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2 /* -*- c-basic-offset: 4 -*- vi:set ts=8 sts=4 sw=4: */
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3
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4 /*
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5 A waveform viewer and audio annotation editor.
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6 Chris Cannam, Queen Mary University of London, 2005
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7
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8 This is experimental software. Not for distribution.
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9 */
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10
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11 #include "FeatureExtractionPluginTransform.h"
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12
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13 #include "plugin/FeatureExtractionPluginFactory.h"
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14 #include "plugin/FeatureExtractionPlugin.h"
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15
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16 #include "base/Model.h"
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17 #include "model/SparseOneDimensionalModel.h"
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18 #include "model/SparseTimeValueModel.h"
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19 #include "model/DenseThreeDimensionalModel.h"
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20 #include "model/DenseTimeValueModel.h"
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21
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22 #include <iostream>
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23
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24 FeatureExtractionPluginTransform::FeatureExtractionPluginTransform(Model *inputModel,
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25 QString pluginId,
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26 QString outputName) :
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27 Transform(inputModel),
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28 m_plugin(0),
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29 m_descriptor(0),
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30 m_outputFeatureNo(0)
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31 {
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32 std::cerr << "FeatureExtractionPluginTransform::FeatureExtractionPluginTransform: plugin " << pluginId.toStdString() << ", outputName " << outputName.toStdString() << std::endl;
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33
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34 FeatureExtractionPluginFactory *factory =
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35 FeatureExtractionPluginFactory::instanceFor(pluginId);
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36
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37 if (!factory) {
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38 std::cerr << "FeatureExtractionPluginTransform: No factory available for plugin id \""
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39 << pluginId.toStdString() << "\"" << std::endl;
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40 return;
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41 }
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42
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43 m_plugin = factory->instantiatePlugin(pluginId, m_input->getSampleRate());
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44
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45 if (!m_plugin) {
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46 std::cerr << "FeatureExtractionPluginTransform: Failed to instantiate plugin \""
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47 << pluginId.toStdString() << "\"" << std::endl;
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48 return;
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49 }
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50
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51 FeatureExtractionPlugin::OutputList outputs =
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52 m_plugin->getOutputDescriptors();
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53
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54 if (outputs.empty()) {
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55 std::cerr << "FeatureExtractionPluginTransform: Plugin \""
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56 << pluginId.toStdString() << "\" has no outputs" << std::endl;
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57 return;
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58 }
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59
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60 for (size_t i = 0; i < outputs.size(); ++i) {
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61 if (outputName == "" || outputs[i].name == outputName.toStdString()) {
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62 m_outputFeatureNo = i;
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63 m_descriptor = new FeatureExtractionPlugin::OutputDescriptor
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64 (outputs[i]);
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65 break;
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66 }
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67 }
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68
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69 if (!m_descriptor) {
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70 std::cerr << "FeatureExtractionPluginTransform: Plugin \""
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71 << pluginId.toStdString() << "\" has no output named \""
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72 << outputName.toStdString() << "\"" << std::endl;
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73 return;
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74 }
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75
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76 std::cerr << "FeatureExtractionPluginTransform: output sample type "
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77 << m_descriptor->sampleType << std::endl;
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78
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79 int valueCount = 1;
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80 float minValue = 0.0, maxValue = 0.0;
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81
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82 if (m_descriptor->hasFixedValueCount) {
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83 valueCount = m_descriptor->valueCount;
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84 }
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85
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86 if (valueCount > 0 && m_descriptor->hasKnownExtents) {
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87 minValue = m_descriptor->minValue;
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88 maxValue = m_descriptor->maxValue;
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89 }
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90
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91 size_t modelRate = m_input->getSampleRate();
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92 size_t modelResolution = 1;
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93
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94 switch (m_descriptor->sampleType) {
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95
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96 case FeatureExtractionPlugin::OutputDescriptor::VariableSampleRate:
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97 if (m_descriptor->sampleRate != 0.0) {
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98 modelResolution = size_t(modelRate / m_descriptor->sampleRate + 0.001);
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99 }
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100 break;
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101
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102 case FeatureExtractionPlugin::OutputDescriptor::OneSamplePerStep:
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103 modelResolution = m_plugin->getPreferredStepSize();
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104 break;
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105
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106 case FeatureExtractionPlugin::OutputDescriptor::FixedSampleRate:
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107 modelRate = m_descriptor->sampleRate;
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108 break;
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109 }
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110
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111 if (valueCount == 0) {
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112
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113 m_output = new SparseOneDimensionalModel(modelRate, modelResolution);
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114
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115 } else if (valueCount == 1 ||
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116
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117 // We don't have a sparse 3D model
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118 m_descriptor->sampleType ==
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119 FeatureExtractionPlugin::OutputDescriptor::VariableSampleRate) {
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120
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121 m_output = new SparseTimeValueModel(modelRate, modelResolution,
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122 minValue, maxValue, false);
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123
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124 } else {
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125
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126 m_output = new DenseThreeDimensionalModel(modelRate, modelResolution,
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127 valueCount);
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128 }
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129 }
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130
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131 FeatureExtractionPluginTransform::~FeatureExtractionPluginTransform()
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132 {
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133 delete m_plugin;
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134 delete m_descriptor;
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135 }
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136
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137 DenseTimeValueModel *
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138 FeatureExtractionPluginTransform::getInput()
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139 {
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140 DenseTimeValueModel *dtvm =
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141 dynamic_cast<DenseTimeValueModel *>(getInputModel());
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142 if (!dtvm) {
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143 std::cerr << "FeatureExtractionPluginTransform::getInput: WARNING: Input model is not conformable to DenseTimeValueModel" << std::endl;
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144 }
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145 return dtvm;
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146 }
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147
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148 void
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149 FeatureExtractionPluginTransform::run()
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150 {
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151 DenseTimeValueModel *input = getInput();
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152 if (!input) return;
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153
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154 if (!m_output) return;
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155
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156 size_t channelCount = input->getChannelCount();
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157 if (m_plugin->getMaxChannelCount() < channelCount) {
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158 channelCount = 1;
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159 }
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160 if (m_plugin->getMinChannelCount() > channelCount) {
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161 std::cerr << "FeatureExtractionPluginTransform::run: "
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162 << "Can't provide enough channels to plugin (plugin min "
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163 << m_plugin->getMinChannelCount() << ", max "
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164 << m_plugin->getMaxChannelCount() << ", input model has "
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165 << input->getChannelCount() << ")" << std::endl;
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166 return;
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167 }
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168
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169 size_t sampleRate = m_input->getSampleRate();
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170
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171 size_t stepSize = m_plugin->getPreferredStepSize();
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172 size_t blockSize = m_plugin->getPreferredBlockSize();
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173
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174 m_plugin->initialise(channelCount, stepSize, blockSize);
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175
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176 float **buffers = new float*[channelCount];
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177 for (size_t ch = 0; ch < channelCount; ++ch) {
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178 buffers[ch] = new float[blockSize];
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179 }
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180
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181 size_t startFrame = m_input->getStartFrame();
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182 size_t endFrame = m_input->getEndFrame();
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183 size_t blockFrame = startFrame;
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184
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185 size_t prevCompletion = 0;
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186
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187 while (blockFrame < endFrame) {
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188
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189 // std::cerr << "FeatureExtractionPluginTransform::run: blockFrame "
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190 // << blockFrame << std::endl;
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191
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192 size_t completion =
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193 (((blockFrame - startFrame) / stepSize) * 99) /
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194 ( (endFrame - startFrame) / stepSize);
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195
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196 // channelCount is either m_input->channelCount or 1
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197
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198 size_t got = 0;
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199
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200 if (channelCount == 1) {
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201 got = input->getValues
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202 (-1, blockFrame, blockFrame + blockSize, buffers[0]);
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203 while (got < blockSize) {
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204 buffers[0][got++] = 0.0;
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205 }
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206 } else {
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207 for (size_t ch = 0; ch < channelCount; ++ch) {
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208 got = input->getValues
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209 (ch, blockFrame, blockFrame + blockSize, buffers[ch]);
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210 while (got < blockSize) {
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211 buffers[ch][got++] = 0.0;
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212 }
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213 }
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214 }
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215
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216 FeatureExtractionPlugin::FeatureSet features = m_plugin->process
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217 (buffers, RealTime::frame2RealTime(blockFrame, sampleRate));
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218
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219 for (size_t fi = 0; fi < features[m_outputFeatureNo].size(); ++fi) {
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220 FeatureExtractionPlugin::Feature feature =
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221 features[m_outputFeatureNo][fi];
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222 addFeature(blockFrame, feature);
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223 }
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224
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225 if (blockFrame == startFrame || completion > prevCompletion) {
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226 setCompletion(completion);
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227 prevCompletion = completion;
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228 }
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229
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230 blockFrame += stepSize;
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231 }
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232
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233 FeatureExtractionPlugin::FeatureSet features = m_plugin->getRemainingFeatures();
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234
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235 for (size_t fi = 0; fi < features[m_outputFeatureNo].size(); ++fi) {
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236 FeatureExtractionPlugin::Feature feature =
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237 features[m_outputFeatureNo][fi];
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238 addFeature(blockFrame, feature);
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239 }
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240
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241 setCompletion(100);
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242 }
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243
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244
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245 void
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246 FeatureExtractionPluginTransform::addFeature(size_t blockFrame,
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247 const FeatureExtractionPlugin::Feature &feature)
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248 {
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249 size_t inputRate = m_input->getSampleRate();
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250
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251 // std::cerr << "FeatureExtractionPluginTransform::addFeature("
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252 // << blockFrame << ")" << std::endl;
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253
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254 int valueCount = 1;
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255 if (m_descriptor->hasFixedValueCount) {
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256 valueCount = m_descriptor->valueCount;
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257 }
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258
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259 size_t frame = blockFrame;
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260
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261 if (m_descriptor->sampleType ==
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262 FeatureExtractionPlugin::OutputDescriptor::VariableSampleRate) {
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263
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264 if (!feature.hasTimestamp) {
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265 std::cerr
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266 << "WARNING: FeatureExtractionPluginTransform::addFeature: "
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267 << "Feature has variable sample rate but no timestamp!"
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268 << std::endl;
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269 return;
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270 } else {
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271 frame = RealTime::realTime2Frame(feature.timestamp, inputRate);
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272 }
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273
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274 } else if (m_descriptor->sampleType ==
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275 FeatureExtractionPlugin::OutputDescriptor::FixedSampleRate) {
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276
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277 if (feature.hasTimestamp) {
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278 //!!! warning: sampleRate may be non-integral
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279 frame = RealTime::realTime2Frame(feature.timestamp,
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280 m_descriptor->sampleRate);
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281 } else {
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282 frame = m_output->getEndFrame() + 1;
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283 }
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284 }
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285
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286 if (valueCount == 0) {
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287
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288 SparseOneDimensionalModel *model = getOutput<SparseOneDimensionalModel>();
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289 if (!model) return;
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290 model->addPoint(SparseOneDimensionalModel::Point(frame, feature.label.c_str()));
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291
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292 } else if (valueCount == 1 ||
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293 m_descriptor->sampleType ==
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294 FeatureExtractionPlugin::OutputDescriptor::VariableSampleRate) {
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295
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296 float value = 0.0;
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297 if (feature.values.size() > 0) value = feature.values[0];
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298
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299 SparseTimeValueModel *model = getOutput<SparseTimeValueModel>();
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300 if (!model) return;
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301 model->addPoint(SparseTimeValueModel::Point(frame, value, feature.label.c_str()));
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302
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303 } else {
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304
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305 DenseThreeDimensionalModel::BinValueSet values = feature.values;
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306
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307 DenseThreeDimensionalModel *model = getOutput<DenseThreeDimensionalModel>();
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308 if (!model) return;
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309
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310 model->setBinValues(frame, values);
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311 }
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312 }
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313
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314 void
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315 FeatureExtractionPluginTransform::setCompletion(int completion)
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316 {
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317 int valueCount = 1;
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318 if (m_descriptor->hasFixedValueCount) {
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319 valueCount = m_descriptor->valueCount;
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320 }
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321
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322 if (valueCount == 0) {
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323
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324 SparseOneDimensionalModel *model = getOutput<SparseOneDimensionalModel>();
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325 if (!model) return;
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326 model->setCompletion(completion);
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327
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328 } else if (valueCount == 1 ||
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329 m_descriptor->sampleType ==
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330 FeatureExtractionPlugin::OutputDescriptor::VariableSampleRate) {
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331
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332 SparseTimeValueModel *model = getOutput<SparseTimeValueModel>();
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333 if (!model) return;
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334 model->setCompletion(completion);
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335
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336 } else {
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337
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338 //!!! Can't actually do this with the 3D model (yet?)
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339 }
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340 }
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341
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