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

annotate plugins/ConstantQSpectrogram.cpp @ 83:49bd72df303c

* Fix reset() methods on CQ and chromagram * Fix RDF document prefix

author	Chris Cannam <c.cannam@qmul.ac.uk>
date	Tue, 25 Nov 2008 12:55:00 +0000
parents	29afde113a5b
children	e51152b7ee06

rev	line source
c@9	1 /* -- c-basic-offset: 4 indent-tabs-mode: nil -- vi:set ts=8 sts=4 sw=4: */
c@9	2
c@9	3 /*
c@9	4 QM Vamp Plugin Set
c@9	5
c@9	6 Centre for Digital Music, Queen Mary, University of London.
c@9	7 All rights reserved.
c@9	8 */
c@9	9
c@9	10 #include "ConstantQSpectrogram.h"
c@9	11
c@9	12 #include <base/Pitch.h>
c@9	13 #include <dsp/chromagram/ConstantQ.h>
c@9	14
c@9	15 using std::string;
c@9	16 using std::vector;
c@9	17 using std::cerr;
c@9	18 using std::endl;
c@9	19
c@9	20 ConstantQSpectrogram::ConstantQSpectrogram(float inputSampleRate) :
c@9	21 Vamp::Plugin(inputSampleRate),
c@17	22 m_bins(1),
c@9	23 m_cq(0),
c@9	24 m_step(0),
c@17	25 m_block(0)
c@9	26 {
c@76	27 m_minMIDIPitch = 36;
c@76	28 m_maxMIDIPitch = 84;
c@9	29 m_tuningFrequency = 440;
c@63	30 m_normalized = false;
c@9	31 m_bpo = 12;
c@9	32
c@9	33 setupConfig();
c@9	34 }
c@9	35
c@9	36 void
c@9	37 ConstantQSpectrogram::setupConfig()
c@9	38 {
c@9	39 m_config.FS = lrintf(m_inputSampleRate);
c@9	40 m_config.min = Pitch::getFrequencyForPitch
c@9	41 (m_minMIDIPitch, 0, m_tuningFrequency);
c@9	42 m_config.max = Pitch::getFrequencyForPitch
c@9	43 (m_maxMIDIPitch, 0, m_tuningFrequency);
c@9	44 m_config.BPO = m_bpo;
c@9	45 m_config.CQThresh = 0.0054;
c@9	46
c@9	47 m_step = 0;
c@9	48 m_block = 0;
c@9	49 }
c@9	50
c@9	51 ConstantQSpectrogram::~ConstantQSpectrogram()
c@9	52 {
c@9	53 delete m_cq;
c@9	54 }
c@9	55
c@9	56 string
c@22	57 ConstantQSpectrogram::getIdentifier() const
c@9	58 {
c@9	59 return "qm-constantq";
c@9	60 }
c@9	61
c@9	62 string
c@22	63 ConstantQSpectrogram::getName() const
c@22	64 {
c@22	65 return "Constant-Q Spectrogram";
c@22	66 }
c@22	67
c@22	68 string
c@9	69 ConstantQSpectrogram::getDescription() const
c@9	70 {
c@51	71 return "Extract a spectrogram with constant ratio of centre frequency to resolution from the input audio";
c@9	72 }
c@9	73
c@9	74 string
c@9	75 ConstantQSpectrogram::getMaker() const
c@9	76 {
c@9	77 return "Queen Mary, University of London";
c@9	78 }
c@9	79
c@9	80 int
c@9	81 ConstantQSpectrogram::getPluginVersion() const
c@9	82 {
c@50	83 return 2;
c@9	84 }
c@9	85
c@9	86 string
c@9	87 ConstantQSpectrogram::getCopyright() const
c@9	88 {
c@50	89 return "Plugin by Chris Cannam and Christian Landone. Copyright (c) 2006-2008 QMUL - All Rights Reserved";
c@9	90 }
c@9	91
c@9	92 ConstantQSpectrogram::ParameterList
c@9	93 ConstantQSpectrogram::getParameterDescriptors() const
c@9	94 {
c@9	95 ParameterList list;
c@9	96
c@9	97 ParameterDescriptor desc;
c@22	98 desc.identifier = "minpitch";
c@22	99 desc.name = "Minimum Pitch";
c@9	100 desc.unit = "MIDI units";
c@52	101 desc.description = "MIDI pitch corresponding to the lowest frequency to be included in the constant-Q transform";
c@9	102 desc.minValue = 0;
c@9	103 desc.maxValue = 127;
c@9	104 desc.defaultValue = 36;
c@9	105 desc.isQuantized = true;
c@9	106 desc.quantizeStep = 1;
c@9	107 list.push_back(desc);
c@9	108
c@22	109 desc.identifier = "maxpitch";
c@22	110 desc.name = "Maximum Pitch";
c@9	111 desc.unit = "MIDI units";
c@52	112 desc.description = "MIDI pitch corresponding to the highest frequency to be included in the constant-Q transform";
c@9	113 desc.minValue = 0;
c@9	114 desc.maxValue = 127;
c@9	115 desc.defaultValue = 84;
c@9	116 desc.isQuantized = true;
c@9	117 desc.quantizeStep = 1;
c@9	118 list.push_back(desc);
c@9	119
c@22	120 desc.identifier = "tuning";
c@22	121 desc.name = "Tuning Frequency";
c@9	122 desc.unit = "Hz";
c@52	123 desc.description = "Frequency of concert A";
c@9	124 desc.minValue = 420;
c@9	125 desc.maxValue = 460;
c@9	126 desc.defaultValue = 440;
c@9	127 desc.isQuantized = false;
c@9	128 list.push_back(desc);
c@9	129
c@22	130 desc.identifier = "bpo";
c@22	131 desc.name = "Bins per Octave";
c@9	132 desc.unit = "bins";
c@52	133 desc.description = "Number of constant-Q transform bins per octave";
c@9	134 desc.minValue = 2;
c@63	135 desc.maxValue = 48;
c@9	136 desc.defaultValue = 12;
c@9	137 desc.isQuantized = true;
c@9	138 desc.quantizeStep = 1;
c@9	139 list.push_back(desc);
c@9	140
c@22	141 desc.identifier = "normalized";
c@22	142 desc.name = "Normalized";
c@9	143 desc.unit = "";
c@52	144 desc.description = "Whether to normalize each output column to unit maximum";
c@9	145 desc.minValue = 0;
c@9	146 desc.maxValue = 1;
c@51	147 desc.defaultValue = 0;
c@9	148 desc.isQuantized = true;
c@9	149 desc.quantizeStep = 1;
c@9	150 list.push_back(desc);
c@9	151
c@9	152 return list;
c@9	153 }
c@9	154
c@9	155 float
c@9	156 ConstantQSpectrogram::getParameter(std::string param) const
c@9	157 {
c@9	158 if (param == "minpitch") {
c@9	159 return m_minMIDIPitch;
c@9	160 }
c@9	161 if (param == "maxpitch") {
c@9	162 return m_maxMIDIPitch;
c@9	163 }
c@9	164 if (param == "tuning") {
c@9	165 return m_tuningFrequency;
c@9	166 }
c@9	167 if (param == "bpo") {
c@9	168 return m_bpo;
c@9	169 }
c@9	170 if (param == "normalized") {
c@9	171 return m_normalized;
c@9	172 }
c@9	173 std::cerr << "WARNING: ConstantQSpectrogram::getParameter: unknown parameter \""
c@9	174 << param << "\"" << std::endl;
c@9	175 return 0.0;
c@9	176 }
c@9	177
c@9	178 void
c@9	179 ConstantQSpectrogram::setParameter(std::string param, float value)
c@9	180 {
c@9	181 if (param == "minpitch") {
c@9	182 m_minMIDIPitch = lrintf(value);
c@9	183 } else if (param == "maxpitch") {
c@9	184 m_maxMIDIPitch = lrintf(value);
c@9	185 } else if (param == "tuning") {
c@9	186 m_tuningFrequency = value;
c@9	187 } else if (param == "bpo") {
c@9	188 m_bpo = lrintf(value);
c@9	189 } else if (param == "normalized") {
c@9	190 m_normalized = (value > 0.0001);
c@9	191 } else {
c@9	192 std::cerr << "WARNING: ConstantQSpectrogram::setParameter: unknown parameter \""
c@9	193 << param << "\"" << std::endl;
c@9	194 }
c@9	195
c@9	196 setupConfig();
c@9	197 }
c@9	198
c@9	199
c@9	200 bool
c@9	201 ConstantQSpectrogram::initialise(size_t channels, size_t stepSize, size_t blockSize)
c@9	202 {
c@9	203 if (m_cq) {
c@9	204 delete m_cq;
c@9	205 m_cq = 0;
c@9	206 }
c@9	207
c@9	208 if (channels < getMinChannelCount() \|\|
c@9	209 channels > getMaxChannelCount()) return false;
c@9	210
c@24	211 setupConfig();
c@24	212
c@9	213 m_cq = new ConstantQ(m_config);
c@50	214 m_bins = m_cq->getK();
c@9	215 m_cq->sparsekernel();
c@13	216 m_step = m_cq->gethop();
c@13	217 m_block = m_cq->getfftlength();
c@13	218
c@52	219 if (blockSize != m_block) {
c@52	220 std::cerr << "ConstantQSpectrogram::initialise: ERROR: supplied block size " << blockSize << " differs from required block size " << m_block << ", initialise failing" << std::endl;
c@13	221 delete m_cq;
c@13	222 m_cq = 0;
c@13	223 return false;
c@13	224 }
c@9	225
c@52	226 if (stepSize != m_step) {
c@52	227 std::cerr << "ConstantQSpectrogram::initialise: NOTE: supplied step size " << stepSize << " differs from expected step size " << m_step << " (for block size = " << m_block << ")" << std::endl;
c@52	228 }
c@52	229
c@9	230 return true;
c@9	231 }
c@9	232
c@9	233 void
c@9	234 ConstantQSpectrogram::reset()
c@9	235 {
c@9	236 if (m_cq) {
c@9	237 delete m_cq;
c@9	238 m_cq = new ConstantQ(m_config);
c@83	239 m_bins = m_cq->getK();
c@83	240 m_cq->sparsekernel();
c@83	241 m_step = m_cq->gethop();
c@83	242 m_block = m_cq->getfftlength();
c@9	243 }
c@9	244 }
c@9	245
c@9	246 size_t
c@9	247 ConstantQSpectrogram::getPreferredStepSize() const
c@9	248 {
c@9	249 if (!m_step) {
c@9	250 ConstantQ cq(m_config);
c@9	251 m_step = cq.gethop();
c@9	252 m_block = cq.getfftlength();
c@9	253 }
c@9	254
c@9	255 return m_step;
c@9	256 }
c@9	257
c@9	258 size_t
c@9	259 ConstantQSpectrogram::getPreferredBlockSize() const
c@9	260 {
c@9	261 if (!m_block) {
c@9	262 ConstantQ cq(m_config);
c@9	263 m_step = cq.gethop();
c@9	264 m_block = cq.getfftlength();
c@9	265 }
c@9	266
c@9	267 return m_block;
c@9	268 }
c@9	269
c@9	270 ConstantQSpectrogram::OutputList
c@9	271 ConstantQSpectrogram::getOutputDescriptors() const
c@9	272 {
c@9	273 OutputList list;
c@9	274
c@9	275 OutputDescriptor d;
c@22	276 d.identifier = "constantq";
c@22	277 d.name = "Constant-Q Spectrogram";
c@9	278 d.unit = "";
c@52	279 d.description = "Output of constant-Q transform, as a single vector per process block";
c@9	280 d.hasFixedBinCount = true;
c@9	281 d.binCount = m_bins;
c@9	282
c@83	283 std::cerr << "Bin count " << d.binCount << std::endl;
c@9	284
c@9	285 const char *names[] =
c@9	286 { "C", "C#", "D", "D#", "E", "F", "F#", "G", "G#", "A", "A#", "B" };
c@9	287
c@9	288 if (m_bpo == 12) {
c@17	289 for (int i = 0; i < int(d.binCount); ++i) {
c@9	290 int ipc = m_minMIDIPitch % 12;
c@9	291 int index = (i + ipc) % 12;
c@9	292 d.binNames.push_back(names[index]);
c@9	293 }
c@9	294 } else {
c@9	295 d.binNames.push_back(names[m_minMIDIPitch % 12]);
c@9	296 }
c@9	297
c@9	298 d.hasKnownExtents = m_normalized;
c@9	299 d.minValue = 0.0;
c@9	300 d.maxValue = (m_normalized ? 1.0 : 0.0);
c@9	301 d.isQuantized = false;
c@9	302 d.sampleType = OutputDescriptor::OneSamplePerStep;
c@9	303 list.push_back(d);
c@9	304
c@9	305 return list;
c@9	306 }
c@9	307
c@9	308 ConstantQSpectrogram::Feature
c@9	309 ConstantQSpectrogram::normalize(const Feature &feature)
c@9	310 {
c@9	311 float min = 0.0, max = 0.0;
c@9	312
c@9	313 for (size_t i = 0; i < feature.values.size(); ++i) {
c@9	314 if (i == 0 \|\| feature.values[i] < min) min = feature.values[i];
c@9	315 if (i == 0 \|\| feature.values[i] > max) max = feature.values[i];
c@9	316 }
c@9	317
c@9	318 if (max == 0.0 \|\| max == min) return feature;
c@9	319
c@9	320 Feature normalized;
c@9	321 normalized.hasTimestamp = false;
c@9	322
c@9	323 for (size_t i = 0; i < feature.values.size(); ++i) {
c@9	324 normalized.values.push_back((feature.values[i] - min) / (max - min));
c@9	325 }
c@9	326
c@9	327 return normalized;
c@9	328 }
c@9	329
c@9	330 ConstantQSpectrogram::FeatureSet
c@18	331 ConstantQSpectrogram::process(const float const inputBuffers,
c@18	332 Vamp::RealTime /* timestamp */)
c@9	333 {
c@9	334 if (!m_cq) {
c@9	335 cerr << "ERROR: ConstantQSpectrogram::process: "
c@9	336 << "Constant-Q has not been initialised"
c@9	337 << endl;
c@9	338 return FeatureSet();
c@9	339 }
c@9	340
c@9	341 double *real = new double[m_block];
c@9	342 double *imag = new double[m_block];
c@9	343 double *cqre = new double[m_bins];
c@9	344 double *cqim = new double[m_bins];
c@9	345
c@83	346 // std::cout << "in:" << std::endl;
c@75	347 for (size_t i = 0; i <= m_block/2; ++i) {
c@9	348 real[i] = inputBuffers[0][i*2];
c@17	349 if (i > 0) real[m_block - i] = real[i];
c@9	350 imag[i] = inputBuffers[0][i*2+1];
c@17	351 if (i > 0) imag[m_block - i] = imag[i];
c@83	352 // std::cout << real[i] << "," << imag[i] << " ";
c@9	353 }
c@9	354
c@9	355 m_cq->process(real, imag, cqre, cqim);
c@9	356
c@9	357 delete[] real;
c@9	358 delete[] imag;
c@9	359
c@83	360 // std::cout << "\nout:" << std::endl;
c@9	361 Feature feature;
c@9	362 feature.hasTimestamp = false;
c@17	363 for (int i = 0; i < m_bins; ++i) {
c@16	364 double re = cqre[i];
c@16	365 double im = cqim[i];
c@83	366 // std::cout << re << "," << im << ":";
c@16	367 if (isnan(re)) re = 0.0;
c@16	368 if (isnan(im)) im = 0.0;
c@16	369 double value = sqrt(re * re + im * im);
c@83	370 // std::cout << value << " ";
c@16	371 feature.values.push_back(value);
c@9	372 }
c@9	373 feature.label = "";
c@9	374
c@9	375 delete[] cqre;
c@9	376 delete[] cqim;
c@9	377
c@9	378 FeatureSet returnFeatures;
c@9	379 if (m_normalized) returnFeatures[0].push_back(normalize(feature));
c@9	380 else returnFeatures[0].push_back(feature);
c@9	381 return returnFeatures;
c@9	382 }
c@9	383
c@9	384 ConstantQSpectrogram::FeatureSet
c@9	385 ConstantQSpectrogram::getRemainingFeatures()
c@9	386 {
c@9	387 return FeatureSet();
c@9	388 }
c@9	389

Mercurial > hg > qm-vamp-plugins

annotate plugins/ConstantQSpectrogram.cpp @ 83:49bd72df303c