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annotate src/Silvet.cpp @ 34:7d81407a2fd8

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Start on EM class
author Chris Cannam
date Fri, 04 Apr 2014 14:28:41 +0100
parents e08c330a761d
children 74b77a4d6552
rev   line source
Chris@31 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
Chris@31 2
Chris@31 3 /*
Chris@31 4 Silvet
Chris@31 5
Chris@31 6 A Vamp plugin for note transcription.
Chris@31 7 Centre for Digital Music, Queen Mary University of London.
Chris@31 8
Chris@31 9 This program is free software; you can redistribute it and/or
Chris@31 10 modify it under the terms of the GNU General Public License as
Chris@31 11 published by the Free Software Foundation; either version 2 of the
Chris@31 12 License, or (at your option) any later version. See the file
Chris@31 13 COPYING included with this distribution for more information.
Chris@31 14 */
Chris@31 15
Chris@31 16 #include "Silvet.h"
Chris@34 17 #include "EM.h"
Chris@31 18
Chris@32 19 #include "maths/MedianFilter.h"
Chris@31 20 #include "dsp/rateconversion/Resampler.h"
Chris@31 21
Chris@32 22 #include "constant-q-cpp/cpp-qm-dsp/CQInterpolated.h"
Chris@31 23
Chris@31 24 #include <vector>
Chris@31 25
Chris@32 26 #include <cstdio>
Chris@32 27
Chris@31 28 using std::vector;
Chris@31 29 using std::cerr;
Chris@31 30 using std::endl;
Chris@31 31
Chris@31 32 static int processingSampleRate = 44100;
Chris@31 33 static int processingBPO = 60;
Chris@32 34 static int processingHeight = 545;
Chris@31 35
Chris@31 36 Silvet::Silvet(float inputSampleRate) :
Chris@31 37 Plugin(inputSampleRate),
Chris@31 38 m_resampler(0),
Chris@31 39 m_cq(0)
Chris@31 40 {
Chris@31 41 }
Chris@31 42
Chris@31 43 Silvet::~Silvet()
Chris@31 44 {
Chris@31 45 delete m_resampler;
Chris@31 46 delete m_cq;
Chris@32 47 for (int i = 0; i < (int)m_filterA.size(); ++i) {
Chris@32 48 delete m_filterA[i];
Chris@32 49 delete m_filterB[i];
Chris@32 50 }
Chris@31 51 }
Chris@31 52
Chris@31 53 string
Chris@31 54 Silvet::getIdentifier() const
Chris@31 55 {
Chris@31 56 return "silvet";
Chris@31 57 }
Chris@31 58
Chris@31 59 string
Chris@31 60 Silvet::getName() const
Chris@31 61 {
Chris@31 62 return "Silvet Note Transcription";
Chris@31 63 }
Chris@31 64
Chris@31 65 string
Chris@31 66 Silvet::getDescription() const
Chris@31 67 {
Chris@31 68 // Return something helpful here!
Chris@31 69 return "";
Chris@31 70 }
Chris@31 71
Chris@31 72 string
Chris@31 73 Silvet::getMaker() const
Chris@31 74 {
Chris@31 75 // Your name here
Chris@31 76 return "";
Chris@31 77 }
Chris@31 78
Chris@31 79 int
Chris@31 80 Silvet::getPluginVersion() const
Chris@31 81 {
Chris@31 82 return 1;
Chris@31 83 }
Chris@31 84
Chris@31 85 string
Chris@31 86 Silvet::getCopyright() const
Chris@31 87 {
Chris@31 88 // This function is not ideally named. It does not necessarily
Chris@31 89 // need to say who made the plugin -- getMaker does that -- but it
Chris@31 90 // should indicate the terms under which it is distributed. For
Chris@31 91 // example, "Copyright (year). All Rights Reserved", or "GPL"
Chris@31 92 return "";
Chris@31 93 }
Chris@31 94
Chris@31 95 Silvet::InputDomain
Chris@31 96 Silvet::getInputDomain() const
Chris@31 97 {
Chris@31 98 return TimeDomain;
Chris@31 99 }
Chris@31 100
Chris@31 101 size_t
Chris@31 102 Silvet::getPreferredBlockSize() const
Chris@31 103 {
Chris@31 104 return 0;
Chris@31 105 }
Chris@31 106
Chris@31 107 size_t
Chris@31 108 Silvet::getPreferredStepSize() const
Chris@31 109 {
Chris@31 110 return 0;
Chris@31 111 }
Chris@31 112
Chris@31 113 size_t
Chris@31 114 Silvet::getMinChannelCount() const
Chris@31 115 {
Chris@31 116 return 1;
Chris@31 117 }
Chris@31 118
Chris@31 119 size_t
Chris@31 120 Silvet::getMaxChannelCount() const
Chris@31 121 {
Chris@31 122 return 1;
Chris@31 123 }
Chris@31 124
Chris@31 125 Silvet::ParameterList
Chris@31 126 Silvet::getParameterDescriptors() const
Chris@31 127 {
Chris@31 128 ParameterList list;
Chris@31 129 return list;
Chris@31 130 }
Chris@31 131
Chris@31 132 float
Chris@31 133 Silvet::getParameter(string identifier) const
Chris@31 134 {
Chris@31 135 return 0;
Chris@31 136 }
Chris@31 137
Chris@31 138 void
Chris@31 139 Silvet::setParameter(string identifier, float value)
Chris@31 140 {
Chris@31 141 }
Chris@31 142
Chris@31 143 Silvet::ProgramList
Chris@31 144 Silvet::getPrograms() const
Chris@31 145 {
Chris@31 146 ProgramList list;
Chris@31 147 return list;
Chris@31 148 }
Chris@31 149
Chris@31 150 string
Chris@31 151 Silvet::getCurrentProgram() const
Chris@31 152 {
Chris@31 153 return "";
Chris@31 154 }
Chris@31 155
Chris@31 156 void
Chris@31 157 Silvet::selectProgram(string name)
Chris@31 158 {
Chris@31 159 }
Chris@31 160
Chris@31 161 Silvet::OutputList
Chris@31 162 Silvet::getOutputDescriptors() const
Chris@31 163 {
Chris@31 164 OutputList list;
Chris@31 165
Chris@31 166 OutputDescriptor d;
Chris@31 167 d.identifier = "transcription";
Chris@31 168 d.name = "Transcription";
Chris@31 169 d.description = ""; //!!!
Chris@31 170 d.unit = "Hz";
Chris@31 171 d.hasFixedBinCount = true;
Chris@31 172 d.binCount = 2;
Chris@31 173 d.binNames.push_back("Frequency");
Chris@31 174 d.binNames.push_back("Velocity");
Chris@31 175 d.hasKnownExtents = false;
Chris@31 176 d.isQuantized = false;
Chris@31 177 d.sampleType = OutputDescriptor::VariableSampleRate;
Chris@32 178 d.sampleRate = m_inputSampleRate / (m_cq ? m_cq->getColumnHop() : 256);
Chris@31 179 d.hasDuration = true;
Chris@32 180 m_notesOutputNo = list.size();
Chris@32 181 list.push_back(d);
Chris@32 182
Chris@32 183 d.identifier = "inputgrid";
Chris@32 184 d.name = "Filtered time-frequency grid";
Chris@32 185 d.description = "The pre-processed constant-Q time-frequency distribution used as input to the PLCA step";
Chris@32 186 d.unit = "";
Chris@32 187 d.hasFixedBinCount = true;
Chris@32 188 d.binCount = processingHeight;
Chris@32 189 d.binNames.clear();
Chris@32 190 if (m_cq) {
Chris@32 191 char name[20];
Chris@32 192 for (int i = 0; i < processingHeight; ++i) {
Chris@32 193 float freq = m_cq->getBinFrequency(i + 55);
Chris@32 194 sprintf(name, "%.1f Hz", freq);
Chris@32 195 d.binNames.push_back(name);
Chris@32 196 }
Chris@32 197 }
Chris@32 198 d.hasKnownExtents = false;
Chris@32 199 d.isQuantized = false;
Chris@32 200 d.sampleType = OutputDescriptor::FixedSampleRate;
Chris@32 201 d.sampleRate = 25;
Chris@32 202 d.hasDuration = false;
Chris@32 203 m_cqOutputNo = list.size();
Chris@31 204 list.push_back(d);
Chris@31 205
Chris@31 206 return list;
Chris@31 207 }
Chris@31 208
Chris@31 209 bool
Chris@31 210 Silvet::initialise(size_t channels, size_t stepSize, size_t blockSize)
Chris@31 211 {
Chris@31 212 if (channels < getMinChannelCount() ||
Chris@31 213 channels > getMaxChannelCount()) return false;
Chris@31 214
Chris@31 215 if (stepSize != blockSize) {
Chris@31 216 cerr << "Silvet::initialise: Step size must be the same as block size ("
Chris@31 217 << stepSize << " != " << blockSize << ")" << endl;
Chris@31 218 return false;
Chris@31 219 }
Chris@31 220
Chris@31 221 m_blockSize = blockSize;
Chris@31 222
Chris@31 223 reset();
Chris@31 224
Chris@31 225 return true;
Chris@31 226 }
Chris@31 227
Chris@31 228 void
Chris@31 229 Silvet::reset()
Chris@31 230 {
Chris@31 231 delete m_resampler;
Chris@31 232 delete m_cq;
Chris@31 233
Chris@31 234 if (m_inputSampleRate != processingSampleRate) {
Chris@31 235 m_resampler = new Resampler(m_inputSampleRate, processingSampleRate);
Chris@31 236 } else {
Chris@31 237 m_resampler = 0;
Chris@31 238 }
Chris@31 239
Chris@32 240 m_cq = new CQInterpolated
Chris@32 241 (processingSampleRate, 27.5, processingSampleRate / 3, processingBPO,
Chris@32 242 CQInterpolated::Linear);
Chris@31 243
Chris@32 244 for (int i = 0; i < (int)m_filterA.size(); ++i) {
Chris@32 245 delete m_filterA[i];
Chris@32 246 delete m_filterB[i];
Chris@32 247 }
Chris@32 248 m_filterA.clear();
Chris@32 249 m_filterB.clear();
Chris@32 250 for (int i = 0; i < processingHeight; ++i) {
Chris@32 251 m_filterA.push_back(new MedianFilter<double>(40));
Chris@32 252 m_filterB.push_back(new MedianFilter<double>(40));
Chris@32 253 }
Chris@32 254 m_columnCount = 0;
Chris@32 255 m_reducedColumnCount = 0;
Chris@31 256 }
Chris@31 257
Chris@31 258 Silvet::FeatureSet
Chris@31 259 Silvet::process(const float *const *inputBuffers, Vamp::RealTime timestamp)
Chris@31 260 {
Chris@31 261 vector<double> data;
Chris@31 262 for (int i = 0; i < m_blockSize; ++i) data.push_back(inputBuffers[0][i]);
Chris@31 263
Chris@31 264 if (m_resampler) {
Chris@31 265 data = m_resampler->process(data.data(), data.size());
Chris@31 266 }
Chris@31 267
Chris@32 268 Grid cqout = m_cq->process(data);
Chris@34 269 return transcribe(cqout);
Chris@34 270 }
Chris@34 271
Chris@34 272 Silvet::FeatureSet
Chris@34 273 Silvet::getRemainingFeatures()
Chris@34 274 {
Chris@34 275 Grid cqout = m_cq->getRemainingBlocks();
Chris@34 276 return transcribe(cqout);
Chris@34 277 }
Chris@34 278
Chris@34 279 Silvet::FeatureSet
Chris@34 280 Silvet::transcribe(const Grid &cqout)
Chris@34 281 {
Chris@32 282 Grid filtered = preProcess(cqout);
Chris@31 283
Chris@32 284 FeatureSet fs;
Chris@32 285
Chris@32 286 for (int i = 0; i < (int)filtered.size(); ++i) {
Chris@32 287 Feature f;
Chris@32 288 for (int j = 0; j < processingHeight; ++j) {
Chris@32 289 f.values.push_back(float(filtered[i][j]));
Chris@32 290 }
Chris@32 291 fs[m_cqOutputNo].push_back(f);
Chris@32 292 }
Chris@32 293
Chris@34 294 int width = filtered.size();
Chris@34 295
Chris@34 296 int iterations = 12;
Chris@34 297
Chris@34 298 for (int i = 0; i < width; ++i) {
Chris@34 299 EM em;
Chris@34 300 for (int j = 0; j < iterations; ++j) {
Chris@34 301 em.iterate(filtered[i]);
Chris@34 302 }
Chris@34 303 //!!! now do something with the results from em!
Chris@34 304 }
Chris@34 305
Chris@32 306 return fs;
Chris@31 307 }
Chris@31 308
Chris@32 309 Silvet::Grid
Chris@32 310 Silvet::preProcess(const Grid &in)
Chris@32 311 {
Chris@32 312 int width = in.size();
Chris@32 313
Chris@32 314 // reduce to 100 columns per second, or one column every 441 samples
Chris@32 315
Chris@32 316 int spacing = processingSampleRate / 100;
Chris@32 317
Chris@32 318 Grid out;
Chris@32 319
Chris@33 320 //!!! nb we count the CQ latency in terms of processing hops, but
Chris@33 321 //!!! actually it isn't guaranteed to be an exact number (in fact
Chris@33 322 //!!! it probably isn't) so this is imprecise -- fix
Chris@33 323 int latentColumns = m_cq->getLatency() / m_cq->getColumnHop();
Chris@33 324
Chris@32 325 for (int i = 0; i < width; ++i) {
Chris@32 326
Chris@33 327 if (m_columnCount < latentColumns) {
Chris@33 328 ++m_columnCount;
Chris@33 329 continue;
Chris@33 330 }
Chris@33 331
Chris@32 332 int prevSampleNo = (m_columnCount - 1) * m_cq->getColumnHop();
Chris@32 333 int sampleNo = m_columnCount * m_cq->getColumnHop();
Chris@32 334
Chris@32 335 bool select = (sampleNo / spacing != prevSampleNo / spacing);
Chris@32 336
Chris@32 337 if (select) {
Chris@32 338 vector<double> inCol = in[i];
Chris@32 339 vector<double> outCol(processingHeight);
Chris@32 340
Chris@32 341 // we reverse the column as we go (the CQ output is
Chris@32 342 // "upside-down", with high frequencies at the start of
Chris@32 343 // each column, and we want it the other way around) and
Chris@32 344 // then ignore the first 55 (lowest-frequency) bins,
Chris@32 345 // giving us 545 bins instead of 600
Chris@32 346
Chris@32 347 for (int j = 0; j < processingHeight; ++j) {
Chris@32 348
Chris@32 349 int ix = inCol.size() - j - 55;
Chris@32 350
Chris@32 351 double val = inCol[ix];
Chris@32 352 m_filterA[j]->push(val);
Chris@32 353
Chris@32 354 double a = m_filterA[j]->get();
Chris@32 355 m_filterB[j]->push(std::min(a, val));
Chris@32 356
Chris@32 357 double filtered = m_filterB[j]->get();
Chris@32 358 outCol[j] = filtered;
Chris@32 359 }
Chris@32 360
Chris@32 361 // then we only use every fourth filtered column, for 25
Chris@32 362 // columns per second in the eventual grid
Chris@32 363
Chris@32 364 if (m_reducedColumnCount % 4 == 0) {
Chris@32 365 out.push_back(outCol);
Chris@32 366 }
Chris@32 367
Chris@32 368 ++m_reducedColumnCount;
Chris@32 369 }
Chris@32 370
Chris@32 371 ++m_columnCount;
Chris@32 372 }
Chris@32 373
Chris@32 374 return out;
Chris@32 375 }
Chris@32 376