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1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
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2
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3 /*
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4 QM DSP Library
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5
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6 Centre for Digital Music, Queen Mary, University of London.
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7 This file copyright 2008-2009 Matthew Davies and QMUL.
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8 All rights reserved.
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9 */
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10
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11 #include "DownBeat.h"
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12
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13 #include "maths/MathAliases.h"
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14 #include "maths/MathUtilities.h"
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15 #include "maths/KLDivergence.h"
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16 #include "dsp/transforms/FFT.h"
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17
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18 #include <iostream>
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19 #include <cstdlib>
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20
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21 DownBeat::DownBeat(float originalSampleRate,
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22 size_t decimationFactor,
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23 size_t dfIncrement) :
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24 m_bpb(0),
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25 m_rate(originalSampleRate),
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26 m_factor(decimationFactor),
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27 m_increment(dfIncrement),
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28 m_decimator1(0),
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29 m_decimator2(0),
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30 m_buffer(0),
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31 m_bufsiz(0),
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32 m_buffill(0),
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33 m_beatframesize(0),
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34 m_beatframe(0)
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35 {
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36 // beat frame size is next power of two up from 1.3 seconds at the
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37 // downsampled rate (happens to produce 4096 for 44100 or 48000 at
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38 // 16x decimation, which is our expected normal situation)
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39 m_beatframesize = MathUtilities::nextPowerOfTwo
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40 (int((m_rate / decimationFactor) * 1.3));
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41 std::cerr << "rate = " << m_rate << ", bfs = " << m_beatframesize << std::endl;
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42 m_beatframe = new double[m_beatframesize];
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43 m_fftRealOut = new double[m_beatframesize];
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44 m_fftImagOut = new double[m_beatframesize];
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45 }
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46
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47 DownBeat::~DownBeat()
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48 {
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49 delete m_decimator1;
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50 delete m_decimator2;
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51 if (m_buffer) free(m_buffer);
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52 delete[] m_decbuf;
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53 delete[] m_beatframe;
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54 delete[] m_fftRealOut;
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55 delete[] m_fftImagOut;
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56 }
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57
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58 void
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59 DownBeat::setBeatsPerBar(int bpb)
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60 {
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61 m_bpb = bpb;
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62 }
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63
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64 void
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65 DownBeat::makeDecimators()
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66 {
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67 if (m_factor < 2) return;
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68 int highest = Decimator::getHighestSupportedFactor();
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69 if (m_factor <= highest) {
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70 m_decimator1 = new Decimator(m_increment, m_factor);
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71 std::cerr << "DownBeat: decimator 1 factor " << m_factor << ", size " << m_increment << std::endl;
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72 return;
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73 }
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74 m_decimator1 = new Decimator(m_increment, highest);
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75 std::cerr << "DownBeat: decimator 1 factor " << highest << ", size " << m_increment << std::endl;
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76 m_decimator2 = new Decimator(m_increment / highest, m_factor / highest);
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77 std::cerr << "DownBeat: decimator 2 factor " << m_factor / highest << ", size " << m_increment / highest << std::endl;
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78 m_decbuf = new float[m_increment / highest];
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79 }
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80
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81 void
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82 DownBeat::pushAudioBlock(const float *audio)
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83 {
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84 if (m_buffill + (m_increment / m_factor) > m_bufsiz) {
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85 if (m_bufsiz == 0) m_bufsiz = m_increment * 16;
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86 else m_bufsiz = m_bufsiz * 2;
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87 if (!m_buffer) {
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88 m_buffer = (float *)malloc(m_bufsiz * sizeof(float));
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89 } else {
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90 std::cerr << "DownBeat::pushAudioBlock: realloc m_buffer to " << m_bufsiz << std::endl;
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91 m_buffer = (float *)realloc(m_buffer, m_bufsiz * sizeof(float));
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92 }
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93 }
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94 if (!m_decimator1) makeDecimators();
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95 float rmsin = 0, rmsout = 0;
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96 for (int i = 0; i < m_increment; ++i) {
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97 rmsin += audio[i] * audio[i];
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98 }
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99 if (m_decimator2) {
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100 m_decimator1->process(audio, m_decbuf);
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101 m_decimator2->process(m_decbuf, m_buffer + m_buffill);
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102 } else {
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103 m_decimator1->process(audio, m_buffer + m_buffill);
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104 }
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105 for (int i = 0; i < m_increment / m_factor; ++i) {
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106 rmsout += m_buffer[m_buffill + i] * m_buffer[m_buffill + i];
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107 }
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108 std::cerr << "pushAudioBlock: rms in " << sqrt(rmsin) << ", out " << sqrt(rmsout) << std::endl;
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109 m_buffill += m_increment / m_factor;
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110 }
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111
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112 const float *
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113 DownBeat::getBufferedAudio(size_t &length) const
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114 {
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115 length = m_buffill;
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116 return m_buffer;
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117 }
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118
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119 void
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120 DownBeat::resetAudioBuffer()
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121 {
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122 if (m_buffer) free(m_buffer);
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123 m_buffill = 0;
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124 m_bufsiz = 0;
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125 }
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126
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127 void
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128 DownBeat::findDownBeats(const float *audio,
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129 size_t audioLength,
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130 const d_vec_t &beats,
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131 i_vec_t &downbeats)
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132 {
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133 // FIND DOWNBEATS BY PARTITIONING THE INPUT AUDIO FILE INTO BEAT SEGMENTS
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134 // WHERE THE AUDIO FRAMES ARE DOWNSAMPLED BY A FACTOR OF 16 (fs ~= 2700Hz)
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135 // THEN TAKING THE JENSEN-SHANNON DIVERGENCE BETWEEN BEAT SYNCHRONOUS SPECTRAL FRAMES
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136
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137 // IMPLEMENTATION (MOSTLY) FOLLOWS:
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138 // DAVIES AND PLUMBLEY "A SPECTRAL DIFFERENCE APPROACH TO EXTRACTING DOWNBEATS IN MUSICAL AUDIO"
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139 // EUSIPCO 2006, FLORENCE, ITALY
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140
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141 d_vec_t newspec(m_beatframesize / 2); // magnitude spectrum of current beat
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142 d_vec_t oldspec(m_beatframesize / 2); // magnitude spectrum of previous beat
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143 d_vec_t specdiff;
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144
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145 if (audioLength == 0) return;
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146
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147 for (size_t i = 0; i + 1 < beats.size(); ++i) {
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148
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149 // Copy the extents of the current beat from downsampled array
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150 // into beat frame buffer
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151
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152 size_t beatstart = (beats[i] * m_increment) / m_factor;
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153 size_t beatend = (beats[i+1] * m_increment) / m_factor;
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154 if (beatend >= audioLength) beatend = audioLength - 1;
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155 if (beatend < beatstart) beatend = beatstart;
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156 size_t beatlen = beatend - beatstart;
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157
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158 // Also apply a Hanning window to the beat frame buffer, sized
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159 // to the beat extents rather than the frame size. (Because
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160 // the size varies, it's easier to do this by hand than use
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161 // our Window abstraction.)
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162
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163 float rms = 0;
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164 for (size_t j = 0; j < beatlen; ++j) {
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165 double mul = 0.5 * (1.0 - cos(TWO_PI * (double(j) / double(beatlen))));
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166 m_beatframe[j] = audio[beatstart + j] * mul;
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167 rms += m_beatframe[j] * m_beatframe[j];
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168 }
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169 rms = sqrt(rms);
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170 std::cerr << "beat " << i << ": audio rms " << rms << std::endl;
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171
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172 for (size_t j = beatlen; j < m_beatframesize; ++j) {
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173 m_beatframe[j] = 0.0;
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174 }
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175
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176 // Now FFT beat frame
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177
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178 FFT::process(m_beatframesize, false,
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179 m_beatframe, 0, m_fftRealOut, m_fftImagOut);
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180
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181 // Calculate magnitudes
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182
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183 for (size_t j = 0; j < m_beatframesize/2; ++j) {
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184 newspec[j] = sqrt(m_fftRealOut[j] * m_fftRealOut[j] +
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185 m_fftImagOut[j] * m_fftImagOut[j]);
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186 }
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187
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188 // Preserve peaks by applying adaptive threshold
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189
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190 MathUtilities::adaptiveThreshold(newspec);
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191
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192 // Calculate JS divergence between new and old spectral frames
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193
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194 specdiff.push_back(measureSpecDiff(oldspec, newspec));
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195 // specdiff.push_back(KLDivergence().distanceDistribution(oldspec, newspec, false));
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196
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197 std::cerr << "specdiff: " << specdiff[specdiff.size()-1] << std::endl;
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198
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199 // Copy newspec across to old
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200
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201 for (size_t j = 0; j < m_beatframesize/2; ++j) {
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202 oldspec[j] = newspec[j];
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203 }
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204 }
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205
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206 // We now have all spectral difference measures in specdiff
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207
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208 uint timesig = m_bpb;
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209 if (timesig == 0) timesig = 4;
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210
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211 d_vec_t dbcand(timesig); // downbeat candidates
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212
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213 for (int beat = 0; beat < timesig; ++beat) {
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214 dbcand[beat] = 0;
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215 }
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216
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217 // look for beat transition which leads to greatest spectral change
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218 for (int beat = 0; beat < timesig; ++beat) {
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219 for (int example = beat; example < specdiff.size(); example += timesig) {
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220 dbcand[beat] += (specdiff[example]) / timesig;
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221 }
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222 std::cerr << "dbcand[" << beat << "] = " << dbcand[beat] << std::endl;
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223 }
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224
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225
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226 // first downbeat is beat at index of maximum value of dbcand
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227 int dbind = MathUtilities::getMax(dbcand);
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228
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229 // remaining downbeats are at timesig intervals from the first
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230 for (int i = dbind; i < beats.size(); i += timesig) {
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231 downbeats.push_back(i);
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232 }
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233 }
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234
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235 double
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236 DownBeat::measureSpecDiff(d_vec_t oldspec, d_vec_t newspec)
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237 {
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238 // JENSEN-SHANNON DIVERGENCE BETWEEN SPECTRAL FRAMES
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239
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240 uint SPECSIZE = 512; // ONLY LOOK AT FIRST 512 SAMPLES OF SPECTRUM.
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241 if (SPECSIZE > oldspec.size()/4) {
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242 SPECSIZE = oldspec.size()/4;
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243 }
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244 double SD = 0.;
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245 double sd1 = 0.;
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246
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247 double sumnew = 0.;
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248 double sumold = 0.;
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249
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250 for (uint i = 0;i < SPECSIZE;i++)
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251 {
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252 newspec[i] +=EPS;
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253 oldspec[i] +=EPS;
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254
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255 sumnew+=newspec[i];
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256 sumold+=oldspec[i];
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257 }
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258
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259 for (uint i = 0;i < SPECSIZE;i++)
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260 {
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261 newspec[i] /= (sumnew);
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262 oldspec[i] /= (sumold);
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263
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264 // IF ANY SPECTRAL VALUES ARE 0 (SHOULDN'T BE ANY!) SET THEM TO 1
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265 if (newspec[i] == 0)
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266 {
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267 newspec[i] = 1.;
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268 }
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269
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270 if (oldspec[i] == 0)
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271 {
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272 oldspec[i] = 1.;
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273 }
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274
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275 // JENSEN-SHANNON CALCULATION
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276 sd1 = 0.5*oldspec[i] + 0.5*newspec[i];
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277 SD = SD + (-sd1*log(sd1)) + (0.5*(oldspec[i]*log(oldspec[i]))) + (0.5*(newspec[i]*log(newspec[i])));
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278 }
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279
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280 return SD;
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281 }
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282
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