qm-vamp-plugins: plugins/TonalChangeDetect.cpp annotate

annotate plugins/TonalChangeDetect.cpp @ 22:6d014fb538db

* Update along with latest Vamp API change

author	Chris Cannam <c.cannam@qmul.ac.uk>
date	Mon, 26 Feb 2007 17:49:15 +0000
parents	99dadc93042e
children	bec0d544984b

rev	line source
c@0	1 /* -- c-basic-offset: 4 indent-tabs-mode: nil -- vi:set ts=8 sts=4 sw=4: */
c@0	2
c@0	3 /*
c@0	4 QM Vamp Plugin Set
c@0	5
c@0	6 Centre for Digital Music, Queen Mary, University of London.
c@0	7 All rights reserved.
c@0	8 */
c@0	9
c@0	10 #include "TonalChangeDetect.h"
c@0	11
c@3	12 #include <base/Pitch.h>
c@3	13 #include <dsp/chromagram/Chromagram.h>
c@3	14 #include <dsp/tonal/ChangeDetectionFunction.h>
c@0	15
c@0	16 TonalChangeDetect::TonalChangeDetect(float fInputSampleRate)
c@0	17 : Vamp::Plugin(fInputSampleRate),
c@0	18 m_chromagram(0),
c@0	19 m_step(0),
c@0	20 m_block(0),
c@0	21 m_stepDelay(0)
c@0	22 {
c@0	23 m_minMIDIPitch = 32;
c@0	24 m_maxMIDIPitch = 108;
c@0	25 m_tuningFrequency = 440;
c@0	26 m_iSmoothingWidth = 5;
c@0	27
c@0	28 setupConfig();
c@0	29 }
c@0	30
c@0	31 TonalChangeDetect::~TonalChangeDetect()
c@0	32 {
c@0	33 }
c@0	34
c@0	35 bool TonalChangeDetect::initialise(size_t channels, size_t stepSize, size_t blockSize)
c@0	36 {
c@0	37 if (m_chromagram) {
c@0	38 delete m_chromagram;
c@0	39 m_chromagram = 0;
c@0	40 }
c@0	41
c@0	42 if (channels < getMinChannelCount() \|\|
c@0	43 channels > getMaxChannelCount()) {
c@0	44 std::cerr << "TonalChangeDetect::initialise: Given channel count " << channels << " outside acceptable range (" << getMinChannelCount() << " to " << getMaxChannelCount() << ")" << std::endl;
c@0	45 return false;
c@0	46 }
c@0	47
c@15	48 m_chromagram = new Chromagram(m_config);
c@15	49 m_step = m_chromagram->getHopSize();
c@15	50 m_block = m_chromagram->getFrameSize();
c@15	51
c@0	52 if (stepSize != m_step) {
c@0	53 std::cerr << "TonalChangeDetect::initialise: Given step size " << stepSize << " differs from only acceptable value " << m_step << std::endl;
c@15	54 delete m_chromagram;
c@15	55 m_chromagram = 0;
c@0	56 return false;
c@0	57 }
c@0	58 if (blockSize != m_block) {
c@0	59 std::cerr << "TonalChangeDetect::initialise: Given step size " << stepSize << " differs from only acceptable value " << m_step << std::endl;
c@15	60 delete m_chromagram;
c@15	61 m_chromagram = 0;
c@0	62 return false;
c@0	63 }
c@0	64
c@0	65 // m_stepDelay = (blockSize - stepSize) / 2;
c@0	66 // m_stepDelay = m_stepDelay / stepSize;
c@0	67 m_stepDelay = (blockSize - stepSize) / stepSize; //!!! why? seems about right to look at, but...
c@0	68
c@0	69 std::cerr << "TonalChangeDetect::initialise: step " << stepSize << ", block "
c@0	70 << blockSize << ", delay " << m_stepDelay << std::endl;
c@0	71
c@0	72 m_vaCurrentVector.resize(12, 0.0);
c@0	73
c@0	74 return true;
c@0	75
c@0	76 }
c@0	77
c@22	78 std::string TonalChangeDetect::getIdentifier() const
c@0	79 {
c@9	80 return "qm-tonalchange";
c@0	81 }
c@0	82
c@22	83 std::string TonalChangeDetect::getName() const
c@22	84 {
c@22	85 return "Tonal Change";
c@22	86 }
c@22	87
c@0	88 std::string TonalChangeDetect::getDescription() const
c@0	89 {
c@22	90 //!!!
c@22	91 return "";
c@0	92 }
c@0	93
c@0	94 std::string TonalChangeDetect::getMaker() const
c@0	95 {
c@6	96 return "Martin Gasser and Christopher Harte, Queen Mary, University of London";
c@0	97 }
c@0	98
c@0	99 int TonalChangeDetect::getPluginVersion() const
c@0	100 {
c@0	101 return 1;
c@0	102 }
c@0	103
c@0	104 std::string TonalChangeDetect::getCopyright() const
c@0	105 {
c@0	106 return "Copyright (c) 2006 - All Rights Reserved";
c@0	107 }
c@0	108
c@0	109 TonalChangeDetect::ParameterList TonalChangeDetect::getParameterDescriptors() const
c@0	110 {
c@0	111 ParameterList list;
c@0	112
c@0	113 ParameterDescriptor desc;
c@0	114 desc.name = "smoothingwidth";
c@0	115 desc.description = "Gaussian smoothing";
c@0	116 desc.unit = "frames";
c@0	117 desc.minValue = 0;
c@0	118 desc.maxValue = 20;
c@0	119 desc.defaultValue = 5;
c@0	120 desc.isQuantized = true;
c@0	121 desc.quantizeStep = 1;
c@0	122 list.push_back(desc);
c@0	123
c@0	124 desc;
c@0	125 desc.name = "minpitch";
c@0	126 desc.description = "Chromagram minimum pitch";
c@0	127 desc.unit = "MIDI units";
c@0	128 desc.minValue = 0;
c@0	129 desc.maxValue = 127;
c@0	130 desc.defaultValue = 32;
c@0	131 desc.isQuantized = true;
c@0	132 desc.quantizeStep = 1;
c@0	133 list.push_back(desc);
c@0	134
c@0	135 desc.name = "maxpitch";
c@0	136 desc.description = "Chromagram maximum pitch";
c@0	137 desc.unit = "MIDI units";
c@0	138 desc.minValue = 0;
c@0	139 desc.maxValue = 127;
c@0	140 desc.defaultValue = 108;
c@0	141 desc.isQuantized = true;
c@0	142 desc.quantizeStep = 1;
c@0	143 list.push_back(desc);
c@0	144
c@0	145 desc.name = "tuning";
c@0	146 desc.description = "Chromagram tuning frequency";
c@0	147 desc.unit = "Hz";
c@0	148 desc.minValue = 420;
c@0	149 desc.maxValue = 460;
c@0	150 desc.defaultValue = 440;
c@0	151 desc.isQuantized = false;
c@0	152 list.push_back(desc);
c@0	153
c@0	154 return list;
c@0	155 }
c@0	156
c@0	157 float
c@0	158 TonalChangeDetect::getParameter(std::string param) const
c@0	159 {
c@0	160 if (param == "smoothingwidth") {
c@0	161 return m_iSmoothingWidth;
c@0	162 }
c@0	163 if (param == "minpitch") {
c@0	164 return m_minMIDIPitch;
c@0	165 }
c@0	166 if (param == "maxpitch") {
c@0	167 return m_maxMIDIPitch;
c@0	168 }
c@0	169 if (param == "tuning") {
c@0	170 return m_tuningFrequency;
c@0	171 }
c@0	172
c@0	173 std::cerr << "WARNING: ChromagramPlugin::getParameter: unknown parameter \""
c@0	174 << param << "\"" << std::endl;
c@0	175 return 0.0;
c@0	176 }
c@0	177
c@0	178 void
c@0	179 TonalChangeDetect::setParameter(std::string param, float value)
c@0	180 {
c@0	181 if (param == "minpitch") {
c@0	182 m_minMIDIPitch = lrintf(value);
c@0	183 } else if (param == "maxpitch") {
c@0	184 m_maxMIDIPitch = lrintf(value);
c@0	185 } else if (param == "tuning") {
c@0	186 m_tuningFrequency = value;
c@0	187 }
c@0	188 else if (param == "smoothingwidth") {
c@0	189 m_iSmoothingWidth = int(value);
c@0	190 } else {
c@0	191 std::cerr << "WARNING: ChromagramPlugin::setParameter: unknown parameter \""
c@0	192 << param << "\"" << std::endl;
c@0	193 }
c@0	194
c@0	195 setupConfig();
c@0	196 }
c@0	197
c@0	198
c@0	199 void TonalChangeDetect::setupConfig()
c@0	200 {
c@0	201 m_config.FS = lrintf(m_inputSampleRate);
c@0	202 m_config.min = Pitch::getFrequencyForPitch
c@0	203 (m_minMIDIPitch, 0, m_tuningFrequency);
c@0	204 m_config.max = Pitch::getFrequencyForPitch
c@0	205 (m_maxMIDIPitch, 0, m_tuningFrequency);
c@0	206 m_config.BPO = 12;
c@0	207 m_config.CQThresh = 0.0054;
c@0	208 m_config.isNormalised = false;
c@0	209
c@0	210 m_step = 0;
c@0	211 m_block = 0;
c@0	212
c@0	213
c@0	214 }
c@0	215
c@0	216 void
c@0	217 TonalChangeDetect::reset()
c@0	218 {
c@0	219 if (m_chromagram) {
c@0	220 delete m_chromagram;
c@0	221 m_chromagram = new Chromagram(m_config);
c@0	222 }
c@0	223 while (!m_pending.empty()) m_pending.pop();
c@0	224
c@0	225 m_vaCurrentVector.resize(12, 0.0);
c@0	226 }
c@0	227
c@0	228 size_t
c@0	229 TonalChangeDetect::getPreferredStepSize() const
c@0	230 {
c@0	231 if (!m_step) {
c@0	232 Chromagram chroma(m_config);
c@0	233 m_step = chroma.getHopSize();
c@0	234 m_block = chroma.getFrameSize();
c@0	235 }
c@0	236
c@0	237 return m_step;
c@0	238 }
c@0	239
c@0	240 size_t
c@0	241 TonalChangeDetect::getPreferredBlockSize() const
c@0	242 {
c@0	243 if (!m_step) {
c@0	244 Chromagram chroma(m_config);
c@0	245 m_step = chroma.getHopSize();
c@0	246 m_block = chroma.getFrameSize();
c@0	247 }
c@0	248
c@0	249 return m_block;
c@0	250 }
c@0	251
c@0	252 TonalChangeDetect::OutputList TonalChangeDetect::getOutputDescriptors() const
c@0	253 {
c@0	254 OutputList list;
c@0	255
c@0	256 OutputDescriptor hc;
c@0	257 hc.name = "tcstransform";
c@0	258 hc.unit = "";
c@0	259 hc.description = "Transform to 6D Tonal Content Space";
c@0	260 hc.hasFixedBinCount = true;
c@0	261 hc.binCount = 6;
c@0	262 hc.hasKnownExtents = true;
c@0	263 hc.minValue = -1.0;
c@0	264 hc.maxValue = 1.0;
c@0	265 hc.isQuantized = false;
c@0	266 hc.sampleType = OutputDescriptor::OneSamplePerStep;
c@0	267
c@0	268 OutputDescriptor d;
c@0	269 d.name = "tcfunction";
c@0	270 d.unit = "";
c@0	271 d.minValue = 0;
c@0	272 d.minValue = 2;
c@0	273 d.description = "Tonal Change Detection Function";
c@0	274 d.hasFixedBinCount = true;
c@0	275 d.binCount = 1;
c@0	276 d.hasKnownExtents = true;
c@0	277 d.isQuantized = false;
c@0	278 d.sampleType = OutputDescriptor::VariableSampleRate;
c@0	279 double dStepSecs = double(m_step) / m_inputSampleRate;
c@0	280 d.sampleRate = 1.0f / dStepSecs;
c@0	281
c@0	282 OutputDescriptor changes;
c@0	283 changes.name = "changepositions";
c@0	284 changes.unit = "";
c@0	285 changes.description = "Tonal Change Positions";
c@0	286 changes.hasFixedBinCount = true;
c@0	287 changes.binCount = 0;
c@0	288 changes.sampleType = OutputDescriptor::VariableSampleRate;
c@0	289 changes.sampleRate = 1.0 / dStepSecs;
c@0	290
c@0	291 list.push_back(hc);
c@0	292 list.push_back(d);
c@0	293 list.push_back(changes);
c@0	294
c@0	295 return list;
c@0	296 }
c@0	297
c@18	298 TonalChangeDetect::FeatureSet
c@18	299 TonalChangeDetect::process(const float const inputBuffers,
c@18	300 Vamp::RealTime timestamp)
c@0	301 {
c@0	302 if (!m_chromagram) {
c@0	303 cerr << "ERROR: TonalChangeDetect::process: "
c@0	304 << "Chromagram has not been initialised"
c@0	305 << endl;
c@0	306 return FeatureSet();
c@0	307 }
c@0	308
c@0	309 // convert float* to double*
c@0	310 double *tempBuffer = new double[m_block];
c@0	311 for (size_t i = 0; i < m_block; ++i) {
c@0	312 tempBuffer[i] = inputBuffers[0][i];
c@0	313 }
c@0	314
c@0	315 double *output = m_chromagram->process(tempBuffer);
c@0	316 delete[] tempBuffer;
c@0	317
c@0	318 for (size_t i = 0; i < 12; i++)
c@0	319 {
c@0	320 m_vaCurrentVector[i] = output[i];
c@0	321 }
c@0	322
c@0	323
c@0	324 FeatureSet returnFeatures;
c@0	325
c@0	326 if (m_stepDelay == 0) {
c@0	327 m_vaCurrentVector.normalizeL1();
c@0	328 TCSVector tcsVector = m_TonalEstimator.transform2TCS(m_vaCurrentVector);
c@0	329 m_TCSGram.addTCSVector(tcsVector);
c@0	330
c@0	331 Feature feature;
c@0	332 feature.hasTimestamp = false;
c@0	333 for (int i = 0; i < 6; i++)
c@0	334 { feature.values.push_back(static_cast<float>(tcsVector[i])); }
c@0	335 feature.label = "";
c@0	336 returnFeatures[0].push_back(feature);
c@0	337
c@0	338 return returnFeatures;
c@0	339 }
c@0	340
c@0	341 if (m_pending.size() == m_stepDelay) {
c@0	342
c@0	343 ChromaVector v = m_pending.front();
c@0	344 v.normalizeL1();
c@0	345 TCSVector tcsVector = m_TonalEstimator.transform2TCS(v);
c@0	346 m_TCSGram.addTCSVector(tcsVector);
c@0	347
c@0	348 Feature feature;
c@0	349 feature.hasTimestamp = false;
c@0	350 for (int i = 0; i < 6; i++)
c@0	351 { feature.values.push_back(static_cast<float>(tcsVector[i])); }
c@0	352 feature.label = "";
c@0	353 returnFeatures[0].push_back(feature);
c@0	354 m_pending.pop();
c@0	355
c@0	356 } else {
c@0	357 returnFeatures[0].push_back(Feature());
c@0	358 m_TCSGram.addTCSVector(TCSVector());
c@0	359 }
c@0	360
c@0	361 m_pending.push(m_vaCurrentVector);
c@0	362
c@0	363
c@0	364 return returnFeatures;
c@0	365 }
c@0	366
c@0	367 TonalChangeDetect::FeatureSet TonalChangeDetect::getRemainingFeatures()
c@0	368 {
c@0	369 FeatureSet returnFeatures;
c@0	370
c@0	371 while (!m_pending.empty()) {
c@0	372 ChromaVector v = m_pending.front();
c@0	373 v.normalizeL1();
c@0	374 TCSVector tcsVector = m_TonalEstimator.transform2TCS(v);
c@0	375 m_TCSGram.addTCSVector(tcsVector);
c@0	376
c@0	377 Feature feature;
c@0	378 feature.hasTimestamp = false;
c@0	379 for (int i = 0; i < 6; i++)
c@0	380 { feature.values.push_back(static_cast<float>(tcsVector[i])); }
c@0	381 feature.label = "";
c@0	382 returnFeatures[0].push_back(feature);
c@0	383 m_pending.pop();
c@0	384 }
c@0	385
c@0	386 ChangeDFConfig dfc;
c@0	387 dfc.smoothingWidth = double(m_iSmoothingWidth);
c@0	388 ChangeDetectionFunction df(dfc);
c@0	389 ChangeDistance d = df.process(m_TCSGram);
c@0	390
c@0	391
c@0	392
c@0	393 for (int i = 0; i < d.size(); i++)
c@0	394 {
c@0	395 double dCurrent = d[i];
c@0	396 double dPrevious = d[i > 0 ? i - 1 : i];
c@0	397 double dNext = d[i < d.size()-1 ? i + 1 : i];
c@0	398
c@0	399 Feature feature;
c@0	400 feature.label = "";
c@0	401 feature.hasTimestamp = true;
c@0	402 feature.timestamp = Vamp::RealTime::frame2RealTime(i*m_step, m_inputSampleRate);
c@0	403 feature.values.push_back(dCurrent);
c@0	404 returnFeatures[1].push_back(feature);
c@0	405
c@0	406
c@0	407 if (dCurrent > dPrevious && dCurrent > dNext)
c@0	408 {
c@0	409 Feature featurePeak;
c@0	410 featurePeak.label = "";
c@0	411 featurePeak.hasTimestamp = true;
c@0	412 featurePeak.timestamp = Vamp::RealTime::frame2RealTime(i*m_step, m_inputSampleRate);
c@0	413 returnFeatures[2].push_back(feature);
c@0	414 }
c@0	415
c@0	416 }
c@0	417
c@0	418
c@0	419 return returnFeatures;
c@0	420
c@0	421 }
c@0	422

Mercurial > hg > qm-vamp-plugins

annotate plugins/TonalChangeDetect.cpp @ 22:6d014fb538db