qm-dsp: dsp/keydetection/GetKeyMode.cpp annotate

annotate dsp/keydetection/GetKeyMode.cpp @ 378:f5b5f64835b9

Some docs; remove FiltFiltConfig as it's the same as FilterConfig

author	Chris Cannam <c.cannam@qmul.ac.uk>
date	Mon, 21 Oct 2013 11:59:57 +0100
parents	255e431ae3d4
children	05378924b433

rev	line source
c@259	1 /* -- c-basic-offset: 4 indent-tabs-mode: nil -- vi:set ts=8 sts=4 sw=4: */
c@378	2 /*
c@378	3 Copyright (c) 2005 Centre for Digital Music ( C4DM )
c@378	4 Queen Mary Univesrity of London
c@259	5
c@378	6 This program is free software; you can redistribute it and/or
c@378	7 modify it under the terms of the GNU General Public License as
c@378	8 published by the Free Software Foundation; either version 2 of the
c@378	9 License, or (at your option) any later version. See the file
c@378	10 COPYING included with this distribution for more information.
c@378	11 */
c@232	12 // GetKeyMode.cpp: implementation of the CGetKeyMode class.
c@232	13 //
c@232	14 //////////////////////////////////////////////////////////////////////
c@232	15
c@232	16 #include "GetKeyMode.h"
c@241	17 #include "maths/MathUtilities.h"
c@234	18 #include "base/Pitch.h"
c@234	19
c@234	20 #include <iostream>
c@232	21
c@272	22 #include <cstring>
c@272	23 #include <cstdlib>
c@272	24
c@232	25 // Chords profile
c@232	26 static double MajProfile[36] =
c@232	27 { 0.0384, 0.0629, 0.0258, 0.0121, 0.0146, 0.0106, 0.0364, 0.0610, 0.0267,
devnull@240	28 0.0126, 0.0121, 0.0086, 0.0364, 0.0623, 0.0279, 0.0275, 0.0414, 0.0186,
c@232	29 0.0173, 0.0248, 0.0145, 0.0364, 0.0631, 0.0262, 0.0129, 0.0150, 0.0098,
c@232	30 0.0312, 0.0521, 0.0235, 0.0129, 0.0142, 0.0095, 0.0289, 0.0478, 0.0239};
c@232	31
c@232	32 static double MinProfile[36] =
c@232	33 { 0.0375, 0.0682, 0.0299, 0.0119, 0.0138, 0.0093, 0.0296, 0.0543, 0.0257,
c@232	34 0.0292, 0.0519, 0.0246, 0.0159, 0.0234, 0.0135, 0.0291, 0.0544, 0.0248,
c@232	35 0.0137, 0.0176, 0.0104, 0.0352, 0.0670, 0.0302, 0.0222, 0.0349, 0.0164,
c@232	36 0.0174, 0.0297, 0.0166, 0.0222, 0.0401, 0.0202, 0.0175, 0.0270, 0.0146};
c@232	37 //
c@265	38
c@232	39
c@232	40 //////////////////////////////////////////////////////////////////////
c@232	41 // Construction/Destruction
c@232	42 //////////////////////////////////////////////////////////////////////
c@232	43
c@234	44 GetKeyMode::GetKeyMode( int sampleRate, float tuningFrequency,
c@259	45 double hpcpAverage, double medianAverage ) :
c@259	46 m_hpcpAverage( hpcpAverage ),
c@259	47 m_medianAverage( medianAverage ),
c@259	48 m_ChrPointer(0),
c@259	49 m_DecimatedBuffer(0),
c@259	50 m_ChromaBuffer(0),
c@259	51 m_MeanHPCP(0),
c@259	52 m_MajCorr(0),
c@259	53 m_MinCorr(0),
c@259	54 m_Keys(0),
c@259	55 m_MedianFilterBuffer(0),
c@265	56 m_SortedBuffer(0),
c@265	57 m_keyStrengths(0)
c@232	58 {
c@259	59 m_DecimationFactor = 8;
c@259	60
c@259	61 // Chromagram configuration parameters
c@259	62 m_ChromaConfig.normalise = MathUtilities::NormaliseUnitMax;
c@259	63 m_ChromaConfig.FS = lrint(sampleRate/(double)m_DecimationFactor);
c@283	64 if (m_ChromaConfig.FS < 1) m_ChromaConfig.FS = 1;
c@232	65
c@259	66 // Set C (= MIDI #12) as our base :
c@259	67 // This implies that key = 1 => Cmaj, key = 12 => Bmaj, key = 13 => Cmin, etc.
c@259	68 m_ChromaConfig.min = Pitch::getFrequencyForPitch
c@265	69 (48, 0, tuningFrequency);
c@259	70 m_ChromaConfig.max = Pitch::getFrequencyForPitch
c@259	71 (96, 0, tuningFrequency);
c@234	72
c@259	73 m_ChromaConfig.BPO = 36;
c@259	74 m_ChromaConfig.CQThresh = 0.0054;
c@234	75
c@259	76 // Chromagram inst.
c@259	77 m_Chroma = new Chromagram( m_ChromaConfig );
c@235	78
c@259	79 // Get calculated parameters from chroma object
c@259	80 m_ChromaFrameSize = m_Chroma->getFrameSize();
c@259	81 // override hopsize for this application
c@259	82 m_ChromaHopSize = m_ChromaFrameSize;
c@259	83 m_BPO = m_ChromaConfig.BPO;
c@235	84
c@265	85 // std::cerr << "chroma frame size = " << m_ChromaFrameSize << ", decimation factor = " << m_DecimationFactor << " therefore block size = " << getBlockSize() << std::endl;
c@265	86
c@259	87 // Chromagram average and estimated key median filter lengths
c@259	88 m_ChromaBuffersize = (int)ceil( m_hpcpAverage * m_ChromaConfig.FS/m_ChromaFrameSize );
c@259	89 m_MedianWinsize = (int)ceil( m_medianAverage * m_ChromaConfig.FS/m_ChromaFrameSize );
c@259	90
c@259	91 // Reset counters
c@259	92 m_bufferindex = 0;
c@259	93 m_ChromaBufferFilling = 0;
c@259	94 m_MedianBufferFilling = 0;
c@234	95
c@259	96 // Spawn objectc/arrays
c@259	97 m_DecimatedBuffer = new double[m_ChromaFrameSize];
c@259	98
c@259	99 m_ChromaBuffer = new double[m_BPO * m_ChromaBuffersize];
c@259	100 memset( m_ChromaBuffer, 0, sizeof(double) * m_BPO * m_ChromaBuffersize);
c@259	101
c@259	102 m_MeanHPCP = new double[m_BPO];
c@259	103
c@259	104 m_MajCorr = new double[m_BPO];
c@259	105 m_MinCorr = new double[m_BPO];
c@259	106 m_Keys = new double[2*m_BPO];
c@259	107
c@259	108 m_MedianFilterBuffer = new int[ m_MedianWinsize ];
c@259	109 memset( m_MedianFilterBuffer, 0, sizeof(int)*m_MedianWinsize);
c@259	110
c@259	111 m_SortedBuffer = new int[ m_MedianWinsize ];
c@259	112 memset( m_SortedBuffer, 0, sizeof(int)*m_MedianWinsize);
c@259	113
c@259	114 m_Decimator = new Decimator
c@259	115 ( m_ChromaFrameSize*m_DecimationFactor, m_DecimationFactor );
c@265	116
c@265	117 m_keyStrengths = new double[24];
c@232	118 }
c@232	119
c@232	120 GetKeyMode::~GetKeyMode()
c@232	121 {
c@232	122
c@259	123 delete m_Chroma;
c@259	124 delete m_Decimator;
c@259	125
c@259	126 delete [] m_DecimatedBuffer;
c@259	127 delete [] m_ChromaBuffer;
c@259	128 delete [] m_MeanHPCP;
c@259	129 delete [] m_MajCorr;
c@259	130 delete [] m_MinCorr;
c@259	131 delete [] m_Keys;
c@259	132 delete [] m_MedianFilterBuffer;
c@259	133 delete [] m_SortedBuffer;
c@265	134
c@265	135 delete[] m_keyStrengths;
c@232	136 }
c@232	137
c@232	138 double GetKeyMode::krumCorr(double pData1, double pData2, unsigned int length)
c@232	139 {
c@259	140 double retVal= 0.0;
c@259	141
c@259	142 double num = 0;
c@259	143 double den = 0;
c@259	144 double mX = MathUtilities::mean( pData1, length );
c@259	145 double mY = MathUtilities::mean( pData2, length );
c@259	146
c@259	147 double sum1 = 0;
c@259	148 double sum2 = 0;
c@259	149
c@259	150 for( unsigned int i = 0; i <length; i++ )
c@259	151 {
c@259	152 num += ( pData1[i] - mX ) * ( pData2[i] - mY );
c@232	153
c@259	154 sum1 += ( (pData1[i]-mX) * (pData1[i]-mX) );
c@259	155 sum2 += ( (pData2[i]-mY) * (pData2[i]-mY) );
c@259	156 }
c@259	157
c@259	158 den = sqrt(sum1 * sum2);
c@259	159
c@259	160 if( den>0 )
c@259	161 retVal = num/den;
c@259	162 else
c@259	163 retVal = 0;
c@232	164
c@232	165
c@259	166 return retVal;
c@232	167 }
c@232	168
c@232	169 int GetKeyMode::process(double *PCMData)
c@232	170 {
c@259	171 int key;
c@232	172
c@259	173 unsigned int j,k;
c@232	174
c@259	175 //////////////////////////////////////////////
c@259	176 m_Decimator->process( PCMData, m_DecimatedBuffer);
c@232	177
c@259	178 m_ChrPointer = m_Chroma->process( m_DecimatedBuffer );
c@232	179
devnull@240	180
c@259	181 // Move bins such that the centre of the base note is in the
c@259	182 // middle of its three bins :
c@259	183 // Added 21.11.07 by Chris Sutton based on debugging with Katy
c@259	184 // Noland + comparison with Matlab equivalent.
c@259	185 MathUtilities::circShift( m_ChrPointer, m_BPO, 1);
c@248	186 /*
c@298	187 std::cout << "raw chroma: ";
c@298	188 for (int ii = 0; ii < m_BPO; ++ii) {
c@298	189 if (ii % (m_BPO/12) == 0) std::cout << "\n";
c@298	190 std::cout << m_ChrPointer[ii] << " ";
c@298	191 }
c@298	192 std::cout << std::endl;
c@248	193 */
c@259	194 // populate hpcp values;
c@259	195 int cbidx;
c@259	196 for( j = 0; j < m_BPO; j++ )
c@259	197 {
c@259	198 cbidx = (m_bufferindex * m_BPO) + j;
c@259	199 m_ChromaBuffer[ cbidx ] = m_ChrPointer[j];
c@259	200 }
c@232	201
c@259	202 //keep track of input buffers;
c@259	203 if( m_bufferindex++ >= m_ChromaBuffersize - 1)
c@259	204 m_bufferindex = 0;
c@232	205
c@259	206 // track filling of chroma matrix
c@259	207 if( m_ChromaBufferFilling++ >= m_ChromaBuffersize)
c@259	208 m_ChromaBufferFilling = m_ChromaBuffersize;
c@232	209
c@259	210 //calculate mean
c@259	211 for( k = 0; k < m_BPO; k++ )
c@259	212 {
c@259	213 double mnVal = 0.0;
c@259	214 for( j = 0; j < m_ChromaBufferFilling; j++ )
c@259	215 {
c@259	216 mnVal += m_ChromaBuffer[ k + (j*m_BPO) ];
c@259	217 }
c@232	218
c@259	219 m_MeanHPCP[k] = mnVal/(double)m_ChromaBufferFilling;
c@259	220 }
c@232	221
c@232	222
c@259	223 for( k = 0; k < m_BPO; k++ )
c@259	224 {
c@259	225 m_MajCorr[k] = krumCorr( m_MeanHPCP, MajProfile, m_BPO );
c@259	226 m_MinCorr[k] = krumCorr( m_MeanHPCP, MinProfile, m_BPO );
c@232	227
c@259	228 MathUtilities::circShift( MajProfile, m_BPO, 1 );
c@259	229 MathUtilities::circShift( MinProfile, m_BPO, 1 );
c@259	230 }
devnull@240	231
c@259	232 for( k = 0; k < m_BPO; k++ )
c@259	233 {
c@259	234 m_Keys[k] = m_MajCorr[k];
c@259	235 m_Keys[k+m_BPO] = m_MinCorr[k];
c@259	236 }
devnull@240	237
c@265	238 for (k = 0; k < 24; ++k) {
c@265	239 m_keyStrengths[k] = 0;
c@265	240 }
c@265	241
c@265	242 for( k = 0; k < m_BPO*2; k++ )
c@265	243 {
c@298	244 int idx = k / (m_BPO/12);
c@298	245 int rem = k % (m_BPO/12);
c@298	246 if (rem == 0 \|\| m_Keys[k] > m_keyStrengths[idx]) {
c@298	247 m_keyStrengths[idx] = m_Keys[k];
c@298	248 }
c@298	249
c@298	250 // m_keyStrengths[k/(m_BPO/12)] += m_Keys[k];
c@265	251 }
devnull@240	252
c@248	253 /*
c@259	254 std::cout << "raw keys: ";
c@259	255 for (int ii = 0; ii < 2*m_BPO; ++ii) {
c@298	256 if (ii % (m_BPO/12) == 0) std::cout << "\n";
c@298	257 std::cout << m_Keys[ii] << " ";
c@298	258 }
c@298	259 std::cout << std::endl;
c@298	260
c@298	261 std::cout << "key strengths: ";
c@298	262 for (int ii = 0; ii < 24; ++ii) {
c@298	263 if (ii % 6 == 0) std::cout << "\n";
c@298	264 std::cout << m_keyStrengths[ii] << " ";
c@259	265 }
c@259	266 std::cout << std::endl;
c@248	267 */
c@259	268 double dummy;
c@259	269 // '1 +' because we number keys 1-24, not 0-23.
c@259	270 key = 1 + (int)ceil( (double)MathUtilities::getMax( m_Keys, 2* m_BPO, &dummy )/3 );
c@234	271
c@298	272 // std::cout << "key pre-sorting: " << key << std::endl;
c@232	273
c@232	274
c@259	275 //Median filtering
c@232	276
c@259	277 // track Median buffer initial filling
c@259	278 if( m_MedianBufferFilling++ >= m_MedianWinsize)
c@259	279 m_MedianBufferFilling = m_MedianWinsize;
c@232	280
c@259	281 //shift median buffer
c@259	282 for( k = 1; k < m_MedianWinsize; k++ )
c@259	283 {
c@259	284 m_MedianFilterBuffer[ k - 1 ] = m_MedianFilterBuffer[ k ];
c@259	285 }
c@232	286
c@259	287 //write new key value into median buffer
c@259	288 m_MedianFilterBuffer[ m_MedianWinsize - 1 ] = key;
c@232	289
c@232	290
c@259	291 //Copy median into sorting buffer, reversed
c@259	292 unsigned int ijx = 0;
c@259	293 for( k = 0; k < m_MedianWinsize; k++ )
c@259	294 {
c@259	295 m_SortedBuffer[k] = m_MedianFilterBuffer[m_MedianWinsize-1-ijx];
c@259	296 ijx++;
c@259	297 }
c@232	298
c@259	299 qsort(m_SortedBuffer, m_MedianBufferFilling, sizeof(unsigned int),
c@259	300 MathUtilities::compareInt);
c@259	301 /*
c@259	302 std::cout << "sorted: ";
c@259	303 for (int ii = 0; ii < m_MedianBufferFilling; ++ii) {
c@259	304 std::cout << m_SortedBuffer[ii] << " ";
c@259	305 }
c@259	306 std::cout << std::endl;
c@259	307 */
c@259	308 int sortlength = m_MedianBufferFilling;
c@259	309 int midpoint = (int)ceil((double)sortlength/2);
c@232	310
c@298	311 // std::cout << "midpoint = " << midpoint << endl;
c@298	312
c@259	313 if( midpoint <= 0 )
c@259	314 midpoint = 1;
c@232	315
c@259	316 key = m_SortedBuffer[midpoint-1];
c@232	317
c@298	318 // std::cout << "returning key = " << key << endl;
c@298	319
c@259	320 return key;
c@232	321 }
c@232	322
c@232	323
c@268	324 bool GetKeyMode::isModeMinor( int key )
c@232	325 {
c@259	326 return (key > 12);
c@232	327 }

Mercurial > hg > qm-dsp

annotate dsp/keydetection/GetKeyMode.cpp @ 378:f5b5f64835b9