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annotate dsp/keydetection/GetKeyMode.cpp @ 234:60bbe2d98066

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* Various changes in progress for debugging key mode plugin
author Chris Cannam <c.cannam@qmul.ac.uk>
date Mon, 22 Jan 2007 17:32:09 +0000
parents b478b1e23ab2
children 12cffcc40bbc
rev   line source
c@232 1 // GetKeyMode.cpp: implementation of the CGetKeyMode class.
c@232 2 //
c@232 3 //////////////////////////////////////////////////////////////////////
c@232 4
c@232 5 #include "GetKeyMode.h"
c@232 6 #include "dsp/maths/MathUtilities.h"
c@234 7 #include "base/Pitch.h"
c@234 8
c@234 9 #include <iostream>
c@232 10
c@232 11 // Chords profile
c@232 12 static double MajProfile[36] =
c@232 13 { 0.0384, 0.0629, 0.0258, 0.0121, 0.0146, 0.0106, 0.0364, 0.0610, 0.0267,
c@232 14 0.0126, 0.0121, 0.0086, 0.0364, 0.0623, 0.0279, 0.0275, 0.0414, 0.0186,
c@232 15 0.0173, 0.0248, 0.0145, 0.0364, 0.0631, 0.0262, 0.0129, 0.0150, 0.0098,
c@232 16 0.0312, 0.0521, 0.0235, 0.0129, 0.0142, 0.0095, 0.0289, 0.0478, 0.0239};
c@232 17
c@232 18 static double MinProfile[36] =
c@232 19 { 0.0375, 0.0682, 0.0299, 0.0119, 0.0138, 0.0093, 0.0296, 0.0543, 0.0257,
c@232 20 0.0292, 0.0519, 0.0246, 0.0159, 0.0234, 0.0135, 0.0291, 0.0544, 0.0248,
c@232 21 0.0137, 0.0176, 0.0104, 0.0352, 0.0670, 0.0302, 0.0222, 0.0349, 0.0164,
c@232 22 0.0174, 0.0297, 0.0166, 0.0222, 0.0401, 0.0202, 0.0175, 0.0270, 0.0146};
c@232 23 //
c@232 24
c@232 25 //////////////////////////////////////////////////////////////////////
c@232 26 // Construction/Destruction
c@232 27 //////////////////////////////////////////////////////////////////////
c@232 28
c@234 29 GetKeyMode::GetKeyMode( int sampleRate, float tuningFrequency,
c@234 30 double hpcpAverage, double medianAverage )
c@232 31 :
c@232 32 m_hpcpAverage( hpcpAverage ),
c@232 33 m_medianAverage( medianAverage ),
c@232 34 m_ChrPointer(0),
c@232 35 m_DecimatedBuffer(0),
c@232 36 m_ChromaBuffer(0),
c@232 37 m_MeanHPCP(0),
c@232 38 m_MajCorr(0),
c@232 39 m_MinCorr(0),
c@232 40 m_Keys(0),
c@232 41 m_MedianFilterBuffer(0),
c@232 42 m_SortedBuffer(0)
c@232 43 {
c@232 44 m_DecimationFactor = 8;
c@232 45
c@232 46 //Chromagram configuration parameters
c@234 47 m_ChromaConfig.isNormalised = 1;
c@234 48 m_ChromaConfig.FS = lrint(sampleRate/(double)m_DecimationFactor);
c@234 49
c@234 50 // m_ChromaConfig.min = 111.0641;
c@234 51 // m_ChromaConfig.max = 1.7770e+003;
c@234 52
c@234 53 m_ChromaConfig.min = Pitch::getFrequencyForPitch
c@234 54 (12, 0, tuningFrequency);
c@234 55 m_ChromaConfig.max = Pitch::getFrequencyForPitch
c@234 56 (96, 0, tuningFrequency);
c@234 57
c@234 58 m_ChromaConfig.BPO = 36;
c@234 59 m_ChromaConfig.CQThresh = 0.0054;
c@232 60
c@232 61 //Chromagram inst.
c@234 62 m_Chroma = new Chromagram( m_ChromaConfig );
c@232 63
c@232 64 //Get calculated parameters from chroma object
c@232 65 m_ChromaFrameSize = m_Chroma->getFrameSize();
c@232 66 //override hopsize for this application
c@232 67 m_ChromaHopSize = m_ChromaFrameSize;//m_Chroma->GetHopSize();
c@234 68 m_BPO = m_ChromaConfig.BPO;
c@232 69
c@232 70 //Chromagram average and estimated key median filter lengths
c@234 71 m_ChromaBuffersize = (int)ceil( m_hpcpAverage * m_ChromaConfig.FS/m_ChromaFrameSize );
c@234 72 m_MedianWinsize = (int)ceil( m_medianAverage * m_ChromaConfig.FS/m_ChromaFrameSize );
c@232 73
c@232 74 //Reset counters
c@232 75 m_bufferindex = 0;
c@232 76 m_ChromaBufferFilling = 0;
c@232 77 m_MedianBufferFilling = 0;
c@232 78
c@232 79
c@232 80 //Spawn objectc/arrays
c@232 81 m_DecimatedBuffer = new double[m_ChromaFrameSize];
c@232 82
c@232 83 m_ChromaBuffer = new double[m_BPO * m_ChromaBuffersize];
c@232 84 memset( m_ChromaBuffer, 0, sizeof(double) * m_BPO * m_ChromaBuffersize);
c@232 85
c@232 86 m_MeanHPCP = new double[m_BPO];
c@232 87
c@232 88 m_MajCorr = new double[m_BPO];
c@232 89 m_MinCorr = new double[m_BPO];
c@232 90 m_Keys = new double[2*m_BPO];
c@232 91
c@232 92 m_MedianFilterBuffer = new int[ m_MedianWinsize ];
c@232 93 memset( m_MedianFilterBuffer, 0, sizeof(int)*m_MedianWinsize);
c@232 94
c@232 95 m_SortedBuffer = new int[ m_MedianWinsize ];
c@232 96 memset( m_SortedBuffer, 0, sizeof(int)*m_MedianWinsize);
c@232 97
c@232 98 m_Decimator = new Decimator( m_ChromaFrameSize*m_DecimationFactor, m_DecimationFactor );
c@232 99 }
c@232 100
c@232 101 GetKeyMode::~GetKeyMode()
c@232 102 {
c@232 103
c@232 104 delete m_Chroma;
c@232 105 delete m_Decimator;
c@232 106
c@232 107 delete [] m_DecimatedBuffer;
c@232 108 delete [] m_ChromaBuffer;
c@232 109 delete [] m_MeanHPCP;
c@232 110 delete [] m_MajCorr;
c@232 111 delete [] m_MinCorr;
c@232 112 delete [] m_Keys;
c@232 113 delete [] m_MedianFilterBuffer;
c@232 114 delete [] m_SortedBuffer;
c@232 115 }
c@232 116
c@232 117 double GetKeyMode::krumCorr(double *pData1, double *pData2, unsigned int length)
c@232 118 {
c@232 119 double retVal= 0.0;
c@232 120
c@232 121 double num = 0;
c@232 122 double den = 0;
c@232 123 double mX = MathUtilities::mean( pData1, length );
c@232 124 double mY = MathUtilities::mean( pData2, length );
c@232 125
c@232 126 double sum1 = 0;
c@232 127 double sum2 = 0;
c@232 128
c@232 129 for( unsigned int i = 0; i <length; i++ )
c@232 130 {
c@232 131 num += ( pData1[i] - mX ) * ( pData2[i] - mY );
c@232 132
c@232 133 sum1 += ( (pData1[i]-mX) * (pData1[i]-mX) );
c@232 134 sum2 += ( (pData2[i]-mY) * (pData2[i]-mY) );
c@232 135 }
c@232 136
c@232 137 den = sqrt(sum1 * sum2);
c@232 138
c@232 139 if( den>0 )
c@232 140 retVal = num/den;
c@232 141 else
c@232 142 retVal = 0;
c@232 143
c@232 144
c@232 145 return retVal;
c@232 146 }
c@232 147
c@232 148 int GetKeyMode::process(double *PCMData)
c@232 149 {
c@232 150 int key;
c@232 151
c@232 152 unsigned int j,k;
c@232 153
c@232 154 //////////////////////////////////////////////
c@232 155 m_Decimator->process( PCMData, m_DecimatedBuffer);
c@232 156
c@232 157 m_ChrPointer = m_Chroma->process( m_DecimatedBuffer );
c@232 158
c@234 159 std::cout << "raw chroma: ";
c@234 160 for (int ii = 0; ii < m_BPO; ++ii) {
c@234 161 std::cout << m_ChrPointer[ii] << " ";
c@234 162 }
c@234 163 std::cout << std::endl;
c@234 164
c@232 165 // populate hpcp values;
c@232 166 int cbidx;
c@232 167 for( j = 0; j < m_BPO; j++ )
c@232 168 {
c@232 169 cbidx = (m_bufferindex * m_BPO) + j;
c@232 170 m_ChromaBuffer[ cbidx ] = m_ChrPointer[j];
c@232 171 }
c@232 172
c@232 173 //keep track of input buffers;
c@232 174 if( m_bufferindex++ >= m_ChromaBuffersize - 1)
c@232 175 m_bufferindex = 0;
c@232 176
c@232 177 // track filling of chroma matrix
c@232 178 if( m_ChromaBufferFilling++ >= m_ChromaBuffersize)
c@232 179 m_ChromaBufferFilling = m_ChromaBuffersize;
c@232 180
c@232 181 //calculate mean
c@232 182 for( k = 0; k < m_BPO; k++ )
c@232 183 {
c@232 184 double mnVal = 0.0;
c@232 185 for( j = 0; j < m_ChromaBufferFilling; j++ )
c@232 186 {
c@232 187 mnVal += m_ChromaBuffer[ k + (j*m_BPO) ];
c@232 188 }
c@232 189
c@232 190 m_MeanHPCP[k] = mnVal/(double)m_ChromaBufferFilling;
c@232 191 }
c@232 192
c@232 193
c@232 194 for( k = 0; k < m_BPO; k++ )
c@232 195 {
c@232 196 m_MajCorr[k] = krumCorr( m_MeanHPCP, MajProfile, m_BPO );
c@232 197 m_MinCorr[k] = krumCorr( m_MeanHPCP, MinProfile, m_BPO );
c@232 198
c@232 199 MathUtilities::circShift( MajProfile, m_BPO, 1 );
c@232 200 MathUtilities::circShift( MinProfile, m_BPO, 1 );
c@232 201 }
c@232 202
c@232 203 for( k = 0; k < m_BPO; k++ )
c@232 204 {
c@232 205 m_Keys[k] = m_MajCorr[k];
c@232 206 m_Keys[k+m_BPO] = m_MinCorr[k];
c@232 207 }
c@232 208
c@234 209 std::cout << "raw keys: ";
c@234 210 for (int ii = 0; ii < 2*m_BPO; ++ii) {
c@234 211 std::cout << m_Keys[ii] << " ";
c@234 212 }
c@234 213 std::cout << std::endl;
c@232 214
c@232 215 double dummy;
c@234 216 key = /*1 +*/ (int)ceil( (double)MathUtilities::getMax( m_Keys, 2* m_BPO, &dummy )/3 );
c@234 217
c@234 218 std::cout << "key pre-sorting: " << key << std::endl;
c@232 219
c@232 220
c@232 221 //Median filtering
c@232 222
c@232 223 // track Median buffer initial filling
c@232 224 if( m_MedianBufferFilling++ >= m_MedianWinsize)
c@232 225 m_MedianBufferFilling = m_MedianWinsize;
c@232 226
c@232 227 //shift median buffer
c@232 228 for( k = 1; k < m_MedianWinsize; k++ )
c@232 229 {
c@232 230 m_MedianFilterBuffer[ k - 1 ] = m_MedianFilterBuffer[ k ];
c@232 231 }
c@232 232
c@232 233 //write new key value into median buffer
c@232 234 m_MedianFilterBuffer[ m_MedianWinsize - 1 ] = key;
c@232 235
c@232 236
c@232 237 //Copy median into sorting buffer, reversed
c@232 238 unsigned int ijx = 0;
c@232 239 for( k = 0; k < m_MedianWinsize; k++ )
c@232 240 {
c@232 241 m_SortedBuffer[k] = m_MedianFilterBuffer[m_MedianWinsize-1-ijx];
c@232 242 ijx++;
c@232 243 }
c@232 244
c@232 245
c@232 246 //quicksort
c@232 247 qsort(m_SortedBuffer, m_MedianBufferFilling, sizeof(unsigned int), MathUtilities::compareInt);
c@232 248
c@234 249 std::cout << "sorted: ";
c@234 250 for (int ii = 0; ii < m_MedianBufferFilling; ++ii) {
c@234 251 std::cout << m_SortedBuffer[ii] << " ";
c@234 252 }
c@234 253 std::cout << std::endl;
c@234 254
c@232 255 int sortlength = m_MedianBufferFilling;
c@232 256 int midpoint = (int)ceil((double)sortlength/2);
c@232 257
c@232 258 if( midpoint <= 0 )
c@232 259 midpoint = 1;
c@232 260
c@232 261 key = m_SortedBuffer[midpoint-1];
c@232 262
c@232 263 return key;
c@232 264 }
c@232 265
c@232 266
c@232 267 int GetKeyMode::isModeMinor( int key )
c@232 268 {
c@233 269 // return ((key-1 - (int)MathUtilities::mod((double)(key-1),(double)12))/12);
c@233 270 return (key > 12);
c@232 271 }