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annotate plugins/Notes.cpp @ 12:62414aaaaa7e

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* Update to new Vamp process() * Add hack for getting raw tempo out of hacked Aubio
author Chris Cannam <cannam@all-day-breakfast.com>
date Tue, 12 Dec 2006 10:42:21 +0000
parents 08274106d3e0
children 1169d00391d8
rev   line source
cannam@0 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
cannam@0 2
cannam@0 3 /*
cannam@0 4 Vamp feature extraction plugins using Paul Brossier's Aubio library.
cannam@0 5
cannam@0 6 Centre for Digital Music, Queen Mary, University of London.
cannam@0 7 This file copyright 2006 Chris Cannam.
cannam@0 8
cannam@0 9 This program is free software; you can redistribute it and/or
cannam@0 10 modify it under the terms of the GNU General Public License as
cannam@0 11 published by the Free Software Foundation; either version 2 of the
cannam@0 12 License, or (at your option) any later version. See the file
cannam@0 13 COPYING included with this distribution for more information.
cannam@0 14
cannam@0 15 */
cannam@0 16
piem@2 17 #include <math.h>
cannam@0 18 #include "Notes.h"
cannam@0 19
cannam@0 20 using std::string;
cannam@0 21 using std::vector;
cannam@0 22 using std::cerr;
cannam@0 23 using std::endl;
cannam@0 24
cannam@0 25 Notes::Notes(float inputSampleRate) :
cannam@0 26 Plugin(inputSampleRate),
cannam@0 27 m_ibuf(0),
cannam@0 28 m_fftgrain(0),
cannam@0 29 m_onset(0),
cannam@0 30 m_pv(0),
cannam@0 31 m_peakpick(0),
cannam@0 32 m_onsetdet(0),
piem@2 33 m_onsettype(aubio_onset_complex),
cannam@0 34 m_pitchdet(0),
piem@2 35 m_pitchtype(aubio_pitch_yinfft),
cannam@0 36 m_pitchmode(aubio_pitchm_freq),
cannam@0 37 m_threshold(0.3),
cannam@0 38 m_silence(-90),
cannam@7 39 m_median(6),
piem@9 40 m_minpitch(27),
cannam@7 41 m_maxpitch(95),
cannam@7 42 m_wrapRange(false),
cannam@7 43 m_avoidLeaps(false),
cannam@7 44 m_prevPitch(-1)
cannam@0 45 {
cannam@0 46 }
cannam@0 47
cannam@0 48 Notes::~Notes()
cannam@0 49 {
cannam@0 50 if (m_onsetdet) aubio_onsetdetection_free(m_onsetdet);
cannam@0 51 if (m_pitchdet) del_aubio_pitchdetection(m_pitchdet);
cannam@0 52 if (m_ibuf) del_fvec(m_ibuf);
cannam@0 53 if (m_onset) del_fvec(m_onset);
cannam@0 54 if (m_fftgrain) del_cvec(m_fftgrain);
cannam@0 55 if (m_pv) del_aubio_pvoc(m_pv);
cannam@0 56 if (m_peakpick) del_aubio_peakpicker(m_peakpick);
cannam@0 57 }
cannam@0 58
cannam@0 59 string
cannam@0 60 Notes::getName() const
cannam@0 61 {
cannam@0 62 return "aubionotes";
cannam@0 63 }
cannam@0 64
cannam@0 65 string
cannam@0 66 Notes::getDescription() const
cannam@0 67 {
cannam@0 68 return "Aubio Note Tracker";
cannam@0 69 }
cannam@0 70
cannam@0 71 string
cannam@0 72 Notes::getMaker() const
cannam@0 73 {
cannam@0 74 return "Paul Brossier (plugin by Chris Cannam)";
cannam@0 75 }
cannam@0 76
cannam@0 77 int
cannam@0 78 Notes::getPluginVersion() const
cannam@0 79 {
cannam@0 80 return 1;
cannam@0 81 }
cannam@0 82
cannam@0 83 string
cannam@0 84 Notes::getCopyright() const
cannam@0 85 {
cannam@0 86 return "GPL";
cannam@0 87 }
cannam@0 88
cannam@0 89 bool
cannam@0 90 Notes::initialise(size_t channels, size_t stepSize, size_t blockSize)
cannam@0 91 {
cannam@0 92 m_channelCount = channels;
cannam@0 93 m_stepSize = stepSize;
cannam@0 94 m_blockSize = blockSize;
cannam@0 95
cannam@0 96 size_t processingBlockSize;
cannam@0 97 if (m_onsettype == aubio_onset_energy ||
cannam@0 98 m_onsettype == aubio_onset_hfc) {
cannam@0 99 processingBlockSize = stepSize * 2;
cannam@0 100 } else {
cannam@0 101 processingBlockSize = stepSize * 4;
cannam@0 102 }
cannam@0 103
cannam@0 104 m_ibuf = new_fvec(stepSize, channels);
cannam@0 105 m_onset = new_fvec(1, channels);
cannam@0 106 m_fftgrain = new_cvec(processingBlockSize, channels);
cannam@0 107 m_pv = new_aubio_pvoc(processingBlockSize, stepSize, channels);
cannam@0 108 m_peakpick = new_aubio_peakpicker(m_threshold);
cannam@0 109
cannam@0 110 m_onsetdet = new_aubio_onsetdetection(m_onsettype, processingBlockSize, channels);
cannam@0 111
cannam@0 112 m_pitchdet = new_aubio_pitchdetection(processingBlockSize * 4,
cannam@0 113 stepSize,
cannam@0 114 channels,
cannam@0 115 lrintf(m_inputSampleRate),
cannam@0 116 m_pitchtype,
cannam@0 117 m_pitchmode);
cannam@0 118
cannam@0 119 m_count = 0;
piem@5 120 m_delay = Vamp::RealTime::frame2RealTime((4 + m_median) * m_stepSize,
piem@5 121 lrintf(m_inputSampleRate));
cannam@0 122 m_currentOnset = Vamp::RealTime::zeroTime;
cannam@0 123 m_haveCurrent = false;
cannam@7 124 m_prevPitch = -1;
cannam@0 125
cannam@0 126 return true;
cannam@0 127 }
cannam@0 128
cannam@0 129 void
cannam@0 130 Notes::reset()
cannam@0 131 {
cannam@0 132 }
cannam@0 133
cannam@0 134 size_t
cannam@0 135 Notes::getPreferredStepSize() const
cannam@0 136 {
piem@2 137 return 512;
cannam@0 138 }
cannam@0 139
cannam@0 140 size_t
cannam@0 141 Notes::getPreferredBlockSize() const
cannam@0 142 {
cannam@4 143 return 4 * getPreferredStepSize();
cannam@0 144 }
cannam@0 145
cannam@0 146 Notes::ParameterList
cannam@0 147 Notes::getParameterDescriptors() const
cannam@0 148 {
cannam@0 149 ParameterList list;
cannam@0 150
cannam@0 151 ParameterDescriptor desc;
cannam@0 152 desc.name = "onsettype";
cannam@0 153 desc.description = "Onset Detection Function Type";
cannam@0 154 desc.minValue = 0;
cannam@0 155 desc.maxValue = 6;
piem@2 156 desc.defaultValue = (int)aubio_onset_complex;
cannam@0 157 desc.isQuantized = true;
cannam@0 158 desc.quantizeStep = 1;
cannam@0 159 desc.valueNames.push_back("Energy Based");
cannam@0 160 desc.valueNames.push_back("Spectral Difference");
cannam@0 161 desc.valueNames.push_back("High-Frequency Content");
cannam@0 162 desc.valueNames.push_back("Complex Domain");
cannam@0 163 desc.valueNames.push_back("Phase Deviation");
cannam@0 164 desc.valueNames.push_back("Kullback-Liebler");
cannam@0 165 desc.valueNames.push_back("Modified Kullback-Liebler");
cannam@0 166 list.push_back(desc);
cannam@0 167
cannam@0 168 desc = ParameterDescriptor();
cannam@0 169 desc.name = "pitchtype";
cannam@0 170 desc.description = "Pitch Detection Function Type";
cannam@0 171 desc.minValue = 0;
cannam@0 172 desc.maxValue = 4;
piem@2 173 desc.defaultValue = (int)aubio_pitch_yinfft;
cannam@0 174 desc.isQuantized = true;
cannam@0 175 desc.quantizeStep = 1;
cannam@0 176 desc.valueNames.push_back("YIN Frequency Estimator");
cannam@0 177 desc.valueNames.push_back("Spectral Comb");
cannam@0 178 desc.valueNames.push_back("Schmitt");
cannam@0 179 desc.valueNames.push_back("Fast Harmonic Comb");
cannam@0 180 desc.valueNames.push_back("YIN with FFT");
cannam@0 181 list.push_back(desc);
cannam@0 182
cannam@0 183 desc = ParameterDescriptor();
cannam@7 184 desc.name = "minpitch";
cannam@7 185 desc.description = "Minimum Pitch";
cannam@7 186 desc.minValue = 0;
cannam@7 187 desc.maxValue = 127;
cannam@7 188 desc.defaultValue = 32;
cannam@7 189 desc.unit = "MIDI units";
cannam@7 190 desc.isQuantized = true;
cannam@7 191 desc.quantizeStep = 1;
cannam@7 192 list.push_back(desc);
cannam@7 193
cannam@7 194 desc = ParameterDescriptor();
cannam@7 195 desc.name = "maxpitch";
cannam@7 196 desc.description = "Maximum Pitch";
cannam@7 197 desc.minValue = 0;
cannam@7 198 desc.maxValue = 127;
cannam@7 199 desc.defaultValue = 95;
cannam@7 200 desc.unit = "MIDI units";
cannam@7 201 desc.isQuantized = true;
cannam@7 202 desc.quantizeStep = 1;
cannam@7 203 list.push_back(desc);
cannam@7 204
cannam@7 205 desc = ParameterDescriptor();
cannam@7 206 desc.name = "wraprange";
cannam@7 207 desc.description = "Fold Higher or Lower Notes into Range";
cannam@7 208 desc.minValue = 0;
cannam@7 209 desc.maxValue = 1;
cannam@7 210 desc.defaultValue = 0;
cannam@7 211 desc.isQuantized = true;
cannam@7 212 desc.quantizeStep = 1;
cannam@7 213 list.push_back(desc);
cannam@7 214
cannam@7 215 desc = ParameterDescriptor();
cannam@7 216 desc.name = "avoidleaps";
cannam@7 217 desc.description = "Avoid Multi-Octave Jumps";
cannam@7 218 desc.minValue = 0;
cannam@7 219 desc.maxValue = 1;
cannam@7 220 desc.defaultValue = 0;
cannam@7 221 desc.isQuantized = true;
cannam@7 222 desc.quantizeStep = 1;
cannam@7 223 list.push_back(desc);
cannam@7 224
cannam@7 225 desc = ParameterDescriptor();
cannam@0 226 desc.name = "peakpickthreshold";
cannam@0 227 desc.description = "Peak Picker Threshold";
cannam@0 228 desc.minValue = 0;
cannam@0 229 desc.maxValue = 1;
cannam@0 230 desc.defaultValue = 0.3;
cannam@0 231 desc.isQuantized = false;
cannam@0 232 list.push_back(desc);
cannam@0 233
cannam@0 234 desc = ParameterDescriptor();
cannam@0 235 desc.name = "silencethreshold";
cannam@0 236 desc.description = "Silence Threshold";
cannam@0 237 desc.minValue = -120;
cannam@0 238 desc.maxValue = 0;
cannam@0 239 desc.defaultValue = -90;
cannam@0 240 desc.unit = "dB";
cannam@0 241 desc.isQuantized = false;
cannam@0 242 list.push_back(desc);
cannam@0 243
cannam@0 244 return list;
cannam@0 245 }
cannam@0 246
cannam@0 247 float
cannam@0 248 Notes::getParameter(std::string param) const
cannam@0 249 {
cannam@0 250 if (param == "onsettype") {
cannam@0 251 return m_onsettype;
cannam@0 252 } else if (param == "pitchtype") {
cannam@0 253 return m_pitchtype;
cannam@0 254 } else if (param == "peakpickthreshold") {
cannam@0 255 return m_threshold;
cannam@0 256 } else if (param == "silencethreshold") {
cannam@0 257 return m_silence;
cannam@7 258 } else if (param == "minpitch") {
cannam@7 259 return m_minpitch;
cannam@7 260 } else if (param == "maxpitch") {
cannam@7 261 return m_maxpitch;
cannam@7 262 } else if (param == "wraprange") {
cannam@7 263 return m_wrapRange ? 1.0 : 0.0;
cannam@7 264 } else if (param == "avoidleaps") {
cannam@7 265 return m_avoidLeaps ? 1.0 : 0.0;
cannam@0 266 } else {
cannam@0 267 return 0.0;
cannam@0 268 }
cannam@0 269 }
cannam@0 270
cannam@0 271 void
cannam@0 272 Notes::setParameter(std::string param, float value)
cannam@0 273 {
cannam@0 274 if (param == "onsettype") {
cannam@0 275 switch (lrintf(value)) {
cannam@0 276 case 0: m_onsettype = aubio_onset_energy; break;
cannam@0 277 case 1: m_onsettype = aubio_onset_specdiff; break;
cannam@0 278 case 2: m_onsettype = aubio_onset_hfc; break;
cannam@0 279 case 3: m_onsettype = aubio_onset_complex; break;
cannam@0 280 case 4: m_onsettype = aubio_onset_phase; break;
cannam@0 281 case 5: m_onsettype = aubio_onset_kl; break;
cannam@0 282 case 6: m_onsettype = aubio_onset_mkl; break;
cannam@0 283 }
cannam@0 284 } else if (param == "pitchtype") {
cannam@0 285 switch (lrintf(value)) {
cannam@0 286 case 0: m_pitchtype = aubio_pitch_yin; break;
cannam@0 287 case 1: m_pitchtype = aubio_pitch_mcomb; break;
cannam@0 288 case 2: m_pitchtype = aubio_pitch_schmitt; break;
cannam@0 289 case 3: m_pitchtype = aubio_pitch_fcomb; break;
cannam@0 290 case 4: m_pitchtype = aubio_pitch_yinfft; break;
cannam@0 291 }
cannam@0 292 } else if (param == "peakpickthreshold") {
cannam@0 293 m_threshold = value;
cannam@0 294 } else if (param == "silencethreshold") {
cannam@0 295 m_silence = value;
cannam@7 296 } else if (param == "minpitch") {
cannam@7 297 m_minpitch = lrintf(value);
cannam@7 298 } else if (param == "maxpitch") {
cannam@7 299 m_maxpitch = lrintf(value);
cannam@7 300 } else if (param == "wraprange") {
cannam@7 301 m_wrapRange = (value > 0.5);
cannam@7 302 } else if (param == "avoidleaps") {
cannam@7 303 m_avoidLeaps = (value > 0.5);
cannam@0 304 }
cannam@0 305 }
cannam@0 306
cannam@0 307 Notes::OutputList
cannam@0 308 Notes::getOutputDescriptors() const
cannam@0 309 {
cannam@0 310 OutputList list;
cannam@0 311
cannam@0 312 OutputDescriptor d;
cannam@0 313 d.name = "notes";
cannam@0 314 d.unit = "Hz";
cannam@0 315 d.description = "Notes";
cannam@0 316 d.hasFixedBinCount = true;
cannam@0 317 d.binCount = 2;
cannam@0 318 d.binNames.push_back("Frequency");
cannam@0 319 d.binNames.push_back("Duration");
cannam@0 320 d.binNames.push_back("Velocity");
cannam@0 321 d.hasKnownExtents = false;
cannam@0 322 d.isQuantized = false;
cannam@0 323 d.sampleType = OutputDescriptor::VariableSampleRate;
cannam@0 324 d.sampleRate = 0;
cannam@0 325 list.push_back(d);
cannam@0 326
cannam@0 327 return list;
cannam@0 328 }
cannam@0 329
cannam@0 330 Notes::FeatureSet
cannam@12 331 Notes::process(const float *const *inputBuffers, Vamp::RealTime timestamp)
cannam@0 332 {
cannam@0 333 for (size_t i = 0; i < m_stepSize; ++i) {
cannam@0 334 for (size_t j = 0; j < m_channelCount; ++j) {
cannam@0 335 fvec_write_sample(m_ibuf, inputBuffers[j][i], j, i);
cannam@0 336 }
cannam@0 337 }
cannam@0 338
cannam@0 339 aubio_pvoc_do(m_pv, m_ibuf, m_fftgrain);
cannam@0 340 aubio_onsetdetection(m_onsetdet, m_fftgrain, m_onset);
cannam@0 341
cannam@0 342 bool isonset = aubio_peakpick_pimrt(m_onset, m_peakpick);
cannam@0 343
cannam@0 344 float frequency = aubio_pitchdetection(m_pitchdet, m_ibuf);
cannam@0 345
cannam@0 346 m_notebuf.push_back(frequency);
cannam@0 347 if (m_notebuf.size() > m_median) m_notebuf.pop_front();
cannam@0 348
cannam@0 349 float level = aubio_level_detection(m_ibuf, m_silence);
cannam@0 350
cannam@0 351 FeatureSet returnFeatures;
cannam@0 352
cannam@0 353 if (isonset) {
cannam@0 354 if (level == 1.) {
cannam@0 355 isonset = false;
cannam@0 356 m_count = 0;
cannam@0 357 if (m_haveCurrent) pushNote(returnFeatures, timestamp);
cannam@0 358 } else {
cannam@0 359 m_count = 1;
cannam@0 360 }
cannam@0 361 } else {
cannam@0 362 if (m_count > 0) ++m_count;
cannam@0 363 if (m_count == m_median) {
cannam@0 364 if (m_haveCurrent) pushNote(returnFeatures, timestamp);
cannam@0 365 m_currentOnset = timestamp;
cannam@0 366 m_currentLevel = level;
cannam@0 367 m_haveCurrent = true;
cannam@0 368 }
cannam@0 369 }
cannam@0 370
cannam@0 371 m_lastTimeStamp = timestamp;
cannam@0 372 return returnFeatures;
cannam@0 373 }
cannam@0 374
cannam@0 375 Notes::FeatureSet
cannam@0 376 Notes::getRemainingFeatures()
cannam@0 377 {
cannam@0 378 FeatureSet returnFeatures;
cannam@0 379 if (m_haveCurrent) pushNote(returnFeatures, m_lastTimeStamp);
cannam@0 380 return returnFeatures;
cannam@0 381 }
cannam@0 382
cannam@0 383 void
cannam@0 384 Notes::pushNote(FeatureSet &fs, const Vamp::RealTime &offTime)
cannam@0 385 {
cannam@0 386 std::deque<float> toSort = m_notebuf;
cannam@0 387 std::sort(toSort.begin(), toSort.end());
cannam@0 388 float median = toSort[toSort.size()/2];
cannam@0 389 if (median < 45.0) return;
cannam@0 390
cannam@7 391 float freq = median;
cannam@7 392 int midiPitch = (int)FLOOR(aubio_freqtomidi(freq) + 0.5);
cannam@7 393
cannam@7 394 if (m_avoidLeaps) {
cannam@7 395 if (m_prevPitch >= 0) {
cannam@7 396 while (midiPitch < m_prevPitch - 12) {
cannam@7 397 midiPitch += 12;
cannam@7 398 freq *= 2;
cannam@7 399 }
cannam@7 400 while (midiPitch > m_prevPitch + 12) {
cannam@7 401 midiPitch -= 12;
cannam@7 402 freq /= 2;
cannam@7 403 }
cannam@7 404 }
cannam@7 405 }
cannam@7 406
cannam@7 407 while (midiPitch < m_minpitch) {
cannam@7 408 if (!m_wrapRange) return;
cannam@7 409 midiPitch += 12;
cannam@7 410 freq *= 2;
cannam@7 411 }
cannam@7 412
cannam@7 413 while (midiPitch > m_maxpitch) {
cannam@7 414 if (!m_wrapRange) return;
cannam@7 415 midiPitch -= 12;
cannam@7 416 freq /= 2;
cannam@7 417 }
cannam@7 418
cannam@7 419 m_prevPitch = midiPitch;
cannam@7 420
cannam@0 421 Feature feature;
cannam@0 422 feature.hasTimestamp = true;
piem@5 423 if (m_currentOnset < m_delay) m_currentOnset = m_delay;
piem@5 424 feature.timestamp = m_currentOnset - m_delay;
cannam@7 425 feature.values.push_back(freq);
cannam@0 426 feature.values.push_back
cannam@0 427 (Vamp::RealTime::realTime2Frame(offTime, lrintf(m_inputSampleRate)) -
cannam@0 428 Vamp::RealTime::realTime2Frame(m_currentOnset, lrintf(m_inputSampleRate)));
cannam@0 429 feature.values.push_back(m_currentLevel);
cannam@0 430 fs[0].push_back(feature);
cannam@0 431 }
cannam@0 432