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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 Silvet
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5
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6 A Vamp plugin for note transcription.
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7 Centre for Digital Music, Queen Mary University of London.
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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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Chris@31
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16 #include "Silvet.h"
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Chris@34
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17 #include "EM.h"
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18
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Chris@152
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19 #include <cq/CQSpectrogram.h>
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20
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Chris@152
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21 #include "MedianFilter.h"
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Chris@152
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22 #include "constant-q-cpp/src/dsp/Resampler.h"
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23
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24 #include <vector>
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25
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Chris@32
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26 #include <cstdio>
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Chris@32
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27
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28 using std::vector;
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Chris@48
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29 using std::cout;
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30 using std::cerr;
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Chris@31
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31 using std::endl;
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Chris@40
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32 using Vamp::RealTime;
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33
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Chris@31
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34 static int processingSampleRate = 44100;
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35 static int processingBPO = 60;
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Chris@170
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36
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Chris@31
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37 Silvet::Silvet(float inputSampleRate) :
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38 Plugin(inputSampleRate),
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39 m_instruments(InstrumentPack::listInstrumentPacks()),
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40 m_resampler(0),
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Chris@110
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41 m_cq(0),
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Chris@162
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42 m_hqMode(true),
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Chris@166
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43 m_fineTuning(false),
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Chris@178
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44 m_instrument(0),
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Chris@178
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45 m_colsPerSec(50)
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Chris@31
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46 {
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Chris@31
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47 }
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48
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49 Silvet::~Silvet()
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50 {
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Chris@31
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51 delete m_resampler;
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52 delete m_cq;
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Chris@41
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53 for (int i = 0; i < (int)m_postFilter.size(); ++i) {
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Chris@41
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54 delete m_postFilter[i];
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Chris@41
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55 }
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Chris@31
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56 }
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57
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58 string
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59 Silvet::getIdentifier() const
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Chris@31
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60 {
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Chris@31
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61 return "silvet";
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62 }
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63
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64 string
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65 Silvet::getName() const
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66 {
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67 return "Silvet Note Transcription";
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68 }
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69
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70 string
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71 Silvet::getDescription() const
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Chris@31
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72 {
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Chris@191
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73 return "Estimate the note onsets, pitches, and durations that make up a music recording.";
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74 }
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75
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76 string
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77 Silvet::getMaker() const
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Chris@31
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78 {
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Chris@191
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79 return "Queen Mary, University of London";
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80 }
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81
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82 int
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83 Silvet::getPluginVersion() const
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Chris@31
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84 {
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Chris@31
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85 return 1;
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Chris@31
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86 }
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87
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88 string
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89 Silvet::getCopyright() const
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Chris@31
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90 {
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Chris@191
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91 return "Method by Emmanouil Benetos and Simon Dixon; plugin by Chris Cannam and Emmanouil Benetos. GPL licence.";
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92 }
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93
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94 Silvet::InputDomain
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95 Silvet::getInputDomain() const
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Chris@31
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96 {
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Chris@31
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97 return TimeDomain;
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98 }
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Chris@31
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99
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100 size_t
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101 Silvet::getPreferredBlockSize() const
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Chris@31
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102 {
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Chris@31
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103 return 0;
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104 }
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105
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106 size_t
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107 Silvet::getPreferredStepSize() const
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Chris@31
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108 {
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Chris@31
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109 return 0;
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Chris@31
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110 }
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111
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112 size_t
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113 Silvet::getMinChannelCount() const
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114 {
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Chris@31
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115 return 1;
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116 }
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117
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118 size_t
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119 Silvet::getMaxChannelCount() const
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120 {
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Chris@31
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121 return 1;
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122 }
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123
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124 Silvet::ParameterList
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125 Silvet::getParameterDescriptors() const
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126 {
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127 ParameterList list;
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Chris@110
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128
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129 ParameterDescriptor desc;
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Chris@110
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130 desc.identifier = "mode";
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Chris@110
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131 desc.name = "Processing mode";
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132 desc.unit = "";
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133 desc.description = "Determines the tradeoff of processing speed against transcription quality";
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134 desc.minValue = 0;
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Chris@110
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135 desc.maxValue = 1;
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Chris@113
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136 desc.defaultValue = 1;
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137 desc.isQuantized = true;
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138 desc.quantizeStep = 1;
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Chris@166
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139 desc.valueNames.push_back("Draft (faster)");
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140 desc.valueNames.push_back("Intensive (higher quality)");
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141 list.push_back(desc);
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142
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143 desc.identifier = "instrument";
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144 desc.name = "Instrument";
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145 desc.unit = "";
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Chris@162
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146 desc.description = "The instrument known to be present in the recording, if there is only one";
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147 desc.minValue = 0;
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Chris@162
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148 desc.maxValue = m_instruments.size()-1;
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149 desc.defaultValue = 0;
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150 desc.isQuantized = true;
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151 desc.quantizeStep = 1;
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152 desc.valueNames.clear();
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Chris@162
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153 for (int i = 0; i < int(m_instruments.size()); ++i) {
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154 desc.valueNames.push_back(m_instruments[i].name);
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155 }
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156 list.push_back(desc);
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157
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158 desc.identifier = "finetune";
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159 desc.name = "Return fine pitch estimates";
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160 desc.unit = "";
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161 desc.description = "Return pitch estimates at finer than semitone resolution (works only in Intensive mode)";
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162 desc.minValue = 0;
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163 desc.maxValue = 1;
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164 desc.defaultValue = 0;
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165 desc.isQuantized = true;
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166 desc.quantizeStep = 1;
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167 desc.valueNames.clear();
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168 list.push_back(desc);
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169
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170 return list;
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171 }
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172
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173 float
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174 Silvet::getParameter(string identifier) const
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175 {
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Chris@110
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176 if (identifier == "mode") {
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Chris@110
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177 return m_hqMode ? 1.f : 0.f;
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Chris@166
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178 } else if (identifier == "finetune") {
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179 return m_fineTuning ? 1.f : 0.f;
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Chris@176
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180 } else if (identifier == "instrument") {
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Chris@162
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181 return m_instrument;
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Chris@110
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182 }
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183 return 0;
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184 }
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185
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186 void
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Chris@31
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187 Silvet::setParameter(string identifier, float value)
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188 {
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Chris@110
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189 if (identifier == "mode") {
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Chris@110
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190 m_hqMode = (value > 0.5);
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Chris@166
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191 } else if (identifier == "finetune") {
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192 m_fineTuning = (value > 0.5);
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Chris@176
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193 } else if (identifier == "instrument") {
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194 m_instrument = lrintf(value);
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Chris@110
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195 }
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196 }
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197
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198 Silvet::ProgramList
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199 Silvet::getPrograms() const
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200 {
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201 ProgramList list;
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202 return list;
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203 }
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204
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205 string
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206 Silvet::getCurrentProgram() const
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207 {
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208 return "";
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209 }
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210
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211 void
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Chris@31
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212 Silvet::selectProgram(string name)
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213 {
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214 }
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215
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216 Silvet::OutputList
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217 Silvet::getOutputDescriptors() const
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218 {
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219 OutputList list;
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220
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221 OutputDescriptor d;
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222 d.identifier = "notes";
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223 d.name = "Note transcription";
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224 d.description = "Overall note transcription across selected instruments";
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Chris@41
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225 d.unit = "Hz";
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226 d.hasFixedBinCount = true;
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227 d.binCount = 2;
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228 d.binNames.push_back("Frequency");
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229 d.binNames.push_back("Velocity");
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230 d.hasKnownExtents = false;
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231 d.isQuantized = false;
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232 d.sampleType = OutputDescriptor::VariableSampleRate;
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Chris@51
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233 d.sampleRate = m_inputSampleRate / (m_cq ? m_cq->getColumnHop() : 62);
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234 d.hasDuration = true;
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235 m_notesOutputNo = list.size();
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Chris@32
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236 list.push_back(d);
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Chris@32
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237
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Chris@178
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238 d.identifier = "timefreq";
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Chris@178
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239 d.name = "Time-frequency distribution";
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Chris@178
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240 d.description = "Filtered constant-Q time-frequency distribution used as input to the expectation-maximisation algorithm";
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Chris@178
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241 d.unit = "";
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Chris@178
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242 d.hasFixedBinCount = true;
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Chris@178
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243 d.binCount = m_instruments[0].templateHeight;
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Chris@178
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244 d.binNames.clear();
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Chris@178
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245 if (m_cq) {
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Chris@178
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246 char name[20];
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Chris@178
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247 for (int i = 0; i < m_instruments[0].templateHeight; ++i) {
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Chris@178
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248 // We have a 600-bin (10 oct 60-bin CQ) of which the
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Chris@178
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249 // lowest-frequency 55 bins have been dropped, for a
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Chris@178
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250 // 545-bin template. The native CQ bins go high->low
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Chris@178
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251 // frequency though, so these are still the first 545 bins
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Chris@178
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252 // as reported by getBinFrequency, though in reverse order
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Chris@178
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253 float freq = m_cq->getBinFrequency
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Chris@178
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254 (m_instruments[0].templateHeight - i - 1);
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Chris@178
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255 sprintf(name, "%.1f Hz", freq);
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Chris@178
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256 d.binNames.push_back(name);
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Chris@178
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257 }
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Chris@178
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258 }
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Chris@178
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259 d.hasKnownExtents = false;
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Chris@178
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260 d.isQuantized = false;
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Chris@178
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261 d.sampleType = OutputDescriptor::FixedSampleRate;
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Chris@178
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262 d.sampleRate = m_colsPerSec;
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Chris@178
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263 d.hasDuration = false;
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Chris@178
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264 m_fcqOutputNo = list.size();
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Chris@178
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265 list.push_back(d);
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Chris@178
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266
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267 return list;
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Chris@31
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268 }
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Chris@31
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269
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Chris@38
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270 std::string
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Chris@175
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271 Silvet::noteName(int note, int shift, int shiftCount) const
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Chris@38
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272 {
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Chris@38
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273 static const char *names[] = {
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Chris@38
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274 "A", "A#", "B", "C", "C#", "D", "D#", "E", "F", "F#", "G", "G#"
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Chris@38
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275 };
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Chris@38
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276
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Chris@175
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277 const char *n = names[note % 12];
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Chris@38
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278
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Chris@175
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279 int oct = (note + 9) / 12;
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Chris@38
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280
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Chris@175
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281 char buf[30];
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Chris@175
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282
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Chris@175
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283 float pshift = 0.f;
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Chris@175
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284 if (shiftCount > 1) {
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Chris@175
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285 // see noteFrequency below
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Chris@175
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286 pshift =
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Chris@175
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287 float((shiftCount - shift) - int(shiftCount / 2) - 1) / shiftCount;
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Chris@175
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288 }
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Chris@175
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289
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Chris@175
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290 if (pshift > 0.f) {
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Chris@175
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291 sprintf(buf, "%s%d+%dc", n, oct, int(round(pshift * 100)));
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Chris@175
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292 } else if (pshift < 0.f) {
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Chris@175
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293 sprintf(buf, "%s%d-%dc", n, oct, int(round((-pshift) * 100)));
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Chris@175
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294 } else {
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Chris@175
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295 sprintf(buf, "%s%d", n, oct);
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Chris@175
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296 }
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Chris@38
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297
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Chris@38
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298 return buf;
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Chris@38
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299 }
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Chris@38
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300
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Chris@41
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301 float
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Chris@168
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302 Silvet::noteFrequency(int note, int shift, int shiftCount) const
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Chris@41
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303 {
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Chris@169
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304 // Convert shift number to a pitch shift. The given shift number
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Chris@169
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305 // is an offset into the template array, which starts with some
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Chris@169
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306 // zeros, followed by the template, then some trailing zeros.
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Chris@169
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307 //
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Chris@169
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308 // Example: if we have templateMaxShift == 2 and thus shiftCount
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Chris@169
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309 // == 5, then the number will be in the range 0-4 and the template
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Chris@169
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310 // will have 2 zeros at either end. Thus number 2 represents the
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Chris@169
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311 // template "as recorded", for a pitch shift of 0; smaller indices
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Chris@169
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312 // represent moving the template *up* in pitch (by introducing
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Chris@169
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313 // zeros at the start, which is the low-frequency end), for a
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Chris@169
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314 // positive pitch shift; and higher values represent moving it
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Chris@169
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315 // down in pitch, for a negative pitch shift.
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Chris@169
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316
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Chris@175
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317 float pshift = 0.f;
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Chris@175
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318 if (shiftCount > 1) {
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Chris@175
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319 pshift =
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Chris@175
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320 float((shiftCount - shift) - int(shiftCount / 2) - 1) / shiftCount;
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Chris@175
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321 }
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Chris@169
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322
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Chris@169
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323 return float(27.5 * pow(2.0, (note + pshift) / 12.0));
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Chris@41
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324 }
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Chris@41
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325
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Chris@31
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326 bool
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Chris@31
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327 Silvet::initialise(size_t channels, size_t stepSize, size_t blockSize)
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Chris@31
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328 {
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Chris@31
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329 if (channels < getMinChannelCount() ||
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Chris@31
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330 channels > getMaxChannelCount()) return false;
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Chris@31
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331
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Chris@31
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332 if (stepSize != blockSize) {
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Chris@31
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333 cerr << "Silvet::initialise: Step size must be the same as block size ("
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Chris@31
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334 << stepSize << " != " << blockSize << ")" << endl;
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Chris@31
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335 return false;
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Chris@31
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336 }
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Chris@31
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337
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Chris@31
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338 m_blockSize = blockSize;
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Chris@31
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339
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Chris@31
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340 reset();
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Chris@31
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341
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Chris@31
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342 return true;
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Chris@31
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343 }
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Chris@31
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344
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Chris@31
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345 void
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Chris@31
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346 Silvet::reset()
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Chris@31
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347 {
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Chris@31
|
348 delete m_resampler;
|
|
Chris@31
|
349 delete m_cq;
|
|
Chris@31
|
350
|
|
Chris@31
|
351 if (m_inputSampleRate != processingSampleRate) {
|
|
Chris@31
|
352 m_resampler = new Resampler(m_inputSampleRate, processingSampleRate);
|
|
Chris@31
|
353 } else {
|
|
Chris@31
|
354 m_resampler = 0;
|
|
Chris@31
|
355 }
|
|
Chris@31
|
356
|
|
Chris@173
|
357 double minFreq = 27.5;
|
|
Chris@173
|
358
|
|
Chris@173
|
359 if (!m_hqMode) {
|
|
Chris@173
|
360 // We don't actually return any notes from the bottom octave,
|
|
Chris@173
|
361 // so we can just pad with zeros
|
|
Chris@173
|
362 minFreq *= 2;
|
|
Chris@173
|
363 }
|
|
Chris@173
|
364
|
|
Chris@154
|
365 CQParameters params(processingSampleRate,
|
|
Chris@173
|
366 minFreq,
|
|
Chris@154
|
367 processingSampleRate / 3,
|
|
Chris@154
|
368 processingBPO);
|
|
Chris@154
|
369
|
|
Chris@155
|
370 params.q = 0.95; // MIREX code uses 0.8, but it seems 0.9 or lower
|
|
Chris@155
|
371 // drops the FFT size to 512 from 1024 and alters
|
|
Chris@155
|
372 // some other processing parameters, making
|
|
Chris@155
|
373 // everything much, much slower. Could be a flaw
|
|
Chris@155
|
374 // in the CQ parameter calculations, must check
|
|
Chris@154
|
375 params.atomHopFactor = 0.3;
|
|
Chris@154
|
376 params.threshold = 0.0005;
|
|
Chris@172
|
377 params.window = CQParameters::Hann;
|
|
Chris@154
|
378
|
|
Chris@154
|
379 m_cq = new CQSpectrogram(params, CQSpectrogram::InterpolateLinear);
|
|
Chris@31
|
380
|
|
Chris@165
|
381 m_colsPerSec = m_hqMode ? 50 : 25;
|
|
Chris@165
|
382
|
|
Chris@41
|
383 for (int i = 0; i < (int)m_postFilter.size(); ++i) {
|
|
Chris@41
|
384 delete m_postFilter[i];
|
|
Chris@41
|
385 }
|
|
Chris@41
|
386 m_postFilter.clear();
|
|
Chris@176
|
387 for (int i = 0; i < m_instruments[0].templateNoteCount; ++i) {
|
|
Chris@41
|
388 m_postFilter.push_back(new MedianFilter<double>(3));
|
|
Chris@41
|
389 }
|
|
Chris@41
|
390 m_pianoRoll.clear();
|
|
Chris@32
|
391 m_columnCount = 0;
|
|
Chris@40
|
392 m_startTime = RealTime::zeroTime;
|
|
Chris@215
|
393 m_signalMax = 0.0;
|
|
Chris@31
|
394 }
|
|
Chris@31
|
395
|
|
Chris@31
|
396 Silvet::FeatureSet
|
|
Chris@31
|
397 Silvet::process(const float *const *inputBuffers, Vamp::RealTime timestamp)
|
|
Chris@31
|
398 {
|
|
Chris@40
|
399 if (m_columnCount == 0) {
|
|
Chris@40
|
400 m_startTime = timestamp;
|
|
Chris@40
|
401 }
|
|
Chris@40
|
402
|
|
Chris@31
|
403 vector<double> data;
|
|
Chris@40
|
404 for (int i = 0; i < m_blockSize; ++i) {
|
|
Chris@215
|
405 double d = inputBuffers[0][i];
|
|
Chris@215
|
406 if (fabs(d) > m_signalMax) {
|
|
Chris@215
|
407 m_signalMax = fabs(d);
|
|
Chris@215
|
408 }
|
|
Chris@215
|
409 }
|
|
Chris@215
|
410 for (int i = 0; i < m_blockSize; ++i) {
|
|
Chris@215
|
411 double d = inputBuffers[0][i];
|
|
Chris@215
|
412 if (m_signalMax > 0.0) {
|
|
Chris@215
|
413 data.push_back(d / m_signalMax * 0.5);
|
|
Chris@215
|
414 } else {
|
|
Chris@215
|
415 data.push_back(0.0);
|
|
Chris@215
|
416 }
|
|
Chris@40
|
417 }
|
|
Chris@31
|
418
|
|
Chris@31
|
419 if (m_resampler) {
|
|
Chris@31
|
420 data = m_resampler->process(data.data(), data.size());
|
|
Chris@31
|
421 }
|
|
Chris@31
|
422
|
|
Chris@32
|
423 Grid cqout = m_cq->process(data);
|
|
Chris@51
|
424 FeatureSet fs = transcribe(cqout);
|
|
Chris@51
|
425 return fs;
|
|
Chris@34
|
426 }
|
|
Chris@34
|
427
|
|
Chris@34
|
428 Silvet::FeatureSet
|
|
Chris@34
|
429 Silvet::getRemainingFeatures()
|
|
Chris@34
|
430 {
|
|
Chris@145
|
431 Grid cqout = m_cq->getRemainingOutput();
|
|
Chris@51
|
432 FeatureSet fs = transcribe(cqout);
|
|
Chris@51
|
433 return fs;
|
|
Chris@34
|
434 }
|
|
Chris@34
|
435
|
|
Chris@34
|
436 Silvet::FeatureSet
|
|
Chris@34
|
437 Silvet::transcribe(const Grid &cqout)
|
|
Chris@34
|
438 {
|
|
Chris@32
|
439 Grid filtered = preProcess(cqout);
|
|
Chris@31
|
440
|
|
Chris@32
|
441 FeatureSet fs;
|
|
Chris@32
|
442
|
|
Chris@104
|
443 if (filtered.empty()) return fs;
|
|
Chris@170
|
444
|
|
Chris@170
|
445 const InstrumentPack &pack = m_instruments[m_instrument];
|
|
Chris@104
|
446
|
|
Chris@178
|
447 for (int i = 0; i < (int)filtered.size(); ++i) {
|
|
Chris@178
|
448 Feature f;
|
|
Chris@178
|
449 for (int j = 0; j < pack.templateHeight; ++j) {
|
|
Chris@178
|
450 f.values.push_back(float(filtered[i][j]));
|
|
Chris@178
|
451 }
|
|
Chris@178
|
452 fs[m_fcqOutputNo].push_back(f);
|
|
Chris@178
|
453 }
|
|
Chris@178
|
454
|
|
Chris@34
|
455 int width = filtered.size();
|
|
Chris@34
|
456
|
|
Chris@164
|
457 int iterations = m_hqMode ? 20 : 10;
|
|
Chris@34
|
458
|
|
Chris@170
|
459 //!!! pitches or notes? [terminology]
|
|
Chris@176
|
460 Grid localPitches(width, vector<double>(pack.templateNoteCount, 0.0));
|
|
Chris@170
|
461
|
|
Chris@170
|
462 bool wantShifts = m_hqMode && m_fineTuning;
|
|
Chris@170
|
463 int shiftCount = 1;
|
|
Chris@170
|
464 if (wantShifts) {
|
|
Chris@170
|
465 shiftCount = pack.templateMaxShift * 2 + 1;
|
|
Chris@170
|
466 }
|
|
Chris@170
|
467
|
|
Chris@170
|
468 vector<vector<int> > localBestShifts;
|
|
Chris@170
|
469 if (wantShifts) {
|
|
Chris@170
|
470 localBestShifts =
|
|
Chris@176
|
471 vector<vector<int> >(width, vector<int>(pack.templateNoteCount, 0));
|
|
Chris@170
|
472 }
|
|
Chris@170
|
473
|
|
Chris@170
|
474 vector<bool> present(width, false);
|
|
Chris@37
|
475
|
|
Chris@123
|
476 #pragma omp parallel for
|
|
Chris@123
|
477 for (int i = 0; i < width; ++i) {
|
|
Chris@104
|
478
|
|
Chris@170
|
479 double sum = 0.0;
|
|
Chris@176
|
480 for (int j = 0; j < pack.templateHeight; ++j) {
|
|
Chris@170
|
481 sum += filtered.at(i).at(j);
|
|
Chris@170
|
482 }
|
|
Chris@170
|
483 if (sum < 1e-5) continue;
|
|
Chris@170
|
484
|
|
Chris@170
|
485 present[i] = true;
|
|
Chris@170
|
486
|
|
Chris@170
|
487 EM em(&pack, m_hqMode);
|
|
Chris@170
|
488
|
|
Chris@183
|
489 em.setPitchSparsity(pack.pitchSparsity);
|
|
Chris@213
|
490 em.setSourceSparsity(pack.sourceSparsity);
|
|
Chris@183
|
491
|
|
Chris@170
|
492 for (int j = 0; j < iterations; ++j) {
|
|
Chris@170
|
493 em.iterate(filtered.at(i).data());
|
|
Chris@37
|
494 }
|
|
Chris@37
|
495
|
|
Chris@170
|
496 const float *pitchDist = em.getPitchDistribution();
|
|
Chris@170
|
497 const float *const *shiftDist = em.getShifts();
|
|
Chris@37
|
498
|
|
Chris@176
|
499 for (int j = 0; j < pack.templateNoteCount; ++j) {
|
|
Chris@104
|
500
|
|
Chris@170
|
501 localPitches[i][j] = pitchDist[j] * sum;
|
|
Chris@170
|
502
|
|
Chris@170
|
503 int bestShift = 0;
|
|
Chris@179
|
504 float bestShiftValue = 0.0;
|
|
Chris@170
|
505 if (wantShifts) {
|
|
Chris@170
|
506 for (int k = 0; k < shiftCount; ++k) {
|
|
Chris@179
|
507 float value = shiftDist[k][j];
|
|
Chris@179
|
508 if (k == 0 || value > bestShiftValue) {
|
|
Chris@179
|
509 bestShiftValue = value;
|
|
Chris@170
|
510 bestShift = k;
|
|
Chris@170
|
511 }
|
|
Chris@170
|
512 }
|
|
Chris@170
|
513 localBestShifts[i][j] = bestShift;
|
|
Chris@170
|
514 }
|
|
Chris@123
|
515 }
|
|
Chris@123
|
516 }
|
|
Chris@166
|
517
|
|
Chris@166
|
518 for (int i = 0; i < width; ++i) {
|
|
Chris@37
|
519
|
|
Chris@170
|
520 if (!present[i]) {
|
|
Chris@170
|
521 // silent column
|
|
Chris@176
|
522 for (int j = 0; j < pack.templateNoteCount; ++j) {
|
|
Chris@170
|
523 m_postFilter[j]->push(0.0);
|
|
Chris@170
|
524 }
|
|
Chris@168
|
525 m_pianoRoll.push_back(map<int, double>());
|
|
Chris@170
|
526 if (wantShifts) {
|
|
Chris@168
|
527 m_pianoRollShifts.push_back(map<int, int>());
|
|
Chris@168
|
528 }
|
|
Chris@166
|
529 continue;
|
|
Chris@166
|
530 }
|
|
Chris@166
|
531
|
|
Chris@170
|
532 postProcess(localPitches[i], localBestShifts[i], wantShifts);
|
|
Chris@166
|
533
|
|
Chris@168
|
534 FeatureList noteFeatures = noteTrack(shiftCount);
|
|
Chris@38
|
535
|
|
Chris@123
|
536 for (FeatureList::const_iterator fi = noteFeatures.begin();
|
|
Chris@123
|
537 fi != noteFeatures.end(); ++fi) {
|
|
Chris@123
|
538 fs[m_notesOutputNo].push_back(*fi);
|
|
Chris@40
|
539 }
|
|
Chris@34
|
540 }
|
|
Chris@34
|
541
|
|
Chris@32
|
542 return fs;
|
|
Chris@31
|
543 }
|
|
Chris@31
|
544
|
|
Chris@32
|
545 Silvet::Grid
|
|
Chris@32
|
546 Silvet::preProcess(const Grid &in)
|
|
Chris@32
|
547 {
|
|
Chris@32
|
548 int width = in.size();
|
|
Chris@32
|
549
|
|
Chris@165
|
550 int spacing = processingSampleRate / m_colsPerSec;
|
|
Chris@32
|
551
|
|
Chris@165
|
552 // need to be careful that col spacing is an integer number of samples!
|
|
Chris@165
|
553 assert(spacing * m_colsPerSec == processingSampleRate);
|
|
Chris@32
|
554
|
|
Chris@32
|
555 Grid out;
|
|
Chris@32
|
556
|
|
Chris@58
|
557 // We count the CQ latency in terms of processing hops, but
|
|
Chris@58
|
558 // actually it probably isn't an exact number of hops so this
|
|
Chris@58
|
559 // isn't quite accurate. But the small constant offset is
|
|
Chris@165
|
560 // practically irrelevant compared to the jitter from the frame
|
|
Chris@165
|
561 // size we reduce to in a moment
|
|
Chris@33
|
562 int latentColumns = m_cq->getLatency() / m_cq->getColumnHop();
|
|
Chris@33
|
563
|
|
Chris@176
|
564 const InstrumentPack &pack = m_instruments[m_instrument];
|
|
Chris@176
|
565
|
|
Chris@32
|
566 for (int i = 0; i < width; ++i) {
|
|
Chris@32
|
567
|
|
Chris@33
|
568 if (m_columnCount < latentColumns) {
|
|
Chris@33
|
569 ++m_columnCount;
|
|
Chris@33
|
570 continue;
|
|
Chris@33
|
571 }
|
|
Chris@33
|
572
|
|
Chris@32
|
573 int prevSampleNo = (m_columnCount - 1) * m_cq->getColumnHop();
|
|
Chris@32
|
574 int sampleNo = m_columnCount * m_cq->getColumnHop();
|
|
Chris@32
|
575
|
|
Chris@32
|
576 bool select = (sampleNo / spacing != prevSampleNo / spacing);
|
|
Chris@32
|
577
|
|
Chris@32
|
578 if (select) {
|
|
Chris@32
|
579 vector<double> inCol = in[i];
|
|
Chris@176
|
580 vector<double> outCol(pack.templateHeight);
|
|
Chris@32
|
581
|
|
Chris@178
|
582 // In HQ mode, the CQ returns 600 bins and we ignore the
|
|
Chris@178
|
583 // lowest 55 of them.
|
|
Chris@178
|
584 //
|
|
Chris@178
|
585 // In draft mode the CQ is an octave shorter, returning
|
|
Chris@178
|
586 // 540 bins, so we instead pad them with an additional 5
|
|
Chris@178
|
587 // zeros.
|
|
Chris@178
|
588 //
|
|
Chris@178
|
589 // We also need to reverse the column as we go, since the
|
|
Chris@178
|
590 // raw CQ has the high frequencies first and we need it
|
|
Chris@178
|
591 // the other way around.
|
|
Chris@32
|
592
|
|
Chris@178
|
593 if (m_hqMode) {
|
|
Chris@178
|
594 for (int j = 0; j < pack.templateHeight; ++j) {
|
|
Chris@178
|
595 int ix = inCol.size() - j - 55;
|
|
Chris@178
|
596 outCol[j] = inCol[ix];
|
|
Chris@178
|
597 }
|
|
Chris@178
|
598 } else {
|
|
Chris@178
|
599 for (int j = 0; j < 5; ++j) {
|
|
Chris@178
|
600 outCol[j] = 0.0;
|
|
Chris@178
|
601 }
|
|
Chris@178
|
602 for (int j = 5; j < pack.templateHeight; ++j) {
|
|
Chris@178
|
603 int ix = inCol.size() - j + 4;
|
|
Chris@178
|
604 outCol[j] = inCol[ix];
|
|
Chris@178
|
605 }
|
|
Chris@46
|
606 }
|
|
Chris@32
|
607
|
|
Chris@46
|
608 vector<double> noiseLevel1 =
|
|
Chris@46
|
609 MedianFilter<double>::filter(40, outCol);
|
|
Chris@176
|
610 for (int j = 0; j < pack.templateHeight; ++j) {
|
|
Chris@46
|
611 noiseLevel1[j] = std::min(outCol[j], noiseLevel1[j]);
|
|
Chris@46
|
612 }
|
|
Chris@32
|
613
|
|
Chris@46
|
614 vector<double> noiseLevel2 =
|
|
Chris@46
|
615 MedianFilter<double>::filter(40, noiseLevel1);
|
|
Chris@176
|
616 for (int j = 0; j < pack.templateHeight; ++j) {
|
|
Chris@46
|
617 outCol[j] = std::max(outCol[j] - noiseLevel2[j], 0.0);
|
|
Chris@32
|
618 }
|
|
Chris@32
|
619
|
|
Chris@165
|
620 out.push_back(outCol);
|
|
Chris@32
|
621 }
|
|
Chris@32
|
622
|
|
Chris@32
|
623 ++m_columnCount;
|
|
Chris@32
|
624 }
|
|
Chris@32
|
625
|
|
Chris@32
|
626 return out;
|
|
Chris@32
|
627 }
|
|
Chris@32
|
628
|
|
Chris@168
|
629 void
|
|
Chris@170
|
630 Silvet::postProcess(const vector<double> &pitches,
|
|
Chris@170
|
631 const vector<int> &bestShifts,
|
|
Chris@170
|
632 bool wantShifts)
|
|
Chris@166
|
633 {
|
|
Chris@176
|
634 const InstrumentPack &pack = m_instruments[m_instrument];
|
|
Chris@176
|
635
|
|
Chris@41
|
636 vector<double> filtered;
|
|
Chris@41
|
637
|
|
Chris@176
|
638 for (int j = 0; j < pack.templateNoteCount; ++j) {
|
|
Chris@170
|
639 m_postFilter[j]->push(pitches[j]);
|
|
Chris@41
|
640 filtered.push_back(m_postFilter[j]->get());
|
|
Chris@41
|
641 }
|
|
Chris@41
|
642
|
|
Chris@41
|
643 // Threshold for level and reduce number of candidate pitches
|
|
Chris@41
|
644
|
|
Chris@41
|
645 typedef std::multimap<double, int> ValueIndexMap;
|
|
Chris@41
|
646
|
|
Chris@41
|
647 ValueIndexMap strengths;
|
|
Chris@166
|
648
|
|
Chris@176
|
649 for (int j = 0; j < pack.templateNoteCount; ++j) {
|
|
Chris@166
|
650 double strength = filtered[j];
|
|
Chris@183
|
651 if (strength < pack.levelThreshold) continue;
|
|
Chris@168
|
652 strengths.insert(ValueIndexMap::value_type(strength, j));
|
|
Chris@168
|
653 }
|
|
Chris@166
|
654
|
|
Chris@168
|
655 ValueIndexMap::const_iterator si = strengths.end();
|
|
Chris@167
|
656
|
|
Chris@168
|
657 map<int, double> active;
|
|
Chris@168
|
658 map<int, int> activeShifts;
|
|
Chris@168
|
659
|
|
Chris@183
|
660 while (int(active.size()) < pack.maxPolyphony && si != strengths.begin()) {
|
|
Chris@168
|
661
|
|
Chris@168
|
662 --si;
|
|
Chris@168
|
663
|
|
Chris@168
|
664 double strength = si->first;
|
|
Chris@168
|
665 int j = si->second;
|
|
Chris@168
|
666
|
|
Chris@168
|
667 active[j] = strength;
|
|
Chris@168
|
668
|
|
Chris@170
|
669 if (wantShifts) {
|
|
Chris@170
|
670 activeShifts[j] = bestShifts[j];
|
|
Chris@167
|
671 }
|
|
Chris@41
|
672 }
|
|
Chris@41
|
673
|
|
Chris@168
|
674 m_pianoRoll.push_back(active);
|
|
Chris@170
|
675
|
|
Chris@170
|
676 if (wantShifts) {
|
|
Chris@168
|
677 m_pianoRollShifts.push_back(activeShifts);
|
|
Chris@41
|
678 }
|
|
Chris@166
|
679 }
|
|
Chris@166
|
680
|
|
Chris@166
|
681 Vamp::Plugin::FeatureList
|
|
Chris@168
|
682 Silvet::noteTrack(int shiftCount)
|
|
Chris@166
|
683 {
|
|
Chris@41
|
684 // Minimum duration pruning, and conversion to notes. We can only
|
|
Chris@41
|
685 // report notes that have just ended (i.e. that are absent in the
|
|
Chris@168
|
686 // latest active set but present in the prior set in the piano
|
|
Chris@41
|
687 // roll) -- any notes that ended earlier will have been reported
|
|
Chris@41
|
688 // already, and if they haven't ended, we don't know their
|
|
Chris@41
|
689 // duration.
|
|
Chris@41
|
690
|
|
Chris@168
|
691 int width = m_pianoRoll.size() - 1;
|
|
Chris@168
|
692
|
|
Chris@168
|
693 const map<int, double> &active = m_pianoRoll[width];
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|
Chris@41
|
694
|
|
Chris@165
|
695 double columnDuration = 1.0 / m_colsPerSec;
|
|
Chris@165
|
696
|
|
Chris@165
|
697 // only keep notes >= 100ms or thereabouts
|
|
Chris@165
|
698 int durationThreshold = floor(0.1 / columnDuration); // columns
|
|
Chris@165
|
699 if (durationThreshold < 1) durationThreshold = 1;
|
|
Chris@41
|
700
|
|
Chris@41
|
701 FeatureList noteFeatures;
|
|
Chris@41
|
702
|
|
Chris@41
|
703 if (width < durationThreshold + 1) {
|
|
Chris@41
|
704 return noteFeatures;
|
|
Chris@41
|
705 }
|
|
Chris@41
|
706
|
|
Chris@150
|
707 //!!! try: repeated note detection? (look for change in first derivative of the pitch matrix)
|
|
Chris@150
|
708
|
|
Chris@55
|
709 for (map<int, double>::const_iterator ni = m_pianoRoll[width-1].begin();
|
|
Chris@41
|
710 ni != m_pianoRoll[width-1].end(); ++ni) {
|
|
Chris@41
|
711
|
|
Chris@55
|
712 int note = ni->first;
|
|
Chris@41
|
713
|
|
Chris@41
|
714 if (active.find(note) != active.end()) {
|
|
Chris@41
|
715 // the note is still playing
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|
Chris@41
|
716 continue;
|
|
Chris@41
|
717 }
|
|
Chris@41
|
718
|
|
Chris@41
|
719 // the note was playing but just ended
|
|
Chris@41
|
720 int end = width;
|
|
Chris@41
|
721 int start = end-1;
|
|
Chris@41
|
722
|
|
Chris@41
|
723 while (m_pianoRoll[start].find(note) != m_pianoRoll[start].end()) {
|
|
Chris@41
|
724 --start;
|
|
Chris@41
|
725 }
|
|
Chris@41
|
726 ++start;
|
|
Chris@41
|
727
|
|
Chris@169
|
728 if ((end - start) < durationThreshold) {
|
|
Chris@41
|
729 continue;
|
|
Chris@41
|
730 }
|
|
Chris@41
|
731
|
|
Chris@169
|
732 emitNote(start, end, note, shiftCount, noteFeatures);
|
|
Chris@41
|
733 }
|
|
Chris@41
|
734
|
|
Chris@62
|
735 // cerr << "returning " << noteFeatures.size() << " complete note(s) " << endl;
|
|
Chris@41
|
736
|
|
Chris@41
|
737 return noteFeatures;
|
|
Chris@41
|
738 }
|
|
Chris@41
|
739
|
|
Chris@169
|
740 void
|
|
Chris@169
|
741 Silvet::emitNote(int start, int end, int note, int shiftCount,
|
|
Chris@169
|
742 FeatureList ¬eFeatures)
|
|
Chris@169
|
743 {
|
|
Chris@169
|
744 int partStart = start;
|
|
Chris@169
|
745 int partShift = 0;
|
|
Chris@169
|
746 int partVelocity = 0;
|
|
Chris@169
|
747
|
|
Chris@169
|
748 Feature f;
|
|
Chris@169
|
749 f.hasTimestamp = true;
|
|
Chris@169
|
750 f.hasDuration = true;
|
|
Chris@169
|
751
|
|
Chris@169
|
752 double columnDuration = 1.0 / m_colsPerSec;
|
|
Chris@169
|
753 int postFilterLatency = int(m_postFilter[0]->getSize() / 2);
|
|
Chris@169
|
754 int partThreshold = floor(0.05 / columnDuration);
|
|
Chris@169
|
755
|
|
Chris@169
|
756 for (int i = start; i != end; ++i) {
|
|
Chris@169
|
757
|
|
Chris@169
|
758 double strength = m_pianoRoll[i][note];
|
|
Chris@169
|
759
|
|
Chris@169
|
760 int shift = 0;
|
|
Chris@169
|
761
|
|
Chris@169
|
762 if (shiftCount > 1) {
|
|
Chris@169
|
763
|
|
Chris@169
|
764 shift = m_pianoRollShifts[i][note];
|
|
Chris@169
|
765
|
|
Chris@169
|
766 if (i == partStart) {
|
|
Chris@169
|
767 partShift = shift;
|
|
Chris@169
|
768 }
|
|
Chris@169
|
769
|
|
Chris@169
|
770 if (i > partStart + partThreshold && shift != partShift) {
|
|
Chris@169
|
771
|
|
Chris@169
|
772 // cerr << "i = " << i << ", partStart = " << partStart << ", shift = " << shift << ", partShift = " << partShift << endl;
|
|
Chris@169
|
773
|
|
Chris@169
|
774 // pitch has changed, emit an intermediate note
|
|
Chris@169
|
775 f.timestamp = RealTime::fromSeconds
|
|
Chris@169
|
776 (columnDuration * (partStart - postFilterLatency) + 0.02);
|
|
Chris@169
|
777 f.duration = RealTime::fromSeconds
|
|
Chris@169
|
778 (columnDuration * (i - partStart));
|
|
Chris@169
|
779 f.values.clear();
|
|
Chris@169
|
780 f.values.push_back
|
|
Chris@169
|
781 (noteFrequency(note, partShift, shiftCount));
|
|
Chris@169
|
782 f.values.push_back(partVelocity);
|
|
Chris@175
|
783 f.label = noteName(note, partShift, shiftCount);
|
|
Chris@169
|
784 noteFeatures.push_back(f);
|
|
Chris@169
|
785 partStart = i;
|
|
Chris@169
|
786 partShift = shift;
|
|
Chris@169
|
787 partVelocity = 0;
|
|
Chris@169
|
788 }
|
|
Chris@169
|
789 }
|
|
Chris@169
|
790
|
|
Chris@169
|
791 int v = strength * 2;
|
|
Chris@169
|
792 if (v > 127) v = 127;
|
|
Chris@169
|
793
|
|
Chris@169
|
794 if (v > partVelocity) {
|
|
Chris@169
|
795 partVelocity = v;
|
|
Chris@169
|
796 }
|
|
Chris@169
|
797 }
|
|
Chris@169
|
798
|
|
Chris@169
|
799 if (end >= partStart + partThreshold) {
|
|
Chris@169
|
800 f.timestamp = RealTime::fromSeconds
|
|
Chris@169
|
801 (columnDuration * (partStart - postFilterLatency) + 0.02);
|
|
Chris@169
|
802 f.duration = RealTime::fromSeconds
|
|
Chris@169
|
803 (columnDuration * (end - partStart));
|
|
Chris@169
|
804 f.values.clear();
|
|
Chris@169
|
805 f.values.push_back
|
|
Chris@169
|
806 (noteFrequency(note, partShift, shiftCount));
|
|
Chris@169
|
807 f.values.push_back(partVelocity);
|
|
Chris@175
|
808 f.label = noteName(note, partShift, shiftCount);
|
|
Chris@169
|
809 noteFeatures.push_back(f);
|
|
Chris@169
|
810 }
|
|
Chris@169
|
811 }
|
