silvet: src/EM.cpp annotate

annotate src/EM.cpp @ 69:9c7e6086192d

Run again, with files normalised as in the MIREX tests

author	Chris Cannam
date	Tue, 29 Apr 2014 12:05:52 +0100
parents	3e7e3c610fae
children	a0dedcbfa628 e282930cfca7

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@36	25 #include <vector>
Chris@36	26
Chris@36	27 using std::vector;
Chris@36	28 using std::cerr;
Chris@36	29 using std::endl;
Chris@36	30
Chris@35	31 static double epsilon = 1e-16;
Chris@35	32
Chris@35	33 EM::EM() :
Chris@45	34 m_noteCount(SILVET_TEMPLATE_NOTE_COUNT),
Chris@45	35 m_shiftCount(SILVET_TEMPLATE_MAX_SHIFT * 2 + 1),
Chris@45	36 m_binCount(SILVET_TEMPLATE_HEIGHT),
Chris@45	37 m_instrumentCount(SILVET_TEMPLATE_COUNT),
Chris@42	38 m_pitchSparsity(1.1),
Chris@42	39 m_sourceSparsity(1.3)
Chris@35	40 {
Chris@55	41 m_lowestPitch = silvet_templates_lowest_note;
Chris@55	42 m_highestPitch = silvet_templates_highest_note;
Chris@35	43
Chris@55	44 m_pitches = V(m_noteCount);
Chris@55	45 for (int n = 0; n < m_noteCount; ++n) {
Chris@55	46 m_pitches[n] = drand48();
Chris@55	47 }
Chris@35	48
Chris@55	49 m_shifts = Grid(m_shiftCount);
Chris@55	50 for (int f = 0; f < m_shiftCount; ++f) {
Chris@55	51 m_shifts[f] = V(m_noteCount);
Chris@55	52 for (int n = 0; n < m_noteCount; ++n) {
Chris@55	53 m_shifts[f][n] = drand48();
Chris@55	54 }
Chris@35	55 }
Chris@35	56
Chris@45	57 m_sources = Grid(m_instrumentCount);
Chris@55	58 for (int i = 0; i < m_instrumentCount; ++i) {
Chris@55	59 m_sources[i] = V(m_noteCount);
Chris@55	60 for (int n = 0; n < m_noteCount; ++n) {
Chris@35	61 m_sources[i][n] = (inRange(i, n) ? 1.0 : 0.0);
Chris@35	62 }
Chris@35	63 }
Chris@35	64
Chris@45	65 m_estimate = V(m_binCount);
Chris@45	66 m_q = V(m_binCount);
Chris@35	67 }
Chris@35	68
Chris@35	69 EM::~EM()
Chris@35	70 {
Chris@35	71 }
Chris@35	72
Chris@45	73 void
Chris@45	74 EM::rangeFor(int instrument, int &minPitch, int &maxPitch)
Chris@45	75 {
Chris@55	76 minPitch = silvet_templates[instrument].lowest;
Chris@55	77 maxPitch = silvet_templates[instrument].highest;
Chris@45	78 }
Chris@45	79
Chris@35	80 bool
Chris@45	81 EM::inRange(int instrument, int pitch)
Chris@35	82 {
Chris@45	83 int minPitch, maxPitch;
Chris@45	84 rangeFor(instrument, minPitch, maxPitch);
Chris@45	85 return (pitch >= minPitch && pitch <= maxPitch);
Chris@35	86 }
Chris@35	87
Chris@36	88 void
Chris@55	89 EM::normaliseColumn(V &column)
Chris@36	90 {
Chris@36	91 double sum = 0.0;
Chris@36	92 for (int i = 0; i < (int)column.size(); ++i) {
Chris@36	93 sum += column[i];
Chris@36	94 }
Chris@36	95 for (int i = 0; i < (int)column.size(); ++i) {
Chris@36	96 column[i] /= sum;
Chris@36	97 }
Chris@36	98 }
Chris@36	99
Chris@36	100 void
Chris@55	101 EM::normaliseGrid(Grid &grid)
Chris@53	102 {
Chris@55	103 V denominators(grid[0].size());
Chris@53	104
Chris@55	105 for (int i = 0; i < (int)grid.size(); ++i) {
Chris@55	106 for (int j = 0; j < (int)grid[i].size(); ++j) {
Chris@55	107 denominators[j] += grid[i][j];
Chris@53	108 }
Chris@53	109 }
Chris@53	110
Chris@55	111 for (int i = 0; i < (int)grid.size(); ++i) {
Chris@55	112 for (int j = 0; j < (int)grid[i].size(); ++j) {
Chris@55	113 grid[i][j] /= denominators[j];
Chris@53	114 }
Chris@53	115 }
Chris@53	116 }
Chris@53	117
Chris@53	118 void
Chris@36	119 EM::iterate(V column)
Chris@36	120 {
Chris@55	121 normaliseColumn(column);
Chris@36	122 expectation(column);
Chris@36	123 maximisation(column);
Chris@36	124 }
Chris@36	125
Chris@45	126 const float *
Chris@55	127 EM::templateFor(int instrument, int note, int shift)
Chris@45	128 {
Chris@45	129 return silvet_templates[instrument].data[note] + shift;
Chris@45	130 }
Chris@45	131
Chris@36	132 void
Chris@36	133 EM::expectation(const V &column)
Chris@36	134 {
Chris@62	135 // cerr << ".";
Chris@36	136
Chris@45	137 for (int i = 0; i < m_binCount; ++i) {
Chris@36	138 m_estimate[i] = epsilon;
Chris@36	139 }
Chris@36	140
Chris@45	141 for (int i = 0; i < m_instrumentCount; ++i) {
Chris@55	142 for (int n = 0; n < m_noteCount; ++n) {
Chris@55	143 for (int f = 0; f < m_shiftCount; ++f) {
Chris@55	144 const float *w = templateFor(i, n, f);
Chris@55	145 double pitch = m_pitches[n];
Chris@55	146 double source = m_sources[i][n];
Chris@55	147 double shift = m_shifts[f][n];
Chris@55	148 for (int j = 0; j < m_binCount; ++j) {
Chris@55	149 m_estimate[j] += w[j] * pitch * source * shift;
Chris@55	150 }
Chris@36	151 }
Chris@36	152 }
Chris@36	153 }
Chris@36	154
Chris@45	155 for (int i = 0; i < m_binCount; ++i) {
Chris@36	156 m_q[i] = column[i] / m_estimate[i];
Chris@36	157 }
Chris@36	158 }
Chris@36	159
Chris@36	160 void
Chris@36	161 EM::maximisation(const V &column)
Chris@36	162 {
Chris@36	163 V newPitches = m_pitches;
Chris@36	164
Chris@55	165 for (int n = 0; n < m_noteCount; ++n) {
Chris@36	166 newPitches[n] = epsilon;
Chris@45	167 if (n >= m_lowestPitch && n <= m_highestPitch) {
Chris@45	168 for (int i = 0; i < m_instrumentCount; ++i) {
Chris@55	169 for (int f = 0; f < m_shiftCount; ++f) {
Chris@55	170 const float *w = templateFor(i, n, f);
Chris@55	171 double pitch = m_pitches[n];
Chris@55	172 double source = m_sources[i][n];
Chris@55	173 double shift = m_shifts[f][n];
Chris@55	174 for (int j = 0; j < m_binCount; ++j) {
Chris@55	175 newPitches[n] += w[j] * m_q[j] * pitch * source * shift;
Chris@55	176 }
Chris@36	177 }
Chris@36	178 }
Chris@36	179 }
Chris@42	180 if (m_pitchSparsity != 1.0) {
Chris@42	181 newPitches[n] = pow(newPitches[n], m_pitchSparsity);
Chris@42	182 }
Chris@36	183 }
Chris@55	184 normaliseColumn(newPitches);
Chris@55	185
Chris@55	186 Grid newShifts = m_shifts;
Chris@55	187
Chris@55	188 for (int f = 0; f < m_shiftCount; ++f) {
Chris@55	189 for (int n = 0; n < m_noteCount; ++n) {
Chris@55	190 newShifts[f][n] = epsilon;
Chris@55	191 for (int i = 0; i < m_instrumentCount; ++i) {
Chris@55	192 const float *w = templateFor(i, n, f);
Chris@55	193 double pitch = m_pitches[n];
Chris@55	194 double source = m_sources[i][n];
Chris@55	195 double shift = m_shifts[f][n];
Chris@55	196 for (int j = 0; j < m_binCount; ++j) {
Chris@55	197 newShifts[f][n] += w[j] * m_q[j] * pitch * source * shift;
Chris@55	198 }
Chris@55	199 }
Chris@55	200 }
Chris@55	201 }
Chris@55	202 normaliseGrid(newShifts);
Chris@36	203
Chris@36	204 Grid newSources = m_sources;
Chris@36	205
Chris@45	206 for (int i = 0; i < m_instrumentCount; ++i) {
Chris@55	207 for (int n = 0; n < m_noteCount; ++n) {
Chris@36	208 newSources[i][n] = epsilon;
Chris@36	209 if (inRange(i, n)) {
Chris@55	210 for (int f = 0; f < m_shiftCount; ++f) {
Chris@55	211 const float *w = templateFor(i, n, f);
Chris@55	212 double pitch = m_pitches[n];
Chris@55	213 double source = m_sources[i][n];
Chris@55	214 double shift = m_shifts[f][n];
Chris@55	215 for (int j = 0; j < m_binCount; ++j) {
Chris@55	216 newSources[i][n] += w[j] * m_q[j] * pitch * source * shift;
Chris@55	217 }
Chris@36	218 }
Chris@36	219 }
Chris@42	220 if (m_sourceSparsity != 1.0) {
Chris@42	221 newSources[i][n] = pow(newSources[i][n], m_sourceSparsity);
Chris@42	222 }
Chris@36	223 }
Chris@36	224 }
Chris@55	225 normaliseGrid(newSources);
Chris@36	226
Chris@36	227 m_pitches = newPitches;
Chris@55	228 m_shifts = newShifts;
Chris@36	229 m_sources = newSources;
Chris@36	230 }
Chris@36	231
Chris@36	232

Mercurial > hg > silvet

annotate src/EM.cpp @ 69:9c7e6086192d