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annotate dsp/chromagram/Chromagram.cpp @ 51:114e833c07ac

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* Do not calculate CQ sparse kernel when chromagram is constructed: only when it's actually used * Pre-calculate CQ sparse kernels in the sizes required for the default configurations of some of our transforms
author cannam
date Thu, 04 Dec 2008 11:59:29 +0000
parents ad645e404d0c
children 6cb2b3cd5356
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 <iostream>
cannam@0 12 #include <cmath>
cannam@16 13 #include "maths/MathUtilities.h"
cannam@0 14 #include "Chromagram.h"
cannam@0 15
cannam@0 16 //----------------------------------------------------------------------------
cannam@0 17
cannam@51 18 Chromagram::Chromagram( ChromaConfig Config ) :
cannam@51 19 m_skGenerated(false)
cannam@0 20 {
cannam@0 21 initialise( Config );
cannam@0 22 }
cannam@0 23
cannam@0 24 int Chromagram::initialise( ChromaConfig Config )
cannam@0 25 {
cannam@0 26 m_FMin = Config.min; // min freq
cannam@0 27 m_FMax = Config.max; // max freq
cannam@0 28 m_BPO = Config.BPO; // bins per octave
cannam@34 29 m_normalise = Config.normalise; // if frame normalisation is required
cannam@0 30
cannam@0 31 // No. of constant Q bins
cannam@0 32 m_uK = ( unsigned int ) ceil( m_BPO * log(m_FMax/m_FMin)/log(2.0));
cannam@0 33
cannam@0 34 // Create array for chroma result
cannam@0 35 m_chromadata = new double[ m_BPO ];
cannam@0 36
cannam@0 37 // Initialise FFT object
cannam@0 38 m_FFT = new FFT;
cannam@0 39
cannam@0 40 // Create Config Structure for ConstantQ operator
cannam@0 41 CQConfig ConstantQConfig;
cannam@0 42
cannam@0 43 // Populate CQ config structure with parameters
cannam@0 44 // inherited from the Chroma config
cannam@0 45 ConstantQConfig.FS = Config.FS;
cannam@0 46 ConstantQConfig.min = m_FMin;
cannam@0 47 ConstantQConfig.max = m_FMax;
cannam@0 48 ConstantQConfig.BPO = m_BPO;
cannam@0 49 ConstantQConfig.CQThresh = Config.CQThresh;
cannam@0 50
cannam@0 51 // Initialise ConstantQ operator
cannam@0 52 m_ConstantQ = new ConstantQ( ConstantQConfig );
cannam@0 53
cannam@0 54 // Initialise working arrays
cannam@0 55 m_frameSize = m_ConstantQ->getfftlength();
cannam@0 56 m_hopSize = m_ConstantQ->gethop();
cannam@0 57
cannam@0 58 m_FFTRe = new double[ m_frameSize ];
cannam@0 59 m_FFTIm = new double[ m_frameSize ];
cannam@0 60 m_CQRe = new double[ m_uK ];
cannam@0 61 m_CQIm = new double[ m_uK ];
cannam@0 62
cannam@32 63 m_window = 0;
cannam@32 64 m_windowbuf = 0;
cannam@32 65
cannam@0 66 return 1;
cannam@0 67 }
cannam@0 68
cannam@0 69 Chromagram::~Chromagram()
cannam@0 70 {
cannam@0 71 deInitialise();
cannam@0 72 }
cannam@0 73
cannam@0 74 int Chromagram::deInitialise()
cannam@0 75 {
cannam@32 76 delete[] m_windowbuf;
cannam@32 77 delete m_window;
cannam@32 78
cannam@0 79 delete [] m_chromadata;
cannam@0 80
cannam@0 81 delete m_FFT;
cannam@0 82
cannam@0 83 delete m_ConstantQ;
cannam@0 84
cannam@0 85 delete [] m_FFTRe;
cannam@0 86 delete [] m_FFTIm;
cannam@0 87 delete [] m_CQRe;
cannam@0 88 delete [] m_CQIm;
cannam@0 89 return 1;
cannam@0 90 }
cannam@0 91
cannam@0 92 //----------------------------------------------------------------------------------
cannam@0 93 // returns the absolute value of complex number xx + i*yy
cannam@0 94 double Chromagram::kabs(double xx, double yy)
cannam@0 95 {
cannam@0 96 double ab = sqrt(xx*xx + yy*yy);
cannam@0 97 return(ab);
cannam@0 98 }
cannam@0 99 //-----------------------------------------------------------------------------------
cannam@0 100
cannam@0 101
cannam@0 102 void Chromagram::unityNormalise(double *src)
cannam@0 103 {
cannam@0 104 double min, max;
cannam@0 105
cannam@0 106 double val = 0;
cannam@0 107
cannam@0 108 MathUtilities::getFrameMinMax( src, m_BPO, & min, &max );
cannam@0 109
cannam@0 110 for( unsigned int i = 0; i < m_BPO; i++ )
cannam@0 111 {
cannam@0 112 val = src[ i ] / max;
cannam@0 113
cannam@0 114 src[ i ] = val;
cannam@0 115 }
cannam@0 116 }
cannam@0 117
cannam@0 118
cannam@32 119 double* Chromagram::process( const double *data )
cannam@0 120 {
cannam@51 121 if (!m_skGenerated) {
cannam@51 122 // Generate CQ Kernel
cannam@51 123 m_ConstantQ->sparsekernel();
cannam@51 124 m_skGenerated = true;
cannam@51 125 }
cannam@51 126
cannam@32 127 if (!m_window) {
cannam@32 128 m_window = new Window<double>(HammingWindow, m_frameSize);
cannam@32 129 m_windowbuf = new double[m_frameSize];
cannam@32 130 }
cannam@32 131
cannam@32 132 for (int i = 0; i < m_frameSize; ++i) {
cannam@32 133 m_windowbuf[i] = data[i];
cannam@32 134 }
cannam@32 135 m_window->cut(m_windowbuf);
cannam@32 136
cannam@3 137 // FFT of current frame
cannam@32 138 m_FFT->process(m_frameSize, 0, m_windowbuf, NULL, m_FFTRe, m_FFTIm);
cannam@3 139
cannam@3 140 return process(m_FFTRe, m_FFTIm);
cannam@3 141 }
cannam@3 142
cannam@32 143 double* Chromagram::process( const double *real, const double *imag )
cannam@3 144 {
cannam@51 145 if (!m_skGenerated) {
cannam@51 146 // Generate CQ Kernel
cannam@51 147 m_ConstantQ->sparsekernel();
cannam@51 148 m_skGenerated = true;
cannam@51 149 }
cannam@51 150
cannam@3 151 // initialise chromadata to 0
cannam@3 152 for (unsigned i = 0; i < m_BPO; i++) m_chromadata[i] = 0;
cannam@0 153
cannam@0 154 double cmax = 0.0;
cannam@0 155 double cval = 0;
cannam@0 156
cannam@0 157 // Calculate ConstantQ frame
cannam@3 158 m_ConstantQ->process( real, imag, m_CQRe, m_CQIm );
cannam@0 159
cannam@0 160 // add each octave of cq data into Chromagram
cannam@0 161 const unsigned octaves = (int)floor(double( m_uK/m_BPO))-1;
cannam@3 162 for (unsigned octave = 0; octave <= octaves; octave++)
cannam@0 163 {
cannam@0 164 unsigned firstBin = octave*m_BPO;
cannam@3 165 for (unsigned i = 0; i < m_BPO; i++)
cannam@0 166 {
cannam@0 167 m_chromadata[i] += kabs( m_CQRe[ firstBin + i ], m_CQIm[ firstBin + i ]);
cannam@0 168 }
cannam@0 169 }
cannam@0 170
cannam@34 171 MathUtilities::normalise(m_chromadata, m_BPO, m_normalise);
cannam@0 172
cannam@0 173 return m_chromadata;
cannam@0 174 }
cannam@0 175
cannam@0 176