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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 Vamp feature extraction plugins using Paul Brossier's Aubio 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 2006 Chris Cannam.
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8
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9 This program is free software; you can redistribute it and/or
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10 modify it under the terms of the GNU General Public License as
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11 published by the Free Software Foundation; either version 2 of the
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12 License, or (at your option) any later version. See the file
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13 COPYING included with this distribution for more information.
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14
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15 */
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16
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piem@2
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17 #include <math.h>
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18 #include "Pitch.h"
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19
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20 using std::string;
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21 using std::vector;
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22 using std::cerr;
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23 using std::endl;
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24
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25 static float
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26 getFrequencyForMIDIPitch(int midiPitch)
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27 {
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28 return 440.f * powf(2.0, (float(midiPitch) - 69.0) / 12.0);
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29 }
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30
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31 Pitch::Pitch(float inputSampleRate) :
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32 Plugin(inputSampleRate),
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33 m_ibuf(0),
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cannam@35
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34 m_obuf(0),
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35 m_pitchdet(0),
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36 m_pitchtype(PitchYinFFT),
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37 m_minfreq(getFrequencyForMIDIPitch(32)),
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38 m_maxfreq(getFrequencyForMIDIPitch(95)),
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39 m_silence(-90),
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40 m_wrapRange(false),
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41 m_stepSize(0),
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cannam@32
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42 m_blockSize(0)
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cannam@0
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43 {
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44 }
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45
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46 Pitch::~Pitch()
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47 {
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48 if (m_pitchdet) del_aubio_pitch(m_pitchdet);
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49 if (m_ibuf) del_fvec(m_ibuf);
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cannam@33
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50 if (m_obuf) del_fvec(m_obuf);
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51 }
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52
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53 string
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54 Pitch::getIdentifier() const
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55 {
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56 return "aubiopitch";
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57 }
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58
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59 string
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60 Pitch::getName() const
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61 {
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62 return "Aubio Pitch Detector";
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cannam@13
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63 }
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64
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65 string
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66 Pitch::getDescription() const
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67 {
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cannam@13
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68 return "Track estimated note pitches";
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69 }
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70
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71 string
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72 Pitch::getMaker() const
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73 {
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74 return "Paul Brossier (plugin by Chris Cannam)";
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75 }
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76
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77 int
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78 Pitch::getPluginVersion() const
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79 {
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cannam@31
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80 return 3;
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81 }
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82
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83 string
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84 Pitch::getCopyright() const
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85 {
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86 return "GPL";
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87 }
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88
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89 bool
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90 Pitch::initialise(size_t channels, size_t stepSize, size_t blockSize)
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91 {
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cannam@32
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92 if (channels != 1) {
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93 std::cerr << "Pitch::initialise: channels must be 1" << std::endl;
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94 return false;
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cannam@32
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95 }
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cannam@32
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96
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97 m_stepSize = stepSize;
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98 m_blockSize = blockSize;
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99
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100 m_ibuf = new_fvec(stepSize);
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101 m_obuf = new_fvec(1);
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102
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103 m_pitchdet = new_aubio_pitch
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104 (const_cast<char *>(getAubioNameForPitchType(m_pitchtype)),
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105 blockSize,
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106 stepSize,
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107 lrintf(m_inputSampleRate));
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108
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109 aubio_pitch_set_unit(m_pitchdet, const_cast<char *>("freq"));
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110
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111 return true;
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112 }
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113
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114 void
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115 Pitch::reset()
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116 {
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117 }
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118
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119 size_t
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120 Pitch::getPreferredStepSize() const
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121 {
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122 return 512;
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123 }
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124
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125 size_t
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126 Pitch::getPreferredBlockSize() const
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127 {
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128 return 2048;
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129 }
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130
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131 Pitch::ParameterList
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132 Pitch::getParameterDescriptors() const
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133 {
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134 ParameterList list;
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135
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136 ParameterDescriptor desc;
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137 desc.identifier = "pitchtype";
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138 desc.name = "Pitch Detection Function Type";
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139 desc.minValue = 0;
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140 desc.maxValue = 4;
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141 desc.defaultValue = (int)PitchYinFFT;
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142 desc.isQuantized = true;
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143 desc.quantizeStep = 1;
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144 desc.valueNames.push_back("YIN Frequency Estimator");
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145 desc.valueNames.push_back("Spectral Comb");
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146 desc.valueNames.push_back("Schmitt");
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147 desc.valueNames.push_back("Fast Harmonic Comb");
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148 desc.valueNames.push_back("YIN with FFT");
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149 list.push_back(desc);
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150
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151 desc = ParameterDescriptor();
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152 desc.identifier = "minfreq";
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153 desc.name = "Minimum Fundamental Frequency";
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154 desc.minValue = 1;
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155 desc.maxValue = m_inputSampleRate/2;
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156 desc.defaultValue = getFrequencyForMIDIPitch(32);
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157 desc.unit = "Hz";
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158 desc.isQuantized = false;
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159 list.push_back(desc);
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160
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161 desc = ParameterDescriptor();
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162 desc.identifier = "maxfreq";
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163 desc.name = "Maximum Fundamental Frequency";
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164 desc.minValue = 1;
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165 desc.maxValue = m_inputSampleRate/2;
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166 desc.defaultValue = getFrequencyForMIDIPitch(95);
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167 desc.unit = "Hz";
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168 desc.isQuantized = false;
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169 list.push_back(desc);
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170
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171 desc = ParameterDescriptor();
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172 desc.identifier = "wraprange";
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173 desc.name = "Fold Higher or Lower Frequencies into Range";
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174 desc.minValue = 0;
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175 desc.maxValue = 1;
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176 desc.defaultValue = 0;
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177 desc.isQuantized = true;
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178 desc.quantizeStep = 1;
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179 list.push_back(desc);
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180
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181 desc = ParameterDescriptor();
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182 desc.identifier = "silencethreshold";
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183 desc.name = "Silence Threshold";
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184 desc.minValue = -120;
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185 desc.maxValue = 0;
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186 desc.defaultValue = -90;
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187 desc.unit = "dB";
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188 desc.isQuantized = false;
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189 list.push_back(desc);
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190
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191 return list;
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192 }
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193
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194 float
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195 Pitch::getParameter(std::string param) const
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196 {
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197 if (param == "pitchtype") {
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198 return m_pitchtype;
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cannam@23
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199 } else if (param == "minfreq") {
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cannam@23
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200 return m_minfreq;
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cannam@23
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201 } else if (param == "maxfreq") {
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202 return m_maxfreq;
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cannam@23
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203 } else if (param == "wraprange") {
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cannam@23
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204 return m_wrapRange ? 1.0 : 0.0;
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cannam@23
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205 } else if (param == "silencethreshold") {
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206 return m_silence;
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207 } else {
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208 return 0.0;
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209 }
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210 }
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211
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212 void
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213 Pitch::setParameter(std::string param, float value)
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214 {
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215 if (param == "pitchtype") {
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216 switch (lrintf(value)) {
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cannam@33
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217 case 0: m_pitchtype = PitchYin; break;
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218 case 1: m_pitchtype = PitchMComb; break;
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219 case 2: m_pitchtype = PitchSchmitt; break;
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220 case 3: m_pitchtype = PitchFComb; break;
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221 case 4: m_pitchtype = PitchYinFFT; break;
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222 }
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223 } else if (param == "minfreq") {
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224 m_minfreq = value;
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cannam@23
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225 } else if (param == "maxfreq") {
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226 m_maxfreq = value;
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cannam@23
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227 } else if (param == "wraprange") {
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228 m_wrapRange = (value > 0.5);
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cannam@23
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229 } else if (param == "silencethreshold") {
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230 m_silence = value;
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231 }
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232 }
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233
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234 Pitch::OutputList
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235 Pitch::getOutputDescriptors() const
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236 {
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237 OutputList list;
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238
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239 OutputDescriptor d;
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240 d.identifier = "frequency";
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241 d.name = "Fundamental Frequency";
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242 d.unit = "Hz";
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243 d.hasFixedBinCount = true;
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244 d.binCount = 1;
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245 d.hasKnownExtents = false;
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246 d.isQuantized = false;
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247 d.sampleType = OutputDescriptor::VariableSampleRate;
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248 d.sampleRate = 0;
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249 if (m_stepSize != 0) {
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cannam@23
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250 d.sampleRate = m_inputSampleRate / m_stepSize;
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cannam@23
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251 }
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252 list.push_back(d);
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253
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254 return list;
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255 }
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256
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257 Pitch::FeatureSet
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258 Pitch::process(const float *const *inputBuffers,
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cannam@23
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259 Vamp::RealTime timestamp)
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cannam@0
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260 {
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261 FeatureSet returnFeatures;
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cannam@23
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262
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263 if (m_stepSize == 0) {
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cannam@23
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264 std::cerr << "Pitch::process: Pitch plugin not initialised" << std::endl;
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cannam@23
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265 return returnFeatures;
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cannam@23
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266 }
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cannam@23
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267
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268 for (size_t i = 0; i < m_stepSize; ++i) {
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cannam@33
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269 fvec_write_sample(m_ibuf, inputBuffers[0][i], i);
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cannam@0
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270 }
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cannam@0
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271
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cannam@33
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272 aubio_pitch_do(m_pitchdet, m_ibuf, m_obuf);
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cannam@33
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273
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cannam@33
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274 float freq = m_obuf->data[0];
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cannam@23
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275
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cannam@23
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276 bool silent = aubio_silence_detection(m_ibuf, m_silence);
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cannam@23
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277 if (silent) {
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cannam@23
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278 // std::cerr << "(silent)" << std::endl;
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cannam@23
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279 return returnFeatures;
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cannam@23
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280 }
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cannam@23
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281
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cannam@23
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282 if (m_wrapRange) {
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cannam@23
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283 while (freq > 0 && freq < m_minfreq) {
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cannam@23
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284 freq = freq * 2.0;
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cannam@23
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285 }
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cannam@23
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286 while (freq > m_maxfreq) {
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cannam@23
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287 freq = freq / 2.0;
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cannam@23
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288 }
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cannam@23
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289 }
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cannam@23
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290
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cannam@23
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291 if (freq < m_minfreq || freq > m_maxfreq) {
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cannam@23
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292 return returnFeatures;
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cannam@23
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293 }
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cannam@0
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294
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cannam@0
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295 Feature feature;
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cannam@23
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296 feature.hasTimestamp = true;
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cannam@23
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297 feature.timestamp = timestamp;
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cannam@23
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298 feature.values.push_back(freq);
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cannam@0
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299
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cannam@0
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300 returnFeatures[0].push_back(feature);
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cannam@0
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301 return returnFeatures;
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cannam@0
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302 }
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cannam@0
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303
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cannam@0
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304 Pitch::FeatureSet
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cannam@0
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305 Pitch::getRemainingFeatures()
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cannam@0
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306 {
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cannam@0
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307 return FeatureSet();
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cannam@0
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308 }
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cannam@0
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309
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