pyin: YinUtil.cpp annotate

annotate YinUtil.cpp @ 136:7cbf40306c10 vamp-fft-revision

Add state to YinUtil, prepare to use the Vamp FFT (but don't actually use it yet)

author	Chris Cannam
date	Fri, 19 Aug 2016 12:00:13 +0100
parents	1629209f5bf2
children	109c3a2ad930

rev	line source
Chris@9	1 /* -- c-basic-offset: 4 indent-tabs-mode: nil -- vi:set ts=8 sts=4 sw=4: */
Chris@9	2
Chris@9	3 /*
Chris@9	4 pYIN - A fundamental frequency estimator for monophonic audio
Chris@9	5 Centre for Digital Music, Queen Mary, University of London.
Chris@9	6
Chris@9	7 This program is free software; you can redistribute it and/or
Chris@9	8 modify it under the terms of the GNU General Public License as
Chris@9	9 published by the Free Software Foundation; either version 2 of the
Chris@9	10 License, or (at your option) any later version. See the file
Chris@9	11 COPYING included with this distribution for more information.
Chris@9	12 */
Chris@9	13
matthiasm@0	14 #include "YinUtil.h"
matthiasm@0	15
matthiasm@0	16 #include <vector>
matthiasm@0	17
matthiasm@0	18 #include <cstdio>
matthiasm@0	19 #include <cmath>
matthiasm@0	20 #include <algorithm>
matthiasm@0	21
matthiasm@0	22 #include <boost/math/distributions.hpp>
matthiasm@0	23
Chris@136	24 YinUtil::YinUtil(size_t yinBufferSize) :
Chris@136	25 m_yinBufferSize(yinBufferSize),
Chris@136	26 m_fft(yinBufferSize * 2)
Chris@136	27 {
Chris@136	28 }
Chris@136	29
Chris@136	30 YinUtil::~YinUtil()
Chris@136	31 {
Chris@136	32 }
Chris@136	33
matthiasm@0	34 void
Chris@136	35 YinUtil::slowDifference(const double in, double yinBuffer)
matthiasm@60	36 {
matthiasm@60	37 yinBuffer[0] = 0;
matthiasm@60	38 double delta ;
matthiasm@60	39 int startPoint = 0;
matthiasm@60	40 int endPoint = 0;
Chris@136	41 for (int i = 1; i < m_yinBufferSize; ++i) {
matthiasm@60	42 yinBuffer[i] = 0;
Chris@136	43 startPoint = m_yinBufferSize/2 - i/2;
Chris@136	44 endPoint = startPoint + m_yinBufferSize;
matthiasm@60	45 for (int j = startPoint; j < endPoint; ++j) {
matthiasm@60	46 delta = in[i+j] - in[j];
matthiasm@60	47 yinBuffer[i] += delta * delta;
matthiasm@60	48 }
matthiasm@60	49 }
matthiasm@60	50 }
matthiasm@60	51
matthiasm@60	52 void
Chris@136	53 YinUtil::fastDifference(const double in, double yinBuffer)
matthiasm@0	54 {
matthiasm@0	55
matthiasm@0	56 // DECLARE AND INITIALISE
matthiasm@0	57 // initialisation of most of the arrays here was done in a separate function,
matthiasm@0	58 // with all the arrays as members of the class... moved them back here.
matthiasm@0	59
Chris@136	60 size_t frameSize = 2 * m_yinBufferSize;
matthiasm@0	61
matthiasm@0	62 double *audioTransformedReal = new double[frameSize];
matthiasm@0	63 double *audioTransformedImag = new double[frameSize];
matthiasm@0	64 double *nullImag = new double[frameSize];
matthiasm@0	65 double *kernel = new double[frameSize];
matthiasm@0	66 double *kernelTransformedReal = new double[frameSize];
matthiasm@0	67 double *kernelTransformedImag = new double[frameSize];
matthiasm@0	68 double *yinStyleACFReal = new double[frameSize];
matthiasm@0	69 double *yinStyleACFImag = new double[frameSize];
Chris@136	70 double *powerTerms = new double[m_yinBufferSize];
matthiasm@0	71
Chris@136	72 for (size_t j = 0; j < m_yinBufferSize; ++j)
matthiasm@0	73 {
matthiasm@58	74 yinBuffer[j] = 0.; // set to zero
matthiasm@58	75 powerTerms[j] = 0.; // set to zero
matthiasm@0	76 }
matthiasm@0	77
matthiasm@0	78 for (size_t j = 0; j < frameSize; ++j)
matthiasm@0	79 {
matthiasm@0	80 nullImag[j] = 0.;
matthiasm@0	81 audioTransformedReal[j] = 0.;
matthiasm@0	82 audioTransformedImag[j] = 0.;
matthiasm@0	83 kernel[j] = 0.;
matthiasm@0	84 kernelTransformedReal[j] = 0.;
matthiasm@0	85 kernelTransformedImag[j] = 0.;
matthiasm@0	86 yinStyleACFReal[j] = 0.;
matthiasm@0	87 yinStyleACFImag[j] = 0.;
matthiasm@0	88 }
matthiasm@0	89
matthiasm@0	90 // POWER TERM CALCULATION
matthiasm@0	91 // ... for the power terms in equation (7) in the Yin paper
matthiasm@0	92 powerTerms[0] = 0.0;
Chris@136	93 for (size_t j = 0; j < m_yinBufferSize; ++j) {
matthiasm@0	94 powerTerms[0] += in[j] * in[j];
matthiasm@0	95 }
matthiasm@0	96
matthiasm@0	97 // now iteratively calculate all others (saves a few multiplications)
Chris@136	98 for (size_t tau = 1; tau < m_yinBufferSize; ++tau) {
Chris@136	99 powerTerms[tau] = powerTerms[tau-1] - in[tau-1] * in[tau-1] + in[tau+m_yinBufferSize] * in[tau+m_yinBufferSize];
matthiasm@0	100 }
matthiasm@0	101
matthiasm@0	102 // YIN-STYLE AUTOCORRELATION via FFT
matthiasm@0	103 // 1. data
matthiasm@0	104 Vamp::FFT::forward(frameSize, in, nullImag, audioTransformedReal, audioTransformedImag);
matthiasm@0	105
matthiasm@0	106 // 2. half of the data, disguised as a convolution kernel
Chris@136	107 for (size_t j = 0; j < m_yinBufferSize; ++j) {
Chris@136	108 kernel[j] = in[m_yinBufferSize-1-j];
matthiasm@0	109 }
matthiasm@0	110 Vamp::FFT::forward(frameSize, kernel, nullImag, kernelTransformedReal, kernelTransformedImag);
matthiasm@0	111
matthiasm@0	112 // 3. convolution via complex multiplication -- written into
matthiasm@0	113 for (size_t j = 0; j < frameSize; ++j) {
matthiasm@0	114 yinStyleACFReal[j] = audioTransformedReal[j]kernelTransformedReal[j] - audioTransformedImag[j]kernelTransformedImag[j]; // real
matthiasm@0	115 yinStyleACFImag[j] = audioTransformedReal[j]kernelTransformedImag[j] + audioTransformedImag[j]kernelTransformedReal[j]; // imaginary
matthiasm@0	116 }
matthiasm@0	117 Vamp::FFT::inverse(frameSize, yinStyleACFReal, yinStyleACFImag, audioTransformedReal, audioTransformedImag);
matthiasm@0	118
matthiasm@0	119 // CALCULATION OF difference function
matthiasm@0	120 // ... according to (7) in the Yin paper.
Chris@136	121 for (size_t j = 0; j < m_yinBufferSize; ++j) {
matthiasm@0	122 // taking only the real part
Chris@136	123 yinBuffer[j] = powerTerms[0] + powerTerms[j] - 2 * audioTransformedReal[j+m_yinBufferSize-1];
matthiasm@0	124 }
matthiasm@0	125 delete [] audioTransformedReal;
matthiasm@0	126 delete [] audioTransformedImag;
matthiasm@0	127 delete [] nullImag;
matthiasm@0	128 delete [] kernel;
matthiasm@0	129 delete [] kernelTransformedReal;
matthiasm@0	130 delete [] kernelTransformedImag;
matthiasm@0	131 delete [] yinStyleACFReal;
matthiasm@0	132 delete [] yinStyleACFImag;
matthiasm@0	133 delete [] powerTerms;
matthiasm@0	134 }
matthiasm@0	135
matthiasm@0	136 void
Chris@136	137 YinUtil::cumulativeDifference(double *yinBuffer)
matthiasm@0	138 {
matthiasm@0	139 size_t tau;
matthiasm@0	140
matthiasm@0	141 yinBuffer[0] = 1;
matthiasm@0	142
matthiasm@0	143 double runningSum = 0;
matthiasm@0	144
Chris@136	145 for (tau = 1; tau < m_yinBufferSize; ++tau) {
matthiasm@0	146 runningSum += yinBuffer[tau];
matthiasm@0	147 if (runningSum == 0)
matthiasm@0	148 {
matthiasm@0	149 yinBuffer[tau] = 1;
matthiasm@0	150 } else {
matthiasm@0	151 yinBuffer[tau] *= tau / runningSum;
matthiasm@0	152 }
matthiasm@0	153 }
matthiasm@0	154 }
matthiasm@0	155
matthiasm@0	156 int
Chris@136	157 YinUtil::absoluteThreshold(const double *yinBuffer, const double thresh)
matthiasm@0	158 {
matthiasm@0	159 size_t tau;
matthiasm@0	160 size_t minTau = 0;
matthiasm@0	161 double minVal = 1000.;
matthiasm@0	162
matthiasm@0	163 // using Joren Six's "loop construct" from TarsosDSP
matthiasm@0	164 tau = 2;
Chris@136	165 while (tau < m_yinBufferSize)
matthiasm@0	166 {
matthiasm@0	167 if (yinBuffer[tau] < thresh)
matthiasm@0	168 {
Chris@136	169 while (tau+1 < m_yinBufferSize && yinBuffer[tau+1] < yinBuffer[tau])
matthiasm@0	170 {
matthiasm@0	171 ++tau;
matthiasm@0	172 }
matthiasm@0	173 return tau;
matthiasm@0	174 } else {
matthiasm@0	175 if (yinBuffer[tau] < minVal)
matthiasm@0	176 {
matthiasm@0	177 minVal = yinBuffer[tau];
matthiasm@0	178 minTau = tau;
matthiasm@0	179 }
matthiasm@0	180 }
matthiasm@0	181 ++tau;
matthiasm@0	182 }
matthiasm@0	183 if (minTau > 0)
matthiasm@0	184 {
matthiasm@0	185 return -minTau;
matthiasm@0	186 }
matthiasm@0	187 return 0;
matthiasm@0	188 }
matthiasm@0	189
Chris@61	190 static float uniformDist[100] = {0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000,0.0100000};
Chris@61	191 static float betaDist1[100] = {0.028911,0.048656,0.061306,0.068539,0.071703,0.071877,0.069915,0.066489,0.062117,0.057199,0.052034,0.046844,0.041786,0.036971,0.032470,0.028323,0.024549,0.021153,0.018124,0.015446,0.013096,0.011048,0.009275,0.007750,0.006445,0.005336,0.004397,0.003606,0.002945,0.002394,0.001937,0.001560,0.001250,0.000998,0.000792,0.000626,0.000492,0.000385,0.000300,0.000232,0.000179,0.000137,0.000104,0.000079,0.000060,0.000045,0.000033,0.000024,0.000018,0.000013,0.000009,0.000007,0.000005,0.000003,0.000002,0.000002,0.000001,0.000001,0.000001,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000};
Chris@61	192 static float betaDist2[100] = {0.012614,0.022715,0.030646,0.036712,0.041184,0.044301,0.046277,0.047298,0.047528,0.047110,0.046171,0.044817,0.043144,0.041231,0.039147,0.036950,0.034690,0.032406,0.030133,0.027898,0.025722,0.023624,0.021614,0.019704,0.017900,0.016205,0.014621,0.013148,0.011785,0.010530,0.009377,0.008324,0.007366,0.006497,0.005712,0.005005,0.004372,0.003806,0.003302,0.002855,0.002460,0.002112,0.001806,0.001539,0.001307,0.001105,0.000931,0.000781,0.000652,0.000542,0.000449,0.000370,0.000303,0.000247,0.000201,0.000162,0.000130,0.000104,0.000082,0.000065,0.000051,0.000039,0.000030,0.000023,0.000018,0.000013,0.000010,0.000007,0.000005,0.000004,0.000003,0.000002,0.000001,0.000001,0.000001,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000};
Chris@61	193 static float betaDist3[100] = {0.006715,0.012509,0.017463,0.021655,0.025155,0.028031,0.030344,0.032151,0.033506,0.034458,0.035052,0.035331,0.035332,0.035092,0.034643,0.034015,0.033234,0.032327,0.031314,0.030217,0.029054,0.027841,0.026592,0.025322,0.024042,0.022761,0.021489,0.020234,0.019002,0.017799,0.016630,0.015499,0.014409,0.013362,0.012361,0.011407,0.010500,0.009641,0.008830,0.008067,0.007351,0.006681,0.006056,0.005475,0.004936,0.004437,0.003978,0.003555,0.003168,0.002814,0.002492,0.002199,0.001934,0.001695,0.001481,0.001288,0.001116,0.000963,0.000828,0.000708,0.000603,0.000511,0.000431,0.000361,0.000301,0.000250,0.000206,0.000168,0.000137,0.000110,0.000088,0.000070,0.000055,0.000043,0.000033,0.000025,0.000019,0.000014,0.000010,0.000007,0.000005,0.000004,0.000002,0.000002,0.000001,0.000001,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000};
Chris@61	194 static float betaDist4[100] = {0.003996,0.007596,0.010824,0.013703,0.016255,0.018501,0.020460,0.022153,0.023597,0.024809,0.025807,0.026607,0.027223,0.027671,0.027963,0.028114,0.028135,0.028038,0.027834,0.027535,0.027149,0.026687,0.026157,0.025567,0.024926,0.024240,0.023517,0.022763,0.021983,0.021184,0.020371,0.019548,0.018719,0.017890,0.017062,0.016241,0.015428,0.014627,0.013839,0.013068,0.012315,0.011582,0.010870,0.010181,0.009515,0.008874,0.008258,0.007668,0.007103,0.006565,0.006053,0.005567,0.005107,0.004673,0.004264,0.003880,0.003521,0.003185,0.002872,0.002581,0.002312,0.002064,0.001835,0.001626,0.001434,0.001260,0.001102,0.000959,0.000830,0.000715,0.000612,0.000521,0.000440,0.000369,0.000308,0.000254,0.000208,0.000169,0.000136,0.000108,0.000084,0.000065,0.000050,0.000037,0.000027,0.000019,0.000014,0.000009,0.000006,0.000004,0.000002,0.000001,0.000001,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000,0.000000};
Chris@61	195 static float single10[100] = {0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,1.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000};
Chris@61	196 static float single15[100] = {0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,1.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000};
Chris@61	197 static float single20[100] = {0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,1.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000,0.00000};
Chris@61	198
matthiasm@31	199 std::vector<double>
Chris@136	200 YinUtil::yinProb(const double *yinBuffer, const size_t prior, const size_t minTau0, const size_t maxTau0)
matthiasm@31	201 {
matthiasm@31	202 size_t minTau = 2;
Chris@136	203 size_t maxTau = m_yinBufferSize;
matthiasm@0	204
matthiasm@31	205 // adapt period range, if necessary
matthiasm@31	206 if (minTau0 > 0 && minTau0 < maxTau0) minTau = minTau0;
Chris@136	207 if (maxTau0 > 0 && maxTau0 < m_yinBufferSize && maxTau0 > minTau) maxTau = maxTau0;
matthiasm@31	208
matthiasm@0	209 double minWeight = 0.01;
matthiasm@0	210 size_t tau;
matthiasm@0	211 std::vector<float> thresholds;
matthiasm@0	212 std::vector<float> distribution;
Chris@136	213 std::vector<double> peakProb = std::vector<double>(m_yinBufferSize);
matthiasm@0	214
matthiasm@0	215 size_t nThreshold = 100;
matthiasm@0	216 int nThresholdInt = nThreshold;
matthiasm@0	217
matthiasm@0	218 for (int i = 0; i < nThresholdInt; ++i)
matthiasm@0	219 {
matthiasm@0	220 switch (prior) {
matthiasm@0	221 case 0:
matthiasm@0	222 distribution.push_back(uniformDist[i]);
matthiasm@0	223 break;
matthiasm@0	224 case 1:
matthiasm@0	225 distribution.push_back(betaDist1[i]);
matthiasm@0	226 break;
matthiasm@0	227 case 2:
matthiasm@0	228 distribution.push_back(betaDist2[i]);
matthiasm@0	229 break;
matthiasm@0	230 case 3:
matthiasm@0	231 distribution.push_back(betaDist3[i]);
matthiasm@0	232 break;
matthiasm@0	233 case 4:
matthiasm@0	234 distribution.push_back(betaDist4[i]);
matthiasm@0	235 break;
matthiasm@0	236 case 5:
matthiasm@0	237 distribution.push_back(single10[i]);
matthiasm@0	238 break;
matthiasm@0	239 case 6:
matthiasm@0	240 distribution.push_back(single15[i]);
matthiasm@0	241 break;
matthiasm@0	242 case 7:
matthiasm@0	243 distribution.push_back(single20[i]);
matthiasm@0	244 break;
matthiasm@0	245 default:
matthiasm@0	246 distribution.push_back(uniformDist[i]);
matthiasm@0	247 }
matthiasm@0	248 thresholds.push_back(0.01 + i*0.01);
matthiasm@0	249 }
matthiasm@0	250
matthiasm@0	251
matthiasm@0	252 int currThreshInd = nThreshold-1;
matthiasm@31	253 tau = minTau;
matthiasm@0	254
matthiasm@0	255 // double factor = 1.0 / (0.25 * (nThresholdInt+1) * (nThresholdInt + 1)); // factor to scale down triangular weight
matthiasm@0	256 size_t minInd = 0;
matthiasm@0	257 float minVal = 42.f;
matthiasm@46	258 // while (currThreshInd != -1 && tau < maxTau)
matthiasm@46	259 // {
matthiasm@46	260 // if (yinBuffer[tau] < thresholds[currThreshInd])
matthiasm@46	261 // {
matthiasm@46	262 // while (tau + 1 < maxTau && yinBuffer[tau+1] < yinBuffer[tau])
matthiasm@46	263 // {
matthiasm@46	264 // tau++;
matthiasm@46	265 // }
matthiasm@46	266 // // tau is now local minimum
matthiasm@46	267 // // std::cerr << tau << " " << currThreshInd << " "<< thresholds[currThreshInd] << " " << distribution[currThreshInd] << std::endl;
matthiasm@46	268 // if (yinBuffer[tau] < minVal && tau > 2){
matthiasm@46	269 // minVal = yinBuffer[tau];
matthiasm@46	270 // minInd = tau;
matthiasm@46	271 // }
matthiasm@46	272 // peakProb[tau] += distribution[currThreshInd];
matthiasm@46	273 // currThreshInd--;
matthiasm@46	274 // } else {
matthiasm@46	275 // tau++;
matthiasm@46	276 // }
matthiasm@46	277 // }
matthiasm@46	278 // double nonPeakProb = 1;
matthiasm@46	279 // for (size_t i = minTau; i < maxTau; ++i)
matthiasm@46	280 // {
matthiasm@46	281 // nonPeakProb -= peakProb[i];
matthiasm@46	282 // }
matthiasm@46	283 //
matthiasm@46	284 // std::cerr << tau << " " << currThreshInd << " "<< thresholds[currThreshInd] << " " << distribution[currThreshInd] << std::endl;
matthiasm@46	285 float sumProb = 0;
Chris@62	286 while (tau+1 < maxTau)
matthiasm@0	287 {
matthiasm@46	288 if (yinBuffer[tau] < thresholds[thresholds.size()-1] && yinBuffer[tau+1] < yinBuffer[tau])
matthiasm@0	289 {
matthiasm@31	290 while (tau + 1 < maxTau && yinBuffer[tau+1] < yinBuffer[tau])
matthiasm@0	291 {
matthiasm@0	292 tau++;
matthiasm@0	293 }
matthiasm@0	294 // tau is now local minimum
matthiasm@0	295 // std::cerr << tau << " " << currThreshInd << " "<< thresholds[currThreshInd] << " " << distribution[currThreshInd] << std::endl;
matthiasm@0	296 if (yinBuffer[tau] < minVal && tau > 2){
matthiasm@0	297 minVal = yinBuffer[tau];
matthiasm@0	298 minInd = tau;
matthiasm@0	299 }
matthiasm@46	300 currThreshInd = nThresholdInt-1;
matthiasm@116	301 while (thresholds[currThreshInd] > yinBuffer[tau] && currThreshInd > -1) {
matthiasm@116	302 // std::cerr << distribution[currThreshInd] << std::endl;
matthiasm@116	303 peakProb[tau] += distribution[currThreshInd];
matthiasm@116	304 currThreshInd--;
matthiasm@116	305 }
matthiasm@116	306 // peakProb[tau] = 1 - yinBuffer[tau];
matthiasm@46	307 sumProb += peakProb[tau];
matthiasm@46	308 tau++;
matthiasm@0	309 } else {
matthiasm@0	310 tau++;
matthiasm@0	311 }
matthiasm@0	312 }
matthiasm@46	313
matthiasm@58	314 if (peakProb[minInd] > 1) {
matthiasm@58	315 std::cerr << "WARNING: yin has prob > 1 ??? I'm returning all zeros instead." << std::endl;
Chris@136	316 return(std::vector<double>(m_yinBufferSize));
matthiasm@58	317 }
matthiasm@58	318
matthiasm@0	319 double nonPeakProb = 1;
matthiasm@46	320 if (sumProb > 0) {
matthiasm@46	321 for (size_t i = minTau; i < maxTau; ++i)
matthiasm@46	322 {
matthiasm@46	323 peakProb[i] = peakProb[i] / sumProb * peakProb[minInd];
matthiasm@46	324 nonPeakProb -= peakProb[i];
matthiasm@46	325 }
matthiasm@0	326 }
matthiasm@0	327 if (minInd > 0)
matthiasm@0	328 {
matthiasm@0	329 // std::cerr << "min set " << minVal << " " << minInd << " " << nonPeakProb << std::endl;
matthiasm@0	330 peakProb[minInd] += nonPeakProb * minWeight;
matthiasm@0	331 }
matthiasm@0	332
matthiasm@0	333 return peakProb;
matthiasm@0	334 }
matthiasm@0	335
matthiasm@0	336 double
Chris@136	337 YinUtil::parabolicInterpolation(const double *yinBuffer, const size_t tau)
matthiasm@0	338 {
matthiasm@0	339 // this is taken almost literally from Joren Six's Java implementation
Chris@136	340 if (tau == m_yinBufferSize) // not valid anyway.
matthiasm@0	341 {
matthiasm@0	342 return static_cast<double>(tau);
matthiasm@0	343 }
matthiasm@0	344
matthiasm@0	345 double betterTau = 0.0;
Chris@136	346 if (tau > 0 && tau < m_yinBufferSize-1) {
matthiasm@0	347 float s0, s1, s2;
matthiasm@46	348 s0 = yinBuffer[tau-1];
matthiasm@0	349 s1 = yinBuffer[tau];
matthiasm@46	350 s2 = yinBuffer[tau+1];
matthiasm@0	351
matthiasm@46	352 double adjustment = (s2 - s0) / (2 * (2 * s1 - s2 - s0));
matthiasm@0	353
matthiasm@46	354 if (abs(adjustment)>1) adjustment = 0;
matthiasm@46	355
matthiasm@46	356 betterTau = tau + adjustment;
matthiasm@46	357 } else {
matthiasm@118	358 // std::cerr << "WARNING: can't do interpolation at the edge (tau = " << tau << "), will return un-interpolated value.\n";
matthiasm@46	359 betterTau = tau;
matthiasm@0	360 }
matthiasm@0	361 return betterTau;
matthiasm@0	362 }
matthiasm@0	363
matthiasm@0	364 double
matthiasm@0	365 YinUtil::sumSquare(const double *in, const size_t start, const size_t end)
matthiasm@0	366 {
matthiasm@0	367 double out = 0;
matthiasm@0	368 for (size_t i = start; i < end; ++i)
matthiasm@0	369 {
matthiasm@0	370 out += in[i] * in[i];
matthiasm@0	371 }
matthiasm@0	372 return out;
matthiasm@0	373 }

Mercurial > hg > pyin

annotate YinUtil.cpp @ 136:7cbf40306c10 vamp-fft-revision