris@1089 231 { { {}, {}, {}, {}, {} } }, 4);
Chris@1744 232 test(mwm, RectangularWindow, 8, 8, 8, 1,
Chris@1091 233 { { { 0.5f, 0.f }, { -0.5f, 0.f }, { 0.5f, 0.f }, { -0.5f, 0.f }, { 0.5f, 0.f } } }, 4);
Chris@1744 234 test(mwm, RectangularWindow, 8, 8, 8, 2,
Chris@1091 235 { { {}, {}, {}, {}, {} } }, 4);
Chris@1744 236 test(mwm, RectangularWindow, 8, 8, 8, 3,
Chris@1089 237 { { {}, {}, {}, {}, {} } }, 4);
Chris@1744 238 releaseMock(mwm);
Chris@1089 239 }
Chris@1091 240
Chris@1091 241 void dirac_simple_rect_2() {
Chris@1744 242 auto mwm = makeMock({ Dirac }, 16, 8);
Chris@1091 243 // With 8 samples padding, the FFT shift places the first
Chris@1091 244 // Dirac impulse at the start of column 1, thus giving all
Chris@1091 245 // positive values
Chris@1744 246 test(mwm, RectangularWindow, 8, 8, 8, 0,
Chris@1091 247 { { {}, {}, {}, {}, {} } }, 5);
Chris@1744 248 test(mwm, RectangularWindow, 8, 8, 8, 1,
Chris@1091 249 { { { 0.5f, 0.f }, { 0.5f, 0.f }, { 0.5f, 0.f }, { 0.5f, 0.f }, { 0.5f, 0.f } } }, 5);
Chris@1744 250 test(mwm, RectangularWindow, 8, 8, 8, 2,
Chris@1091 251 { { {}, {}, {}, {}, {} } }, 5);
Chris@1744 252 test(mwm, RectangularWindow, 8, 8, 8, 3,
Chris@1091 253 { { {}, {}, {}, {}, {} } }, 5);
Chris@1744 254 test(mwm, RectangularWindow, 8, 8, 8, 4,
Chris@1091 255 { { {}, {}, {}, {}, {} } }, 5);
Chris@1744 256 releaseMock(mwm);
Chris@1091 257 }
Chris@1089 258
Chris@1099 259 void dirac_simple_rect_halfoverlap() {
Chris@1744 260 auto mwm = makeMock({ Dirac }, 16, 4);
Chris@1744 261 test(mwm, RectangularWindow, 8, 4, 8, 0,
Chris@1099 262 { { {}, {}, {}, {}, {} } }, 7);
Chris@1744 263 test(mwm, RectangularWindow, 8, 4, 8, 1,
Chris@1099 264 { { { 0.5f, 0.f }, { 0.5f, 0.f }, { 0.5f, 0.f }, { 0.5f, 0.f }, { 0.5f, 0.f } } }, 7);
Chris@1744 265 test(mwm, RectangularWindow, 8, 4, 8, 2,
Chris@1099 266 { { { 0.5f, 0.f }, { -0.5f, 0.f }, { 0.5f, 0.f }, { -0.5f, 0.f }, { 0.5f, 0.f } } }, 7);
Chris@1744 267 test(mwm, RectangularWindow, 8, 4, 8, 3,
Chris@1099 268 { { {}, {}, {}, {}, {} } }, 7);
Chris@1744 269 releaseMock(mwm);
Chris@1086 270 }
Chris@1086 271
Chris@1086 272 };
Chris@1086 273
Chris@1086 274 #endif