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annotate jnmr/midiEventHolder.cpp @ 40:776694bcbd02

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removed text and fixed key commands for tempo
author Andrew N Robertson <andrew.robertson@eecs.qmul.ac.uk>
date Mon, 19 Dec 2011 23:28:21 +0000
parents 5685ef75550c
children 60c1f0fbc8f4
rev   line source
andrew@33 1 /*
andrew@33 2 * midiEventHolder.cpp
andrew@33 3 * midiCannamReader3
andrew@33 4 *
andrew@33 5 * Created by Andrew on 19/07/2011.
andrew@33 6 * Copyright 2011 QMUL. All rights reserved.
andrew@33 7 *
andrew@33 8 */
andrew@33 9
andrew@33 10
andrew@33 11 //Main file to look at here is newNoteEvent() - this calls everything else to update the Bayesian array
andrew@33 12
andrew@33 13 #include "midiEventHolder.h"
andrew@36 14
andrew@37 15 #include <iostream>
andrew@37 16 #include <fstream>
andrew@33 17
andrew@33 18 midiEventHolder::midiEventHolder(){
andrew@36 19
andrew@38 20
andrew@36 21
andrew@33 22 // recordedNoteOnIndex = 0;
andrew@34 23 alignmentPosition = 0;
andrew@33 24
andrew@33 25 useTempoPrior = false;//puts sine wave round tempo
andrew@33 26 confidenceWeightingUsed = true;
andrew@33 27 newOptimalMethod = true;
andrew@33 28
andrew@34 29 matchWindowWidth = 16000;//window size for matching in ms
andrew@33 30 interNoteRange = 1600;//preferred duration
andrew@33 31 //so max here is really four
andrew@33 32
andrew@33 33
andrew@33 34 likelihoodWidth = 100;//using 100 is good
andrew@33 35 likelihoodToNoiseRatio = 0.20;//was 0.02 on 18/11/11, changing to give more weight to observations
andrew@33 36 //was 0.08 on 11/12/11 but need more for tempo varn in rwc database
andrew@33 37
andrew@33 38 bayesStruct.speedLikelihoodNoise = 0.1;//was 0.05
andrew@33 39 bayesStruct.speedDecayWidth = 40;
andrew@33 40 bayesStruct.speedDecayAmount = 10;
andrew@33 41
andrew@40 42 drawTempoMode = false;
andrew@33 43 //there is option to use MAP estinate or integral in beayesianarraystricture class
andrew@33 44
andrew@33 45 runningInRealTime = true;
andrew@33 46 bayesStruct.realTimeMode = &runningInRealTime;
andrew@33 47
andrew@33 48 minimumMatchSpeed = 0.0;
andrew@33 49 maximumMatchSpeed = 2.0;
andrew@33 50 minimumTimeIntervalForTempoUpdate = 150;
andrew@33 51
andrew@33 52 width = ofGetWidth();
andrew@33 53 height = ofGetHeight();
andrew@33 54 screenWidth= &width;
andrew@33 55 screenHeight = &height;
andrew@33 56
andrew@33 57 ticksPerScreen = 4000;
andrew@33 58 tickLocation = 0;
andrew@33 59 pulsesPerQuarternote = 240;
andrew@33 60 noteArrayIndex = 0;
andrew@33 61 noteMinimum = 30;
andrew@33 62 noteMaximum = 96;
andrew@33 63
andrew@33 64
andrew@33 65
andrew@33 66
andrew@33 67
andrew@33 68 speedPriorValue = 1.0;
andrew@33 69
andrew@33 70
andrew@33 71 bayesStruct.resetSize(matchWindowWidth);
andrew@33 72 bayesStruct.setPositionDistributionScalar(1);
andrew@33 73
andrew@33 74 bayesStruct.resetSpeedSize(200);
andrew@33 75 bayesStruct.setRelativeSpeedScalar(0.01);
andrew@33 76 bayesStruct.relativeSpeedPrior.getMaximum();
andrew@33 77 //bayesStruct.simpleExample();
andrew@33 78
andrew@33 79
andrew@33 80 speedWindowWidthMillis = 1600;//4000
andrew@34 81
andrew@33 82 noteHeight = (*screenHeight) / (float)(noteMaximum - noteMinimum);
andrew@33 83
andrew@33 84
andrew@33 85 intervalsToCheck.push_back(1);
andrew@33 86 intervalsToCheck.push_back(2);
andrew@33 87 //intervalsToCheck.push_back(3);
andrew@33 88 intervalsToCheck.push_back(4);
andrew@33 89 intervalsToCheck.push_back(6);
andrew@33 90 intervalsToCheck.push_back(8);
andrew@33 91 intervalsToCheck.push_back(16);
andrew@33 92
andrew@33 93
andrew@33 94 drawPhaseMode = true;
andrew@33 95
andrew@33 96 printf("lookup index %f value %f\n", bayesStruct.prior.getLookupIndex(100, 30., 10.0), bayesStruct.prior.gaussianLookupTable[(int)bayesStruct.prior.getLookupIndex(100, 30., 10.0)]);
andrew@33 97 }
andrew@33 98
andrew@33 99
andrew@33 100
andrew@33 101 void midiEventHolder::reset(){
andrew@33 102 //called when we start playing
andrew@33 103
andrew@33 104 noteArrayIndex = 0;
andrew@33 105 tickLocation = 0;
andrew@34 106 startPlayingTime = getTimeNow(0);//ofGetElapsedTimeMillis();
andrew@33 107 bayesStruct.lastEventTime = getTimeNow(0);//ofGetElapsedTimeMillis();
andrew@33 108 numberOfScreensIn = 0;
andrew@33 109 // recordedNoteOnIndex = 0;
andrew@33 110 bayesStruct.setNewDistributionOffsets(0);
andrew@33 111 bayesStruct.posterior.offset = 0;
andrew@33 112
andrew@33 113 playedEventTimes.clear();
andrew@33 114 playedNoteOnMatrix.clear();
andrew@33 115 matchMatrix.clear();
andrew@33 116 bestMatchIndex = 0;
andrew@33 117
andrew@33 118 recordedTotalNoteCounterByPitch.clear();
andrew@33 119 recordedTotalNoteCounterByPitch.assign(127,0);
andrew@33 120 totalNoteCounterIndex = 0;
andrew@34 121
andrew@33 122 interNoteIntervals.clear();
andrew@33 123
andrew@35 124 smoothIndex = 0;
andrew@34 125 smoothPlayPosition = 0.0;
andrew@34 126 // relativeSpeedForSmooth = 1.0;
andrew@34 127 // storedSmoothPlayPosition = smoothPlayPosition;
andrew@34 128 // lastSmoothUpdateTime = getTimeNow(0);
andrew@34 129
andrew@34 130 printf("reset speed prior is %f\n", speedPriorValue);
andrew@33 131 bayesStruct.resetSpeedToOne();
andrew@33 132 bayesStruct.setSpeedPrior(speedPriorValue);
andrew@33 133 setMatchedNotesBackToFalse();
andrew@34 134
andrew@34 135 periodCounter = 0;
andrew@34 136 for (int i = 0;i < periodValues.size();i++){
andrew@34 137 // printf("period at %f is %f\n", periodValues[i][2], periodValues[i][1]);
andrew@34 138 }
andrew@34 139 /* if (periodValues.size() > 0){
andrew@34 140 updatePeriodValue(0);// periodValues[0][2];
andrew@34 141 printf("Resetting period to %f , size is %i\n", period, (int)periodValues.size());
andrew@34 142 }
andrew@34 143 */
andrew@34 144 //period = 500.0;
andrew@33 145 }
andrew@33 146
andrew@33 147 void midiEventHolder::setMatchedNotesBackToFalse(){
andrew@33 148 for (int i = 0;i < noteOnMatches.size();i++)
andrew@33 149 noteOnMatches[i] = false;
andrew@33 150 }
andrew@33 151
andrew@33 152 void midiEventHolder::clearAllEvents(){
andrew@33 153 recordedNoteOnMatrix.clear();
andrew@33 154 matchesFound.clear();
andrew@33 155 noteOnMatches.clear();
andrew@33 156 recordedEventTimes.clear();
andrew@33 157 measureVector.clear();
andrew@33 158 //played events:
andrew@33 159 playedEventTimes.clear();
andrew@33 160 playedNoteOnMatrix.clear();
andrew@33 161 matchMatrix.clear();
andrew@33 162 bestMatchFound.clear();
andrew@33 163 periodValues.clear();
andrew@33 164
andrew@35 165 beatPositions.clear();
andrew@35 166
andrew@33 167 recordedTotalNoteCounterByPitch.clear();
andrew@33 168 recordedTotalNoteCounterByPitch.assign(127, 0);
andrew@33 169 totalNoteCounterIndex = 0;
andrew@33 170 }
andrew@33 171
andrew@33 172 void midiEventHolder::printNotes(){
andrew@33 173 printf("RECORDED MATRIX\n");
andrew@33 174 for (int i = 0;i < recordedNoteOnMatrix.size();i++){
andrew@33 175 printf("ticktime %i :: pitch %i @ millis %f\n", recordedNoteOnMatrix[i][0], recordedNoteOnMatrix[i][1], recordedEventTimes[i]);
andrew@33 176 }
andrew@33 177 }
andrew@33 178
andrew@33 179
andrew@33 180 double midiEventHolder::getEventTimeTicks(double millis){
andrew@34 181 return 0.0;
andrew@34 182 //return (millis * pulsesPerQuarternote / period);
andrew@33 183 }
andrew@33 184
andrew@33 185 double midiEventHolder::getEventTimeMillis(double ticks){
andrew@33 186 return (period * ticks / (double) pulsesPerQuarternote);
andrew@33 187 }
andrew@33 188
andrew@33 189 void midiEventHolder::newNoteOnEvent(int pitch, int velocity, double timePlayed){
andrew@33 190 // tempoSpeedString = "";
andrew@33 191
andrew@33 192 //MOVE INTO BAYESSTRUCT?? XXX
andrew@33 193 //bayesStruct.copyPriorToPosterior();
andrew@33 194 //why was this here??
andrew@33 195 bayesStruct.prior.copyFromDynamicVector(bayesStruct.posterior);//try the otehr way
andrew@33 196 //bayesStruct.copyPriorToPosterior();
andrew@33 197 //need to get new MAP position and set the offset of the arrays
andrew@33 198 //currently bestEstimate is the approx for the new MAP position
andrew@33 199
andrew@33 200 lastPlayedPitch = pitch;
andrew@33 201 //add the new event to our played information matrix
andrew@33 202 IntVector v;
andrew@33 203 v.push_back(pitch);
andrew@33 204 v.push_back(velocity);
andrew@33 205 playedNoteOnMatrix.push_back(v);
andrew@33 206
andrew@33 207
andrew@33 208 //would update the arrays at this point to show where out current location (phase) and tempo is.
andrew@33 209 // double timeNow = ofGetElapsedTimeMillis() - startTime;
andrew@33 210 double timeNow = timePlayed;// - startTime;
andrew@33 211 recentNoteOnTime = timePlayed;
andrew@33 212
andrew@33 213 // printf("Max time %f OF time %f \n", timePlayed, timeNow);
andrew@33 214
andrew@33 215 playedEventTimes.push_back(timePlayed);
andrew@33 216
andrew@33 217 // double timeDifference = ofGetElapsedTimeMillis() - bayesStruct.lastEventTime;
andrew@33 218 double timeDifference = timePlayed - bayesStruct.lastEventTime;
andrew@33 219
andrew@33 220 //printf("note %i played at %f and last event %f time difference %f and current best estmate %f\n", pitch, timePlayed, bayesStruct.lastEventTime, timeDifference, bayesStruct.bestEstimate);
andrew@33 221
andrew@33 222 //addnoise to the tempo distribution
andrew@33 223 //bayesStruct.decaySpeedDistribution(timeDifference);
andrew@33 224
andrew@33 225 if (timeDifference > 50){
andrew@33 226 bayesStruct.addGaussianNoiseToSpeedPosterior(timeDifference * 10.0 / 100.);
andrew@33 227 // bayesStruct.addTriangularNoiseToSpeedPosterior(timeDifference * 10 / 100.);
andrew@33 228 }
andrew@33 229
andrew@34 230 // bayesStruct.updateTmpBestEstimate(timeDifference);// debug - didnt work bayesStruct.bestEstimate = bayesStruct.tmpBestEstimate;
andrew@33 231 bayesStruct.updateBestEstimate(timeDifference);
andrew@34 232
andrew@33 233 bayesStruct.lastBestEstimateUpdateTime = getTimeNow(timePlayed);
andrew@34 234 //updatePeriodValue(bayesStruct.lastBestEstimateUpdateTime);
andrew@34 235
andrew@33 236 // double newMAPestimateTime = bayesStruct.posterior.getIndexInRealTerms(bayesStruct.posterior.MAPestimate);
andrew@33 237 //was offset + bayesStruct.posterior.MAPestimate; but this doesnt include scalar to convert to millis
andrew@33 238
andrew@33 239 timeString = "Pitch:"+ofToString(pitch);
andrew@33 240 timeString += ", time now:"+ofToString(timeNow, 1);
andrew@33 241 timeString += " TD "+ofToString(timeDifference, 1);
andrew@33 242 timeString += " offset "+ofToString(bayesStruct.posterior.offset , 0);
andrew@33 243 timeString += " map Est: "+ofToString(bayesStruct.posterior.MAPestimate, 0);
andrew@33 244 // timeString += " Previous time" + ofToString(newMAPestimateTime,0);
andrew@33 245 timeString += " speedMap "+ofToString(bayesStruct.relativeSpeedPosterior.integratedEstimate, 2);
andrew@33 246 timeString += " :: "+ofToString(bayesStruct.relativeSpeedPosterior.getIndexInRealTerms(bayesStruct.relativeSpeedPosterior.integratedEstimate), 2);
andrew@33 247
andrew@33 248 // newMAPestimateTime += (timeDifference * bayesStruct.relativeSpeedPosterior.getIndexInRealTerms(bayesStruct.relativeSpeedPosterior.MAPestimate));
andrew@33 249 // timeString += " : Predicted MAP time" + ofToString(newMAPestimateTime,0);
andrew@33 250
andrew@33 251 //then we recalculate the window start based on MAP being central
andrew@33 252 //then we do the matches on these and the likelihood on these.
andrew@33 253
andrew@33 254 bayesStruct.setNewDistributionOffsets(max(0., bayesStruct.bestEstimate - (bayesStruct.prior.scalar*bayesStruct.prior.arraySize/2)));
andrew@33 255 // bayesStruct.prior.offset = max(0.,newMAPestimateTime - (bayesStruct.prior.scalar*bayesStruct.prior.arraySize/2));
andrew@33 256
andrew@33 257 timeString += " \n : new offset " + ofToString(bayesStruct.prior.offset , 0);
andrew@33 258 timeString += " \n best estimate "+ofToString(bayesStruct.bestEstimate, 1);
andrew@33 259 timeString += " error "+ofToString(minimumMatchError, 0);
andrew@33 260 timeString += " map "+ofToString(bayesStruct.relativeSpeedPosterior.integratedEstimate, 1);
andrew@33 261 timeString += " rel speed "+ofToString(bayesStruct.relativeSpeedPosterior.getIndexInRealTerms(bayesStruct.relativeSpeedPosterior.integratedEstimate), 2);
andrew@33 262
andrew@33 263
andrew@33 264 //be able to draw the prior in correct location relative to the midi notes
andrew@33 265 //this calculates the cross update of all possible speeds and all possible positions
andrew@33 266 bayesStruct.crossUpdateArrays(bayesStruct.posterior, bayesStruct.relativeSpeedPosterior, timeDifference);
andrew@33 267
andrew@33 268
andrew@33 269 timeString += " new OFF "+ofToString(bayesStruct.bestEstimate - (bayesStruct.prior.scalar*bayesStruct.prior.arraySize/2), 1);
andrew@33 270 timeString += " notearrayindex "+ofToString(noteArrayIndex, 0);
andrew@33 271 //when this is off teh screen there is a problem somehow XXX
andrew@33 272
andrew@33 273 bayesStruct.posterior.offset = max(0., bayesStruct.bestEstimate - (bayesStruct.prior.scalar*bayesStruct.prior.arraySize/2));// bayesStruct.prior.offset = max(0., bayesStruct.bestEstimate - (bayesStruct.prior.scalar*bayesStruct.prior.arraySize/2));
andrew@33 274
andrew@33 275 //trying to switch to prior
andrew@33 276
andrew@33 277
andrew@33 278 bayesStruct.lastEventTime = timePlayed;//bayesStruct.lastEventTime = ofGetElapsedTimeMillis();
andrew@33 279
andrew@33 280 //do the cross update to find current posterior for location
andrew@33 281 // totalConfidence= 0;
andrew@33 282 int numberOfMatchesFound = findLocalMatches(pitch);
andrew@33 283 setMatchLikelihoods(numberOfMatchesFound);
andrew@33 284 bayesStruct.calculatePosterior();
andrew@33 285
andrew@33 286 if (recordedEventTimes.size() > 0){
andrew@33 287 updateTempo();
andrew@33 288 //calcuateNewInterNoteIntervals();
andrew@33 289 }
andrew@34 290
andrew@34 291 //storedSmoothPlayPosition = smoothPlayPosition;
andrew@33 292
andrew@33 293 }
andrew@33 294
andrew@33 295 void midiEventHolder::updateTempo(){
andrew@33 296 //having found matches we have matches for new note and matches for previous notes
andrew@33 297 if (newOptimalMethod)
andrew@33 298 findOptimumTempoPairsToCurrentBestMatch();
andrew@33 299 else if (!confidenceWeightingUsed)
andrew@33 300 findLocalTempoPairs();
andrew@33 301 else
andrew@33 302 findLocalTempoPairsWeightedForConfidence();
andrew@33 303
andrew@33 304
andrew@33 305 //bayesStruct.addGaussianNoiseToSpeedPosterior(10);
andrew@33 306 }
andrew@33 307
andrew@33 308 double midiEventHolder::getTimeNow(double eventTime){
andrew@33 309 double timeNow = eventTime;
andrew@33 310 if (runningInRealTime)
andrew@33 311 timeNow = ofGetElapsedTimeMillis();
andrew@33 312 return timeNow;
andrew@33 313 }
andrew@33 314
andrew@33 315 int midiEventHolder::findLocalMatches(int notePitch){
andrew@33 316
andrew@33 317 //here we find the matches to the new note within appropriate range
andrew@33 318
andrew@33 319 matchString = "";
andrew@33 320
andrew@33 321 windowStartTime = max(0.0,(bayesStruct.bestEstimate - matchWindowWidth/2));//was playPositionInMillis
andrew@33 322 // cout << "best estimate is " << bayesStruct.bestEstimate << endl;
andrew@33 323 int numberOfMatches = findMatch(notePitch, windowStartTime, windowStartTime + matchWindowWidth);
andrew@33 324
andrew@33 325
andrew@33 326 //matchString += " pitch: "+ofToString(notePitch)+" matches "+ofToString(numberOfMatches)+" win start "+ofToString(windowStartTime);
andrew@33 327
andrew@33 328 return numberOfMatches;
andrew@33 329
andrew@33 330
andrew@33 331 }
andrew@33 332
andrew@33 333
andrew@33 334 void midiEventHolder::setMatchLikelihoods(int numberOfMatches){
andrew@33 335 //reset the offset to match the prior
andrew@33 336 bayesStruct.likelihood.offset = bayesStruct.prior.offset;
andrew@33 337 bayesStruct.likelihood.zero();//set to zero
andrew@33 338
andrew@33 339 double quantity = likelihoodToNoiseRatio / numberOfMatches;
andrew@33 340
andrew@33 341 for (int i = 0;i < numberOfMatches && matchesFound[i] >= 0 && matchesFound[i] < recordedEventTimes.size();i++){
andrew@33 342 // printf("match times %i of %i::%f adding likelihood to %f\n", i, numberOfMatches, recordedEventTimes[matchesFound[i]], recordedEventTimes[matchesFound[i]] - bayesStruct.likelihood.offset);
andrew@33 343 //this is the vent time since start of file
andrew@33 344 if (recordedEventTimes[matchesFound[i]] - bayesStruct.likelihood.offset < bayesStruct.likelihood.arraySize){
andrew@33 345 // double confidenceMeasure = 0;
andrew@33 346 // if (totalConfidence > 0)
andrew@33 347 // confidenceMeasure = bayesStruct.posterior.getValueAtMillis(recordedEventTimes[matchesFound[i]])/totalConfidence;
andrew@33 348
andrew@33 349 bayesStruct.likelihood.addGaussianShape(recordedEventTimes[matchesFound[i]] - bayesStruct.likelihood.offset, likelihoodWidth, quantity);//* confidenceMeasure
andrew@33 350 }//end if
andrew@33 351 }
andrew@33 352 bayesStruct.likelihood.addConstant((1-likelihoodToNoiseRatio)/bayesStruct.likelihood.length);
andrew@33 353 }
andrew@33 354
andrew@33 355 int midiEventHolder::findMatch(const int& notePitch, const int& startTime, const int& endTime){
andrew@33 356
andrew@33 357 matchesFound.clear();
andrew@33 358 int startIndex = 0;
andrew@33 359
andrew@33 360 if (recordedEventTimes.size() > 0){
andrew@33 361
andrew@33 362 //get to the right range of events to check in
andrew@33 363 while (startIndex < recordedEventTimes.size() && recordedEventTimes[startIndex] < startTime)
andrew@33 364 startIndex++;
andrew@33 365
andrew@33 366 }
andrew@33 367
andrew@33 368 IntVector v;
andrew@33 369 DoubleVector d;
andrew@33 370 double tmpError = 100000.;//v high error
andrew@33 371
andrew@33 372 double minimumConfidence = 0;
andrew@33 373 while (startIndex < recordedEventTimes.size() && recordedEventTimes[startIndex] < endTime){
andrew@33 374 if (recordedNoteOnMatrix[startIndex][1] == notePitch){
andrew@33 375
andrew@33 376 matchesFound.push_back(startIndex);
andrew@33 377 v.push_back(startIndex);
andrew@33 378 //so startIndex is registered as a match
andrew@33 379
andrew@33 380 double eventConfidence = bayesStruct.posterior.getValueAtMillis(recordedEventTimes[startIndex]);
andrew@33 381 if (eventConfidence > minimumConfidence){
andrew@33 382 minimumConfidence = eventConfidence;
andrew@33 383 bestMatchIndex = startIndex;
andrew@33 384 }
andrew@33 385 d.push_back(eventConfidence);
andrew@33 386
andrew@33 387 double confidence = eventConfidence;//bayesStruct.posterior.getValueAtMillis(mouseX);
andrew@33 388 // recordedEventTimes[startIndex]);
andrew@33 389 // matchString += "["+ofToString(startIndex)+"] = "+ofToString(confidence, 3)+" .";
andrew@33 390
andrew@33 391 if (abs(recordedEventTimes[startIndex] - bayesStruct.bestEstimate) < tmpError){
andrew@33 392 //record the error between expected and observed times
andrew@33 393 tmpError = abs(recordedEventTimes[startIndex] - bayesStruct.bestEstimate);
andrew@33 394 minimumMatchError = tmpError;//recordedEventTimes[startIndex] - bayesStruct.bestEstimate;
andrew@33 395 }
andrew@33 396
andrew@33 397 }
andrew@33 398 startIndex++;
andrew@33 399 }
andrew@33 400
andrew@33 401
andrew@33 402 // printf("%i MATCHES TO Note %i found\n", (int)matchesFound.size(), notePitch);
andrew@33 403 int size = matchesFound.size();
andrew@33 404 if (size > 0)
andrew@33 405 noteOnMatches[bestMatchIndex] = true;
andrew@33 406
andrew@33 407 v.insert(v.begin() , (int)size);//at beginning, we list how many matches there are that we have found
andrew@33 408 d.insert(d.begin() , (double)size);
andrew@33 409
andrew@33 410 //v.push_back(size);
andrew@33 411 //d.push_back(size);
andrew@33 412 //for (int i = 0;i < matchesFound.size()+1;i++){
andrew@33 413 // v.push_back(matchesFound[i]);
andrew@33 414 // printf("match %i,[%i] is %i\n", startIndex, i, v[i]);
andrew@33 415 //}
andrew@33 416
andrew@33 417
andrew@33 418 matchMatrix.push_back(v);
andrew@33 419 matchConfidence.push_back(d);
andrew@33 420
andrew@33 421 //bringing in way to list only the best matches and use these in tempo process
andrew@33 422 bestMatchFound.push_back(bestMatchIndex);
andrew@33 423
andrew@33 424 // printf("BEST MATCH TO note %i, start time %i, endtime %i, time %i is recorded time %i, confidence %0.2f\n", notePitch, startTime, endTime, (int) recordedEventTimes[bestMatchIndex], minimumConfidence);
andrew@33 425
andrew@33 426 return size;
andrew@33 427 }
andrew@33 428
andrew@33 429 bool midiEventHolder::checkIfMatchedNote(const int& tmpIndex){
andrew@33 430 for (int i = 0;i < matchesFound.size();i++){
andrew@33 431 if (matchesFound[i] == tmpIndex)
andrew@33 432 return true;
andrew@33 433 }
andrew@33 434 return false;
andrew@33 435 }
andrew@33 436
andrew@33 437
andrew@33 438
andrew@33 439 void midiEventHolder::findLocalTempoPairs(){
andrew@33 440
andrew@33 441 int currentPlayedIndex = playedNoteOnMatrix.size()-1;
andrew@33 442 // printf("played %i : %i, vel %i\n", currentPlayedIndex, playedNoteOnMatrix[currentPlayedIndex][0], playedNoteOnMatrix[currentPlayedIndex][1]);
andrew@33 443 // printMatchesFound();
andrew@33 444 // printMatchMatrix();
andrew@33 445 // printf("possible notes \n");
andrew@33 446 bool needToUpdate = false;
andrew@33 447 bayesStruct.setLikelihoodToConstant();
andrew@33 448
andrew@33 449
andrew@33 450 for (int i = 0;i < matchMatrix[currentPlayedIndex][0];i++){
andrew@33 451 //iterate through the recently matched events - even dodgy matches included
andrew@33 452 //size, index of match0, index of match1, ....
andrew@33 453
andrew@33 454
andrew@33 455 int recordedCurrentIndex = matchMatrix[currentPlayedIndex][i+1];
andrew@33 456
andrew@33 457 int previousIndex = currentPlayedIndex-1;
andrew@33 458
andrew@33 459
andrew@33 460 while (previousIndex >= 0 && playedEventTimes[previousIndex] + speedWindowWidthMillis > playedEventTimes[currentPlayedIndex]) {
andrew@33 461 double playedTimeDifference = playedEventTimes[currentPlayedIndex] - playedEventTimes[previousIndex];
andrew@33 462
andrew@33 463 for (int k = 0;k < matchMatrix[previousIndex][0];k++){
andrew@33 464
andrew@33 465 int recordedPreviousIndex = matchMatrix[previousIndex][k+1];
andrew@33 466
andrew@33 467 double recordedTimeDifference = recordedEventTimes[recordedCurrentIndex] - recordedEventTimes[recordedPreviousIndex];
andrew@33 468
andrew@33 469
andrew@33 470 //we want the speed of the recording relative to that of the playing live
andrew@33 471
andrew@33 472 double speedRatio = recordedTimeDifference / playedTimeDifference;
andrew@33 473 if (recordedTimeDifference > minimumTimeIntervalForTempoUpdate &&
andrew@33 474 speedRatio <= maximumMatchSpeed && speedRatio >= minimumMatchSpeed){
andrew@33 475
andrew@33 476 //adding in a prior that prefers 1
andrew@33 477 double priorWeighting = 1;
andrew@33 478 if (useTempoPrior)
andrew@33 479 priorWeighting = sin(speedRatio * PI/2);
andrew@33 480
andrew@33 481
andrew@33 482
andrew@33 483 /*
andrew@33 484 printf("(%i)", matchMatrix[currentPlayedIndex][i+1]);
andrew@33 485 printf("[%i] :: ", recordedPreviousIndex);
andrew@33 486 printf(" rec{%f} vs play(%f) ", recordedTimeDifference, playedTimeDifference);
andrew@33 487 printf("update on speed ratio %f\n", speedRatio);
andrew@33 488 */
andrew@33 489 // matchString += " speed: "+ofToString(speedRatio, 3);
andrew@33 490 // commented for debug
andrew@33 491
andrew@33 492 //bayesStruct.updateTempoDistribution(speedRatio, 0.1);//second paramter is confidence in the match
andrew@33 493 double amount = (1-bayesStruct.speedLikelihoodNoise)/10;
andrew@33 494 amount *= priorWeighting;
andrew@33 495 bayesStruct.updateTempoLikelihood(speedRatio, amount);
andrew@33 496 // tempoSpeedString += ofToString(recordedPreviousIndex) + " "+ ofToString(speedRatio, 2) + " "+ofToString(amount, 2) += " \n";
andrew@33 497 needToUpdate = true;
andrew@33 498 }
andrew@33 499 // printf("\n");
andrew@33 500 }
andrew@33 501
andrew@33 502 previousIndex--;
andrew@33 503 }//end while previousindex countdown
andrew@33 504 }//end for loop through possible current matches
andrew@33 505
andrew@33 506 if (needToUpdate)
andrew@33 507 bayesStruct.updateTempoDistribution();
andrew@33 508
andrew@33 509 //printf("current speed is %f\n", bayesStruct.relativeSpeedPosterior.getIndexInRealTerms(bayesStruct.relativeSpeedPosterior.MAPestimate));
andrew@33 510 }
andrew@33 511
andrew@33 512
andrew@33 513 void midiEventHolder::findLocalTempoPairsWeightedForConfidence(){
andrew@33 514 bool needToUpdate = false;
andrew@33 515
andrew@33 516 DoubleVector speedIntervalsFound;
andrew@33 517
andrew@33 518 //adapted this to just use the best match for each note
andrew@33 519
andrew@33 520 int currentPlayedIndex = playedNoteOnMatrix.size()-1;
andrew@33 521 // printf("played %i : %i, vel %i\n", currentPlayedIndex, playedNoteOnMatrix[currentPlayedIndex][0], playedNoteOnMatrix[currentPlayedIndex][1]);
andrew@33 522 // printMatchesFound();
andrew@33 523 // printMatchMatrix();
andrew@33 524 // printf("possible notes \n");
andrew@33 525
andrew@33 526 bayesStruct.setLikelihoodToConstant();
andrew@33 527
andrew@33 528 int recordedCurrentIndex = bestMatchFound[currentPlayedIndex];
andrew@33 529 //we only look at intervals between the current best match and other recent best matched notes
andrew@33 530 //that is the difference in confidence method
andrew@33 531
andrew@33 532
andrew@33 533 //printf("BEST MATCH FOUND for index %i is %i ", currentPlayedIndex, bestMatchFound[currentPlayedIndex]);
andrew@33 534
andrew@33 535 int previousIndex = currentPlayedIndex-1;
andrew@33 536
andrew@33 537 //withing speedwindow i.e. 4 seconds
andrew@33 538 while (previousIndex >= 0 && playedEventTimes[previousIndex] + speedWindowWidthMillis > playedEventTimes[currentPlayedIndex]) {
andrew@33 539 double playedTimeDifference = playedEventTimes[currentPlayedIndex] - playedEventTimes[previousIndex];
andrew@33 540
andrew@33 541 int recordedPreviousIndex = bestMatchFound[previousIndex];
andrew@33 542
andrew@33 543 double recordedTimeDifference = recordedEventTimes[recordedCurrentIndex] - recordedEventTimes[recordedPreviousIndex];
andrew@33 544
andrew@33 545
andrew@33 546 //we want the speed of the recording relative to that of the playing live
andrew@33 547
andrew@33 548 double speedRatio = recordedTimeDifference / playedTimeDifference;
andrew@33 549 if (recordedTimeDifference > minimumTimeIntervalForTempoUpdate
andrew@33 550 && speedRatio < maximumMatchSpeed && speedRatio > minimumMatchSpeed){
andrew@33 551
andrew@33 552 /* printf("(%i)", previousIndex);
andrew@33 553 printf("[%i] :: ", recordedPreviousIndex);
andrew@33 554 // printf(" conf %f & %f ", currentMatchConfidence, previousMatchConfidence);
andrew@33 555 printf(" rec{%f} vs play(%f) ", recordedTimeDifference, playedTimeDifference);
andrew@33 556 printf("update on speed ratio %f\n", speedRatio);
andrew@33 557 */
andrew@33 558 // matchString += " speed: "+ofToString(speedRatio, 3);
andrew@33 559 // commented for debug
andrew@33 560
andrew@33 561
andrew@33 562 double priorWeighting = 1;
andrew@33 563
andrew@33 564 if (useTempoPrior)
andrew@33 565 priorWeighting = sin(speedRatio * PI/2);//adding in a prior that prefers 1.0 speed
andrew@33 566
andrew@33 567
andrew@33 568 // double weighting = previousMatchConfidence * currentMatchConfidence ;
andrew@33 569 double amount = (1-bayesStruct.speedLikelihoodNoise)*priorWeighting/16;//was 9
andrew@33 570
andrew@33 571 speedIntervalsFound.push_back(speedRatio);
andrew@33 572 // bayesStruct.updateTempoLikelihood(speedRatio, amount);//second paramter is confidence in the match
andrew@33 573
andrew@33 574 // tempoSpeedString += ofToString(recordedCurrentIndex) + " :: " + ofToString(recordedPreviousIndex);
andrew@33 575 // tempoSpeedString += " " + ofToString(recordedTimeDifference)+ " " + ofToString(speedRatio, 2) + " "+ofToString(amount, 2) += " \n";
andrew@33 576
andrew@33 577 needToUpdate = true;
andrew@33 578 }
andrew@33 579 // printf("\n");
andrew@33 580
andrew@33 581
andrew@33 582 previousIndex--;
andrew@33 583 }//end while previousindex countdown
andrew@33 584
andrew@33 585 if (speedIntervalsFound.size() > 0){
andrew@33 586 double amount = (1 - bayesStruct.speedLikelihoodNoise) / speedIntervalsFound.size();
andrew@33 587 for (int i = 0;i < speedIntervalsFound.size();i++)
andrew@33 588 bayesStruct.updateTempoLikelihood(speedIntervalsFound[i], amount);
andrew@33 589 }
andrew@33 590
andrew@33 591
andrew@33 592 if (needToUpdate)
andrew@33 593 bayesStruct.updateTempoDistribution();
andrew@33 594 //printf("current speed is %f\n", bayesStruct.relativeSpeedPosterior.getIndexInRealTerms(bayesStruct.relativeSpeedPosterior.MAPestimate));
andrew@33 595 }
andrew@33 596
andrew@33 597 double midiEventHolder::getBestSpeedEstimate(const int& currentPlayedIndex, const int& equivalentRecordedIndex){
andrew@33 598 double estimate = 1.0;
andrew@33 599 if (bestMatchIndex > 0){
andrew@33 600 double accordingToFileLengthEstimate = recordedEventTimes[equivalentRecordedIndex] - recordedEventTimes[0];
andrew@33 601 double playedEquivalent = (playedEventTimes[currentPlayedIndex] - playedEventTimes[0]);
andrew@33 602 if (accordingToFileLengthEstimate > 0 && playedEquivalent > 0)
andrew@33 603 accordingToFileLengthEstimate /= playedEquivalent;
andrew@33 604 estimate = accordingToFileLengthEstimate;
andrew@33 605 }
andrew@33 606 return estimate;
andrew@33 607 }
andrew@33 608
andrew@33 609 void midiEventHolder::findOptimumTempoPairsToCurrentBestMatch(){
andrew@33 610 bool needToUpdate = false;
andrew@33 611
andrew@33 612 DoubleVector speedIntervalsFound;
andrew@33 613
andrew@33 614 double currentSpeedEstimate = bayesStruct.relativeSpeedPosterior.getIndexInRealTerms(bayesStruct.relativeSpeedPosterior.MAPestimate);
andrew@33 615
andrew@33 616 int currentPlayedIndex = playedNoteOnMatrix.size()-1;
andrew@33 617
andrew@33 618 bayesStruct.setLikelihoodToConstant();
andrew@33 619
andrew@33 620 int recordedCurrentIndex = bestMatchFound[currentPlayedIndex];
andrew@33 621 //we only look at intervals between the current best match and other recent best matched notes
andrew@33 622
andrew@33 623 //printf("BEST MATCH FOUND for index %i is %i ", currentPlayedIndex, bestMatchFound[currentPlayedIndex]);
andrew@33 624
andrew@33 625 int previousIndex = currentPlayedIndex-1;
andrew@33 626
andrew@33 627 //withing speedwindow i.e. 4 seconds
andrew@33 628 while (previousIndex >= 0 && playedEventTimes[previousIndex] + speedWindowWidthMillis > playedEventTimes[currentPlayedIndex]) {
andrew@33 629
andrew@33 630 double playedTimeDifference = playedEventTimes[currentPlayedIndex] - playedEventTimes[previousIndex];
andrew@33 631
andrew@33 632 int recordedPreviousIndex = bestMatchFound[previousIndex];
andrew@33 633
andrew@33 634 double recordedTimeDifference = recordedEventTimes[recordedCurrentIndex] - recordedEventTimes[recordedPreviousIndex];
andrew@33 635
andrew@33 636 //we want the speed of the recording relative to that of the playing live
andrew@33 637 double speedRatio = recordedTimeDifference / playedTimeDifference;
andrew@33 638
andrew@33 639 //now check if this can be closer the observed value
andrew@33 640 int checkRecordedCurrentIndex = recordedCurrentIndex;
andrew@33 641 int checkRecordedPreviousIndex ;//= recordedCurrentIndex;
andrew@33 642 int currentPlayedPitch = playedNoteOnMatrix[currentPlayedIndex][1];
andrew@33 643 int previousPlayedPitch = playedNoteOnMatrix[previousIndex][1];
andrew@33 644
andrew@33 645 double recordedTimeOfBestMatch = recordedEventTimes[recordedCurrentIndex];
andrew@33 646
andrew@33 647 //change this so we start first in window and go to end
andrew@33 648
andrew@33 649 while (checkRecordedCurrentIndex >= 0 && recordedEventTimes[checkRecordedCurrentIndex] > recordedTimeOfBestMatch - matchWindowWidth){
andrew@33 650
andrew@33 651 checkRecordedCurrentIndex--;
andrew@33 652 }
andrew@33 653
andrew@33 654 double bestSpeedEstimate = getBestSpeedEstimate(currentPlayedIndex, bestMatchIndex);
andrew@33 655
andrew@33 656 while (checkRecordedCurrentIndex < recordedEventTimes.size() && recordedEventTimes[checkRecordedCurrentIndex] < recordedTimeOfBestMatch + matchWindowWidth ){
andrew@33 657 if (recordedNoteOnMatrix[checkRecordedCurrentIndex][1] == currentPlayedPitch ){
andrew@33 658 checkRecordedPreviousIndex = checkRecordedCurrentIndex;
andrew@33 659 double recordedTimeCurrent = recordedEventTimes[checkRecordedCurrentIndex] ;
andrew@33 660 while (checkRecordedPreviousIndex >= 0 && recordedEventTimes[checkRecordedPreviousIndex] + maximumMatchSpeed*playedTimeDifference > recordedTimeCurrent ) {
andrew@33 661 if (recordedNoteOnMatrix[checkRecordedPreviousIndex][1] == previousPlayedPitch){
andrew@33 662 //we have a candidate
andrew@33 663 double speedToTest = recordedEventTimes[checkRecordedCurrentIndex] - recordedEventTimes[checkRecordedPreviousIndex];
andrew@33 664 speedToTest /= playedTimeDifference;
andrew@33 665 if (abs(speedToTest-currentSpeedEstimate) < abs(speedRatio - currentSpeedEstimate) ){
andrew@33 666 speedRatio = speedToTest;
andrew@33 667 }
andrew@33 668 }
andrew@33 669 checkRecordedPreviousIndex--;
andrew@33 670 }
andrew@33 671 }
andrew@33 672 checkRecordedCurrentIndex++;
andrew@33 673 }
andrew@33 674
andrew@33 675
andrew@33 676 if (recordedTimeDifference > minimumTimeIntervalForTempoUpdate
andrew@33 677 && speedRatio < maximumMatchSpeed && speedRatio > minimumMatchSpeed){
andrew@33 678
andrew@33 679 /* printf("(%i)", previousIndex);
andrew@33 680 printf("[%i] :: ", recordedPreviousIndex);
andrew@33 681 // printf(" conf %f & %f ", currentMatchConfidence, previousMatchConfidence);
andrew@33 682 printf(" rec{%f} vs play(%f) ", recordedTimeDifference, playedTimeDifference);
andrew@33 683 printf("update on speed ratio %f\n", speedRatio);
andrew@33 684 */
andrew@33 685 // matchString += " speed: "+ofToString(speedRatio, 3);
andrew@33 686 // commented for debug
andrew@33 687
andrew@33 688
andrew@33 689 double priorWeighting = 1;
andrew@33 690
andrew@33 691 if (useTempoPrior)
andrew@33 692 priorWeighting = sin(speedRatio * PI/2);//adding in a prior that prefers 1.0 speed
andrew@33 693
andrew@33 694
andrew@33 695 // double weighting = previousMatchConfidence * currentMatchConfidence ;
andrew@33 696 double amount = (1-bayesStruct.speedLikelihoodNoise)*priorWeighting/16;//was 9
andrew@33 697
andrew@33 698 speedIntervalsFound.push_back(speedRatio);
andrew@33 699 // bayesStruct.updateTempoLikelihood(speedRatio, amount);//second paramter is confidence in the match
andrew@33 700
andrew@33 701 // tempoSpeedString += ofToString(recordedCurrentIndex) + " :: " + ofToString(recordedPreviousIndex);
andrew@33 702 // tempoSpeedString += " " + ofToString(recordedTimeDifference)+ " " + ofToString(speedRatio, 2) + " "+ofToString(amount, 2) += " \n";
andrew@33 703
andrew@33 704 needToUpdate = true;
andrew@33 705 }
andrew@33 706 // printf("\n");
andrew@33 707
andrew@33 708
andrew@33 709 previousIndex--;
andrew@33 710 }//end while previousindex countdown
andrew@33 711
andrew@33 712 if (speedIntervalsFound.size() > 0){
andrew@33 713 double amount = (1 - bayesStruct.speedLikelihoodNoise) / speedIntervalsFound.size();
andrew@33 714 for (int i = 0;i < speedIntervalsFound.size();i++)
andrew@33 715 bayesStruct.updateTempoLikelihood(speedIntervalsFound[i], amount);
andrew@33 716 }
andrew@33 717
andrew@33 718
andrew@33 719 if (needToUpdate)
andrew@33 720 bayesStruct.updateTempoDistribution();
andrew@33 721 //printf("current speed is %f\n", bayesStruct.relativeSpeedPosterior.getIndexInRealTerms(bayesStruct.relativeSpeedPosterior.MAPestimate));
andrew@33 722 }
andrew@33 723
andrew@33 724
andrew@33 725 void midiEventHolder::calcuateNewInterNoteIntervals(){
andrew@33 726 DoubleVector v;
andrew@33 727
andrew@33 728 int currentPlayedIndex = playedNoteOnMatrix.size()-1;
andrew@33 729 // int recordedCurrentIndex = bestMatchFound[currentPlayedIndex];
andrew@33 730 int previousIndex = currentPlayedIndex-1;
andrew@33 731
andrew@33 732 //withing speedwindow i.e. 4 seconds
andrew@33 733 while (previousIndex >= 0 && playedEventTimes[previousIndex] + interNoteRange > playedEventTimes[currentPlayedIndex]) {
andrew@33 734
andrew@33 735 double playedTimeDifference = playedEventTimes[currentPlayedIndex] - playedEventTimes[previousIndex];
andrew@33 736
andrew@33 737 checkForCorrectInterval(playedTimeDifference, &v);
andrew@33 738
andrew@33 739 previousIndex--;
andrew@33 740 }
andrew@33 741
andrew@33 742 if (v.size() > 0)
andrew@33 743 interNoteIntervals.push_back(v);
andrew@33 744 //printf("\n");
andrew@33 745 }
andrew@33 746
andrew@33 747 void midiEventHolder::checkForCorrectInterval(const double& playedTimeDifference, DoubleVector* v){
andrew@33 748 double intervalDuration = 0.0;
andrew@33 749
andrew@33 750 for (int intervalIndex = 0;intervalIndex < 3;intervalIndex++){
andrew@33 751 //on;y check 1,2 and 4
andrew@33 752 double possibleDuration = playedTimeDifference / intervalsToCheck[intervalIndex];
andrew@33 753 if (possibleDuration >= 200 && possibleDuration < 400){
andrew@33 754 v->push_back(possibleDuration);
andrew@33 755 // printf("int %f / %i :: %f ", playedTimeDifference, intervalsToCheck[intervalIndex], possibleDuration);
andrew@33 756 }
andrew@33 757 }
andrew@33 758 }
andrew@33 759
andrew@33 760
andrew@33 761 void midiEventHolder::updatePlayPosition(){
andrew@34 762 //timeDifference = ofGetElapsedTimeMillis() - startPlayingTime;//elpased
andrew@33 763
andrew@33 764 //in actual fact if we are changing the speed of the play position
andrew@33 765 //we will need to update this via the file
andrew@33 766
andrew@33 767 //actually time since beginning of file i think
andrew@33 768
andrew@33 769 double timeDifference = 0;
andrew@34 770
andrew@34 771 if (runningInRealTime){
andrew@34 772
andrew@34 773 bayesStruct.updateBestEstimate(timeDifference);
andrew@34 774 // bayesStruct.updateTmpBestEstimate(timeDifference);
andrew@34 775 }
andrew@34 776
andrew@35 777
andrew@35 778
andrew@35 779 if (smoothPlayPosition < bayesStruct.bestEstimate){
andrew@35 780 updateSmoothPositionTo(bayesStruct.bestEstimate);
andrew@35 781 //smoothPlayPosition = bayesStruct.bestEstimate;
andrew@35 782 }
andrew@34 783
andrew@34 784 // playPositionInMillis = timeDifference;//based on updating from when we change period
andrew@34 785 //this to be added
andrew@34 786
andrew@33 787
andrew@33 788 //this is time diff in milliseconds
andrew@33 789 //then we have
andrew@33 790 double quarterNoteIntervals = (timeDifference / period);
andrew@33 791 tickLocation = quarterNoteIntervals * pulsesPerQuarternote;
andrew@33 792
andrew@33 793 updateNoteCounter();
andrew@33 794
andrew@33 795 }
andrew@33 796
andrew@35 797 void midiEventHolder::updateSmoothPositionTo(const double& newPosition){
andrew@35 798 while (smoothIndex > 0 && recordedEventTimes[smoothIndex] > smoothPlayPosition){
andrew@35 799 smoothIndex--;
andrew@35 800 }
andrew@35 801 while (smoothIndex < recordedEventTimes.size()-1 && recordedEventTimes[smoothIndex] < smoothPlayPosition){
andrew@35 802 smoothIndex++;
andrew@35 803 }
andrew@35 804
andrew@35 805
andrew@35 806 double playingTime = ofGetElapsedTimeMillis();
andrew@35 807 playingTime -= startPlayingTime;
andrew@35 808 //now at the last one
andrew@35 809
andrew@39 810 float smoothLocation = beatPositions[smoothIndex];
andrew@39 811 int currentNote = recordedNoteOnMatrix[smoothIndex][1];
andrew@36 812
andrew@35 813 while (smoothIndex < recordedEventTimes.size() && recordedEventTimes[smoothIndex] < newPosition){
andrew@36 814 float annotationTime = 0;
andrew@38 815 float annotationLocation = 0;
andrew@36 816 int annotationNote = 0;
andrew@39 817 float difference = 10000;//very big
andrew@39 818 float currentLocationDifference = 1.0;
andrew@39 819 float range = 1.0;
andrew@36 820 if (smoothIndex < myNotation.rwcAnnotations.size()){
andrew@39 821 //add in test here to find closest matching note
andrew@39 822
andrew@39 823 /*
andrew@39 824 int testIndex = smoothIndex;
andrew@39 825 while (testIndex >= 0 && abs(smoothLocation - myNotation.rwcAnnotations[testIndex].beatLocation) < range){
andrew@39 826
andrew@39 827 if (myNotation.rwcAnnotations[testIndex].midiNote == currentNote){
andrew@39 828 if (abs(myNotation.rwcAnnotations[testIndex].beatLocation - smoothLocation) < currentLocationDifference){
andrew@39 829 currentLocationDifference = abs(myNotation.rwcAnnotations[testIndex].beatLocation - smoothLocation);
andrew@39 830 difference = playingTime - (myNotation.rwcAnnotations[testIndex].eventTime*1000.0);
andrew@39 831 annotationNote = myNotation.rwcAnnotations[testIndex].midiNote;
andrew@39 832 annotationLocation = myNotation.rwcAnnotations[testIndex].beatLocation;
andrew@39 833 annotationTime = myNotation.rwcAnnotations[testIndex].eventTime;
andrew@39 834 }
andrew@39 835 }
andrew@39 836 testIndex--;
andrew@39 837 }
andrew@39 838
andrew@39 839 testIndex = smoothIndex;
andrew@39 840 while (testIndex >= 0 && testIndex < myNotation.rwcAnnotations.size() && abs(smoothLocation - myNotation.rwcAnnotations[testIndex].beatLocation) < range){
andrew@39 841
andrew@39 842 if (myNotation.rwcAnnotations[testIndex].midiNote == currentNote){
andrew@39 843 if (abs(myNotation.rwcAnnotations[testIndex].beatLocation - smoothLocation) < currentLocationDifference){
andrew@39 844 currentLocationDifference = abs(myNotation.rwcAnnotations[testIndex].beatLocation - smoothLocation);
andrew@39 845 difference = playingTime - (myNotation.rwcAnnotations[testIndex].eventTime*1000.0);
andrew@39 846 annotationNote = myNotation.rwcAnnotations[testIndex].midiNote;
andrew@39 847 annotationLocation = myNotation.rwcAnnotations[testIndex].beatLocation;
andrew@39 848 annotationTime = myNotation.rwcAnnotations[testIndex].eventTime;
andrew@39 849 }
andrew@39 850 }
andrew@39 851 testIndex++;
andrew@39 852 }
andrew@39 853 */
andrew@36 854 annotationTime = myNotation.rwcAnnotations[smoothIndex].eventTime;
andrew@36 855 annotationNote = myNotation.rwcAnnotations[smoothIndex].midiNote;
andrew@38 856 annotationLocation = myNotation.rwcAnnotations[smoothIndex].beatLocation;
andrew@36 857 }
andrew@36 858
andrew@39 859 difference = playingTime - (annotationTime*1000.0);
andrew@36 860
andrew@35 861 if ((*fileOutput).is_open()){
andrew@36 862 (*fileOutput) << fixed << beatPositions[smoothIndex] <<",\t" << recordedNoteOnMatrix[smoothIndex][1] << ",\t";
andrew@36 863 (*fileOutput) << playingTime ;
andrew@37 864
andrew@36 865 if ( recordedNoteOnMatrix[smoothIndex][1] == annotationNote){
andrew@36 866 (*fileOutput) << " corresponds to " << annotationTime;
andrew@36 867 }
andrew@36 868 (*fileOutput) << " \n";
andrew@36 869
andrew@38 870
andrew@37 871
andrew@37 872 }
andrew@37 873
andrew@37 874 if ((*differenceOutput).is_open()){
andrew@37 875 (*differenceOutput) << beatPositions[smoothIndex] << "," << difference << "\n";
andrew@38 876 printf("midi %i beat pos %f now at %f :: annotaion %i loc % f time %f diff \t%f ms\n", recordedNoteOnMatrix[smoothIndex][1],
andrew@38 877 beatPositions[smoothIndex], playingTime,
andrew@38 878 annotationNote, annotationLocation, annotationTime, difference);
andrew@35 879 }
andrew@35 880
andrew@35 881 smoothIndex++;
andrew@35 882 }
andrew@35 883
andrew@35 884
andrew@35 885 smoothPlayPosition = newPosition;
andrew@35 886
andrew@35 887 }
andrew@35 888
andrew@34 889
andrew@34 890 void midiEventHolder::updatePeriodValue(const double& millis){
andrew@34 891
andrew@34 892 double tmp = period;
andrew@34 893 /*
andrew@34 894 while (periodCounter >= 0 && periodCounter < periodValues.size()-1 && periodValues[periodCounter][2] < millis){
andrew@34 895 periodCounter++;
andrew@34 896 }
andrew@34 897 while (periodCounter > 0 && periodValues[periodCounter][2] > millis){
andrew@34 898 periodCounter--;
andrew@34 899 }
andrew@34 900 */
andrew@34 901 //period = periodValues[periodCounter][1];
andrew@34 902
andrew@34 903 if (period != tmp){
andrew@34 904 printf("new period at %f of %f\n", millis, period);
andrew@34 905 }
andrew@34 906 }
andrew@34 907
andrew@33 908 void midiEventHolder::updateNoteCounter(){
andrew@33 909 while (totalNoteCounterIndex < bestMatchIndex){
andrew@33 910 int tmpPitch = recordedNoteOnMatrix[totalNoteCounterIndex][1];
andrew@33 911 recordedTotalNoteCounterByPitch[tmpPitch] += 1;
andrew@33 912 totalNoteCounterIndex++;
andrew@33 913 }
andrew@33 914 }
andrew@33 915
andrew@33 916
andrew@33 917 void midiEventHolder::drawMidiFile(){
andrew@33 918
andrew@33 919 //draws midi file on scrolling screen
andrew@33 920 int size = recordedNoteOnMatrix.size();
andrew@33 921 if (size > 0){
andrew@33 922
andrew@33 923 numberOfScreensIn = floor(bayesStruct.bestEstimate / getEventTimeMillis(ticksPerScreen));//rpounds down on no screens in
andrew@33 924
andrew@33 925 // numberOfScreensIn = tickLocation / ticksPerScreen;//rounds down
andrew@33 926 timeOffsetForScreen = getEventTimeMillis(numberOfScreensIn * ticksPerScreen);
andrew@33 927
andrew@33 928 while (noteArrayIndex < recordedNoteOnMatrix.size()-1 && tickLocation > recordedNoteOnMatrix[noteArrayIndex][0] )
andrew@33 929 noteArrayIndex++;
andrew@33 930
andrew@33 931
andrew@33 932 while (noteArrayIndex > 0 && noteArrayIndex < size && tickLocation < recordedNoteOnMatrix[noteArrayIndex][0])
andrew@33 933 noteArrayIndex--;
andrew@33 934
andrew@33 935 //need to start where we currently are in file
andrew@33 936 int maxNoteIndexToPrint = noteArrayIndex;
andrew@33 937 int minNoteIndexToPrint = min(size-1,noteArrayIndex);//not needed as changed above
andrew@33 938
andrew@33 939 while (maxNoteIndexToPrint < recordedNoteOnMatrix.size() && recordedNoteOnMatrix[maxNoteIndexToPrint][0] < (numberOfScreensIn+1)*ticksPerScreen )
andrew@33 940 maxNoteIndexToPrint++;
andrew@33 941
andrew@33 942 while (minNoteIndexToPrint > 0 && recordedNoteOnMatrix[minNoteIndexToPrint][0] > numberOfScreensIn*ticksPerScreen)//&& minNoteIndexToPrint < size
andrew@33 943 minNoteIndexToPrint--;
andrew@33 944
andrew@33 945 for (int tmpIndex = max(0,minNoteIndexToPrint);tmpIndex < min(maxNoteIndexToPrint, (int)recordedNoteOnMatrix.size());tmpIndex++){
andrew@33 946
andrew@33 947 ofSetColor(255,255,255);
andrew@33 948 if (checkIfMatchedNote(tmpIndex))
andrew@33 949 ofSetColor(100,100,100);//0,0,255);
andrew@33 950 else if(noteOnMatches[tmpIndex]){
andrew@33 951 ofSetColor(255,0,255);//dark grey
andrew@33 952 }
andrew@33 953 else{
andrew@33 954 ofSetColor(255,255,255);//255,255,255);
andrew@33 955 }
andrew@33 956
andrew@33 957 //ofSetColor(255,255,255);
andrew@33 958 if (tmpIndex == bestMatchIndex)
andrew@33 959 ofSetColor(255,0,0);//best recent match is in red
andrew@33 960
andrew@33 961 // XXX replace ofgetwidth below
andrew@33 962 //if (tmpIndex >= 0 && tmpIndex < size)
andrew@33 963 int xLocation = (float)(recordedNoteOnMatrix[tmpIndex][0] - numberOfScreensIn*ticksPerScreen)*(*screenWidth)/(float)ticksPerScreen;
andrew@33 964 int duration = (float)(recordedNoteOnMatrix[tmpIndex][3]*(*screenWidth))/(float)ticksPerScreen;
andrew@33 965
andrew@33 966
andrew@33 967 int yLocation = (*screenHeight) - ((recordedNoteOnMatrix[tmpIndex][1] - noteMinimum )*(*screenHeight)/ (float)(noteMaximum - noteMinimum));
andrew@33 968 ofRect(xLocation,yLocation, duration, noteHeight);
andrew@33 969
andrew@33 970 }
andrew@33 971
andrew@33 972
andrew@33 973 int xLocation;// = getLocationFromTicks(tickLocation);
andrew@33 974 // ofLine(xLocation, 0, xLocation, (*screenHeight));
andrew@33 975
andrew@33 976 //orange line at best estimate
andrew@33 977 xLocation = getLocationFromMillis(bayesStruct.bestEstimate);
andrew@34 978 ofSetColor(250,250,20);//250,100,0);
andrew@33 979 ofLine(xLocation, 0, xLocation, (*screenHeight));
andrew@33 980
andrew@34 981 xLocation = getLocationFromMillis(smoothPlayPosition);//bayesStruct.tmpBestEstimate
andrew@34 982 ofSetColor(0,250,0);//250,150, 250,100,0);
andrew@33 983 ofLine(xLocation, 0, xLocation, (*screenHeight));
andrew@33 984
andrew@33 985
andrew@33 986 //lines where matching window start and end are
andrew@33 987 ofSetColor(0);//0,100,255);
andrew@33 988 xLocation = getLocationFromMillis(windowStartTime);
andrew@33 989 ofLine(xLocation, 0, xLocation, (*screenHeight));
andrew@33 990 xLocation = getLocationFromMillis(windowStartTime+matchWindowWidth);
andrew@33 991 ofLine(xLocation, 0, xLocation, (*screenHeight));
andrew@33 992
andrew@33 993
andrew@33 994 int maxSize = recordedNoteOnMatrix[size-1][0];
andrew@33 995
andrew@33 996 int tmpIndex = 0;
andrew@33 997 while (tmpIndex < measureVector.size() && measureVector[tmpIndex] < (numberOfScreensIn+1)*ticksPerScreen){
andrew@33 998 int measureLocation = measureVector[tmpIndex];
andrew@33 999 int xLocation = (float)(measureLocation - numberOfScreensIn*ticksPerScreen)*(*screenWidth)/(float)ticksPerScreen;
andrew@33 1000 ofSetColor(155,155,0);
andrew@33 1001 ofLine(xLocation, 0, xLocation, (*screenHeight));
andrew@33 1002 tmpIndex++;
andrew@33 1003 }
andrew@33 1004
andrew@33 1005
andrew@33 1006 // ofDrawBitmapString(tempoSpeedString, 20, 20);
andrew@33 1007 /* string indexString = "num screens in "+ofToString(numberOfScreensIn)+"; min index to print "+ofToString(minNoteIndexToPrint)+", max index to print "+ofToString(maxNoteIndexToPrint);
andrew@33 1008 indexString += " size "+ofToString(size)+" tick loc "+ofToString(tickLocation)+" max size "+ofToString(maxSize);
andrew@33 1009 ofDrawBitmapString(indexString, 20, 40);
andrew@33 1010 */
andrew@33 1011 }
andrew@33 1012
andrew@33 1013 //ofDrawBitmapString(ofToString(timeOffsetForScreen, 1), 20,20);
andrew@33 1014
andrew@33 1015 //ofDrawBitmapString(timeString, 20, 60);
andrew@33 1016
andrew@33 1017 //last played piutch
andrew@33 1018 ofSetColor(0,200,0,50);
andrew@33 1019 int yLocation = (*screenHeight) - ((lastPlayedPitch - noteMinimum )*(*screenHeight)/ (float)(noteMaximum - noteMinimum));
andrew@33 1020 ofRect(0,yLocation, 100, noteHeight);
andrew@33 1021
andrew@33 1022
andrew@33 1023
andrew@33 1024 }
andrew@33 1025
andrew@33 1026
andrew@33 1027
andrew@33 1028 void midiEventHolder::drawMidiFile(IntMatrix& midiFileToDraw){
andrew@33 1029
andrew@33 1030 //using this to draw the live input
andrew@33 1031
andrew@33 1032 //draws midi file on scrolling screen
andrew@33 1033 int size = midiFileToDraw.size();
andrew@33 1034 if (size > 0){
andrew@33 1035
andrew@33 1036 numberOfScreensIn = floor(bayesStruct.bestEstimate / getEventTimeMillis(ticksPerScreen));//rpounds down on no screens in
andrew@33 1037
andrew@33 1038 // numberOfScreensIn = tickLocation / ticksPerScreen;//rounds down
andrew@33 1039 timeOffsetForScreen = getEventTimeMillis(numberOfScreensIn * ticksPerScreen);
andrew@33 1040
andrew@33 1041 while (noteArrayIndex < midiFileToDraw.size()-1 && tickLocation > midiFileToDraw[noteArrayIndex][0] )
andrew@33 1042 noteArrayIndex++;
andrew@33 1043
andrew@33 1044
andrew@33 1045 while (noteArrayIndex > 0 && noteArrayIndex < size && tickLocation < midiFileToDraw[noteArrayIndex][0])
andrew@33 1046 noteArrayIndex--;
andrew@33 1047
andrew@33 1048 //need to start where we currently are in file
andrew@33 1049 int maxNoteIndexToPrint = noteArrayIndex;
andrew@33 1050 int minNoteIndexToPrint = min(size-1,noteArrayIndex);//not needed as changed above
andrew@33 1051
andrew@33 1052 while (maxNoteIndexToPrint < midiFileToDraw.size() && midiFileToDraw[maxNoteIndexToPrint][0] < (numberOfScreensIn+1)*ticksPerScreen )
andrew@33 1053 maxNoteIndexToPrint++;
andrew@33 1054
andrew@33 1055 while (minNoteIndexToPrint > 0 && midiFileToDraw[minNoteIndexToPrint][0] > numberOfScreensIn*ticksPerScreen)//&& minNoteIndexToPrint < size
andrew@33 1056 minNoteIndexToPrint--;
andrew@33 1057
andrew@33 1058 for (int tmpIndex = max(0,minNoteIndexToPrint);tmpIndex < min(maxNoteIndexToPrint, (int)midiFileToDraw.size());tmpIndex++){
andrew@33 1059
andrew@33 1060 ofSetColor(0,0,255, 200);
andrew@33 1061
andrew@33 1062 int xLocation = (float)(midiFileToDraw[tmpIndex][0] - numberOfScreensIn*ticksPerScreen)*(*screenWidth)/(float)ticksPerScreen;
andrew@33 1063 int duration = (float)(midiFileToDraw[tmpIndex][3]*(*screenWidth))/(float)ticksPerScreen;
andrew@33 1064
andrew@33 1065
andrew@33 1066 int yLocation = (*screenHeight) - ((midiFileToDraw[tmpIndex][1] - noteMinimum )*(*screenHeight)/ (float)(noteMaximum - noteMinimum));
andrew@33 1067 ofRect(xLocation,yLocation, duration, noteHeight);
andrew@33 1068
andrew@33 1069 }
andrew@33 1070
andrew@33 1071
andrew@33 1072
andrew@33 1073 }
andrew@33 1074
andrew@33 1075
andrew@33 1076
andrew@33 1077 }
andrew@33 1078
andrew@33 1079
andrew@33 1080
andrew@33 1081 void midiEventHolder::drawFile(){
andrew@33 1082 drawMidiFile();
andrew@33 1083
andrew@34 1084 ofSetColor(0,0,255);
andrew@34 1085 ofDrawBitmapString("period"+ofToString(period, 2), ofGetWidth() - 180, 20);
andrew@33 1086
andrew@33 1087 // bayesStruct.drawArrays();
andrew@33 1088
andrew@33 1089 // ofSetColor(200,200,0);
andrew@33 1090 // bayesStruct.prior.drawConstrainedVector(0, bayesStruct.prior.arraySize, 400, 800);
andrew@33 1091
andrew@33 1092 //need to draw arrays within correct timescope
andrew@33 1093 if (drawPhaseMode)
andrew@33 1094 bayesStruct.drawArraysRelativeToTimeframe(timeOffsetForScreen, timeOffsetForScreen + getEventTimeMillis(ticksPerScreen));
andrew@33 1095
andrew@33 1096 if (drawTempoMode)
andrew@40 1097 bayesStruct.drawTempoArrays();
andrew@33 1098
andrew@33 1099
andrew@33 1100 ofSetColor(0, 0, 0);
andrew@33 1101 //ofDrawBitmapString(matchString, 20, ofGetHeight() - 20);
andrew@33 1102
andrew@33 1103 double confidence = bayesStruct.posterior.getValueAtMillis(mouseX);
andrew@33 1104 /*
andrew@33 1105 string mouseString = "mouseX "+ofToString(confidence, 3)+" .";
andrew@33 1106 ofDrawBitmapString(mouseString, 20 , ofGetHeight() - 40);
andrew@33 1107
andrew@33 1108 string mouseString = "updateCounter "+ofToString(bayesStruct.updateCounter);
andrew@33 1109 ofDrawBitmapString(mouseString, 20 , ofGetHeight() - 40);
andrew@33 1110
andrew@33 1111 string infostring = "speed "+ofToString(bayesStruct.relativeSpeedPosterior.getIndexInRealTerms(bayesStruct.relativeSpeedPosterior.MAPestimate), 3);
andrew@33 1112 ofDrawBitmapString(infostring, 20 , ofGetHeight() - 60);
andrew@33 1113 */
andrew@33 1114
andrew@33 1115 //drawInterNoteIntervals();
andrew@33 1116
andrew@33 1117 }
andrew@33 1118
andrew@33 1119 void midiEventHolder::drawInterNoteIntervals(){
andrew@33 1120
andrew@33 1121 ofSetColor(0,0,150);
andrew@33 1122 int size = interNoteIntervals.size();
andrew@33 1123 int numberToShow = min(100, size);
andrew@33 1124 double x ;
andrew@33 1125 for (int y = 1;y < numberToShow;y++){
andrew@33 1126 for (int point = 0;point < interNoteIntervals[y].size();point++){
andrew@33 1127 double interval = interNoteIntervals[size - y][point];
andrew@33 1128 x = interval - 200;
andrew@33 1129 x *= (*screenWidth) / 200.0;
andrew@33 1130 }
andrew@33 1131 double h = (double)(y * (*screenHeight)) / numberToShow;
andrew@33 1132 ofCircle(x, h, 5);
andrew@33 1133 }
andrew@33 1134
andrew@33 1135 }
andrew@33 1136
andrew@33 1137
andrew@33 1138 void midiEventHolder::printInterNoteIntervals(){
andrew@33 1139
andrew@33 1140 int size = interNoteIntervals.size();
andrew@33 1141 int numberToShow = 20;
andrew@33 1142 double x ;
andrew@33 1143 for (int y = max(0, size - numberToShow);y < interNoteIntervals.size();y++){
andrew@33 1144 for (int point = 0;point < interNoteIntervals[y].size();point++){
andrew@33 1145 printf("[%i][%i] : %f", y, point, interNoteIntervals[y][point]);
andrew@33 1146 }
andrew@33 1147 printf("\n");
andrew@33 1148 }
andrew@33 1149
andrew@33 1150 }
andrew@33 1151
andrew@33 1152 int midiEventHolder::getLocationFromTicks(double tickPosition){
andrew@34 1153 return 0;
andrew@34 1154 // return (int)((float)(tickPosition - numberOfScreensIn*ticksPerScreen)*(*screenWidth)/(float)ticksPerScreen);
andrew@34 1155 //not used
andrew@33 1156 }
andrew@33 1157
andrew@33 1158 int midiEventHolder::getLocationFromMillis(double millisPosition){
andrew@33 1159 //(getEventTimeTicks(windowStartTime+matchWindowWidth) - numberOfScreensIn*ticksPerScreen)*(*screenWidth) / (double)ticksPerScreen
andrew@33 1160 return (millisPosition - timeOffsetForScreen)*(*screenWidth)/getEventTimeMillis(ticksPerScreen);
andrew@33 1161 }
andrew@33 1162
andrew@33 1163
andrew@33 1164 void midiEventHolder::exampleCrossUpdate(){
andrew@33 1165
andrew@33 1166 bayesStruct.crossUpdateArrays(bayesStruct.posterior, bayesStruct.relativeSpeedPosterior, 200);
andrew@33 1167
andrew@33 1168 }
andrew@33 1169
andrew@33 1170
andrew@33 1171 void midiEventHolder::setStartPlayingTimes(){
andrew@34 1172 startPlayingTime = getTimeNow(0);//ofGetElapsedTimeMillis();
andrew@34 1173 //startTime = startPlayingTime;
andrew@33 1174
andrew@33 1175 /*
andrew@33 1176 bayesStruct.lastEventTime = 0;//ofGetElapsedTimeMillis();
andrew@33 1177 bayesStruct.bestEstimate = 0;
andrew@33 1178 bayesStruct.resetArrays();
andrew@33 1179 bayesStruct.lastBestEstimateUpdateTime = ofGetElapsedTimeMillis();
andrew@33 1180 */
andrew@33 1181 bayesStruct.setStartPlaying();
andrew@33 1182 matchString = "";
andrew@33 1183 }
andrew@33 1184
andrew@33 1185
andrew@33 1186 void midiEventHolder::printMatchMatrix(){
andrew@33 1187 printf("match matrix:\n");
andrew@33 1188 for (int i = 0;i < matchMatrix.size();i++){
andrew@33 1189 for (int k = 0;k < matchMatrix[i].size();k++){
andrew@33 1190 printf("%i , ", matchMatrix[i][k]);
andrew@33 1191 }
andrew@33 1192 printf("\n");
andrew@33 1193 }
andrew@33 1194
andrew@33 1195 }
andrew@33 1196
andrew@33 1197
andrew@33 1198
andrew@33 1199 void midiEventHolder::printRecordedEvents(){
andrew@33 1200 printf("Recorded Events:\n");
andrew@33 1201 for (int i = 0;i < recordedNoteOnMatrix.size();i++){
andrew@33 1202 for (int k = 0;k < recordedNoteOnMatrix[i].size();k++){
andrew@33 1203 printf("[%i] = %i ,", i, recordedNoteOnMatrix[i][k]);
andrew@33 1204 }
andrew@33 1205 if (i < recordedEventTimes.size())
andrew@33 1206 printf("time %f \n", recordedEventTimes[i]);
andrew@33 1207 else
andrew@33 1208 printf("\n");
andrew@33 1209 }
andrew@33 1210
andrew@33 1211 }
andrew@33 1212
andrew@33 1213
andrew@33 1214
andrew@33 1215 void midiEventHolder::reorderMatrixFromNoteTimes(IntMatrix& noteOnMatrix){
andrew@33 1216 double currentTime = -19999.;
andrew@33 1217 for (int i = 0;i < noteOnMatrix.size();i++){
andrew@33 1218 int nextIndex = getIndexOfMinimumAboveTime(currentTime, noteOnMatrix);
andrew@33 1219 // cout << "index of min time " << currentTime << " is " << nextIndex << " at time " << noteOnMatrix[nextIndex][0] << endl;
andrew@33 1220
andrew@33 1221 if (nextIndex >= 0 && nextIndex > i && noteOnMatrix[nextIndex][0] < noteOnMatrix[i][0] ){
andrew@33 1222 //which it should be
andrew@33 1223 // cout << " index " << nextIndex << " at time " << noteOnMatrix[nextIndex][0] << " swaps with inex " << i << " at time " << noteOnMatrix[i][0] << endl;
andrew@33 1224 noteOnMatrix[i].swap(noteOnMatrix[nextIndex]);
andrew@35 1225 // double tmp = beatPositions[i];
andrew@35 1226 // beatPositions[i] = beatPositions[nextIndex];
andrew@35 1227 // = tmp;
andrew@35 1228
andrew@35 1229 swap (beatPositions[i], beatPositions[nextIndex]);
andrew@35 1230
andrew@35 1231
andrew@33 1232 currentTime = noteOnMatrix[i][0];
andrew@33 1233 }
andrew@33 1234
andrew@33 1235 }
andrew@33 1236 //printRecordedEvents();
andrew@33 1237
andrew@33 1238 }
andrew@33 1239
andrew@33 1240
andrew@33 1241
andrew@33 1242
andrew@33 1243 void midiEventHolder::doublecheckOrder(IntMatrix& noteOnMatrix){
andrew@33 1244
andrew@33 1245 for (int i = 0;i < noteOnMatrix.size();i++){
andrew@33 1246 int nextIndex = getIndexOfMinimumAboveIndex(i, noteOnMatrix);
andrew@33 1247 if (nextIndex > i){
andrew@33 1248 noteOnMatrix[i].swap(noteOnMatrix[nextIndex]);
andrew@35 1249 swap (beatPositions[i], beatPositions[nextIndex]);
andrew@35 1250
andrew@33 1251 }
andrew@33 1252 }
andrew@33 1253 }
andrew@33 1254
andrew@33 1255 int midiEventHolder::getIndexOfMinimumAboveIndex(const int& index, IntMatrix& noteOnMatrix){
andrew@33 1256 int returnIndex = index;
andrew@33 1257 int min = noteOnMatrix[index][0];
andrew@33 1258 for (int i = index;i < noteOnMatrix.size();i++){
andrew@33 1259 if (noteOnMatrix[i][0] < min){
andrew@33 1260 returnIndex = i;
andrew@33 1261 min = noteOnMatrix[i][0];
andrew@33 1262 }
andrew@33 1263 }
andrew@33 1264 return returnIndex;
andrew@33 1265 }
andrew@33 1266
andrew@33 1267
andrew@33 1268 int midiEventHolder::getIndexOfMinimumAboveTime(const double& time, IntMatrix& noteOnMatrix){
andrew@33 1269 int index = 0;
andrew@33 1270 double minimumTime = 100000000.;
andrew@33 1271 int bestIndex = -1;
andrew@33 1272 while (index < noteOnMatrix.size()){
andrew@33 1273
andrew@33 1274 if (noteOnMatrix[index][0] > time && noteOnMatrix[index][0] < minimumTime){
andrew@33 1275 bestIndex = index;
andrew@33 1276 minimumTime = noteOnMatrix[index][0];
andrew@33 1277 }
andrew@33 1278 index++;
andrew@33 1279 }
andrew@33 1280 return bestIndex;
andrew@33 1281 }
andrew@33 1282
andrew@33 1283
andrew@33 1284
andrew@33 1285
andrew@33 1286 void midiEventHolder::correctTiming(IntMatrix& noteOnMatrix){
andrew@33 1287
andrew@33 1288 if (noteOnMatrix.size() > 0 && noteOnMatrix[0][0] < 0) {
andrew@33 1289 int offset = noteOnMatrix[0][0];
andrew@33 1290 for (int i = 0;i < noteOnMatrix.size();i++){
andrew@33 1291 noteOnMatrix[i][0] -= offset;
andrew@33 1292 }
andrew@33 1293 }
andrew@33 1294
andrew@33 1295 }
andrew@33 1296
andrew@33 1297
andrew@33 1298 void midiEventHolder::printNoteCounter(){
andrew@33 1299 for (int i = 0;i < recordedTotalNoteCounterByPitch.size();i++){
andrew@33 1300 printf("RECORDED TOTAL[%i] := %i", i, recordedTotalNoteCounterByPitch[i]);
andrew@33 1301 }
andrew@34 1302 }
andrew@34 1303
andrew@34 1304 /* double timeDiff = 0;//timeDifference;
andrew@34 1305 if (runningInRealTime)
andrew@34 1306 timeDiff = ofGetElapsedTimeMillis() - lastSmoothUpdateTime;
andrew@34 1307 // bayesStruct.lastBestEstimateUpdateTime;
andrew@34 1308
andrew@34 1309 //smoothPlayPosition = bayesStruct.bestEstimate + 100;
andrew@34 1310 //relativeSpeedForSmooth = 0.1;
andrew@34 1311 //bayesStruct.relativeSpeedPosterior.getIndexInRealTerms(bayesStruct.relativeSpeedPosterior.MAPestimate);
andrew@34 1312 // speedEstimate*2;
andrew@34 1313
andrew@34 1314 smoothPlayPosition = storedSmoothPlayPosition + timeDiff * relativeSpeedForSmooth;// * bayesStruct.speedEstimate;
andrew@34 1315 storedSmoothPlayPosition = smoothPlayPosition;
andrew@34 1316 lastSmoothUpdateTime = getTimeNow(bayesStruct.lastBestEstimateUpdateTime);
andrew@34 1317 updateSmoothPlaySpeed();
andrew@34 1318 //bayesStruct.posterior.getIndexInRealTerms(bayesStruct.posterior.MAPestimate)
andrew@34 1319
andrew@34 1320 }
andrew@34 1321
andrew@34 1322 void midiEventHolder::updateSmoothPlaySpeed(){
andrew@34 1323 //project where current play pos will be in two seconds and aim for it.
andrew@34 1324 double timeToAimForMillis = 2000.0;
andrew@34 1325 //double timeDiff = ofGetElapsedTimeMillis() - bayesStruct.lastBestEstimateUpdateTime;//since the update need to get to where we are
andrew@34 1326 double projection = bayesStruct.bestEstimate + bayesStruct.speedEstimate*timeToAimForMillis;//
andrew@34 1327 double timeDifferenceFromSmooth = projection - smoothPlayPosition;
andrew@34 1328 relativeSpeedForSmooth = timeDifferenceFromSmooth / timeToAimForMillis;
andrew@34 1329
andrew@34 1330 }
andrew@34 1331 */
andrew@35 1332
andrew@35 1333
andrew@35 1334 /*
andrew@35 1335 void midiEventHolder::findLocalTempoPairsWeightedForConfidence(){
andrew@35 1336 bool needToUpdate = false;
andrew@35 1337
andrew@35 1338 //adapted this to just use the best match for each note
andrew@35 1339
andrew@35 1340 int currentPlayedIndex = playedNoteOnMatrix.size()-1;
andrew@35 1341 // printf("played %i : %i, vel %i\n", currentPlayedIndex, playedNoteOnMatrix[currentPlayedIndex][0], playedNoteOnMatrix[currentPlayedIndex][1]);
andrew@35 1342 // printMatchesFound();
andrew@35 1343 // printMatchMatrix();
andrew@35 1344 // printf("possible notes \n");
andrew@35 1345
andrew@35 1346 bayesStruct.setLikelihoodToConstant();
andrew@35 1347
andrew@35 1348 for (int i = 0;i < matchMatrix[currentPlayedIndex][0];i++){
andrew@35 1349
andrew@35 1350 //iterate through the recently matched events - even dodgy matches included
andrew@35 1351 //size, index of match0, index of match1, ....
andrew@35 1352 int recordedCurrentIndex = matchMatrix[currentPlayedIndex][i+1];
andrew@35 1353
andrew@35 1354 double currentMatchConfidence = matchConfidence[currentPlayedIndex][i+1];//new confidence
andrew@35 1355
andrew@35 1356 int previousIndex = currentPlayedIndex-1;
andrew@35 1357
andrew@35 1358 while (previousIndex >= 0 && playedEventTimes[previousIndex] + speedWindowWidthMillis > playedEventTimes[currentPlayedIndex]) {
andrew@35 1359 double playedTimeDifference = playedEventTimes[currentPlayedIndex] - playedEventTimes[previousIndex];
andrew@35 1360
andrew@35 1361 // for (int k = 0;k < matchMatrix[previousIndex][0];k++)
andrew@35 1362 int recordedPreviousIndex = bestMatchFound[previousIndex];//matchMatrix[previousIndex][k+1];
andrew@35 1363
andrew@35 1364 //double previousMatchConfidence = matchConfidence[previousIndex][k+1];
andrew@35 1365
andrew@35 1366
andrew@35 1367 double recordedTimeDifference = recordedEventTimes[recordedCurrentIndex] - recordedEventTimes[recordedPreviousIndex];
andrew@35 1368
andrew@35 1369
andrew@35 1370 //we want the speed of the recording relative to that of the playing live
andrew@35 1371
andrew@35 1372 double speedRatio = recordedTimeDifference / playedTimeDifference;
andrew@35 1373 if (speedRatio <= maximumMatchSpeed && speedRatio >= minimumMatchSpeed){
andrew@35 1374
andrew@35 1375 printf("(%i)", matchMatrix[currentPlayedIndex][i+1]);
andrew@35 1376 printf("[%i] :: ", recordedPreviousIndex);
andrew@35 1377 // printf(" conf %f & %f ", currentMatchConfidence, previousMatchConfidence);
andrew@35 1378 printf(" rec{%f} vs play(%f) ", recordedTimeDifference, playedTimeDifference);
andrew@35 1379 printf("update on speed ratio %f\n", speedRatio);
andrew@35 1380
andrew@35 1381 // matchString += " speed: "+ofToString(speedRatio, 3);
andrew@35 1382 // commented for debug
andrew@35 1383
andrew@35 1384
andrew@35 1385 double priorWeighting = 1;
andrew@35 1386
andrew@35 1387 if (useTempoPrior)
andrew@35 1388 priorWeighting = sin(speedRatio * PI/2);//adding in a prior that prefers 1.0 speed
andrew@35 1389
andrew@35 1390
andrew@35 1391 // double weighting = previousMatchConfidence * currentMatchConfidence ;
andrew@35 1392 double amount = (1-bayesStruct.speedLikelihoodNoise)*priorWeighting/10;
andrew@35 1393 bayesStruct.updateTempoLikelihood(speedRatio, amount);//second paramter is confidence in the match
andrew@35 1394 tempoSpeedString += ofToString(recordedPreviousIndex) + " " + ofToString(speedRatio, 2) + " "+ofToString(amount, 2) += " \n";
andrew@35 1395
andrew@35 1396 needToUpdate = true;
andrew@35 1397 }
andrew@35 1398 // printf("\n");
andrew@35 1399
andrew@35 1400
andrew@35 1401 previousIndex--;
andrew@35 1402 }//end while previousindex countdown
andrew@35 1403 }//end for loop through possible current matches
andrew@35 1404
andrew@35 1405 if (needToUpdate)
andrew@35 1406 bayesStruct.updateTempoDistribution();
andrew@35 1407 //printf("current speed is %f\n", bayesStruct.relativeSpeedPosterior.getIndexInRealTerms(bayesStruct.relativeSpeedPosterior.MAPestimate));
andrew@35 1408 }
andrew@35 1409 */
andrew@35 1410