Mercurial > hg > multitrack-audio-matcher

annotate src/AudioEventMatcher.cpp @ 14:0a52258accec

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
tmp commit
author Andrew N Robertson <andrew.robertson@eecs.qmul.ac.uk>
date Sun, 05 Feb 2012 09:58:56 +0000
parents 66783ace7506
children 780def3a1f36
rev   line source
andrew@0 1 /*
andrew@0 2 * AudioEventMatcher.cpp
andrew@0 3 * MultipleAudioMathcher
andrew@0 4 *
andrew@0 5 * Created by Andrew on 31/01/2012.
andrew@0 6 * Copyright 2012 QMUL. All rights reserved.
andrew@0 7 *
andrew@0 8 */
andrew@0 9
andrew@0 10 #include "AudioEventMatcher.h"
andrew@0 11
andrew@0 12
andrew@2 13 const int matchWindowWidth = 6000;
andrew@0 14
andrew@0 15 AudioEventMatcher::AudioEventMatcher(){
andrew@7 16
andrew@0 17 setArraySizes();
andrew@3 18
andrew@3 19 usingRealTime = false;
andrew@3 20 bayesianStruct.realTimeMode = &usingRealTime;
andrew@7 21 recentPitch = 0;
andrew@8 22 currentAlignmentPosition = 0;
andrew@14 23
andrew@14 24 onsetLikelihoodWidth = 20;
andrew@9 25
andrew@9 26 followingLiveInput = true;
andrew@0 27 }
andrew@0 28
andrew@14 29
andrew@7 30 void AudioEventMatcher::setWindowDimensions(){
andrew@7 31 double startHeight = recordedTracks.numberOfAudioTracks * recordedTracks.trackScreenHeight;
andrew@7 32 double heightAvailable = 1 - startHeight;
andrew@7 33 heightAvailable /= 3.0;
andrew@7 34
andrew@7 35 bayesPositionWindow.setToRelativeSize(0, startHeight, 1, heightAvailable);
andrew@7 36 bayesLikelihoodWindow.setToRelativeSize(0, startHeight + 1*heightAvailable, 1, heightAvailable);
andrew@7 37 bayesTempoWindow.setToRelativeSize(0, startHeight + 2*heightAvailable, 1, heightAvailable);
andrew@7 38
andrew@7 39
andrew@7 40 }
andrew@0 41
andrew@0 42 void AudioEventMatcher::setArraySizes(){
andrew@0 43 bayesianStruct.resetSpeedSize(200);
andrew@0 44 bayesianStruct.setRelativeSpeedScalar(0.01);
andrew@0 45 bayesianStruct.setSpeedPrior(1.0);
andrew@0 46 bayesianStruct.relativeSpeedPrior.getMaximum();
andrew@0 47
andrew@0 48 bayesianStruct.resetSize(matchWindowWidth);
andrew@0 49 bayesianStruct.setPositionDistributionScalar(1);
andrew@0 50
andrew@0 51 }
andrew@0 52
andrew@9 53 void AudioEventMatcher::startPlaying(){
andrew@3 54 bayesianStruct.setStartPlaying();
andrew@8 55 currentAlignmentPosition = 0;
andrew@8 56 startTime = ofGetElapsedTimeMillis();
andrew@11 57
andrew@11 58 projectedPrior = bayesianStruct.prior;
andrew@3 59 //bayesianStruct.posterior.printArray();
andrew@3 60 }
andrew@3 61
andrew@9 62
andrew@9 63 void AudioEventMatcher::updatePosition(){
andrew@9 64 if (!followingLiveInput)
andrew@9 65 recordedTracks.updatePosition();
andrew@9 66 else
andrew@9 67 recordedTracks.updatePositionToMillis(currentAlignmentPosition);
andrew@9 68
andrew@9 69 updateBestAlignmentPosition();
andrew@9 70 }
andrew@9 71
andrew@8 72 void AudioEventMatcher::updateBestAlignmentPosition(){
andrew@10 73 //THIS DEALS WITH WHERE WE ARE NOW! ON THE SCREEN
andrew@10 74 //DIFFERENT TO WHEN EVENTS COME IN AS THEY ARE TIMESTAMPED - SO EG A PITCH EVENT MAY ARRIVE 16 CHROMA FRAMES LATER - BIG DIFFERENCE
andrew@10 75
andrew@10 76 int newTime = ofGetElapsedTimeMillis() - startTime;
andrew@10 77 // double tmp = bayesianStruct.posterior.getIndexInRealTerms(bayesianStruct.posterior.MAPestimate);;
andrew@10 78 // double timetmp = (newTime - lastAlignmentTime);
andrew@10 79 // double speedtmp = bayesianStruct.relativeSpeedPosterior.getIndexInRealTerms(bayesianStruct.relativeSpeedPosterior.MAPestimate);
andrew@11 80 // currentAlignmentTime = newTime;
andrew@9 81 currentAlignmentPosition = bayesianStruct.posterior.getIndexInRealTerms(bayesianStruct.posterior.MAPestimate);
andrew@10 82 currentAlignmentPosition += (newTime - lastAlignmentTime) * bayesianStruct.relativeSpeedPosterior.getIndexInRealTerms(bayesianStruct.relativeSpeedPosterior.MAPestimate);
andrew@10 83
andrew@11 84 bayesianStruct.projectDistribution(newTime, currentAlignmentPosition, projectedPrior);//prior gets updated to where we are now
andrew@11 85
andrew@10 86 // printf("ALIGN pos %f time diff %f (now %f , last %f)speed %f :: ALIGN BEST %f\n", tmp, timetmp, (double)ofGetElapsedTimeMillis(), lastAlignmentTime, speedtmp, currentAlignmentPosition);
andrew@8 87 }
andrew@8 88
andrew@0 89 void AudioEventMatcher::draw(){
andrew@6 90 //draw some outlines in blue
andrew@3 91 ofSetColor(20,200,200);
andrew@3 92 bayesPositionWindow.drawOutline();
andrew@3 93 bayesTempoWindow.drawOutline();
andrew@0 94
andrew@6 95 //draw the scrolling audio tracks
andrew@1 96 recordedTracks.drawTracks();
andrew@7 97
andrew@2 98 ofSetColor(255);
andrew@2 99 // bayesianStruct.relativeSpeedPrior.drawVector(0, 200, bayesTempoWindow);
andrew@9 100
andrew@9 101 setScreenDisplayTimes();
andrew@6 102 drawBayesianDistributions();
andrew@8 103
andrew@11 104 //bayesianStruct.posterior.drawVector(0, bayesianStruct.posterior.getRealTermsAsIndex(screenWidthMillis), bayesPositionWindow);
andrew@6 105 //bayesianStruct.posterior.drawVector(bayesianStruct.posterior.getRealTermsAsIndex(0), bayesianStruct.posterior.getRealTermsAsIndex(screenWidthMillis), bayesPositionWindow);
andrew@11 106 //bayesianStruct.relativeSpeedPosterior.drawVector(0, bayesianStruct.relativeSpeedPosterior.getRealTermsAsIndex(2), bayesTempoWindow);
andrew@6 107
andrew@7 108 ofDrawBitmapString("pitch "+ofToString(recentPitch, 2)+", Time "+ofToString(recentTime, 0), 20, 20);
andrew@9 109
andrew@9 110 ofDrawBitmapString("pos "+ofToString(recordedTracks.loadedAudioFiles[0].fileLoader.onsetDetect.playPosition), 200,600);
andrew@6 111 }
andrew@6 112
andrew@9 113 void AudioEventMatcher::setScreenDisplayTimes(){
andrew@9 114 screenWidthMillis = recordedTracks.loadedAudioFiles[0].fileLoader.onsetDetect.framesToMillis(recordedTracks.loadedAudioFiles[0].fileLoader.onsetDetect.amplitudeNumber);
andrew@9 115 // if (!followingLiveInput){
andrew@9 116
andrew@9 117 screenStartTimeMillis = recordedTracks.loadedAudioFiles[0].fileLoader.onsetDetect.framesToMillis(recordedTracks.loadedAudioFiles[0].fileLoader.onsetDetect.drawParams.windowStartFrame);
andrew@9 118 screenEndTimeMillis = screenStartTimeMillis + screenWidthMillis;
andrew@9 119
andrew@9 120 //need PRECISION in this alignment
andrew@9 121
andrew@9 122
andrew@9 123 /*}else{
andrew@9 124
andrew@9 125 screenStartTimeMillis = (int)(currentAlignmentPosition/screenWidthMillis) * screenWidthMillis;
andrew@9 126 screenEndTimeMillis = screenStartTimeMillis + screenWidthMillis;
andrew@9 127 }*/
andrew@9 128 }
andrew@9 129
andrew@6 130 void AudioEventMatcher::drawBayesianDistributions(){
andrew@6 131
andrew@6 132
andrew@6 133 int startIndex = bayesianStruct.posterior.getRealTermsAsIndex(screenStartTimeMillis);
andrew@6 134 int endIndex = bayesianStruct.posterior.getRealTermsAsIndex(screenEndTimeMillis);
andrew@4 135
andrew@6 136 bayesianStruct.posterior.drawConstrainedVector(startIndex, endIndex, 0, ofGetWidth(), bayesPositionWindow);
andrew@6 137
andrew@6 138 string tmpString = "start "+ofToString(screenStartTimeMillis)+" (index "+ofToString(startIndex)+"), end "+ofToString(screenEndTimeMillis);
andrew@6 139 ofDrawBitmapString(tmpString, bayesPositionWindow.x+20, bayesPositionWindow.y+20);
andrew@4 140
andrew@8 141 // bayesianStruct.likelihood.drawConstrainedVector(startIndex, endIndex, 0, ofGetWidth(), bayesLikelihoodWindow);
andrew@2 142
andrew@6 143 bayesianStruct.relativeSpeedPosterior.drawConstrainedVector(0, bayesianStruct.relativeSpeedPosterior.arraySize, 0, ofGetWidth(), bayesTempoWindow);
andrew@6 144
andrew@3 145 string tmpStr = "zero is "+ofToString(bayesianStruct.posterior.getRealTermsAsIndex(0));
andrew@3 146 tmpStr += " offsetis "+ofToString(bayesianStruct.posterior.offset);
andrew@3 147 tmpStr += " screenWidth = "+ofToString(bayesianStruct.posterior.getRealTermsAsIndex(screenWidthMillis));
andrew@3 148 ofDrawBitmapString(tmpStr, 20,140);
andrew@3 149 tmpStr = "best est "+ofToString(bayesianStruct.bestEstimate);
andrew@3 150 ofDrawBitmapString(tmpStr, 20, 180);
andrew@3 151
andrew@8 152 ofDrawBitmapString("screenwidth "+ofToString(screenWidthMillis), 20, 800);
andrew@3 153
andrew@9 154 //green line at current best estimate
andrew@13 155 ofSetColor(0,255,0);//green scrolling line best position
andrew@8 156 double currentEstimateIndex = (currentAlignmentPosition - screenStartTimeMillis)*ofGetWidth()/screenWidthMillis;
andrew@8 157 ofLine(currentEstimateIndex, bayesPositionWindow.y, currentEstimateIndex, bayesPositionWindow.y + bayesPositionWindow.height);
andrew@7 158
andrew@7 159 //draw track by track likelihoods
andrew@7 160 for (int i = 0; i <recordedTracks.numberOfAudioTracks;i++){
andrew@13 161 ofSetColor(200,255,50);//channel likelihoods in yellow
andrew@8 162 likelihoodVisualisation[i].drawConstrainedVector(likelihoodVisualisation[i].getRealTermsAsIndex(screenStartTimeMillis), likelihoodVisualisation[i].getRealTermsAsIndex(screenEndTimeMillis), 0, ofGetWidth(), recordedTracks.loadedAudioFiles[i].fileLoader.onsetDetect.window);
andrew@11 163
andrew@13 164 ofSetColor(0,255,150);//channel priors
andrew@11 165 recentPriors[i].drawConstrainedVector(recentPriors[i].getRealTermsAsIndex(screenStartTimeMillis), recentPriors[i].getRealTermsAsIndex(screenEndTimeMillis), 0, ofGetWidth(), recordedTracks.loadedAudioFiles[i].fileLoader.onsetDetect.window);
andrew@11 166
andrew@11 167
andrew@8 168 ofSetColor(255);
andrew@8 169 ofDrawBitmapString("recent event "+ofToString(recentEventTime[i]), recordedTracks.loadedAudioFiles[i].fileLoader.onsetDetect.window.x + 20, recordedTracks.loadedAudioFiles[i].fileLoader.onsetDetect.window.y + recordedTracks.loadedAudioFiles[i].fileLoader.onsetDetect.window.height - 10);
andrew@7 170 }
andrew@8 171
andrew@13 172 int priorStartIndex = bayesianStruct.prior.getRealTermsAsIndex(screenStartTimeMillis);
andrew@13 173 int priorEndIndex = bayesianStruct.prior.getRealTermsAsIndex(screenEndTimeMillis);
andrew@13 174 // ofSetColor(0,200,200);//recent prior
andrew@13 175 // recentPrior.drawConstrainedVector(priorStartIndex, priorEndIndex, 0, ofGetWidth(), bayesPositionWindow);
andrew@8 176
andrew@10 177 ofSetColor(255,0,100);//purple prior
andrew@11 178 bayesianStruct.prior.drawConstrainedVector(bayesianStruct.prior.getRealTermsAsIndex(screenStartTimeMillis), bayesianStruct.prior.getRealTermsAsIndex(screenEndTimeMillis), 0, ofGetWidth(), bayesPositionWindow);
andrew@11 179
andrew@11 180 ofSetColor(255,0,0);
andrew@13 181 projectedPrior.drawConstrainedVector(bayesianStruct.prior.getRealTermsAsIndex(screenStartTimeMillis), bayesianStruct.prior.getRealTermsAsIndex(screenEndTimeMillis), 0, ofGetWidth(), bayesPositionWindow);
andrew@7 182
andrew@1 183 }
andrew@1 184
andrew@6 185 void AudioEventMatcher::newPitchEvent(const int& channel, const double& pitchIn, const double& timeIn){
andrew@7 186 if (pitchIn > 0){
andrew@1 187 liveInput.addPitchEvent(pitchIn, timeIn);
andrew@4 188
andrew@10 189 //printPosteriorMAPinfo();
andrew@11 190
andrew@7 191 matchNewPitchEvent(channel, pitchIn, timeIn);//main pitch matching fn
andrew@7 192
andrew@7 193 likelihoodVisualisation[1] = bayesianStruct.likelihood;
andrew@7 194
andrew@7 195 recentPitch = pitchIn;//for drawing
andrew@7 196 recentTime = timeIn;
andrew@7 197 }
andrew@8 198
andrew@2 199 }
andrew@2 200
andrew@6 201 void AudioEventMatcher::newKickEvent(const double& timeIn){
andrew@6 202 // liveInput.addKickEvent(timeIn);
andrew@2 203 matchNewOnsetEvent(0, timeIn);
andrew@7 204 likelihoodVisualisation[0] = bayesianStruct.likelihood;
andrew@2 205 }
andrew@2 206
andrew@6 207 void AudioEventMatcher::newKickEvent(const int& channel, const double& timeIn){
andrew@6 208 // liveInput.addKickEvent(timeIn);
andrew@6 209 matchNewOnsetEvent(channel, timeIn);
andrew@7 210 likelihoodVisualisation[0] = bayesianStruct.likelihood;
andrew@6 211 }
andrew@6 212
andrew@2 213
andrew@2 214 void AudioEventMatcher::newSnareEvent(const double& timeIn){
andrew@6 215 matchNewOnsetEvent(2, timeIn);
andrew@7 216 likelihoodVisualisation[2] = bayesianStruct.likelihood;
andrew@7 217 }
andrew@7 218
andrew@7 219
andrew@7 220 void AudioEventMatcher::newSnareEvent(const int& channel, const double& timeIn){
andrew@7 221 matchNewOnsetEvent(channel, timeIn);
andrew@7 222 likelihoodVisualisation[2] = bayesianStruct.likelihood;
andrew@2 223 }
andrew@2 224
andrew@2 225 //Needs just to set bounds for the matching process, not have TimeIn
andrew@2 226 void AudioEventMatcher::matchNewOnsetEvent(const int& channel, const double& timeIn){
andrew@3 227
andrew@6 228 bayesianStruct.updateBayesianDistributions(timeIn);//moves the posterior up into prior given the time interval and calculates new offsets
andrew@10 229
andrew@2 230 //start at beginning but OPTIMISE later
andrew@9 231 double onsetLikelihoodToNoise = 0.3;
andrew@2 232
andrew@2 233 bayesianStruct.likelihood.offset = bayesianStruct.prior.offset;
andrew@2 234 bayesianStruct.likelihood.zero();//set to zero
andrew@2 235
andrew@2 236 double quantity = 1;//likelihoodToNoiseRatio / numberOfMatches;
andrew@2 237 int numberOfMatchesFound = 0;
andrew@2 238
andrew@2 239
andrew@10 240 double startMatchingTime = bayesianStruct.likelihood.offset;
andrew@10 241 double endMatchingTime = bayesianStruct.likelihood.offset + matchWindowWidth;
andrew@2 242
andrew@2 243 if (channel <= recordedTracks.numberOfAudioTracks){
andrew@2 244 for (int i = 0;i < recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets.size();i++){
andrew@2 245 double millisTime = recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets[i].millisTime;
andrew@10 246 if (millisTime >= startMatchingTime && millisTime <= endMatchingTime){
andrew@14 247 bayesianStruct.likelihood.addGaussianShapeFromRealTime(millisTime, onsetLikelihoodWidth, quantity);
andrew@2 248 numberOfMatchesFound++;
andrew@6 249 // printf("Adding Gaussian for onset at time %f offset %f\n", millisTime, bayesianStruct.likelihood.offset);
andrew@2 250
andrew@2 251 }
andrew@2 252 }
andrew@2 253 }
andrew@2 254
andrew@11 255 if (numberOfMatchesFound > 0){
andrew@3 256 // bayesianStruct.likelihood.addConstant((1-likelihoodToNoiseRatio)/bayesianStruct.likelihood.length);
andrew@3 257 bayesianStruct.likelihood.addConstant(numberOfMatchesFound*(1-onsetLikelihoodToNoise)/(onsetLikelihoodToNoise*bayesianStruct.likelihood.length));
andrew@2 258 bayesianStruct.likelihood.renormalise();
andrew@2 259
andrew@8 260 bayesianStruct.calculatePosterior();
andrew@10 261 lastAlignmentTime = timeIn;//use TIMESTAMP
andrew@10 262 recentEventTime[channel] = timeIn;//ofGetElapsedTimeMillis() - startTime;
andrew@11 263
andrew@11 264 recentPriors[channel] = bayesianStruct.prior;
andrew@13 265 projectedPrior = bayesianStruct.prior;
andrew@11 266 }
andrew@11 267
andrew@11 268
andrew@6 269
andrew@3 270 }
andrew@3 271
andrew@3 272
andrew@3 273
andrew@3 274 void AudioEventMatcher::matchNewPitchEvent(const int& channel, const double& pitchIn, const double& timeIn){
andrew@3 275 //start at beginning but OPTIMISE later
andrew@10 276 /*printf("TIME %i\n", ofGetElapsedTimeMillis());
andrew@10 277 //tmp debug
andrew@10 278 updateBestAlignmentPosition();
andrew@10 279 printf("current alignment best estimate %f\n", currentAlignmentPosition);
andrew@10 280 */
andrew@6 281 bayesianStruct.updateBayesianDistributions(timeIn);//moves the posterior up into prior given the time interval and calculates new offsets
andrew@8 282
andrew@7 283 //set the lielihoods by matching the pitched note
andrew@7 284
andrew@9 285 double pitchLikelihoodToNoise = 0.7;//more noise
andrew@3 286 int numberOfMatches = 0;
andrew@3 287 bayesianStruct.likelihood.zero();//set to zero
andrew@3 288
andrew@3 289 double quantity = 0;
andrew@3 290 if (channel <= recordedTracks.numberOfAudioTracks){
andrew@3 291 for (int i = 0;i < recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets.size();i++){
andrew@3 292
andrew@3 293 if (checkMatch(recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets[i].aubioPitch, pitchIn)) {
andrew@7 294 quantity = getPitchDistance(recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets[i].aubioPitch, pitchIn, 10);
andrew@3 295 bayesianStruct.likelihood.addGaussianShapeFromRealTime(recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets[i].millisTime, 30, quantity);
andrew@3 296 recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets[i].matched = true;
andrew@3 297 numberOfMatches++;
andrew@3 298 }
andrew@3 299 else{
andrew@3 300 recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets[i].matched = false;
andrew@3 301 }
andrew@3 302
andrew@3 303 }
andrew@3 304 }
andrew@6 305
andrew@8 306
andrew@8 307
andrew@6 308 if (numberOfMatches > 0){//no point updating unless there is a match
andrew@7 309
andrew@6 310 bayesianStruct.likelihood.addConstant(numberOfMatches*(1-pitchLikelihoodToNoise)/(pitchLikelihoodToNoise*bayesianStruct.likelihood.length));
andrew@4 311
andrew@4 312 //tmp set likelihood constant and calculate using that
andrew@6 313 //bayesianStruct.likelihood.zero();
andrew@6 314 //bayesianStruct.likelihood.addConstant(1);
andrew@7 315
andrew@6 316 bayesianStruct.calculatePosterior();
andrew@11 317 lastAlignmentTime = timeIn;//has to use the STAMPED time
andrew@11 318 recentEventTime[channel] = timeIn;
andrew@11 319
andrew@11 320 recentPriors[channel] = bayesianStruct.prior;
andrew@13 321 projectedPrior = bayesianStruct.prior;
andrew@6 322 }
andrew@4 323
andrew@11 324
andrew@1 325 }
andrew@1 326
andrew@3 327 double AudioEventMatcher::getPitchDistance(const double& pitchOne, const double& pitchTwo, const double& scale){
andrew@3 328
andrew@3 329 double distance = abs(pitchOne - pitchTwo);
andrew@3 330 if (distance < scale)
andrew@3 331 distance = 1 - (distance/scale);
andrew@3 332 else
andrew@3 333 distance = 0;
andrew@3 334
andrew@3 335 // printf("[pitch distance %f vs %f = %f\n", pitchOne, pitchTwo, distance);
andrew@3 336 return distance;
andrew@3 337
andrew@3 338 }
andrew@3 339
andrew@3 340
andrew@3 341 bool AudioEventMatcher::checkMatch(const double& recordedPitch, const double& livePitch){
andrew@3 342 if (abs(recordedPitch - livePitch) < 40)
andrew@3 343 return true;
andrew@3 344 else
andrew@3 345 return false;
andrew@3 346 }
andrew@3 347
andrew@3 348
andrew@1 349
andrew@1 350 void AudioEventMatcher::windowResized(const int& w, const int& h){
andrew@1 351 recordedTracks.windowResized(w,h);
andrew@3 352 bayesTempoWindow.resized(w,h);
andrew@3 353 bayesPositionWindow.resized(w,h);
andrew@3 354 }
andrew@3 355
andrew@10 356 /*
andrew@10 357
andrew@10 358 void printPosteriorMAPinfo(){ //tmp print stuff
andrew@10 359 printf("New pitch MAP post estimate now %i, ", bayesianStruct.posterior.MAPestimate);
andrew@10 360 double tmp = bayesianStruct.posterior.getMAPestimate();
andrew@10 361 printf(" getting it %f and offset %f == %f ms\n", tmp, bayesianStruct.posterior.offset, bayesianStruct.posterior.getIndexInRealTerms(tmp));
andrew@10 362
andrew@10 363 }
andrew@10 364 */
andrew@3 365