Mercurial > hg > multitrack-audio-matcher

annotate src/AudioEventMatcher.cpp @ 11:9a2b008c4706

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
Priors for each channel and scrolling projection for new prior is added
author Andrew N Robertson <andrew.robertson@eecs.qmul.ac.uk>
date Sun, 05 Feb 2012 00:00:58 +0000
parents cbadb9d05d29
children 66783ace7506
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@9 23
andrew@9 24 followingLiveInput = true;
andrew@0 25 }
andrew@0 26
andrew@7 27 void AudioEventMatcher::setWindowDimensions(){
andrew@7 28 double startHeight = recordedTracks.numberOfAudioTracks * recordedTracks.trackScreenHeight;
andrew@7 29 double heightAvailable = 1 - startHeight;
andrew@7 30 heightAvailable /= 3.0;
andrew@7 31
andrew@7 32 bayesPositionWindow.setToRelativeSize(0, startHeight, 1, heightAvailable);
andrew@7 33 bayesLikelihoodWindow.setToRelativeSize(0, startHeight + 1*heightAvailable, 1, heightAvailable);
andrew@7 34 bayesTempoWindow.setToRelativeSize(0, startHeight + 2*heightAvailable, 1, heightAvailable);
andrew@7 35
andrew@7 36
andrew@7 37 }
andrew@0 38
andrew@0 39 void AudioEventMatcher::setArraySizes(){
andrew@0 40 bayesianStruct.resetSpeedSize(200);
andrew@0 41 bayesianStruct.setRelativeSpeedScalar(0.01);
andrew@0 42 bayesianStruct.setSpeedPrior(1.0);
andrew@0 43 bayesianStruct.relativeSpeedPrior.getMaximum();
andrew@0 44
andrew@0 45 bayesianStruct.resetSize(matchWindowWidth);
andrew@0 46 bayesianStruct.setPositionDistributionScalar(1);
andrew@0 47
andrew@0 48 }
andrew@0 49
andrew@9 50 void AudioEventMatcher::startPlaying(){
andrew@3 51 bayesianStruct.setStartPlaying();
andrew@8 52 currentAlignmentPosition = 0;
andrew@8 53 startTime = ofGetElapsedTimeMillis();
andrew@11 54
andrew@11 55 projectedPrior = bayesianStruct.prior;
andrew@3 56 //bayesianStruct.posterior.printArray();
andrew@3 57 }
andrew@3 58
andrew@9 59
andrew@9 60 void AudioEventMatcher::updatePosition(){
andrew@9 61 if (!followingLiveInput)
andrew@9 62 recordedTracks.updatePosition();
andrew@9 63 else
andrew@9 64 recordedTracks.updatePositionToMillis(currentAlignmentPosition);
andrew@9 65
andrew@9 66 updateBestAlignmentPosition();
andrew@9 67 }
andrew@9 68
andrew@8 69 void AudioEventMatcher::updateBestAlignmentPosition(){
andrew@10 70 //THIS DEALS WITH WHERE WE ARE NOW! ON THE SCREEN
andrew@10 71 //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 72
andrew@10 73 int newTime = ofGetElapsedTimeMillis() - startTime;
andrew@10 74 // double tmp = bayesianStruct.posterior.getIndexInRealTerms(bayesianStruct.posterior.MAPestimate);;
andrew@10 75 // double timetmp = (newTime - lastAlignmentTime);
andrew@10 76 // double speedtmp = bayesianStruct.relativeSpeedPosterior.getIndexInRealTerms(bayesianStruct.relativeSpeedPosterior.MAPestimate);
andrew@11 77 // currentAlignmentTime = newTime;
andrew@9 78 currentAlignmentPosition = bayesianStruct.posterior.getIndexInRealTerms(bayesianStruct.posterior.MAPestimate);
andrew@10 79 currentAlignmentPosition += (newTime - lastAlignmentTime) * bayesianStruct.relativeSpeedPosterior.getIndexInRealTerms(bayesianStruct.relativeSpeedPosterior.MAPestimate);
andrew@10 80
andrew@11 81 bayesianStruct.projectDistribution(newTime, currentAlignmentPosition, projectedPrior);//prior gets updated to where we are now
andrew@11 82
andrew@10 83 // 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 84 }
andrew@8 85
andrew@0 86 void AudioEventMatcher::draw(){
andrew@6 87 //draw some outlines in blue
andrew@3 88 ofSetColor(20,200,200);
andrew@3 89 bayesPositionWindow.drawOutline();
andrew@3 90 bayesTempoWindow.drawOutline();
andrew@0 91
andrew@6 92 //draw the scrolling audio tracks
andrew@1 93 recordedTracks.drawTracks();
andrew@7 94
andrew@2 95 ofSetColor(255);
andrew@2 96 // bayesianStruct.relativeSpeedPrior.drawVector(0, 200, bayesTempoWindow);
andrew@9 97
andrew@9 98 setScreenDisplayTimes();
andrew@6 99 drawBayesianDistributions();
andrew@8 100
andrew@11 101 //bayesianStruct.posterior.drawVector(0, bayesianStruct.posterior.getRealTermsAsIndex(screenWidthMillis), bayesPositionWindow);
andrew@6 102 //bayesianStruct.posterior.drawVector(bayesianStruct.posterior.getRealTermsAsIndex(0), bayesianStruct.posterior.getRealTermsAsIndex(screenWidthMillis), bayesPositionWindow);
andrew@11 103 //bayesianStruct.relativeSpeedPosterior.drawVector(0, bayesianStruct.relativeSpeedPosterior.getRealTermsAsIndex(2), bayesTempoWindow);
andrew@6 104
andrew@7 105 ofDrawBitmapString("pitch "+ofToString(recentPitch, 2)+", Time "+ofToString(recentTime, 0), 20, 20);
andrew@9 106
andrew@9 107 ofDrawBitmapString("pos "+ofToString(recordedTracks.loadedAudioFiles[0].fileLoader.onsetDetect.playPosition), 200,600);
andrew@6 108 }
andrew@6 109
andrew@9 110 void AudioEventMatcher::setScreenDisplayTimes(){
andrew@9 111 screenWidthMillis = recordedTracks.loadedAudioFiles[0].fileLoader.onsetDetect.framesToMillis(recordedTracks.loadedAudioFiles[0].fileLoader.onsetDetect.amplitudeNumber);
andrew@9 112 // if (!followingLiveInput){
andrew@9 113
andrew@9 114 screenStartTimeMillis = recordedTracks.loadedAudioFiles[0].fileLoader.onsetDetect.framesToMillis(recordedTracks.loadedAudioFiles[0].fileLoader.onsetDetect.drawParams.windowStartFrame);
andrew@9 115 screenEndTimeMillis = screenStartTimeMillis + screenWidthMillis;
andrew@9 116
andrew@9 117 //need PRECISION in this alignment
andrew@9 118
andrew@9 119
andrew@9 120 /*}else{
andrew@9 121
andrew@9 122 screenStartTimeMillis = (int)(currentAlignmentPosition/screenWidthMillis) * screenWidthMillis;
andrew@9 123 screenEndTimeMillis = screenStartTimeMillis + screenWidthMillis;
andrew@9 124 }*/
andrew@9 125 }
andrew@9 126
andrew@6 127 void AudioEventMatcher::drawBayesianDistributions(){
andrew@6 128
andrew@6 129
andrew@6 130 int startIndex = bayesianStruct.posterior.getRealTermsAsIndex(screenStartTimeMillis);
andrew@6 131 int endIndex = bayesianStruct.posterior.getRealTermsAsIndex(screenEndTimeMillis);
andrew@4 132
andrew@6 133 bayesianStruct.posterior.drawConstrainedVector(startIndex, endIndex, 0, ofGetWidth(), bayesPositionWindow);
andrew@6 134
andrew@6 135 string tmpString = "start "+ofToString(screenStartTimeMillis)+" (index "+ofToString(startIndex)+"), end "+ofToString(screenEndTimeMillis);
andrew@6 136 ofDrawBitmapString(tmpString, bayesPositionWindow.x+20, bayesPositionWindow.y+20);
andrew@4 137
andrew@8 138 // bayesianStruct.likelihood.drawConstrainedVector(startIndex, endIndex, 0, ofGetWidth(), bayesLikelihoodWindow);
andrew@2 139
andrew@6 140 bayesianStruct.relativeSpeedPosterior.drawConstrainedVector(0, bayesianStruct.relativeSpeedPosterior.arraySize, 0, ofGetWidth(), bayesTempoWindow);
andrew@6 141
andrew@3 142 string tmpStr = "zero is "+ofToString(bayesianStruct.posterior.getRealTermsAsIndex(0));
andrew@3 143 tmpStr += " offsetis "+ofToString(bayesianStruct.posterior.offset);
andrew@3 144 tmpStr += " screenWidth = "+ofToString(bayesianStruct.posterior.getRealTermsAsIndex(screenWidthMillis));
andrew@3 145 ofDrawBitmapString(tmpStr, 20,140);
andrew@3 146 tmpStr = "best est "+ofToString(bayesianStruct.bestEstimate);
andrew@3 147 ofDrawBitmapString(tmpStr, 20, 180);
andrew@3 148
andrew@8 149 ofDrawBitmapString("screenwidth "+ofToString(screenWidthMillis), 20, 800);
andrew@3 150
andrew@9 151 //green line at current best estimate
andrew@8 152 ofSetColor(0,255,0);
andrew@8 153 double currentEstimateIndex = (currentAlignmentPosition - screenStartTimeMillis)*ofGetWidth()/screenWidthMillis;
andrew@8 154 ofLine(currentEstimateIndex, bayesPositionWindow.y, currentEstimateIndex, bayesPositionWindow.y + bayesPositionWindow.height);
andrew@7 155
andrew@7 156 //draw track by track likelihoods
andrew@7 157 for (int i = 0; i <recordedTracks.numberOfAudioTracks;i++){
andrew@7 158 ofSetColor(200,255,50);
andrew@8 159 likelihoodVisualisation[i].drawConstrainedVector(likelihoodVisualisation[i].getRealTermsAsIndex(screenStartTimeMillis), likelihoodVisualisation[i].getRealTermsAsIndex(screenEndTimeMillis), 0, ofGetWidth(), recordedTracks.loadedAudioFiles[i].fileLoader.onsetDetect.window);
andrew@11 160
andrew@11 161 ofSetColor(0,255,150);
andrew@11 162 recentPriors[i].drawConstrainedVector(recentPriors[i].getRealTermsAsIndex(screenStartTimeMillis), recentPriors[i].getRealTermsAsIndex(screenEndTimeMillis), 0, ofGetWidth(), recordedTracks.loadedAudioFiles[i].fileLoader.onsetDetect.window);
andrew@11 163
andrew@11 164
andrew@8 165 ofSetColor(255);
andrew@8 166 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@7 167 }
andrew@8 168
andrew@8 169 int priorStartIndex = recentPrior.getRealTermsAsIndex(screenStartTimeMillis);
andrew@8 170 int priorEndIndex = recentPrior.getRealTermsAsIndex(screenEndTimeMillis);
andrew@10 171 ofSetColor(0,200,200);//recent prior
andrew@8 172 recentPrior.drawConstrainedVector(priorStartIndex, priorEndIndex, 0, ofGetWidth(), bayesPositionWindow);
andrew@8 173
andrew@10 174 ofSetColor(255,0,100);//purple prior
andrew@11 175 bayesianStruct.prior.drawConstrainedVector(bayesianStruct.prior.getRealTermsAsIndex(screenStartTimeMillis), bayesianStruct.prior.getRealTermsAsIndex(screenEndTimeMillis), 0, ofGetWidth(), bayesPositionWindow);
andrew@11 176
andrew@11 177 ofSetColor(255,0,0);
andrew@11 178 projectedPrior.drawConstrainedVector(bayesianStruct.prior.getRealTermsAsIndex(screenStartTimeMillis), bayesianStruct.prior.getRealTermsAsIndex(screenEndTimeMillis), 0, ofGetWidth(), bayesLikelihoodWindow);
andrew@7 179
andrew@1 180 }
andrew@1 181
andrew@6 182 void AudioEventMatcher::newPitchEvent(const int& channel, const double& pitchIn, const double& timeIn){
andrew@7 183 if (pitchIn > 0){
andrew@1 184 liveInput.addPitchEvent(pitchIn, timeIn);
andrew@4 185
andrew@10 186 //printPosteriorMAPinfo();
andrew@11 187
andrew@7 188 matchNewPitchEvent(channel, pitchIn, timeIn);//main pitch matching fn
andrew@7 189
andrew@7 190 likelihoodVisualisation[1] = bayesianStruct.likelihood;
andrew@7 191
andrew@7 192 recentPitch = pitchIn;//for drawing
andrew@7 193 recentTime = timeIn;
andrew@7 194 }
andrew@8 195
andrew@2 196 }
andrew@2 197
andrew@6 198 void AudioEventMatcher::newKickEvent(const double& timeIn){
andrew@6 199 // liveInput.addKickEvent(timeIn);
andrew@2 200 matchNewOnsetEvent(0, timeIn);
andrew@7 201 likelihoodVisualisation[0] = bayesianStruct.likelihood;
andrew@2 202 }
andrew@2 203
andrew@6 204 void AudioEventMatcher::newKickEvent(const int& channel, const double& timeIn){
andrew@6 205 // liveInput.addKickEvent(timeIn);
andrew@6 206 matchNewOnsetEvent(channel, timeIn);
andrew@7 207 likelihoodVisualisation[0] = bayesianStruct.likelihood;
andrew@6 208 }
andrew@6 209
andrew@2 210
andrew@2 211 void AudioEventMatcher::newSnareEvent(const double& timeIn){
andrew@6 212 matchNewOnsetEvent(2, timeIn);
andrew@7 213 likelihoodVisualisation[2] = bayesianStruct.likelihood;
andrew@7 214 }
andrew@7 215
andrew@7 216
andrew@7 217 void AudioEventMatcher::newSnareEvent(const int& channel, const double& timeIn){
andrew@7 218 matchNewOnsetEvent(channel, timeIn);
andrew@7 219 likelihoodVisualisation[2] = bayesianStruct.likelihood;
andrew@2 220 }
andrew@2 221
andrew@2 222 //Needs just to set bounds for the matching process, not have TimeIn
andrew@2 223 void AudioEventMatcher::matchNewOnsetEvent(const int& channel, const double& timeIn){
andrew@3 224
andrew@6 225 bayesianStruct.updateBayesianDistributions(timeIn);//moves the posterior up into prior given the time interval and calculates new offsets
andrew@10 226
andrew@2 227 //start at beginning but OPTIMISE later
andrew@9 228 double onsetLikelihoodToNoise = 0.3;
andrew@2 229
andrew@2 230 double likelihoodWidth = 40;
andrew@2 231
andrew@2 232 bayesianStruct.likelihood.offset = bayesianStruct.prior.offset;
andrew@2 233 bayesianStruct.likelihood.zero();//set to zero
andrew@2 234
andrew@2 235 double quantity = 1;//likelihoodToNoiseRatio / numberOfMatches;
andrew@2 236 int numberOfMatchesFound = 0;
andrew@2 237
andrew@2 238
andrew@10 239 double startMatchingTime = bayesianStruct.likelihood.offset;
andrew@10 240 double endMatchingTime = bayesianStruct.likelihood.offset + matchWindowWidth;
andrew@2 241
andrew@2 242 if (channel <= recordedTracks.numberOfAudioTracks){
andrew@2 243 for (int i = 0;i < recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets.size();i++){
andrew@2 244 double millisTime = recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets[i].millisTime;
andrew@10 245 if (millisTime >= startMatchingTime && millisTime <= endMatchingTime){
andrew@2 246 bayesianStruct.likelihood.addGaussianShapeFromRealTime(millisTime, likelihoodWidth, quantity);
andrew@2 247 numberOfMatchesFound++;
andrew@6 248 // printf("Adding Gaussian for onset at time %f offset %f\n", millisTime, bayesianStruct.likelihood.offset);
andrew@2 249
andrew@2 250 }
andrew@2 251 }
andrew@2 252 }
andrew@2 253
andrew@11 254 if (numberOfMatchesFound > 0){
andrew@3 255 // bayesianStruct.likelihood.addConstant((1-likelihoodToNoiseRatio)/bayesianStruct.likelihood.length);
andrew@3 256 bayesianStruct.likelihood.addConstant(numberOfMatchesFound*(1-onsetLikelihoodToNoise)/(onsetLikelihoodToNoise*bayesianStruct.likelihood.length));
andrew@2 257 bayesianStruct.likelihood.renormalise();
andrew@2 258
andrew@8 259 bayesianStruct.calculatePosterior();
andrew@10 260 lastAlignmentTime = timeIn;//use TIMESTAMP
andrew@10 261 recentEventTime[channel] = timeIn;//ofGetElapsedTimeMillis() - startTime;
andrew@11 262
andrew@11 263 recentPriors[channel] = bayesianStruct.prior;
andrew@11 264
andrew@11 265 }
andrew@11 266
andrew@11 267
andrew@6 268
andrew@3 269 }
andrew@3 270
andrew@3 271
andrew@3 272
andrew@3 273 void AudioEventMatcher::matchNewPitchEvent(const int& channel, const double& pitchIn, const double& timeIn){
andrew@3 274 //start at beginning but OPTIMISE later
andrew@10 275 /*printf("TIME %i\n", ofGetElapsedTimeMillis());
andrew@10 276 //tmp debug
andrew@10 277 updateBestAlignmentPosition();
andrew@10 278 printf("current alignment best estimate %f\n", currentAlignmentPosition);
andrew@10 279 */
andrew@6 280 bayesianStruct.updateBayesianDistributions(timeIn);//moves the posterior up into prior given the time interval and calculates new offsets
andrew@8 281
andrew@7 282 //set the lielihoods by matching the pitched note
andrew@7 283
andrew@9 284 double pitchLikelihoodToNoise = 0.7;//more noise
andrew@3 285 int numberOfMatches = 0;
andrew@3 286 bayesianStruct.likelihood.zero();//set to zero
andrew@3 287
andrew@3 288 double quantity = 0;
andrew@3 289 if (channel <= recordedTracks.numberOfAudioTracks){
andrew@3 290 for (int i = 0;i < recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets.size();i++){
andrew@3 291
andrew@3 292 if (checkMatch(recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets[i].aubioPitch, pitchIn)) {
andrew@7 293 quantity = getPitchDistance(recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets[i].aubioPitch, pitchIn, 10);
andrew@3 294 bayesianStruct.likelihood.addGaussianShapeFromRealTime(recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets[i].millisTime, 30, quantity);
andrew@3 295 recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets[i].matched = true;
andrew@3 296 numberOfMatches++;
andrew@3 297 }
andrew@3 298 else{
andrew@3 299 recordedTracks.loadedAudioFiles[channel].fileLoader.onsetDetect.chromaOnsets[i].matched = false;
andrew@3 300 }
andrew@3 301
andrew@3 302 }
andrew@3 303 }
andrew@6 304
andrew@8 305 recentPrior = bayesianStruct.prior;
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@6 321 }
andrew@4 322
andrew@11 323
andrew@1 324 }
andrew@1 325
andrew@3 326 double AudioEventMatcher::getPitchDistance(const double& pitchOne, const double& pitchTwo, const double& scale){
andrew@3 327
andrew@3 328 double distance = abs(pitchOne - pitchTwo);
andrew@3 329 if (distance < scale)
andrew@3 330 distance = 1 - (distance/scale);
andrew@3 331 else
andrew@3 332 distance = 0;
andrew@3 333
andrew@3 334 // printf("[pitch distance %f vs %f = %f\n", pitchOne, pitchTwo, distance);
andrew@3 335 return distance;
andrew@3 336
andrew@3 337 }
andrew@3 338
andrew@3 339
andrew@3 340 bool AudioEventMatcher::checkMatch(const double& recordedPitch, const double& livePitch){
andrew@3 341 if (abs(recordedPitch - livePitch) < 40)
andrew@3 342 return true;
andrew@3 343 else
andrew@3 344 return false;
andrew@3 345 }
andrew@3 346
andrew@3 347
andrew@1 348
andrew@1 349 void AudioEventMatcher::windowResized(const int& w, const int& h){
andrew@1 350 recordedTracks.windowResized(w,h);
andrew@3 351 bayesTempoWindow.resized(w,h);
andrew@3 352 bayesPositionWindow.resized(w,h);
andrew@3 353 }
andrew@3 354
andrew@10 355 /*
andrew@10 356
andrew@10 357 void printPosteriorMAPinfo(){ //tmp print stuff
andrew@10 358 printf("New pitch MAP post estimate now %i, ", bayesianStruct.posterior.MAPestimate);
andrew@10 359 double tmp = bayesianStruct.posterior.getMAPestimate();
andrew@10 360 printf(" getting it %f and offset %f == %f ms\n", tmp, bayesianStruct.posterior.offset, bayesianStruct.posterior.getIndexInRealTerms(tmp));
andrew@10 361
andrew@10 362 }
andrew@10 363 */
andrew@3 364