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annotate src/EM.cpp @ 101:2290f73923f7 bqvec

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author Chris Cannam
date Tue, 06 May 2014 15:09:16 +0100
parents 8259193b3b16
children 19f6832fdc8a
rev   line source
Chris@34 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
Chris@34 2
Chris@34 3 /*
Chris@34 4 Silvet
Chris@34 5
Chris@34 6 A Vamp plugin for note transcription.
Chris@34 7 Centre for Digital Music, Queen Mary University of London.
Chris@34 8
Chris@34 9 This program is free software; you can redistribute it and/or
Chris@34 10 modify it under the terms of the GNU General Public License as
Chris@34 11 published by the Free Software Foundation; either version 2 of the
Chris@34 12 License, or (at your option) any later version. See the file
Chris@34 13 COPYING included with this distribution for more information.
Chris@34 14 */
Chris@34 15
Chris@34 16 #include "EM.h"
Chris@34 17
Chris@34 18 #include "data/include/templates.h"
Chris@34 19
Chris@36 20 #include <cstdlib>
Chris@42 21 #include <cmath>
Chris@36 22
Chris@36 23 #include <iostream>
Chris@36 24
Chris@91 25 #include "VectorOps.h"
Chris@91 26 #include "Allocators.h"
Chris@36 27
Chris@36 28 using std::vector;
Chris@36 29 using std::cerr;
Chris@36 30 using std::endl;
Chris@36 31
Chris@91 32 using namespace breakfastquay;
Chris@91 33
Chris@35 34 static double epsilon = 1e-16;
Chris@35 35
Chris@35 36 EM::EM() :
Chris@45 37 m_noteCount(SILVET_TEMPLATE_NOTE_COUNT),
Chris@45 38 m_shiftCount(SILVET_TEMPLATE_MAX_SHIFT * 2 + 1),
Chris@45 39 m_binCount(SILVET_TEMPLATE_HEIGHT),
Chris@91 40 m_sourceCount(SILVET_TEMPLATE_COUNT),
Chris@42 41 m_pitchSparsity(1.1),
Chris@83 42 m_sourceSparsity(1.3),
Chris@83 43 m_lowestPitch(silvet_templates_lowest_note),
Chris@83 44 m_highestPitch(silvet_templates_highest_note)
Chris@35 45 {
Chris@91 46 m_pitches = allocate<double>(m_noteCount);
Chris@100 47 m_updatePitches = allocate<double>(m_noteCount);
Chris@55 48 for (int n = 0; n < m_noteCount; ++n) {
Chris@55 49 m_pitches[n] = drand48();
Chris@55 50 }
Chris@35 51
Chris@91 52 m_shifts = allocate_channels<double>(m_shiftCount, m_noteCount);
Chris@100 53 m_updateShifts = allocate_channels<double>(m_shiftCount, m_noteCount);
Chris@55 54 for (int f = 0; f < m_shiftCount; ++f) {
Chris@55 55 for (int n = 0; n < m_noteCount; ++n) {
Chris@55 56 m_shifts[f][n] = drand48();
Chris@55 57 }
Chris@35 58 }
Chris@35 59
Chris@91 60 m_sources = allocate_channels<double>(m_sourceCount, m_noteCount);
Chris@100 61 m_updateSources = allocate_channels<double>(m_sourceCount, m_noteCount);
Chris@91 62 for (int i = 0; i < m_sourceCount; ++i) {
Chris@55 63 for (int n = 0; n < m_noteCount; ++n) {
Chris@35 64 m_sources[i][n] = (inRange(i, n) ? 1.0 : 0.0);
Chris@35 65 }
Chris@35 66 }
Chris@35 67
Chris@91 68 m_estimate = allocate<double>(m_binCount);
Chris@91 69 m_q = allocate<double>(m_binCount);
Chris@35 70 }
Chris@35 71
Chris@35 72 EM::~EM()
Chris@35 73 {
Chris@92 74 deallocate(m_q);
Chris@92 75 deallocate(m_estimate);
Chris@92 76 deallocate_channels(m_sources, m_sourceCount);
Chris@100 77 deallocate_channels(m_updateSources, m_sourceCount);
Chris@92 78 deallocate_channels(m_shifts, m_shiftCount);
Chris@100 79 deallocate_channels(m_updateShifts, m_shiftCount);
Chris@92 80 deallocate(m_pitches);
Chris@100 81 deallocate(m_updatePitches);
Chris@35 82 }
Chris@35 83
Chris@45 84 void
Chris@45 85 EM::rangeFor(int instrument, int &minPitch, int &maxPitch)
Chris@45 86 {
Chris@55 87 minPitch = silvet_templates[instrument].lowest;
Chris@55 88 maxPitch = silvet_templates[instrument].highest;
Chris@45 89 }
Chris@45 90
Chris@35 91 bool
Chris@45 92 EM::inRange(int instrument, int pitch)
Chris@35 93 {
Chris@45 94 int minPitch, maxPitch;
Chris@45 95 rangeFor(instrument, minPitch, maxPitch);
Chris@45 96 return (pitch >= minPitch && pitch <= maxPitch);
Chris@35 97 }
Chris@35 98
Chris@36 99 void
Chris@92 100 EM::normaliseColumn(double *column, int size)
Chris@36 101 {
Chris@92 102 double sum = v_sum(column, size);
Chris@92 103 v_scale(column, 1.0 / sum, size);
Chris@36 104 }
Chris@36 105
Chris@36 106 void
Chris@92 107 EM::normaliseGrid(double **grid, int size1, int size2)
Chris@53 108 {
Chris@92 109 double *denominators = allocate_and_zero<double>(size2);
Chris@53 110
Chris@92 111 for (int i = 0; i < size1; ++i) {
Chris@92 112 for (int j = 0; j < size2; ++j) {
Chris@55 113 denominators[j] += grid[i][j];
Chris@53 114 }
Chris@53 115 }
Chris@53 116
Chris@92 117 for (int i = 0; i < size1; ++i) {
Chris@92 118 v_divide(grid[i], denominators, size2);
Chris@53 119 }
Chris@92 120
Chris@92 121 deallocate(denominators);
Chris@53 122 }
Chris@53 123
Chris@53 124 void
Chris@92 125 EM::iterate(const double *column)
Chris@36 126 {
Chris@92 127 double *norm = allocate<double>(m_binCount);
Chris@92 128 v_copy(norm, column, m_binCount);
Chris@92 129 normaliseColumn(norm, m_binCount);
Chris@92 130 expectation(norm);
Chris@92 131 maximisation(norm);
Chris@95 132 deallocate(norm);
Chris@36 133 }
Chris@36 134
Chris@88 135 const double *
Chris@55 136 EM::templateFor(int instrument, int note, int shift)
Chris@45 137 {
Chris@45 138 return silvet_templates[instrument].data[note] + shift;
Chris@45 139 }
Chris@45 140
Chris@36 141 void
Chris@92 142 EM::expectation(const double *column)
Chris@36 143 {
Chris@62 144 // cerr << ".";
Chris@36 145
Chris@99 146 v_set(m_estimate, epsilon, m_binCount);
Chris@36 147
Chris@91 148 for (int i = 0; i < m_sourceCount; ++i) {
Chris@55 149 for (int n = 0; n < m_noteCount; ++n) {
Chris@83 150 const double pitch = m_pitches[n];
Chris@83 151 const double source = m_sources[i][n];
Chris@55 152 for (int f = 0; f < m_shiftCount; ++f) {
Chris@88 153 const double *w = templateFor(i, n, f);
Chris@83 154 const double shift = m_shifts[f][n];
Chris@83 155 const double factor = pitch * source * shift;
Chris@99 156 v_add_with_gain(m_estimate, w, factor, m_binCount);
Chris@36 157 }
Chris@36 158 }
Chris@36 159 }
Chris@36 160
Chris@45 161 for (int i = 0; i < m_binCount; ++i) {
Chris@36 162 m_q[i] = column[i] / m_estimate[i];
Chris@36 163 }
Chris@36 164 }
Chris@36 165
Chris@36 166 void
Chris@92 167 EM::maximisation(const double *column)
Chris@36 168 {
Chris@100 169 v_set(m_updatePitches, epsilon, m_noteCount);
Chris@92 170 for (int i = 0; i < m_shiftCount; ++i) {
Chris@100 171 v_set(m_updateShifts[i], epsilon, m_noteCount);
Chris@92 172 }
Chris@92 173 for (int i = 0; i < m_sourceCount; ++i) {
Chris@100 174 v_set(m_updateSources[i], epsilon, m_noteCount);
Chris@92 175 }
Chris@36 176
Chris@94 177 double *contributions = allocate<double>(m_binCount);
Chris@94 178
Chris@55 179 for (int n = 0; n < m_noteCount; ++n) {
Chris@85 180
Chris@85 181 const double pitch = m_pitches[n];
Chris@85 182
Chris@85 183 for (int f = 0; f < m_shiftCount; ++f) {
Chris@85 184
Chris@85 185 const double shift = m_shifts[f][n];
Chris@85 186
Chris@91 187 for (int i = 0; i < m_sourceCount; ++i) {
Chris@85 188
Chris@83 189 const double source = m_sources[i][n];
Chris@89 190 const double factor = pitch * source * shift;
Chris@88 191 const double *w = templateFor(i, n, f);
Chris@85 192
Chris@94 193 v_copy(contributions, w, m_binCount);
Chris@95 194 v_multiply(contributions, m_q, m_binCount);
Chris@94 195 v_scale(contributions, factor, m_binCount);
Chris@94 196
Chris@94 197 double total = v_sum(contributions, m_binCount);
Chris@94 198
Chris@86 199 if (n >= m_lowestPitch && n <= m_highestPitch) {
Chris@85 200
Chris@100 201 m_updatePitches[n] += total;
Chris@85 202
Chris@85 203 if (inRange(i, n)) {
Chris@100 204 m_updateSources[i][n] += total;
Chris@55 205 }
Chris@36 206 }
Chris@86 207
Chris@100 208 m_updateShifts[f][n] += total;
Chris@36 209 }
Chris@36 210 }
Chris@85 211 }
Chris@85 212
Chris@85 213 for (int n = 0; n < m_noteCount; ++n) {
Chris@42 214 if (m_pitchSparsity != 1.0) {
Chris@100 215 m_updatePitches[n] = pow(m_updatePitches[n], m_pitchSparsity);
Chris@42 216 }
Chris@85 217 if (m_sourceSparsity != 1.0) {
Chris@91 218 for (int i = 0; i < m_sourceCount; ++i) {
Chris@100 219 m_updateSources[i][n] = pow(m_updateSources[i][n], m_sourceSparsity);
Chris@42 220 }
Chris@36 221 }
Chris@36 222 }
Chris@85 223
Chris@100 224 normaliseColumn(m_updatePitches, m_noteCount);
Chris@100 225 normaliseGrid(m_updateShifts, m_shiftCount, m_noteCount);
Chris@100 226 normaliseGrid(m_updateSources, m_sourceCount, m_noteCount);
Chris@92 227
Chris@100 228 std::swap(m_pitches, m_updatePitches);
Chris@100 229 std::swap(m_shifts, m_updateShifts);
Chris@100 230 std::swap(m_sources, m_updateSources);
Chris@36 231 }
Chris@36 232
Chris@36 233