Mercurial > hg > pyin
view Yin.cpp @ 0:99bac62ee2da
added PYIN sources, should be compileable
| author | matthiasm |
|---|---|
| date | Wed, 27 Nov 2013 11:59:49 +0000 |
| parents | |
| children | 5945b8905d1f |
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#include "Yin.h" #include "vamp-sdk/FFT.h" #include "MeanFilter.h" #include "YinUtil.h" #include <vector> #include <cstdlib> #include <cstdio> #include <cmath> #include <complex> using std::vector; Yin::Yin(size_t frameSize, size_t inputSampleRate, double thresh) : m_frameSize(frameSize), m_inputSampleRate(inputSampleRate), m_thresh(thresh), m_threshDistr(2), m_yinBufferSize(frameSize/2) { if (frameSize & (frameSize-1)) { throw "N must be a power of two"; } } Yin::~Yin() { } Yin::YinOutput Yin::process(const double *in) const { double* yinBuffer = new double[m_yinBufferSize]; // calculate aperiodicity function for all periods YinUtil::fastDifference(in, yinBuffer, m_yinBufferSize); YinUtil::cumulativeDifference(yinBuffer, m_yinBufferSize); int tau = 0; tau = YinUtil::absoluteThreshold(yinBuffer, m_yinBufferSize, m_thresh); double interpolatedTau; double aperiodicity; double f0; if (tau!=0) { interpolatedTau = YinUtil::parabolicInterpolation(yinBuffer, abs(tau), m_yinBufferSize); f0 = m_inputSampleRate * (1.0 / interpolatedTau); } else { interpolatedTau = 0; f0 = 0; } double rms = std::sqrt(YinUtil::sumSquare(in, 0, m_yinBufferSize)/m_yinBufferSize); aperiodicity = yinBuffer[abs(tau)]; // std::cerr << aperiodicity << std::endl; if (tau < 0) f0 = -f0; Yin::YinOutput yo(f0, 1-aperiodicity, rms); for (size_t iBuf = 0; iBuf < m_yinBufferSize; ++iBuf) { yo.salience.push_back(yinBuffer[iBuf] < 1 ? 1-yinBuffer[iBuf] : 0); // why are the values sometimes < 0 if I don't check? } delete [] yinBuffer; return yo; } Yin::YinOutput Yin::processProbabilisticYin(const double *in) const { double* yinBuffer = new double[m_yinBufferSize]; // calculate aperiodicity function for all periods YinUtil::fastDifference(in, yinBuffer, m_yinBufferSize); YinUtil::cumulativeDifference(yinBuffer, m_yinBufferSize); vector<double> peakProbability = YinUtil::yinProb(yinBuffer, m_threshDistr, m_yinBufferSize); // calculate overall "probability" from peak probability double probSum = 0; for (size_t iBin = 0; iBin < m_yinBufferSize; ++iBin) { probSum += peakProbability[iBin]; } Yin::YinOutput yo(0,0,0); for (size_t iBuf = 0; iBuf < m_yinBufferSize; ++iBuf) { yo.salience.push_back(peakProbability[iBuf]); if (peakProbability[iBuf] > 0) { double currentF0 = m_inputSampleRate * (1.0 / YinUtil::parabolicInterpolation(yinBuffer, iBuf, m_yinBufferSize)); yo.freqProb.push_back(pair<double, double>(currentF0, peakProbability[iBuf])); } } // std::cerr << yo.freqProb.size() << std::endl; delete [] yinBuffer; return yo; } int Yin::setThreshold(double parameter) { m_thresh = static_cast<float>(parameter); return 0; } int Yin::setThresholdDistr(float parameter) { m_threshDistr = static_cast<size_t>(parameter); return 0; } int Yin::setFrameSize(size_t parameter) { m_frameSize = parameter; m_yinBufferSize = m_frameSize/2; return 0; } // int // Yin::setRemoveUnvoiced(bool parameter) // { // m_removeUnvoiced = parameter; // return 0; // }