2011-03-02 07:37:39 -05:00
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
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/*
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* ClusterMeltSegmenter.cpp
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*
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* Created by Mark Levy on 23/03/2006.
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* Copyright 2006 Centre for Digital Music, Queen Mary, University of London.
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License as
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published by the Free Software Foundation; either version 2 of the
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License, or (at your option) any later version. See the file
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COPYING included with this distribution for more information.
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*/
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#include <cfloat>
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#include <cmath>
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#include "ClusterMeltSegmenter.h"
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#include "cluster_segmenter.h"
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#include "segment.h"
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#include "dsp/transforms/FFT.h"
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#include "dsp/chromagram/ConstantQ.h"
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#include "dsp/rateconversion/Decimator.h"
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#include "dsp/mfcc/MFCC.h"
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ClusterMeltSegmenter::ClusterMeltSegmenter(ClusterMeltSegmenterParams params) :
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window(NULL),
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fft(NULL),
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constq(NULL),
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mfcc(NULL),
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featureType(params.featureType),
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hopSize(params.hopSize),
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windowSize(params.windowSize),
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fmin(params.fmin),
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fmax(params.fmax),
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nbins(params.nbins),
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ncomponents(params.ncomponents), // NB currently not passed - no. of PCA components is set in cluser_segmenter.c
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nHMMStates(params.nHMMStates),
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nclusters(params.nclusters),
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histogramLength(params.histogramLength),
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neighbourhoodLimit(params.neighbourhoodLimit),
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decimator(NULL)
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{
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}
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void ClusterMeltSegmenter::initialise(int fs)
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{
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samplerate = fs;
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if (featureType == FEATURE_TYPE_CONSTQ ||
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featureType == FEATURE_TYPE_CHROMA) {
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2011-03-02 07:37:39 -05:00
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// run internal processing at 11025 or thereabouts
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int internalRate = 11025;
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int decimationFactor = samplerate / internalRate;
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if (decimationFactor < 1) decimationFactor = 1;
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// must be a power of two
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while (decimationFactor & (decimationFactor - 1)) ++decimationFactor;
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if (decimationFactor > Decimator::getHighestSupportedFactor()) {
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decimationFactor = Decimator::getHighestSupportedFactor();
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}
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if (decimationFactor > 1) {
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decimator = new Decimator(getWindowsize(), decimationFactor);
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}
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CQConfig config;
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config.FS = samplerate / decimationFactor;
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config.min = fmin;
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config.max = fmax;
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config.BPO = nbins;
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config.CQThresh = 0.0054;
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constq = new ConstantQ(config);
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constq->sparsekernel();
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ncoeff = constq->getK();
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fft = new FFTReal(constq->getfftlength());
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2011-03-02 07:37:39 -05:00
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} else if (featureType == FEATURE_TYPE_MFCC) {
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// run internal processing at 22050 or thereabouts
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int internalRate = 22050;
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int decimationFactor = samplerate / internalRate;
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if (decimationFactor < 1) decimationFactor = 1;
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// must be a power of two
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while (decimationFactor & (decimationFactor - 1)) ++decimationFactor;
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if (decimationFactor > Decimator::getHighestSupportedFactor()) {
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decimationFactor = Decimator::getHighestSupportedFactor();
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}
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if (decimationFactor > 1) {
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decimator = new Decimator(getWindowsize(), decimationFactor);
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}
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MFCCConfig config(samplerate / decimationFactor);
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config.fftsize = 2048;
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config.nceps = 19;
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config.want_c0 = true;
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mfcc = new MFCC(config);
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ncoeff = config.nceps + 1;
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}
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}
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ClusterMeltSegmenter::~ClusterMeltSegmenter()
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{
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delete window;
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delete constq;
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delete decimator;
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delete fft;
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}
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int
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ClusterMeltSegmenter::getWindowsize()
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{
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return static_cast<int>(windowSize * samplerate + 0.001);
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}
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int
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ClusterMeltSegmenter::getHopsize()
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{
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return static_cast<int>(hopSize * samplerate + 0.001);
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}
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void ClusterMeltSegmenter::extractFeatures(const double* samples, int nsamples)
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{
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if (featureType == FEATURE_TYPE_CONSTQ ||
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featureType == FEATURE_TYPE_CHROMA) {
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extractFeaturesConstQ(samples, nsamples);
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} else if (featureType == FEATURE_TYPE_MFCC) {
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extractFeaturesMFCC(samples, nsamples);
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}
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}
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void ClusterMeltSegmenter::extractFeaturesConstQ(const double* samples, int nsamples)
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{
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if (!constq) {
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std::cerr << "ERROR: ClusterMeltSegmenter::extractFeaturesConstQ: "
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<< "No const-q: initialise not called?"
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<< std::endl;
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return;
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}
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if (nsamples < getWindowsize()) {
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std::cerr << "ERROR: ClusterMeltSegmenter::extractFeatures: nsamples < windowsize (" << nsamples << " < " << getWindowsize() << ")" << std::endl;
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return;
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}
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int fftsize = constq->getfftlength();
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if (!window || window->getSize() != fftsize) {
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delete window;
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window = new Window<double>(HammingWindow, fftsize);
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}
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vector<double> cq(ncoeff);
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for (int i = 0; i < ncoeff; ++i) cq[i] = 0.0;
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const double *psource = samples;
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int pcount = nsamples;
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if (decimator) {
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pcount = nsamples / decimator->getFactor();
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double *decout = new double[pcount];
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decimator->process(samples, decout);
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psource = decout;
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}
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int origin = 0;
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2011-03-02 07:37:39 -05:00
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// std::cerr << "nsamples = " << nsamples << ", pcount = " << pcount << std::endl;
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int frames = 0;
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double *frame = new double[fftsize];
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double *real = new double[fftsize];
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double *imag = new double[fftsize];
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double *cqre = new double[ncoeff];
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double *cqim = new double[ncoeff];
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while (origin <= pcount) {
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// always need at least one fft window per block, but after
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// that we want to avoid having any incomplete ones
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if (origin > 0 && origin + fftsize >= pcount) break;
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for (int i = 0; i < fftsize; ++i) {
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if (origin + i < pcount) {
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frame[i] = psource[origin + i];
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} else {
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frame[i] = 0.0;
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}
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}
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for (int i = 0; i < fftsize/2; ++i) {
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double value = frame[i];
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frame[i] = frame[i + fftsize/2];
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frame[i + fftsize/2] = value;
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}
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window->cut(frame);
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fft->process(false, frame, real, imag);
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constq->process(real, imag, cqre, cqim);
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for (int i = 0; i < ncoeff; ++i) {
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cq[i] += sqrt(cqre[i] * cqre[i] + cqim[i] * cqim[i]);
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}
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++frames;
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origin += fftsize/2;
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}
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delete [] cqre;
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delete [] cqim;
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delete [] real;
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delete [] imag;
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delete [] frame;
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for (int i = 0; i < ncoeff; ++i) {
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cq[i] /= frames;
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}
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if (decimator) delete[] psource;
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features.push_back(cq);
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}
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void ClusterMeltSegmenter::extractFeaturesMFCC(const double* samples, int nsamples)
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{
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if (!mfcc) {
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std::cerr << "ERROR: ClusterMeltSegmenter::extractFeaturesMFCC: "
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<< "No mfcc: initialise not called?"
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<< std::endl;
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return;
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}
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if (nsamples < getWindowsize()) {
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std::cerr << "ERROR: ClusterMeltSegmenter::extractFeatures: nsamples < windowsize (" << nsamples << " < " << getWindowsize() << ")" << std::endl;
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return;
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}
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int fftsize = mfcc->getfftlength();
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vector<double> cc(ncoeff);
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for (int i = 0; i < ncoeff; ++i) cc[i] = 0.0;
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const double *psource = samples;
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int pcount = nsamples;
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if (decimator) {
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pcount = nsamples / decimator->getFactor();
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double *decout = new double[pcount];
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decimator->process(samples, decout);
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psource = decout;
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}
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int origin = 0;
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int frames = 0;
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double *frame = new double[fftsize];
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double *ccout = new double[ncoeff];
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while (origin <= pcount) {
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// always need at least one fft window per block, but after
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// that we want to avoid having any incomplete ones
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if (origin > 0 && origin + fftsize >= pcount) break;
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for (int i = 0; i < fftsize; ++i) {
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if (origin + i < pcount) {
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frame[i] = psource[origin + i];
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} else {
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frame[i] = 0.0;
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}
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}
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mfcc->process(frame, ccout);
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for (int i = 0; i < ncoeff; ++i) {
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cc[i] += ccout[i];
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}
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++frames;
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origin += fftsize/2;
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}
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delete [] ccout;
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delete [] frame;
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for (int i = 0; i < ncoeff; ++i) {
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cc[i] /= frames;
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}
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if (decimator) delete[] psource;
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features.push_back(cc);
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}
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void ClusterMeltSegmenter::segment(int m)
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{
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nclusters = m;
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segment();
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}
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void ClusterMeltSegmenter::setFeatures(const vector<vector<double> >& f)
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{
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features = f;
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featureType = FEATURE_TYPE_UNKNOWN;
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}
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void ClusterMeltSegmenter::segment()
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{
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delete constq;
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constq = 0;
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delete mfcc;
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mfcc = 0;
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delete decimator;
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decimator = 0;
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if (features.size() < histogramLength) return;
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/*
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std::cerr << "ClusterMeltSegmenter::segment: have " << features.size()
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<< " features with " << features[0].size() << " coefficients (ncoeff = " << ncoeff << ", ncomponents = " << ncomponents << ")" << std::endl;
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*/
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// copy the features to a native array and use the existing C segmenter...
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double** arrFeatures = new double*[features.size()];
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for (int i = 0; i < features.size(); i++)
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{
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if (featureType == FEATURE_TYPE_UNKNOWN) {
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arrFeatures[i] = new double[features[0].size()];
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for (int j = 0; j < features[0].size(); j++)
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arrFeatures[i][j] = features[i][j];
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} else {
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arrFeatures[i] = new double[ncoeff+1]; // allow space for the normalised envelope
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for (int j = 0; j < ncoeff; j++)
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arrFeatures[i][j] = features[i][j];
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}
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}
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q = new int[features.size()];
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2011-03-02 07:37:39 -05:00
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if (featureType == FEATURE_TYPE_UNKNOWN ||
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featureType == FEATURE_TYPE_MFCC)
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cluster_segment(q, arrFeatures, features.size(), features[0].size(), nHMMStates, histogramLength,
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nclusters, neighbourhoodLimit);
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else
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constq_segment(q, arrFeatures, features.size(), nbins, ncoeff, featureType,
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2011-03-02 07:37:39 -05:00
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nHMMStates, histogramLength, nclusters, neighbourhoodLimit);
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2015-10-05 10:17:49 -04:00
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2011-03-02 07:37:39 -05:00
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// convert the cluster assignment sequence to a segmentation
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2015-10-05 10:17:49 -04:00
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makeSegmentation(q, features.size());
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2011-03-02 07:37:39 -05:00
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// de-allocate arrays
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delete [] q;
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for (int i = 0; i < features.size(); i++)
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delete [] arrFeatures[i];
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delete [] arrFeatures;
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2015-10-05 10:17:49 -04:00
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2011-03-02 07:37:39 -05:00
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// clear the features
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clear();
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}
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void ClusterMeltSegmenter::makeSegmentation(int* q, int len)
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{
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segmentation.segments.clear();
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segmentation.nsegtypes = nclusters;
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segmentation.samplerate = samplerate;
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2015-10-05 10:17:49 -04:00
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2011-03-02 07:37:39 -05:00
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Segment segment;
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segment.start = 0;
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segment.type = q[0];
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2015-10-05 10:17:49 -04:00
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2011-03-02 07:37:39 -05:00
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for (int i = 1; i < len; i++)
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{
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if (q[i] != q[i-1])
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{
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segment.end = i * getHopsize();
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segmentation.segments.push_back(segment);
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segment.type = q[i];
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segment.start = segment.end;
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}
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}
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segment.end = len * getHopsize();
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segmentation.segments.push_back(segment);
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}
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