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annotate PYinVamp.cpp @ 67:d1f89559321a tony

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author matthiasm
date Wed, 02 Apr 2014 17:42:56 +0100
parents e2bbf853513d
children 01057d57dd9a
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matthiasm@0 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
Chris@9 2
matthiasm@0 3 /*
Chris@9 4 pYIN - A fundamental frequency estimator for monophonic audio
Chris@9 5 Centre for Digital Music, Queen Mary, University of London.
Chris@9 6
Chris@9 7 This program is free software; you can redistribute it and/or
Chris@9 8 modify it under the terms of the GNU General Public License as
Chris@9 9 published by the Free Software Foundation; either version 2 of the
Chris@9 10 License, or (at your option) any later version. See the file
Chris@9 11 COPYING included with this distribution for more information.
matthiasm@0 12 */
matthiasm@0 13
matthiasm@36 14 #include "PYinVamp.h"
matthiasm@0 15 #include "MonoNote.h"
matthiasm@0 16 #include "MonoPitch.h"
matthiasm@0 17
matthiasm@0 18 #include "vamp-sdk/FFT.h"
matthiasm@0 19
matthiasm@0 20 #include <vector>
matthiasm@0 21 #include <algorithm>
matthiasm@0 22
matthiasm@0 23 #include <cstdio>
matthiasm@0 24 #include <cmath>
matthiasm@0 25 #include <complex>
matthiasm@0 26
matthiasm@0 27 using std::string;
matthiasm@0 28 using std::vector;
matthiasm@0 29 using Vamp::RealTime;
matthiasm@0 30
matthiasm@0 31
matthiasm@36 32 PYinVamp::PYinVamp(float inputSampleRate) :
matthiasm@0 33 Plugin(inputSampleRate),
matthiasm@0 34 m_channels(0),
matthiasm@0 35 m_stepSize(256),
matthiasm@0 36 m_blockSize(2048),
matthiasm@0 37 m_fmin(40),
matthiasm@58 38 m_fmax(1600),
matthiasm@0 39 m_yin(2048, inputSampleRate, 0.0),
matthiasm@0 40 m_oF0Candidates(0),
matthiasm@0 41 m_oF0Probs(0),
matthiasm@0 42 m_oVoicedProb(0),
matthiasm@0 43 m_oCandidateSalience(0),
matthiasm@0 44 m_oSmoothedPitchTrack(0),
matthiasm@0 45 m_oNotes(0),
matthiasm@0 46 m_threshDistr(2.0f),
matthiasm@6 47 m_outputUnvoiced(0.0f),
matthiasm@0 48 m_pitchProb(0),
matthiasm@0 49 m_timestamp(0)
matthiasm@0 50 {
matthiasm@0 51 }
matthiasm@0 52
matthiasm@36 53 PYinVamp::~PYinVamp()
matthiasm@0 54 {
matthiasm@0 55 }
matthiasm@0 56
matthiasm@0 57 string
matthiasm@36 58 PYinVamp::getIdentifier() const
matthiasm@0 59 {
matthiasm@1 60 return "pyin";
matthiasm@0 61 }
matthiasm@0 62
matthiasm@0 63 string
matthiasm@36 64 PYinVamp::getName() const
matthiasm@0 65 {
matthiasm@1 66 return "pYin";
matthiasm@0 67 }
matthiasm@0 68
matthiasm@0 69 string
matthiasm@36 70 PYinVamp::getDescription() const
matthiasm@0 71 {
matthiasm@0 72 return "Monophonic pitch and note tracking based on a probabilistic Yin extension.";
matthiasm@0 73 }
matthiasm@0 74
matthiasm@0 75 string
matthiasm@36 76 PYinVamp::getMaker() const
matthiasm@0 77 {
matthiasm@0 78 return "Matthias Mauch";
matthiasm@0 79 }
matthiasm@0 80
matthiasm@0 81 int
matthiasm@36 82 PYinVamp::getPluginVersion() const
matthiasm@0 83 {
matthiasm@0 84 // Increment this each time you release a version that behaves
matthiasm@0 85 // differently from the previous one
matthiasm@0 86 return 1;
matthiasm@0 87 }
matthiasm@0 88
matthiasm@0 89 string
matthiasm@36 90 PYinVamp::getCopyright() const
matthiasm@0 91 {
matthiasm@0 92 return "GPL";
matthiasm@0 93 }
matthiasm@0 94
matthiasm@36 95 PYinVamp::InputDomain
matthiasm@36 96 PYinVamp::getInputDomain() const
matthiasm@0 97 {
matthiasm@0 98 return TimeDomain;
matthiasm@0 99 }
matthiasm@0 100
matthiasm@0 101 size_t
matthiasm@36 102 PYinVamp::getPreferredBlockSize() const
matthiasm@0 103 {
matthiasm@0 104 return 2048;
matthiasm@0 105 }
matthiasm@0 106
matthiasm@0 107 size_t
matthiasm@36 108 PYinVamp::getPreferredStepSize() const
matthiasm@0 109 {
matthiasm@0 110 return 256;
matthiasm@0 111 }
matthiasm@0 112
matthiasm@0 113 size_t
matthiasm@36 114 PYinVamp::getMinChannelCount() const
matthiasm@0 115 {
matthiasm@0 116 return 1;
matthiasm@0 117 }
matthiasm@0 118
matthiasm@0 119 size_t
matthiasm@36 120 PYinVamp::getMaxChannelCount() const
matthiasm@0 121 {
matthiasm@0 122 return 1;
matthiasm@0 123 }
matthiasm@0 124
matthiasm@36 125 PYinVamp::ParameterList
matthiasm@36 126 PYinVamp::getParameterDescriptors() const
matthiasm@0 127 {
matthiasm@0 128 ParameterList list;
matthiasm@0 129
matthiasm@0 130 ParameterDescriptor d;
matthiasm@0 131
matthiasm@0 132 d.identifier = "threshdistr";
matthiasm@0 133 d.name = "Yin threshold distribution";
matthiasm@0 134 d.description = ".";
matthiasm@0 135 d.unit = "";
matthiasm@0 136 d.minValue = 0.0f;
matthiasm@0 137 d.maxValue = 7.0f;
matthiasm@0 138 d.defaultValue = 2.0f;
matthiasm@0 139 d.isQuantized = true;
matthiasm@0 140 d.quantizeStep = 1.0f;
matthiasm@0 141 d.valueNames.push_back("Uniform");
matthiasm@0 142 d.valueNames.push_back("Beta (mean 0.10)");
matthiasm@0 143 d.valueNames.push_back("Beta (mean 0.15)");
matthiasm@0 144 d.valueNames.push_back("Beta (mean 0.20)");
matthiasm@0 145 d.valueNames.push_back("Beta (mean 0.30)");
matthiasm@0 146 d.valueNames.push_back("Single Value 0.10");
matthiasm@0 147 d.valueNames.push_back("Single Value 0.15");
matthiasm@0 148 d.valueNames.push_back("Single Value 0.20");
matthiasm@0 149 list.push_back(d);
matthiasm@0 150
matthiasm@0 151 d.identifier = "outputunvoiced";
matthiasm@0 152 d.valueNames.clear();
matthiasm@0 153 d.name = "Output estimates classified as unvoiced?";
matthiasm@0 154 d.description = ".";
matthiasm@0 155 d.unit = "";
matthiasm@0 156 d.minValue = 0.0f;
matthiasm@0 157 d.maxValue = 2.0f;
matthiasm@6 158 d.defaultValue = 0.0f;
matthiasm@0 159 d.isQuantized = true;
matthiasm@0 160 d.quantizeStep = 1.0f;
matthiasm@0 161 d.valueNames.push_back("No");
matthiasm@0 162 d.valueNames.push_back("Yes");
matthiasm@0 163 d.valueNames.push_back("Yes, as negative frequencies");
matthiasm@0 164 list.push_back(d);
matthiasm@0 165
matthiasm@0 166 return list;
matthiasm@0 167 }
matthiasm@0 168
matthiasm@0 169 float
matthiasm@36 170 PYinVamp::getParameter(string identifier) const
matthiasm@0 171 {
matthiasm@0 172 if (identifier == "threshdistr") {
matthiasm@0 173 return m_threshDistr;
matthiasm@0 174 }
matthiasm@0 175 if (identifier == "outputunvoiced") {
matthiasm@0 176 return m_outputUnvoiced;
matthiasm@0 177 }
matthiasm@0 178 return 0.f;
matthiasm@0 179 }
matthiasm@0 180
matthiasm@0 181 void
matthiasm@36 182 PYinVamp::setParameter(string identifier, float value)
matthiasm@0 183 {
matthiasm@0 184 if (identifier == "threshdistr")
matthiasm@0 185 {
matthiasm@0 186 m_threshDistr = value;
matthiasm@0 187 }
matthiasm@0 188 if (identifier == "outputunvoiced")
matthiasm@0 189 {
matthiasm@0 190 m_outputUnvoiced = value;
matthiasm@0 191 }
matthiasm@0 192
matthiasm@0 193 }
matthiasm@0 194
matthiasm@36 195 PYinVamp::ProgramList
matthiasm@36 196 PYinVamp::getPrograms() const
matthiasm@0 197 {
matthiasm@0 198 ProgramList list;
matthiasm@0 199 return list;
matthiasm@0 200 }
matthiasm@0 201
matthiasm@0 202 string
matthiasm@36 203 PYinVamp::getCurrentProgram() const
matthiasm@0 204 {
matthiasm@0 205 return ""; // no programs
matthiasm@0 206 }
matthiasm@0 207
matthiasm@0 208 void
matthiasm@36 209 PYinVamp::selectProgram(string name)
matthiasm@0 210 {
matthiasm@0 211 }
matthiasm@0 212
matthiasm@36 213 PYinVamp::OutputList
matthiasm@36 214 PYinVamp::getOutputDescriptors() const
matthiasm@0 215 {
matthiasm@0 216 OutputList outputs;
matthiasm@0 217
matthiasm@0 218 OutputDescriptor d;
matthiasm@0 219
matthiasm@0 220 int outputNumber = 0;
matthiasm@0 221
matthiasm@0 222 d.identifier = "f0candidates";
matthiasm@0 223 d.name = "F0 Candidates";
matthiasm@0 224 d.description = "Estimated fundamental frequency candidates.";
matthiasm@0 225 d.unit = "Hz";
matthiasm@0 226 d.hasFixedBinCount = false;
matthiasm@0 227 // d.binCount = 1;
matthiasm@0 228 d.hasKnownExtents = true;
matthiasm@0 229 d.minValue = m_fmin;
matthiasm@0 230 d.maxValue = 500;
matthiasm@0 231 d.isQuantized = false;
matthiasm@0 232 d.sampleType = OutputDescriptor::FixedSampleRate;
matthiasm@0 233 d.sampleRate = (m_inputSampleRate / m_stepSize);
matthiasm@0 234 d.hasDuration = false;
matthiasm@0 235 outputs.push_back(d);
matthiasm@0 236 m_oF0Candidates = outputNumber++;
matthiasm@0 237
matthiasm@0 238 d.identifier = "f0probs";
matthiasm@0 239 d.name = "Candidate Probabilities";
matthiasm@0 240 d.description = "Probabilities of estimated fundamental frequency candidates.";
matthiasm@0 241 d.unit = "";
matthiasm@0 242 d.hasFixedBinCount = false;
matthiasm@0 243 // d.binCount = 1;
matthiasm@0 244 d.hasKnownExtents = true;
matthiasm@0 245 d.minValue = 0;
matthiasm@0 246 d.maxValue = 1;
matthiasm@0 247 d.isQuantized = false;
matthiasm@0 248 d.sampleType = OutputDescriptor::FixedSampleRate;
matthiasm@0 249 d.sampleRate = (m_inputSampleRate / m_stepSize);
matthiasm@0 250 d.hasDuration = false;
matthiasm@0 251 outputs.push_back(d);
matthiasm@0 252 m_oF0Probs = outputNumber++;
matthiasm@0 253
matthiasm@0 254 d.identifier = "voicedprob";
matthiasm@0 255 d.name = "Voiced Probability";
matthiasm@0 256 d.description = "Probability that the signal is voiced according to Probabilistic Yin.";
matthiasm@0 257 d.unit = "";
matthiasm@0 258 d.hasFixedBinCount = true;
matthiasm@0 259 d.binCount = 1;
matthiasm@0 260 d.hasKnownExtents = true;
matthiasm@0 261 d.minValue = 0;
matthiasm@0 262 d.maxValue = 1;
matthiasm@0 263 d.isQuantized = false;
matthiasm@0 264 d.sampleType = OutputDescriptor::FixedSampleRate;
matthiasm@0 265 d.sampleRate = (m_inputSampleRate / m_stepSize);
matthiasm@0 266 d.hasDuration = false;
matthiasm@0 267 outputs.push_back(d);
matthiasm@0 268 m_oVoicedProb = outputNumber++;
matthiasm@0 269
matthiasm@0 270 d.identifier = "candidatesalience";
matthiasm@0 271 d.name = "Candidate Salience";
matthiasm@0 272 d.description = "Candidate Salience";
matthiasm@0 273 d.hasFixedBinCount = true;
matthiasm@0 274 d.binCount = m_blockSize / 2;
matthiasm@0 275 d.hasKnownExtents = true;
matthiasm@0 276 d.minValue = 0;
matthiasm@0 277 d.maxValue = 1;
matthiasm@0 278 d.isQuantized = false;
matthiasm@0 279 d.sampleType = OutputDescriptor::FixedSampleRate;
matthiasm@0 280 d.sampleRate = (m_inputSampleRate / m_stepSize);
matthiasm@0 281 d.hasDuration = false;
matthiasm@0 282 outputs.push_back(d);
matthiasm@0 283 m_oCandidateSalience = outputNumber++;
matthiasm@0 284
matthiasm@0 285 d.identifier = "smoothedpitchtrack";
matthiasm@0 286 d.name = "Smoothed Pitch Track";
matthiasm@0 287 d.description = ".";
matthiasm@0 288 d.unit = "Hz";
matthiasm@0 289 d.hasFixedBinCount = true;
matthiasm@0 290 d.binCount = 1;
matthiasm@0 291 d.hasKnownExtents = false;
matthiasm@0 292 // d.minValue = 0;
matthiasm@0 293 // d.maxValue = 1;
matthiasm@0 294 d.isQuantized = false;
matthiasm@0 295 d.sampleType = OutputDescriptor::FixedSampleRate;
matthiasm@0 296 d.sampleRate = (m_inputSampleRate / m_stepSize);
matthiasm@0 297 d.hasDuration = false;
matthiasm@0 298 outputs.push_back(d);
matthiasm@0 299 m_oSmoothedPitchTrack = outputNumber++;
matthiasm@0 300
matthiasm@0 301 d.identifier = "notes";
matthiasm@0 302 d.name = "Notes";
matthiasm@0 303 d.description = "Derived fixed-pitch note frequencies";
matthiasm@0 304 // d.unit = "MIDI unit";
matthiasm@0 305 d.unit = "Hz";
matthiasm@0 306 d.hasFixedBinCount = true;
matthiasm@0 307 d.binCount = 1;
matthiasm@0 308 d.hasKnownExtents = false;
matthiasm@0 309 d.isQuantized = false;
matthiasm@0 310 d.sampleType = OutputDescriptor::VariableSampleRate;
matthiasm@0 311 d.sampleRate = (m_inputSampleRate / m_stepSize);
matthiasm@0 312 d.hasDuration = true;
matthiasm@0 313 outputs.push_back(d);
matthiasm@0 314 m_oNotes = outputNumber++;
matthiasm@0 315
matthiasm@0 316 return outputs;
matthiasm@0 317 }
matthiasm@0 318
matthiasm@0 319 bool
matthiasm@36 320 PYinVamp::initialise(size_t channels, size_t stepSize, size_t blockSize)
matthiasm@0 321 {
matthiasm@0 322 if (channels < getMinChannelCount() ||
matthiasm@0 323 channels > getMaxChannelCount()) return false;
matthiasm@0 324
Chris@9 325 /*
matthiasm@36 326 std::cerr << "PYinVamp::initialise: channels = " << channels
matthiasm@0 327 << ", stepSize = " << stepSize << ", blockSize = " << blockSize
matthiasm@0 328 << std::endl;
Chris@9 329 */
matthiasm@0 330 m_channels = channels;
matthiasm@0 331 m_stepSize = stepSize;
matthiasm@0 332 m_blockSize = blockSize;
matthiasm@0 333
matthiasm@0 334 reset();
matthiasm@0 335
matthiasm@0 336 return true;
matthiasm@0 337 }
matthiasm@0 338
matthiasm@0 339 void
matthiasm@36 340 PYinVamp::reset()
matthiasm@0 341 {
matthiasm@0 342 m_yin.setThresholdDistr(m_threshDistr);
matthiasm@0 343 m_yin.setFrameSize(m_blockSize);
matthiasm@0 344
matthiasm@0 345 m_pitchProb.clear();
matthiasm@0 346 m_timestamp.clear();
Chris@9 347 /*
matthiasm@36 348 std::cerr << "PYinVamp::reset"
matthiasm@0 349 << ", blockSize = " << m_blockSize
matthiasm@0 350 << std::endl;
Chris@9 351 */
matthiasm@0 352 }
matthiasm@0 353
matthiasm@36 354 PYinVamp::FeatureSet
matthiasm@36 355 PYinVamp::process(const float *const *inputBuffers, RealTime timestamp)
matthiasm@0 356 {
matthiasm@60 357 timestamp = timestamp + Vamp::RealTime::frame2RealTime(m_blockSize/2, lrintf(m_inputSampleRate));
matthiasm@0 358 FeatureSet fs;
matthiasm@0 359
matthiasm@46 360 float rms = 0;
matthiasm@46 361
matthiasm@0 362 double *dInputBuffers = new double[m_blockSize];
matthiasm@46 363 for (size_t i = 0; i < m_blockSize; ++i) {
matthiasm@46 364 dInputBuffers[i] = inputBuffers[0][i];
matthiasm@46 365 rms += inputBuffers[0][i] * inputBuffers[0][i];
matthiasm@46 366 }
matthiasm@46 367 rms /= m_blockSize;
matthiasm@46 368 rms = sqrt(rms);
matthiasm@65 369 float lowAmp = 0.1;
matthiasm@50 370 bool isLowAmplitude = (rms < lowAmp);
matthiasm@65 371 float factor = ((rms+0.01*lowAmp)/(1.01*lowAmp));
matthiasm@65 372 // std::cerr << rms << " " << factor << std::endl;
matthiasm@0 373
matthiasm@0 374 Yin::YinOutput yo = m_yin.processProbabilisticYin(dInputBuffers);
matthiasm@27 375 delete [] dInputBuffers;
matthiasm@27 376
matthiasm@27 377 // First, get the things out of the way that we don't want to output
matthiasm@27 378 // immediately, but instead save for later.
matthiasm@27 379 vector<pair<double, double> > tempPitchProb;
matthiasm@27 380 for (size_t iCandidate = 0; iCandidate < yo.freqProb.size(); ++iCandidate)
matthiasm@27 381 {
matthiasm@27 382 double tempPitch = 12 * std::log(yo.freqProb[iCandidate].first/440)/std::log(2.) + 69;
matthiasm@50 383 if (!isLowAmplitude)
matthiasm@46 384 tempPitchProb.push_back(pair<double, double>
matthiasm@46 385 (tempPitch, yo.freqProb[iCandidate].second));
matthiasm@65 386 else {
matthiasm@46 387 tempPitchProb.push_back(pair<double, double>
matthiasm@65 388 (tempPitch, yo.freqProb[iCandidate].second*factor));
matthiasm@65 389 }
matthiasm@27 390 }
matthiasm@27 391 m_pitchProb.push_back(tempPitchProb);
matthiasm@27 392 m_timestamp.push_back(timestamp);
matthiasm@27 393
matthiasm@27 394 // F0 CANDIDATES
matthiasm@0 395 Feature f;
matthiasm@0 396 f.hasTimestamp = true;
matthiasm@0 397 f.timestamp = timestamp;
matthiasm@0 398 for (size_t i = 0; i < yo.freqProb.size(); ++i)
matthiasm@0 399 {
matthiasm@0 400 f.values.push_back(yo.freqProb[i].first);
matthiasm@0 401 }
matthiasm@0 402 fs[m_oF0Candidates].push_back(f);
matthiasm@0 403
matthiasm@27 404 // VOICEDPROB
matthiasm@0 405 f.values.clear();
matthiasm@0 406 float voicedProb = 0;
matthiasm@0 407 for (size_t i = 0; i < yo.freqProb.size(); ++i)
matthiasm@0 408 {
matthiasm@0 409 f.values.push_back(yo.freqProb[i].second);
matthiasm@0 410 voicedProb += yo.freqProb[i].second;
matthiasm@0 411 }
matthiasm@0 412 fs[m_oF0Probs].push_back(f);
matthiasm@0 413
matthiasm@0 414 f.values.push_back(voicedProb);
matthiasm@0 415 fs[m_oVoicedProb].push_back(f);
matthiasm@0 416
matthiasm@27 417 // SALIENCE -- maybe this should eventually disappear
matthiasm@0 418 f.values.clear();
matthiasm@0 419 float salienceSum = 0;
matthiasm@0 420 for (size_t iBin = 0; iBin < yo.salience.size(); ++iBin)
matthiasm@0 421 {
matthiasm@0 422 f.values.push_back(yo.salience[iBin]);
matthiasm@0 423 salienceSum += yo.salience[iBin];
matthiasm@0 424 }
matthiasm@0 425 fs[m_oCandidateSalience].push_back(f);
matthiasm@0 426
matthiasm@0 427 return fs;
matthiasm@0 428 }
matthiasm@0 429
matthiasm@36 430 PYinVamp::FeatureSet
matthiasm@36 431 PYinVamp::getRemainingFeatures()
matthiasm@0 432 {
matthiasm@0 433 FeatureSet fs;
matthiasm@0 434 Feature f;
matthiasm@0 435 f.hasTimestamp = true;
matthiasm@0 436 f.hasDuration = false;
matthiasm@0 437
Chris@4 438 if (m_pitchProb.empty()) {
Chris@4 439 return fs;
Chris@4 440 }
Chris@4 441
matthiasm@0 442 // MONO-PITCH STUFF
matthiasm@0 443 MonoPitch mp;
matthiasm@0 444 vector<float> mpOut = mp.process(m_pitchProb);
matthiasm@0 445 for (size_t iFrame = 0; iFrame < mpOut.size(); ++iFrame)
matthiasm@0 446 {
matthiasm@0 447 if (mpOut[iFrame] < 0 && (m_outputUnvoiced==0)) continue;
matthiasm@0 448 f.timestamp = m_timestamp[iFrame];
matthiasm@0 449 f.values.clear();
matthiasm@0 450 if (m_outputUnvoiced == 1)
matthiasm@0 451 {
matthiasm@26 452 f.values.push_back(fabs(mpOut[iFrame]));
matthiasm@0 453 } else {
matthiasm@0 454 f.values.push_back(mpOut[iFrame]);
matthiasm@0 455 }
matthiasm@0 456
matthiasm@0 457 fs[m_oSmoothedPitchTrack].push_back(f);
matthiasm@0 458 }
matthiasm@0 459
matthiasm@1 460 // MONO-NOTE STUFF
matthiasm@67 461 std::cerr << "Mono Note Stuff" << std::endl;
matthiasm@1 462 MonoNote mn;
matthiasm@1 463 std::vector<std::vector<std::pair<double, double> > > smoothedPitch;
matthiasm@1 464 for (size_t iFrame = 0; iFrame < mpOut.size(); ++iFrame) {
matthiasm@1 465 std::vector<std::pair<double, double> > temp;
matthiasm@1 466 if (mpOut[iFrame] > 0)
matthiasm@1 467 {
matthiasm@1 468 double tempPitch = 12 * std::log(mpOut[iFrame]/440)/std::log(2.) + 69;
matthiasm@1 469 temp.push_back(std::pair<double,double>(tempPitch, .9));
matthiasm@1 470 }
matthiasm@1 471 smoothedPitch.push_back(temp);
matthiasm@1 472 }
matthiasm@0 473 // vector<MonoNote::FrameOutput> mnOut = mn.process(m_pitchProb);
matthiasm@1 474 vector<MonoNote::FrameOutput> mnOut = mn.process(smoothedPitch);
matthiasm@1 475
matthiasm@6 476 // turning feature into a note feature
matthiasm@1 477 f.hasTimestamp = true;
matthiasm@1 478 f.hasDuration = true;
matthiasm@1 479 f.values.clear();
matthiasm@6 480
matthiasm@6 481 int onsetFrame = 0;
matthiasm@6 482 bool isVoiced = 0;
matthiasm@6 483 bool oldIsVoiced = 0;
matthiasm@6 484 size_t nFrame = m_pitchProb.size();
matthiasm@1 485
matthiasm@6 486 std::vector<float> notePitchTrack; // collects pitches for one note at a time
matthiasm@6 487 for (size_t iFrame = 0; iFrame < nFrame; ++iFrame)
matthiasm@1 488 {
matthiasm@6 489 isVoiced = mnOut[iFrame].noteState < 3 && smoothedPitch[iFrame].size() > 0;
matthiasm@6 490 if (isVoiced && iFrame != nFrame-1)
matthiasm@1 491 {
matthiasm@6 492 if (oldIsVoiced == 0) // beginning of a note
matthiasm@1 493 {
matthiasm@6 494 onsetFrame = iFrame;
matthiasm@6 495 notePitchTrack.clear();
matthiasm@1 496 }
matthiasm@6 497 float pitch = smoothedPitch[iFrame][0].first;
matthiasm@6 498 notePitchTrack.push_back(pitch); // add to the note's pitch track
matthiasm@6 499 } else { // not currently voiced
matthiasm@6 500 if (oldIsVoiced == 1 && notePitchTrack.size() > 4) // end of the note
matthiasm@6 501 {
matthiasm@1 502 std::sort(notePitchTrack.begin(), notePitchTrack.end());
matthiasm@6 503 float medianPitch = notePitchTrack[notePitchTrack.size()/2];
matthiasm@6 504 float medianFreq = std::pow(2,(medianPitch - 69) / 12) * 440;
matthiasm@6 505 f.values.clear();
matthiasm@6 506 f.values.push_back(medianFreq);
matthiasm@6 507 f.timestamp = m_timestamp[onsetFrame];
matthiasm@6 508 f.duration = m_timestamp[iFrame] - m_timestamp[onsetFrame];
matthiasm@5 509 fs[m_oNotes].push_back(f);
matthiasm@1 510 }
matthiasm@1 511 }
matthiasm@6 512 oldIsVoiced = isVoiced;
matthiasm@1 513 }
matthiasm@0 514 return fs;
matthiasm@0 515 }