c@225: /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ c@225: c@225: /* c@225: QM DSP Library c@225: c@225: Centre for Digital Music, Queen Mary, University of London. c@225: This file copyright 2005-2006 Christian Landone. c@225: All rights reserved. c@225: */ c@225: c@225: #include "PeakPicking.h" c@225: #include "dsp/maths/Polyfit.h" c@225: c@237: #include c@225: c@225: ////////////////////////////////////////////////////////////////////// c@225: // Construction/Destruction c@225: ////////////////////////////////////////////////////////////////////// c@225: c@225: PeakPicking::PeakPicking( PPickParams Config ) c@225: { c@225: m_workBuffer = NULL; c@225: initialise( Config ); c@225: } c@225: c@225: PeakPicking::~PeakPicking() c@225: { c@225: deInitialise(); c@225: } c@225: c@225: void PeakPicking::initialise( PPickParams Config ) c@225: { c@225: m_DFLength = Config.length ; c@225: Qfilta = Config.QuadThresh.a ; c@225: Qfiltb = Config.QuadThresh.b ; c@225: Qfiltc = Config.QuadThresh.c ; c@225: c@225: m_DFProcessingParams.length = m_DFLength; c@225: m_DFProcessingParams.LPOrd = Config.LPOrd; c@225: m_DFProcessingParams.LPACoeffs = Config.LPACoeffs; c@225: m_DFProcessingParams.LPBCoeffs = Config.LPBCoeffs; c@225: m_DFProcessingParams.winPre = Config.WinT.pre; c@225: m_DFProcessingParams.winPost = Config.WinT.post; c@225: m_DFProcessingParams.AlphaNormParam = Config.alpha; c@225: m_DFProcessingParams.isMedianPositive = false; c@225: c@225: m_DFSmoothing = new DFProcess( m_DFProcessingParams ); c@225: c@225: m_workBuffer = new double[ m_DFLength ]; c@225: memset( m_workBuffer, 0, sizeof(double)*m_DFLength); c@225: } c@225: c@225: void PeakPicking::deInitialise() c@225: { c@225: delete [] m_workBuffer; c@225: delete m_DFSmoothing; c@225: m_workBuffer = NULL; c@225: } c@225: c@225: void PeakPicking::process( double* src, unsigned int len, vector &onsets ) c@225: { c@225: vector m_maxima; c@225: c@225: // Signal conditioning c@225: m_DFSmoothing->process( src, m_workBuffer ); c@225: c@225: for( unsigned int u = 0; u < len; u++) c@225: { c@225: m_maxima.push_back( m_workBuffer[ u ] ); c@225: } c@225: c@225: quadEval( m_maxima, onsets ); c@225: c@225: for( int b = 0; b < m_maxima.size(); b++) c@225: { c@225: src[ b ] = m_maxima[ b ]; c@225: } c@225: } c@225: c@225: int PeakPicking::quadEval( vector &src, vector &idx ) c@225: { c@225: unsigned int maxLength; c@225: c@225: vector m_maxIndex; c@225: vector m_onsetPosition; c@225: c@225: vector m_maxFit; c@225: vector m_poly; c@225: vector m_err; c@225: c@225: double p; c@225: c@225: m_poly.push_back(0); c@225: m_poly.push_back(0); c@225: m_poly.push_back(0); c@225: c@225: for( int t = -2; t < 3; t++) c@225: { c@225: m_err.push_back( (double)t ); c@225: } c@225: for( unsigned int i = 2; i < src.size() - 2; i++) c@225: { c@237: if( (src[i] > src[i-1]) && (src[i] > src[i+1]) && (src[i] > 0) ) c@225: { c@237: // m_maxIndex.push_back( i + 1 ); c@237: m_maxIndex.push_back(i); c@225: } c@225: } c@225: c@225: maxLength = m_maxIndex.size(); c@225: c@225: double selMax = 0; c@225: c@225: for( unsigned int j = 0; j < maxLength ; j++) c@225: { c@237: for (int k = -2; k <= 2; ++k) c@225: { c@225: selMax = src[ m_maxIndex[j] + k ] ; c@225: m_maxFit.push_back(selMax); c@225: } c@225: c@225: p = TPolyFit::PolyFit2( m_err, m_maxFit, m_poly); c@225: c@225: double f = m_poly[0]; c@225: double g = m_poly[1]; c@225: double h = m_poly[2]; c@225: c@225: int kk = m_poly.size(); c@237: c@237: if (h < -Qfilta || f > Qfiltc) c@237: { c@237: idx.push_back(m_maxIndex[j]); c@237: } c@225: c@237: m_maxFit.clear(); c@225: } c@225: c@225: return 1; c@225: }