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annotate chroma-compare-plugin/TuningDifference.cpp @ 19:9c5ec36c223e

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Return values through plugin outputs
author Chris Cannam
date Thu, 05 Feb 2015 09:43:31 +0000
parents c40c58215162
children 331a520cdadb
rev   line source
Chris@0 1
Chris@0 2 #include "TuningDifference.h"
Chris@0 3
Chris@1 4 #include <iostream>
Chris@1 5
Chris@4 6 #include <cmath>
Chris@4 7 #include <cstdio>
Chris@4 8
Chris@13 9 #include <algorithm>
Chris@1 10
Chris@13 11 using namespace std;
Chris@13 12
Chris@13 13 static double pitchToFrequency(int pitch,
Chris@13 14 double centsOffset = 0.,
Chris@13 15 double concertA = 440.)
Chris@13 16 {
Chris@13 17 double p = double(pitch) + (centsOffset / 100.);
Chris@13 18 return concertA * pow(2.0, (p - 69.0) / 12.0);
Chris@13 19 }
Chris@13 20
Chris@13 21 static double frequencyForCentsAbove440(double cents)
Chris@13 22 {
Chris@13 23 return pitchToFrequency(69, cents, 440.);
Chris@13 24 }
Chris@5 25
Chris@0 26 TuningDifference::TuningDifference(float inputSampleRate) :
Chris@13 27 Plugin(inputSampleRate),
Chris@13 28 m_bpo(60),
Chris@18 29 m_refChroma(new Chromagram(paramsForTuningFrequency(440.))),
Chris@18 30 m_blockSize(0),
Chris@18 31 m_frameCount(0)
Chris@0 32 {
Chris@0 33 }
Chris@0 34
Chris@0 35 TuningDifference::~TuningDifference()
Chris@0 36 {
Chris@0 37 }
Chris@0 38
Chris@0 39 string
Chris@0 40 TuningDifference::getIdentifier() const
Chris@0 41 {
Chris@1 42 return "tuning-difference";
Chris@0 43 }
Chris@0 44
Chris@0 45 string
Chris@0 46 TuningDifference::getName() const
Chris@0 47 {
Chris@1 48 return "Tuning Difference";
Chris@0 49 }
Chris@0 50
Chris@0 51 string
Chris@0 52 TuningDifference::getDescription() const
Chris@0 53 {
Chris@0 54 // Return something helpful here!
Chris@0 55 return "";
Chris@0 56 }
Chris@0 57
Chris@0 58 string
Chris@0 59 TuningDifference::getMaker() const
Chris@0 60 {
Chris@0 61 // Your name here
Chris@0 62 return "";
Chris@0 63 }
Chris@0 64
Chris@0 65 int
Chris@0 66 TuningDifference::getPluginVersion() const
Chris@0 67 {
Chris@0 68 // Increment this each time you release a version that behaves
Chris@0 69 // differently from the previous one
Chris@0 70 return 1;
Chris@0 71 }
Chris@0 72
Chris@0 73 string
Chris@0 74 TuningDifference::getCopyright() const
Chris@0 75 {
Chris@0 76 // This function is not ideally named. It does not necessarily
Chris@0 77 // need to say who made the plugin -- getMaker does that -- but it
Chris@0 78 // should indicate the terms under which it is distributed. For
Chris@0 79 // example, "Copyright (year). All Rights Reserved", or "GPL"
Chris@0 80 return "";
Chris@0 81 }
Chris@0 82
Chris@0 83 TuningDifference::InputDomain
Chris@0 84 TuningDifference::getInputDomain() const
Chris@0 85 {
Chris@13 86 return TimeDomain;
Chris@0 87 }
Chris@0 88
Chris@0 89 size_t
Chris@0 90 TuningDifference::getPreferredBlockSize() const
Chris@0 91 {
Chris@13 92 return 0;
Chris@0 93 }
Chris@0 94
Chris@0 95 size_t
Chris@0 96 TuningDifference::getPreferredStepSize() const
Chris@0 97 {
Chris@1 98 return 0;
Chris@0 99 }
Chris@0 100
Chris@0 101 size_t
Chris@0 102 TuningDifference::getMinChannelCount() const
Chris@0 103 {
Chris@1 104 return 2;
Chris@0 105 }
Chris@0 106
Chris@0 107 size_t
Chris@0 108 TuningDifference::getMaxChannelCount() const
Chris@0 109 {
Chris@1 110 return 2;
Chris@0 111 }
Chris@0 112
Chris@0 113 TuningDifference::ParameterList
Chris@0 114 TuningDifference::getParameterDescriptors() const
Chris@0 115 {
Chris@0 116 ParameterList list;
Chris@0 117 return list;
Chris@0 118 }
Chris@0 119
Chris@0 120 float
Chris@1 121 TuningDifference::getParameter(string) const
Chris@0 122 {
Chris@0 123 return 0;
Chris@0 124 }
Chris@0 125
Chris@0 126 void
Chris@1 127 TuningDifference::setParameter(string, float)
Chris@0 128 {
Chris@0 129 }
Chris@0 130
Chris@0 131 TuningDifference::ProgramList
Chris@0 132 TuningDifference::getPrograms() const
Chris@0 133 {
Chris@0 134 ProgramList list;
Chris@0 135 return list;
Chris@0 136 }
Chris@0 137
Chris@0 138 string
Chris@0 139 TuningDifference::getCurrentProgram() const
Chris@0 140 {
Chris@0 141 return ""; // no programs
Chris@0 142 }
Chris@0 143
Chris@0 144 void
Chris@1 145 TuningDifference::selectProgram(string)
Chris@0 146 {
Chris@0 147 }
Chris@0 148
Chris@0 149 TuningDifference::OutputList
Chris@0 150 TuningDifference::getOutputDescriptors() const
Chris@0 151 {
Chris@0 152 OutputList list;
Chris@0 153
Chris@1 154 OutputDescriptor d;
Chris@1 155 d.identifier = "cents";
Chris@1 156 d.name = "Tuning Difference";
Chris@1 157 d.description = "Difference in averaged frequency profile between channels 1 and 2, in cents. A positive value means channel 2 is higher.";
Chris@1 158 d.unit = "cents";
Chris@1 159 d.hasFixedBinCount = true;
Chris@1 160 d.binCount = 1;
Chris@1 161 d.hasKnownExtents = false;
Chris@1 162 d.isQuantized = false;
Chris@1 163 d.sampleType = OutputDescriptor::VariableSampleRate;
Chris@1 164 d.hasDuration = false;
Chris@13 165 m_outputs[d.identifier] = list.size();
Chris@1 166 list.push_back(d);
Chris@0 167
Chris@1 168 d.identifier = "tuningfreq";
Chris@1 169 d.name = "Relative Tuning Frequency";
Chris@1 170 d.description = "Tuning frequency of channel 2, if channel 1 is assumed to contain the same music as it at a tuning frequency of A=440Hz.";
Chris@4 171 d.unit = "hz";
Chris@1 172 d.hasFixedBinCount = true;
Chris@1 173 d.binCount = 1;
Chris@1 174 d.hasKnownExtents = false;
Chris@1 175 d.isQuantized = false;
Chris@1 176 d.sampleType = OutputDescriptor::VariableSampleRate;
Chris@1 177 d.hasDuration = false;
Chris@13 178 m_outputs[d.identifier] = list.size();
Chris@1 179 list.push_back(d);
Chris@1 180
Chris@13 181 d.identifier = "reffeature";
Chris@13 182 d.name = "Reference Feature";
Chris@13 183 d.description = "Chroma feature from reference audio.";
Chris@0 184 d.unit = "";
Chris@0 185 d.hasFixedBinCount = true;
Chris@13 186 d.binCount = m_bpo;
Chris@4 187 d.hasKnownExtents = false;
Chris@4 188 d.isQuantized = false;
Chris@4 189 d.sampleType = OutputDescriptor::FixedSampleRate;
Chris@5 190 d.sampleRate = 1;
Chris@4 191 d.hasDuration = false;
Chris@13 192 m_outputs[d.identifier] = list.size();
Chris@13 193 list.push_back(d);
Chris@13 194
Chris@13 195 d.identifier = "otherfeature";
Chris@13 196 d.name = "Other Feature";
Chris@13 197 d.description = "Chroma feature from other audio, before rotation.";
Chris@13 198 d.unit = "";
Chris@13 199 d.hasFixedBinCount = true;
Chris@13 200 d.binCount = m_bpo;
Chris@13 201 d.hasKnownExtents = false;
Chris@13 202 d.isQuantized = false;
Chris@13 203 d.sampleType = OutputDescriptor::FixedSampleRate;
Chris@13 204 d.sampleRate = 1;
Chris@13 205 d.hasDuration = false;
Chris@13 206 m_outputs[d.identifier] = list.size();
Chris@13 207 list.push_back(d);
Chris@13 208
Chris@13 209 d.identifier = "rotfeature";
Chris@13 210 d.name = "Other Feature at Rotated Frequency";
Chris@13 211 d.description = "Chroma feature from reference audio calculated with the tuning frequency obtained from rotation matching.";
Chris@13 212 d.unit = "";
Chris@13 213 d.hasFixedBinCount = true;
Chris@13 214 d.binCount = m_bpo;
Chris@13 215 d.hasKnownExtents = false;
Chris@13 216 d.isQuantized = false;
Chris@13 217 d.sampleType = OutputDescriptor::FixedSampleRate;
Chris@13 218 d.sampleRate = 1;
Chris@13 219 d.hasDuration = false;
Chris@13 220 m_outputs[d.identifier] = list.size();
Chris@4 221 list.push_back(d);
Chris@4 222
Chris@0 223 return list;
Chris@0 224 }
Chris@0 225
Chris@0 226 bool
Chris@0 227 TuningDifference::initialise(size_t channels, size_t stepSize, size_t blockSize)
Chris@0 228 {
Chris@0 229 if (channels < getMinChannelCount() ||
Chris@0 230 channels > getMaxChannelCount()) return false;
Chris@0 231
Chris@13 232 if (stepSize != blockSize) return false;
Chris@0 233
Chris@1 234 m_blockSize = blockSize;
Chris@1 235
Chris@1 236 reset();
Chris@1 237
Chris@0 238 return true;
Chris@0 239 }
Chris@0 240
Chris@0 241 void
Chris@0 242 TuningDifference::reset()
Chris@0 243 {
Chris@13 244 if (m_frameCount > 0) {
Chris@15 245 m_refChroma.reset(new Chromagram(paramsForTuningFrequency(440.)));
Chris@13 246 m_frameCount = 0;
Chris@13 247 }
Chris@15 248 m_refTotals = TFeature(m_bpo, 0.0);
Chris@13 249 m_other.clear();
Chris@13 250 }
Chris@13 251
Chris@13 252 template<typename T>
Chris@13 253 void addTo(vector<T> &a, const vector<T> &b)
Chris@13 254 {
Chris@13 255 transform(a.begin(), a.end(), b.begin(), a.begin(), plus<T>());
Chris@13 256 }
Chris@13 257
Chris@13 258 template<typename T>
Chris@13 259 T distance(const vector<T> &a, const vector<T> &b)
Chris@13 260 {
Chris@13 261 return inner_product(a.begin(), a.end(), b.begin(), T(),
Chris@13 262 plus<T>(), [](T x, T y) { return fabs(x - y); });
Chris@13 263 }
Chris@13 264
Chris@13 265 TuningDifference::TFeature
Chris@15 266 TuningDifference::computeFeatureFromTotals(const TFeature &totals) const
Chris@13 267 {
Chris@16 268 if (m_frameCount == 0) return totals;
Chris@16 269
Chris@13 270 TFeature feature(m_bpo);
Chris@13 271 double sum = 0.0;
Chris@16 272
Chris@15 273 for (int i = 0; i < m_bpo; ++i) {
Chris@13 274 double value = totals[i] / m_frameCount;
Chris@15 275 feature[i] += value;
Chris@13 276 sum += value;
Chris@13 277 }
Chris@13 278
Chris@13 279 for (int i = 0; i < m_bpo; ++i) {
Chris@13 280 feature[i] /= sum;
Chris@13 281 }
Chris@13 282
Chris@13 283 cerr << "computeFeatureFromTotals: feature values:" << endl;
Chris@13 284 for (auto v: feature) cerr << v << " ";
Chris@13 285 cerr << endl;
Chris@13 286
Chris@13 287 return feature;
Chris@13 288 }
Chris@13 289
Chris@15 290 Chromagram::Parameters
Chris@13 291 TuningDifference::paramsForTuningFrequency(double hz) const
Chris@13 292 {
Chris@15 293 Chromagram::Parameters params(m_inputSampleRate);
Chris@15 294 params.lowestOctave = 0;
Chris@15 295 params.octaves = 6;
Chris@15 296 params.bpo = m_bpo;
Chris@15 297 params.tuningFrequency = hz;
Chris@15 298 return params;
Chris@13 299 }
Chris@13 300
Chris@13 301 TuningDifference::TFeature
Chris@13 302 TuningDifference::computeFeatureFromSignal(const Signal &signal, double hz) const
Chris@13 303 {
Chris@15 304 Chromagram chromagram(paramsForTuningFrequency(hz));
Chris@13 305
Chris@15 306 TFeature totals(m_bpo, 0.0);
Chris@16 307
Chris@16 308 cerr << "computeFeatureFromSignal: hz = " << hz << ", frame count = " << m_frameCount << endl;
Chris@13 309
Chris@13 310 for (int i = 0; i < m_frameCount; ++i) {
Chris@13 311 Signal::const_iterator first = signal.begin() + i * m_blockSize;
Chris@13 312 Signal::const_iterator last = first + m_blockSize;
Chris@13 313 if (last > signal.end()) last = signal.end();
Chris@15 314 CQBase::RealSequence input(first, last);
Chris@13 315 input.resize(m_blockSize);
Chris@15 316 CQBase::RealBlock block = chromagram.process(input);
Chris@13 317 for (const auto &v: block) addTo(totals, v);
Chris@13 318 }
Chris@13 319
Chris@13 320 return computeFeatureFromTotals(totals);
Chris@0 321 }
Chris@0 322
Chris@0 323 TuningDifference::FeatureSet
Chris@13 324 TuningDifference::process(const float *const *inputBuffers, Vamp::RealTime)
Chris@0 325 {
Chris@15 326 CQBase::RealBlock block;
Chris@15 327 CQBase::RealSequence input;
Chris@13 328
Chris@15 329 input = CQBase::RealSequence
Chris@13 330 (inputBuffers[0], inputBuffers[0] + m_blockSize);
Chris@15 331 block = m_refChroma->process(input);
Chris@13 332 for (const auto &v: block) addTo(m_refTotals, v);
Chris@13 333
Chris@13 334 m_other.insert(m_other.end(),
Chris@13 335 inputBuffers[1], inputBuffers[1] + m_blockSize);
Chris@1 336
Chris@1 337 ++m_frameCount;
Chris@0 338 return FeatureSet();
Chris@0 339 }
Chris@0 340
Chris@13 341 double
Chris@13 342 TuningDifference::featureDistance(const TFeature &other, int rotation) const
Chris@13 343 {
Chris@13 344 if (rotation == 0) {
Chris@13 345 return distance(m_refFeature, other);
Chris@13 346 } else {
Chris@15 347 // A positive rotation pushes the tuning frequency up for this
Chris@15 348 // chroma, negative one pulls it down. If a positive rotation
Chris@15 349 // makes this chroma match an un-rotated reference, then this
Chris@15 350 // chroma must have initially been lower than the reference.
Chris@13 351 TFeature r(other);
Chris@15 352 if (rotation < 0) {
Chris@15 353 rotate(r.begin(), r.begin() - rotation, r.end());
Chris@13 354 } else {
Chris@15 355 rotate(r.begin(), r.end() - rotation, r.end());
Chris@13 356 }
Chris@13 357 return distance(m_refFeature, r);
Chris@13 358 }
Chris@13 359 }
Chris@13 360
Chris@13 361 int
Chris@13 362 TuningDifference::findBestRotation(const TFeature &other) const
Chris@13 363 {
Chris@13 364 map<double, int> dists;
Chris@13 365
Chris@13 366 int maxSemis = 6;
Chris@13 367 int maxRotation = (m_bpo * maxSemis) / 12;
Chris@13 368
Chris@13 369 for (int r = -maxRotation; r <= maxRotation; ++r) {
Chris@13 370 double dist = featureDistance(other, r);
Chris@13 371 dists[dist] = r;
Chris@13 372 cerr << "rotation " << r << ": score " << dist << endl;
Chris@13 373 }
Chris@13 374
Chris@13 375 int best = dists.begin()->second;
Chris@13 376
Chris@13 377 cerr << "best is " << best << endl;
Chris@13 378 return best;
Chris@13 379 }
Chris@13 380
Chris@19 381 pair<int, double>
Chris@16 382 TuningDifference::findFineFrequency(int coarseCents, double coarseScore)
Chris@16 383 {
Chris@16 384 int coarseResolution = 1200 / m_bpo;
Chris@16 385 int searchDistance = coarseResolution/2 - 1;
Chris@16 386
Chris@16 387 double bestScore = coarseScore;
Chris@19 388 int bestCents = coarseCents;
Chris@16 389 double bestHz = frequencyForCentsAbove440(coarseCents);
Chris@16 390
Chris@16 391 cerr << "corresponding coarse Hz " << bestHz << " scores " << coarseScore << endl;
Chris@16 392 cerr << "searchDistance = " << searchDistance << endl;
Chris@16 393
Chris@16 394 for (int sign = -1; sign <= 1; sign += 2) {
Chris@16 395 for (int offset = 1; offset <= searchDistance; ++offset) {
Chris@16 396
Chris@16 397 int fineCents = coarseCents + sign * offset;
Chris@16 398
Chris@16 399 cerr << "trying with fineCents = " << fineCents << "..." << endl;
Chris@16 400
Chris@16 401 double fineHz = frequencyForCentsAbove440(fineCents);
Chris@16 402 TFeature fineFeature = computeFeatureFromSignal(m_other, fineHz);
Chris@16 403 double fineScore = featureDistance(fineFeature);
Chris@16 404
Chris@16 405 cerr << "fine offset = " << offset << ", cents = " << fineCents
Chris@16 406 << ", Hz = " << fineHz << ", score " << fineScore
Chris@16 407 << " (best score so far " << bestScore << ")" << endl;
Chris@16 408
Chris@16 409 if (fineScore < bestScore) {
Chris@16 410 cerr << "is good!" << endl;
Chris@16 411 bestScore = fineScore;
Chris@19 412 bestCents = fineCents;
Chris@17 413 bestHz = fineHz;
Chris@16 414 } else {
Chris@16 415 break;
Chris@16 416 }
Chris@16 417 }
Chris@16 418 }
Chris@16 419
Chris@19 420 return pair<int, double>(bestCents, bestHz);
Chris@16 421 }
Chris@16 422
Chris@0 423 TuningDifference::FeatureSet
Chris@0 424 TuningDifference::getRemainingFeatures()
Chris@0 425 {
Chris@13 426 FeatureSet fs;
Chris@13 427 if (m_frameCount == 0) return fs;
Chris@13 428
Chris@13 429 m_refFeature = computeFeatureFromTotals(m_refTotals);
Chris@13 430 TFeature otherFeature = computeFeatureFromSignal(m_other, 440.);
Chris@1 431
Chris@1 432 Feature f;
Chris@1 433
Chris@4 434 f.values.clear();
Chris@13 435 for (auto v: m_refFeature) f.values.push_back(v);
Chris@13 436 fs[m_outputs["reffeature"]].push_back(f);
Chris@4 437
Chris@4 438 f.values.clear();
Chris@13 439 for (auto v: otherFeature) f.values.push_back(v);
Chris@13 440 fs[m_outputs["otherfeature"]].push_back(f);
Chris@13 441
Chris@13 442 int rotation = findBestRotation(otherFeature);
Chris@13 443
Chris@16 444 int coarseCents = -(rotation * 1200) / m_bpo;
Chris@13 445
Chris@13 446 cerr << "rotation " << rotation << " -> cents " << coarseCents << endl;
Chris@13 447
Chris@13 448 double coarseHz = frequencyForCentsAbove440(coarseCents);
Chris@13 449
Chris@13 450 TFeature coarseFeature = computeFeatureFromSignal(m_other, coarseHz);
Chris@13 451 double coarseScore = featureDistance(coarseFeature);
Chris@13 452
Chris@13 453 cerr << "corresponding Hz " << coarseHz << " scores " << coarseScore << endl;
Chris@4 454
Chris@19 455 //!!! This should be returning the fine chroma, not the coarse
Chris@4 456 f.values.clear();
Chris@13 457 for (auto v: coarseFeature) f.values.push_back(v);
Chris@13 458 fs[m_outputs["rotfeature"]].push_back(f);
Chris@16 459
Chris@19 460 pair<int, double> fine = findFineFrequency(coarseCents, coarseScore);
Chris@19 461 int fineCents = fine.first;
Chris@19 462 double fineHz = fine.second;
Chris@16 463
Chris@19 464 f.values.clear();
Chris@19 465 f.values.push_back(fineHz);
Chris@19 466 fs[m_outputs["tuningfreq"]].push_back(f);
Chris@19 467
Chris@19 468 f.values.clear();
Chris@19 469 f.values.push_back(fineCents);
Chris@19 470 fs[m_outputs["cents"]].push_back(f);
Chris@19 471
Chris@16 472 cerr << "overall best Hz = " << fineHz << endl;
Chris@4 473
Chris@1 474 return fs;
Chris@0 475 }
Chris@0 476