Mercurial > hg > qm-dsp
diff dsp/keydetection/GetKeyMode.cpp @ 505:930b5b0f707d
Merge branch 'codestyle-and-tidy'
| author | Chris Cannam <cannam@all-day-breakfast.com> |
|---|---|
| date | Wed, 05 Jun 2019 12:55:15 +0100 |
| parents | af5b7ef02aa7 |
| children | 3f0a96460c33 |
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--- a/dsp/keydetection/GetKeyMode.cpp Thu May 30 16:18:13 2019 +0100 +++ b/dsp/keydetection/GetKeyMode.cpp Wed Jun 05 12:55:15 2019 +0100 @@ -1,363 +1,320 @@ -/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ -/* - QM DSP Library - - Centre for Digital Music, Queen Mary, University of London. - This file 2005-2006 Christian Landone and Katy Noland. - - Fixes to correct chroma offsets and for thread safety contributed - by Daniel Schürmann. - - This program is free software; you can redistribute it and/or - modify it under the terms of the GNU General Public License as - published by the Free Software Foundation; either version 2 of the - License, or (at your option) any later version. See the file - COPYING included with this distribution for more information. -*/ - -#include "GetKeyMode.h" -#include "maths/MathUtilities.h" -#include "base/Pitch.h" - -#include <iostream> - -#include <cstring> -#include <cstdlib> - -static const int kBinsPerOctave = 36; - -// Chords profile -static double MajProfile[kBinsPerOctave] = { - 0.0384, 0.0629, 0.0258, 0.0121, 0.0146, 0.0106, 0.0364, 0.0610, 0.0267, - 0.0126, 0.0121, 0.0086, 0.0364, 0.0623, 0.0279, 0.0275, 0.0414, 0.0186, - 0.0173, 0.0248, 0.0145, 0.0364, 0.0631, 0.0262, 0.0129, 0.0150, 0.0098, - 0.0312, 0.0521, 0.0235, 0.0129, 0.0142, 0.0095, 0.0289, 0.0478, 0.0239}; - -static double MinProfile[kBinsPerOctave] = { - 0.0375, 0.0682, 0.0299, 0.0119, 0.0138, 0.0093, 0.0296, 0.0543, 0.0257, - 0.0292, 0.0519, 0.0246, 0.0159, 0.0234, 0.0135, 0.0291, 0.0544, 0.0248, - 0.0137, 0.0176, 0.0104, 0.0352, 0.0670, 0.0302, 0.0222, 0.0349, 0.0164, - 0.0174, 0.0297, 0.0166, 0.0222, 0.0401, 0.0202, 0.0175, 0.0270, 0.0146}; -// - - -////////////////////////////////////////////////////////////////////// -// Construction/Destruction -////////////////////////////////////////////////////////////////////// - -GetKeyMode::GetKeyMode( int sampleRate, float tuningFrequency, - double hpcpAverage, double medianAverage ) : - m_hpcpAverage( hpcpAverage ), - m_medianAverage( medianAverage ), - m_ChrPointer(0), - m_DecimatedBuffer(0), - m_ChromaBuffer(0), - m_MeanHPCP(0), - m_MajCorr(0), - m_MinCorr(0), - m_MedianFilterBuffer(0), - m_SortedBuffer(0), - m_keyStrengths(0) -{ - m_DecimationFactor = 8; - - // Chromagram configuration parameters - m_ChromaConfig.normalise = MathUtilities::NormaliseUnitMax; - m_ChromaConfig.FS = sampleRate/(double)m_DecimationFactor; - if (m_ChromaConfig.FS < 1) { - m_ChromaConfig.FS = 1; - } - - // Set C3 (= MIDI #48) as our base: - // This implies that key = 1 => Cmaj, key = 12 => Bmaj, key = 13 => Cmin, etc. - m_ChromaConfig.min = Pitch::getFrequencyForPitch( 48, 0, tuningFrequency ); - m_ChromaConfig.max = Pitch::getFrequencyForPitch( 96, 0, tuningFrequency ); - - m_ChromaConfig.BPO = kBinsPerOctave; - m_ChromaConfig.CQThresh = 0.0054; - - // Chromagram inst. - m_Chroma = new Chromagram( m_ChromaConfig ); - - // Get calculated parameters from chroma object - m_ChromaFrameSize = m_Chroma->getFrameSize(); - // override hopsize for this application - m_ChromaHopSize = m_ChromaFrameSize; - -// std::cerr << "chroma frame size = " << m_ChromaFrameSize << ", decimation factor = " << m_DecimationFactor << " therefore block size = " << getBlockSize() << std::endl; - - // Chromagram average and estimated key median filter lengths - m_ChromaBuffersize = (int)ceil( m_hpcpAverage * m_ChromaConfig.FS/m_ChromaFrameSize ); - m_MedianWinsize = (int)ceil( m_medianAverage * m_ChromaConfig.FS/m_ChromaFrameSize ); - - // Reset counters - m_bufferindex = 0; - m_ChromaBufferFilling = 0; - m_MedianBufferFilling = 0; - - // Spawn objectc/arrays - m_DecimatedBuffer = new double[m_ChromaFrameSize]; - - m_ChromaBuffer = new double[kBinsPerOctave * m_ChromaBuffersize]; - memset( m_ChromaBuffer, 0, sizeof(double) * kBinsPerOctave * m_ChromaBuffersize); - - m_MeanHPCP = new double[kBinsPerOctave]; - - m_MajCorr = new double[kBinsPerOctave]; - m_MinCorr = new double[kBinsPerOctave]; - - m_MajProfileNorm = new double[kBinsPerOctave]; - m_MinProfileNorm = new double[kBinsPerOctave]; - - double mMaj = MathUtilities::mean( MajProfile, kBinsPerOctave ); - double mMin = MathUtilities::mean( MinProfile, kBinsPerOctave ); - - for( unsigned int i = 0; i < kBinsPerOctave; i++ ) { - m_MajProfileNorm[i] = MajProfile[i] - mMaj; - m_MinProfileNorm[i] = MinProfile[i] - mMin; - } - - m_MedianFilterBuffer = new int[ m_MedianWinsize ]; - memset( m_MedianFilterBuffer, 0, sizeof(int)*m_MedianWinsize); - - m_SortedBuffer = new int[ m_MedianWinsize ]; - memset( m_SortedBuffer, 0, sizeof(int)*m_MedianWinsize); - - m_Decimator = new Decimator( m_ChromaFrameSize*m_DecimationFactor, m_DecimationFactor ); - - m_keyStrengths = new double[24]; -} - -GetKeyMode::~GetKeyMode() -{ - delete m_Chroma; - delete m_Decimator; - - delete [] m_DecimatedBuffer; - delete [] m_ChromaBuffer; - delete [] m_MeanHPCP; - delete [] m_MajCorr; - delete [] m_MinCorr; - delete [] m_MajProfileNorm; - delete [] m_MinProfileNorm; - delete [] m_MedianFilterBuffer; - delete [] m_SortedBuffer; - delete [] m_keyStrengths; -} - -double GetKeyMode::krumCorr( const double *pDataNorm, const double *pProfileNorm, - int shiftProfile, unsigned int length) -{ - double retVal= 0.0; - - double num = 0; - double den = 0; - double sum1 = 0; - double sum2 = 0; - - for( unsigned int i = 0; i <length; i++ ) - { - int k = (i - shiftProfile + length) % length; - - num += pDataNorm[i] * pProfileNorm[k]; - - sum1 += ( pDataNorm[i] * pDataNorm[i] ); - sum2 += ( pProfileNorm[k] * pProfileNorm[k] ); - } - - den = sqrt(sum1 * sum2); - - if( den>0 ) { - retVal = num/den; - } else { - retVal = 0; - } - - return retVal; -} - -int GetKeyMode::process(double *PCMData) -{ - int key; - unsigned int j,k; - - ////////////////////////////////////////////// - m_Decimator->process( PCMData, m_DecimatedBuffer); - - m_ChrPointer = m_Chroma->process( m_DecimatedBuffer ); - -/* - std::cout << "raw chroma: "; - for (int ii = 0; ii < kBinsPerOctave; ++ii) { - if (ii % (kBinsPerOctave/12) == 0) std::cout << "\n"; - std::cout << m_ChrPointer[ii] << " "; - } - std::cout << std::endl; -*/ - // populate hpcp values; - int cbidx; - for( j = 0; j < kBinsPerOctave; j++ ) { - cbidx = (m_bufferindex * kBinsPerOctave) + j; - m_ChromaBuffer[ cbidx ] = m_ChrPointer[j]; - } - - //keep track of input buffers; - if( m_bufferindex++ >= m_ChromaBuffersize - 1) { - m_bufferindex = 0; - } - - // track filling of chroma matrix - if( m_ChromaBufferFilling++ >= m_ChromaBuffersize) { - m_ChromaBufferFilling = m_ChromaBuffersize; - } - - //calculate mean - for( k = 0; k < kBinsPerOctave; k++ ) { - double mnVal = 0.0; - for( j = 0; j < m_ChromaBufferFilling; j++ ) { - mnVal += m_ChromaBuffer[ k + (j*kBinsPerOctave) ]; - } - - m_MeanHPCP[k] = mnVal/(double)m_ChromaBufferFilling; - } - - // Normalize for zero average - double mHPCP = MathUtilities::mean( m_MeanHPCP, kBinsPerOctave ); - for( k = 0; k < kBinsPerOctave; k++ ) - { - m_MeanHPCP[k] -= mHPCP; - } - - - for( k = 0; k < kBinsPerOctave; k++ ) - { - // The Cromagram has the center of C at bin 0, while the major - // and minor profiles have the center of C at 1. We want to have - // the correlation for C result also at 1. - // To achieve this we have to shift two times: - m_MajCorr[k] = krumCorr( m_MeanHPCP, m_MajProfileNorm, (int)k - 2, kBinsPerOctave ); - m_MinCorr[k] = krumCorr( m_MeanHPCP, m_MinProfileNorm, (int)k - 2, kBinsPerOctave ); - } - -/* - std::cout << "raw keys: "; - for (int ii = 0; ii < kBinsPerOctave; ++ii) { - if (ii % (kBinsPerOctave/12) == 0) std::cout << "\n"; - std::cout << m_MajCorr[ii] << " "; - } - for (int ii = 0; ii < kBinsPerOctave; ++ii) { - if (ii % (kBinsPerOctave/12) == 0) std::cout << "\n"; - std::cout << m_MinCorr[ii] << " "; - } - std::cout << std::endl; -*/ - - // m_MajCorr[1] is C center 1 / 3 + 1 = 1 - // m_MajCorr[4] is D center 4 / 3 + 1 = 2 - // '+ 1' because we number keys 1-24, not 0-23. - double maxMaj; - int maxMajBin = MathUtilities::getMax( m_MajCorr, kBinsPerOctave, &maxMaj ); - double maxMin; - int maxMinBin = MathUtilities::getMax( m_MinCorr, kBinsPerOctave, &maxMin ); - int maxBin = (maxMaj > maxMin) ? maxMajBin : (maxMinBin + kBinsPerOctave); - key = maxBin / 3 + 1; - -// std::cout << "fractional key pre-sorting: " << (maxBin + 2) / 3.0 << std::endl; -// std::cout << "key pre-sorting: " << key << std::endl; - - - //Median filtering - - // track Median buffer initial filling - if( m_MedianBufferFilling++ >= m_MedianWinsize) { - m_MedianBufferFilling = m_MedianWinsize; - } - - //shift median buffer - for( k = 1; k < m_MedianWinsize; k++ ) { - m_MedianFilterBuffer[ k - 1 ] = m_MedianFilterBuffer[ k ]; - } - - //write new key value into median buffer - m_MedianFilterBuffer[ m_MedianWinsize - 1 ] = key; - - - //Copy median into sorting buffer, reversed - unsigned int ijx = 0; - for( k = 0; k < m_MedianWinsize; k++ ) { - m_SortedBuffer[k] = m_MedianFilterBuffer[m_MedianWinsize-1-ijx]; - ijx++; - } - - qsort(m_SortedBuffer, m_MedianBufferFilling, sizeof(unsigned int), - MathUtilities::compareInt); -/* - std::cout << "sorted: "; - for (int ii = 0; ii < m_MedianBufferFilling; ++ii) { - std::cout << m_SortedBuffer[ii] << " "; - } - std::cout << std::endl; -*/ - int sortlength = m_MedianBufferFilling; - int midpoint = (int)ceil((double)sortlength/2); - -// std::cout << "midpoint = " << midpoint << endl; - - if( midpoint <= 0 ) { - midpoint = 1; - } - - key = m_SortedBuffer[midpoint-1]; - -// std::cout << "returning key = " << key << endl; - - return key; -} - - -bool GetKeyMode::isModeMinor( int key ) -{ - return (key > 12); -} - -unsigned int getChromaSize() -{ - return kBinsPerOctave; -} - -double* GetKeyMode::getKeyStrengths() { - unsigned int k; - - for (k = 0; k < 24; ++k) { - m_keyStrengths[k] = 0; - } - - for( k = 0; k < kBinsPerOctave; k++ ) - { - int idx = k / (kBinsPerOctave/12); - int rem = k % (kBinsPerOctave/12); - if (rem == 0 || m_MajCorr[k] > m_keyStrengths[idx]) { - m_keyStrengths[idx] = m_MajCorr[k]; - } - } - - for( k = 0; k < kBinsPerOctave; k++ ) - { - int idx = (k + kBinsPerOctave) / (kBinsPerOctave/12); - int rem = k % (kBinsPerOctave/12); - if (rem == 0 || m_MinCorr[k] > m_keyStrengths[idx]) { - m_keyStrengths[idx] = m_MinCorr[k]; - } - } - -/* - std::cout << "key strengths: "; - for (int ii = 0; ii < 24; ++ii) { - if (ii % 6 == 0) std::cout << "\n"; - std::cout << m_keyStrengths[ii] << " "; - } - std::cout << std::endl; -*/ - - return m_keyStrengths; -} +/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ +/* + QM DSP Library + + Centre for Digital Music, Queen Mary, University of London. + This file 2005-2006 Christian Landone and Katy Noland. + + Fixes to correct chroma offsets and for thread safety contributed + by Daniel Schürmann. + + This program is free software; you can redistribute it and/or + modify it under the terms of the GNU General Public License as + published by the Free Software Foundation; either version 2 of the + License, or (at your option) any later version. See the file + COPYING included with this distribution for more information. +*/ + +#include "GetKeyMode.h" +#include "maths/MathUtilities.h" +#include "base/Pitch.h" + +#include <iostream> + +#include <cstring> +#include <cstdlib> + +static const int kBinsPerOctave = 36; + +// Chords profile +static double MajProfile[kBinsPerOctave] = { + 0.0384, 0.0629, 0.0258, 0.0121, 0.0146, 0.0106, 0.0364, 0.0610, 0.0267, + 0.0126, 0.0121, 0.0086, 0.0364, 0.0623, 0.0279, 0.0275, 0.0414, 0.0186, + 0.0173, 0.0248, 0.0145, 0.0364, 0.0631, 0.0262, 0.0129, 0.0150, 0.0098, + 0.0312, 0.0521, 0.0235, 0.0129, 0.0142, 0.0095, 0.0289, 0.0478, 0.0239 +}; + +static double MinProfile[kBinsPerOctave] = { + 0.0375, 0.0682, 0.0299, 0.0119, 0.0138, 0.0093, 0.0296, 0.0543, 0.0257, + 0.0292, 0.0519, 0.0246, 0.0159, 0.0234, 0.0135, 0.0291, 0.0544, 0.0248, + 0.0137, 0.0176, 0.0104, 0.0352, 0.0670, 0.0302, 0.0222, 0.0349, 0.0164, + 0.0174, 0.0297, 0.0166, 0.0222, 0.0401, 0.0202, 0.0175, 0.0270, 0.0146 +}; +// + + +////////////////////////////////////////////////////////////////////// +// Construction/Destruction +////////////////////////////////////////////////////////////////////// + +GetKeyMode::GetKeyMode( int sampleRate, float tuningFrequency, + double hpcpAverage, double medianAverage ) : + m_hpcpAverage( hpcpAverage ), + m_medianAverage( medianAverage ), + m_chrPointer(0), + m_decimatedBuffer(0), + m_chromaBuffer(0), + m_meanHPCP(0), + m_majCorr(0), + m_minCorr(0), + m_medianFilterBuffer(0), + m_sortedBuffer(0), + m_keyStrengths(0) +{ + m_decimationFactor = 8; + + // Chromagram configuration parameters + m_chromaConfig.normalise = MathUtilities::NormaliseUnitMax; + m_chromaConfig.FS = sampleRate / (double)m_decimationFactor; + if (m_chromaConfig.FS < 1) { + m_chromaConfig.FS = 1; + } + + // Set C3 (= MIDI #48) as our base: + // This implies that key = 1 => Cmaj, key = 12 => Bmaj, key = 13 => Cmin, etc. + m_chromaConfig.min = Pitch::getFrequencyForPitch( 48, 0, tuningFrequency ); + m_chromaConfig.max = Pitch::getFrequencyForPitch( 96, 0, tuningFrequency ); + + m_chromaConfig.BPO = kBinsPerOctave; + m_chromaConfig.CQThresh = 0.0054; + + // Chromagram inst. + m_chroma = new Chromagram( m_chromaConfig ); + + // Get calculated parameters from chroma object + m_chromaFrameSize = m_chroma->getFrameSize(); + // override hopsize for this application + m_chromaHopSize = m_chromaFrameSize; + +// std::cerr << "chroma frame size = " << m_ChromaFrameSize << ", decimation factor = " << m_DecimationFactor << " therefore block size = " << getBlockSize() << std::endl; + + // Chromagram average and estimated key median filter lengths + m_chromaBufferSize = (int)ceil + (m_hpcpAverage * m_chromaConfig.FS / m_chromaFrameSize); + m_medianWinSize = (int)ceil + (m_medianAverage * m_chromaConfig.FS / m_chromaFrameSize); + + // Reset counters + m_bufferIndex = 0; + m_chromaBufferFilling = 0; + m_medianBufferFilling = 0; + + // Spawn objectc/arrays + m_decimatedBuffer = new double[m_chromaFrameSize]; + m_chromaBuffer = new double[kBinsPerOctave * m_chromaBufferSize]; + + memset(m_chromaBuffer, 0, + sizeof(double) * kBinsPerOctave * m_chromaBufferSize); + + m_meanHPCP = new double[kBinsPerOctave]; + + m_majCorr = new double[kBinsPerOctave]; + m_minCorr = new double[kBinsPerOctave]; + + m_majProfileNorm = new double[kBinsPerOctave]; + m_minProfileNorm = new double[kBinsPerOctave]; + + double mMaj = MathUtilities::mean( MajProfile, kBinsPerOctave ); + double mMin = MathUtilities::mean( MinProfile, kBinsPerOctave ); + + for (int i = 0; i < kBinsPerOctave; i++) { + m_majProfileNorm[i] = MajProfile[i] - mMaj; + m_minProfileNorm[i] = MinProfile[i] - mMin; + } + + m_medianFilterBuffer = new int[ m_medianWinSize ]; + memset( m_medianFilterBuffer, 0, sizeof(int)*m_medianWinSize); + + m_sortedBuffer = new int[ m_medianWinSize ]; + memset( m_sortedBuffer, 0, sizeof(int)*m_medianWinSize); + + m_decimator = new Decimator( m_chromaFrameSize * m_decimationFactor, + m_decimationFactor ); + + m_keyStrengths = new double[24]; +} + +GetKeyMode::~GetKeyMode() +{ + delete m_chroma; + delete m_decimator; + + delete [] m_decimatedBuffer; + delete [] m_chromaBuffer; + delete [] m_meanHPCP; + delete [] m_majCorr; + delete [] m_minCorr; + delete [] m_majProfileNorm; + delete [] m_minProfileNorm; + delete [] m_medianFilterBuffer; + delete [] m_sortedBuffer; + delete [] m_keyStrengths; +} + +double GetKeyMode::krumCorr( const double *pDataNorm, const double *pProfileNorm, + int shiftProfile, int length) +{ + double retVal= 0.0; + + double num = 0; + double den = 0; + double sum1 = 0; + double sum2 = 0; + + for (int i = 0; i < length; i++) { + + int k = (i - shiftProfile + length) % length; + + num += pDataNorm[i] * pProfileNorm[k]; + + sum1 += (pDataNorm[i] * pDataNorm[i]); + sum2 += (pProfileNorm[k] * pProfileNorm[k]); + } + + den = sqrt(sum1 * sum2); + + if (den > 0) { + retVal = num/den; + } else { + retVal = 0; + } + + return retVal; +} + +int GetKeyMode::process(double *pcmData) +{ + int key; + int j, k; + + m_decimator->process(pcmData, m_decimatedBuffer); + + m_chrPointer = m_chroma->process(m_decimatedBuffer); + + // populate hpcp values + int cbidx; + for (j = 0;j < kBinsPerOctave;j++ ) { + cbidx = (m_bufferIndex * kBinsPerOctave) + j; + m_chromaBuffer[ cbidx ] = m_chrPointer[j]; + } + + // keep track of input buffers + if (m_bufferIndex++ >= m_chromaBufferSize - 1) { + m_bufferIndex = 0; + } + + // track filling of chroma matrix + if (m_chromaBufferFilling++ >= m_chromaBufferSize) { + m_chromaBufferFilling = m_chromaBufferSize; + } + + // calculate mean + for (k = 0; k < kBinsPerOctave; k++) { + double mnVal = 0.0; + for (j = 0; j < m_chromaBufferFilling; j++) { + mnVal += m_chromaBuffer[ k + (j * kBinsPerOctave) ]; + } + + m_meanHPCP[k] = mnVal / (double)m_chromaBufferFilling; + } + + // Normalize for zero average + double mHPCP = MathUtilities::mean(m_meanHPCP, kBinsPerOctave); + for (k = 0; k < kBinsPerOctave; k++) { + m_meanHPCP[k] -= mHPCP; + } + + for (k = 0; k < kBinsPerOctave; k++) { + // The Chromagram has the center of C at bin 0, while the major + // and minor profiles have the center of C at 1. We want to have + // the correlation for C result also at 1. + // To achieve this we have to shift two times: + m_majCorr[k] = krumCorr + (m_meanHPCP, m_majProfileNorm, k - 2, kBinsPerOctave); + m_minCorr[k] = krumCorr + (m_meanHPCP, m_minProfileNorm, k - 2, kBinsPerOctave); + } + + // m_MajCorr[1] is C center 1 / 3 + 1 = 1 + // m_MajCorr[4] is D center 4 / 3 + 1 = 2 + // '+ 1' because we number keys 1-24, not 0-23. + double maxMaj; + int maxMajBin = MathUtilities::getMax(m_majCorr, kBinsPerOctave, &maxMaj); + double maxMin; + int maxMinBin = MathUtilities::getMax(m_minCorr, kBinsPerOctave, &maxMin); + int maxBin = (maxMaj > maxMin) ? maxMajBin : (maxMinBin + kBinsPerOctave); + key = maxBin / 3 + 1; + + // Median filtering + + // track Median buffer initial filling + if (m_medianBufferFilling++ >= m_medianWinSize) { + m_medianBufferFilling = m_medianWinSize; + } + + // shift median buffer + for (k = 1; k < m_medianWinSize; k++ ) { + m_medianFilterBuffer[ k - 1 ] = m_medianFilterBuffer[ k ]; + } + + // write new key value into median buffer + m_medianFilterBuffer[ m_medianWinSize - 1 ] = key; + + // copy median into sorting buffer, reversed + int ijx = 0; + for (k = 0; k < m_medianWinSize; k++) { + m_sortedBuffer[k] = m_medianFilterBuffer[m_medianWinSize - 1 - ijx]; + ijx++; + } + + qsort(m_sortedBuffer, m_medianBufferFilling, sizeof(int), + MathUtilities::compareInt); + + int sortlength = m_medianBufferFilling; + int midpoint = (int)ceil((double)sortlength / 2); + + if (midpoint <= 0) { + midpoint = 1; + } + + key = m_sortedBuffer[midpoint-1]; + + return key; +} + + +bool GetKeyMode::isModeMinor( int key ) +{ + return (key > 12); +} + +int GetKeyMode::getChromaSize() +{ + return kBinsPerOctave; +} + +double* GetKeyMode::getKeyStrengths() { + int k; + + for (k = 0; k < 24; ++k) { + m_keyStrengths[k] = 0; + } + + for (k = 0; k < kBinsPerOctave; k++) { + int idx = k / (kBinsPerOctave/12); + int rem = k % (kBinsPerOctave/12); + if (rem == 0 || m_majCorr[k] > m_keyStrengths[idx]) { + m_keyStrengths[idx] = m_majCorr[k]; + } + } + + for (k = 0; k < kBinsPerOctave; k++) { + int idx = (k + kBinsPerOctave) / (kBinsPerOctave/12); + int rem = k % (kBinsPerOctave/12); + if (rem == 0 || m_minCorr[k] > m_keyStrengths[idx]) { + m_keyStrengths[idx] = m_minCorr[k]; + } + } + + return m_keyStrengths; +}