Mercurial > hg > qm-dsp

annotate dsp/onsets/PeakPicking.cpp @ 58:d72fcd34d9a7

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
* Fixes to problems shown up by vamp-plugin-tester. Still not all plugins pass all tests, though
author cannam
date Mon, 23 Mar 2009 16:28:53 +0000
parents 38bf09927942
children e5907ae6de17
rev   line source
cannam@0 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
cannam@0 2
cannam@0 3 /*
cannam@0 4 QM DSP Library
cannam@0 5
cannam@0 6 Centre for Digital Music, Queen Mary, University of London.
cannam@0 7 This file copyright 2005-2006 Christian Landone.
cannam@0 8 All rights reserved.
cannam@0 9 */
cannam@0 10
cannam@0 11 #include "PeakPicking.h"
cannam@16 12 #include "maths/Polyfit.h"
cannam@0 13
cannam@12 14 #include <iostream>
cannam@47 15 #include <cstring>
cannam@47 16
cannam@0 17
cannam@0 18 //////////////////////////////////////////////////////////////////////
cannam@0 19 // Construction/Destruction
cannam@0 20 //////////////////////////////////////////////////////////////////////
cannam@0 21
cannam@0 22 PeakPicking::PeakPicking( PPickParams Config )
cannam@0 23 {
cannam@0 24 m_workBuffer = NULL;
cannam@0 25 initialise( Config );
cannam@0 26 }
cannam@0 27
cannam@0 28 PeakPicking::~PeakPicking()
cannam@0 29 {
cannam@0 30 deInitialise();
cannam@0 31 }
cannam@0 32
cannam@0 33 void PeakPicking::initialise( PPickParams Config )
cannam@0 34 {
cannam@0 35 m_DFLength = Config.length ;
cannam@0 36 Qfilta = Config.QuadThresh.a ;
cannam@0 37 Qfiltb = Config.QuadThresh.b ;
cannam@0 38 Qfiltc = Config.QuadThresh.c ;
cannam@0 39
cannam@0 40 m_DFProcessingParams.length = m_DFLength;
cannam@0 41 m_DFProcessingParams.LPOrd = Config.LPOrd;
cannam@0 42 m_DFProcessingParams.LPACoeffs = Config.LPACoeffs;
cannam@0 43 m_DFProcessingParams.LPBCoeffs = Config.LPBCoeffs;
cannam@0 44 m_DFProcessingParams.winPre = Config.WinT.pre;
cannam@0 45 m_DFProcessingParams.winPost = Config.WinT.post;
cannam@0 46 m_DFProcessingParams.AlphaNormParam = Config.alpha;
cannam@0 47 m_DFProcessingParams.isMedianPositive = false;
cannam@0 48
cannam@0 49 m_DFSmoothing = new DFProcess( m_DFProcessingParams );
cannam@0 50
cannam@0 51 m_workBuffer = new double[ m_DFLength ];
cannam@0 52 memset( m_workBuffer, 0, sizeof(double)*m_DFLength);
cannam@0 53 }
cannam@0 54
cannam@0 55 void PeakPicking::deInitialise()
cannam@0 56 {
cannam@0 57 delete [] m_workBuffer;
cannam@0 58 delete m_DFSmoothing;
cannam@0 59 m_workBuffer = NULL;
cannam@0 60 }
cannam@0 61
cannam@0 62 void PeakPicking::process( double* src, unsigned int len, vector<int> &onsets )
cannam@0 63 {
cannam@58 64 if (len < 4) return;
cannam@58 65
cannam@0 66 vector <double> m_maxima;
cannam@0 67
cannam@0 68 // Signal conditioning
cannam@0 69 m_DFSmoothing->process( src, m_workBuffer );
cannam@0 70
cannam@0 71 for( unsigned int u = 0; u < len; u++)
cannam@0 72 {
cannam@0 73 m_maxima.push_back( m_workBuffer[ u ] );
cannam@0 74 }
cannam@0 75
cannam@0 76 quadEval( m_maxima, onsets );
cannam@0 77
cannam@0 78 for( int b = 0; b < m_maxima.size(); b++)
cannam@0 79 {
cannam@0 80 src[ b ] = m_maxima[ b ];
cannam@0 81 }
cannam@0 82 }
cannam@0 83
cannam@0 84 int PeakPicking::quadEval( vector<double> &src, vector<int> &idx )
cannam@0 85 {
cannam@0 86 unsigned int maxLength;
cannam@0 87
cannam@0 88 vector <int> m_maxIndex;
cannam@0 89 vector <int> m_onsetPosition;
cannam@0 90
cannam@0 91 vector <double> m_maxFit;
cannam@0 92 vector <double> m_poly;
cannam@0 93 vector <double> m_err;
cannam@0 94
cannam@0 95 double p;
cannam@0 96
cannam@0 97 m_poly.push_back(0);
cannam@0 98 m_poly.push_back(0);
cannam@0 99 m_poly.push_back(0);
cannam@0 100
cannam@0 101 for( int t = -2; t < 3; t++)
cannam@0 102 {
cannam@0 103 m_err.push_back( (double)t );
cannam@0 104 }
cannam@0 105 for( unsigned int i = 2; i < src.size() - 2; i++)
cannam@0 106 {
cannam@12 107 if( (src[i] > src[i-1]) && (src[i] > src[i+1]) && (src[i] > 0) )
cannam@0 108 {
cannam@12 109 // m_maxIndex.push_back( i + 1 );
cannam@12 110 m_maxIndex.push_back(i);
cannam@0 111 }
cannam@0 112 }
cannam@0 113
cannam@0 114 maxLength = m_maxIndex.size();
cannam@0 115
cannam@0 116 double selMax = 0;
cannam@0 117
cannam@0 118 for( unsigned int j = 0; j < maxLength ; j++)
cannam@0 119 {
cannam@12 120 for (int k = -2; k <= 2; ++k)
cannam@0 121 {
cannam@0 122 selMax = src[ m_maxIndex[j] + k ] ;
cannam@0 123 m_maxFit.push_back(selMax);
cannam@0 124 }
cannam@0 125
cannam@0 126 p = TPolyFit::PolyFit2( m_err, m_maxFit, m_poly);
cannam@0 127
cannam@0 128 double f = m_poly[0];
cannam@0 129 double g = m_poly[1];
cannam@0 130 double h = m_poly[2];
cannam@0 131
cannam@0 132 int kk = m_poly.size();
cannam@12 133
cannam@12 134 if (h < -Qfilta || f > Qfiltc)
cannam@12 135 {
cannam@12 136 idx.push_back(m_maxIndex[j]);
cannam@12 137 }
cannam@0 138
cannam@12 139 m_maxFit.clear();
cannam@0 140 }
cannam@0 141
cannam@0 142 return 1;
cannam@0 143 }