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1 /*
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2 * BayesianArrayStructure.cpp
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3 * midiCannamReader
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4 *
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5 * Created by Andrew on 17/07/2011.
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6 * Copyright 2011 QMUL. All rights reserved.
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7 *
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8 */
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9
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10 //look at reset speed to one - what does this do? - get rid of?
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11
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12
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13 #include "BayesianArrayStructure.h"
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14
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15 BayesianArrayStructure::BayesianArrayStructure(){
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16 printf("Bayesian structure: DeFault constructor called");
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17
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18 prior.createVector(1);
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19 likelihood.createVector(1);
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20 posterior.createVector(1);
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21
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22 speedPriorValue = 1.0;
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23 speedEstimate = speedPriorValue;
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24
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25 lastEventTime = 0;//ofGetElapsedTimeMillis();
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26
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27 tmpBestEstimate = 0;
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28 crossUpdateTimeThreshold = 100;
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29 priorWidth = 50;
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30 }
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31
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32 BayesianArrayStructure::BayesianArrayStructure(int length){
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33 printf("BAYESIAN STURTUCRE CREATED LENGTH: %i\n", length);
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34 //this constructor isnt called it seems
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35 prior.createVector(length);
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36 likelihood.createVector(length);
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37 posterior.createVector(length);
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38
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39 lastEventTime = 0;
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40 usingIntegratedTempoEstimate = false;//use max index
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41
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42 }
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43
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44
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45
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46 void BayesianArrayStructure::resetSize(int length){
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47 printf("BAYESIAN STRUCTURE size is : %i\n", length);
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48
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49 prior.createVector(length);
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50 likelihood.createVector(length);
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51 posterior.createVector(length);
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52
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53
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54 acceleration.createVector(length);
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55
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56 }
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57
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58
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59
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60 void BayesianArrayStructure::resetSpeedToOne(){
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61 relativeSpeedPrior.zero();
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62 relativeSpeedPosterior.zero();
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63 relativeSpeedLikelihood.zero();
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64
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65
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66 relativeSpeedPosterior.addGaussianShape(100, 20, 0.8);
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67 relativeSpeedPosterior.renormalise();
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68 relativeSpeedPosterior.getMaximum();
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69
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70 setSpeedPrior(speedPriorValue);
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71 speedEstimate = speedPriorValue;
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72
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73 prior.zero();
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74 posterior.zero();
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75
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76 posterior.addToIndex(0, 1);
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77 posterior.renormalise();
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78
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79 //acceleration.addGaussianShape(2000, 20, 0.8);
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80
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81 }
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82
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83 void BayesianArrayStructure::setSpeedPrior(double f){
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84 speedPriorValue = f;
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85 int index = relativeSpeedPosterior.getRealTermsAsIndex(speedPriorValue);
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86 relativeSpeedPosterior.zero();
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87 relativeSpeedPosterior.addGaussianShape(index, priorWidth, 0.8);
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88 relativeSpeedPosterior.renormalise();
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89 relativeSpeedPosterior.getMaximum();
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90 relativeSpeedPrior.copyFromDynamicVector(relativeSpeedPosterior);
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91 printf("BAYES STRUCTU ' SPEED PRIOR %f . index %i\n", speedPriorValue, index);
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92
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93 }
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94
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95 void BayesianArrayStructure::resetSpeedSize(int length){
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96 printf("BAYESIAN SPEED size is : %i\n", length);
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97
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98 relativeSpeedPrior.createVector(length);
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99 relativeSpeedLikelihood.createVector(length);
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100 relativeSpeedPosterior.createVector(length);
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101 tmpPosteriorForStorage.createVector(length);
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102
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103
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104 }
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105
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106 void BayesianArrayStructure::setRelativeSpeedScalar(double f){
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107 relativeSpeedPrior.scalar = f;
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108 relativeSpeedPosterior.scalar = f;
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109 relativeSpeedLikelihood.scalar = f;
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110 }
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111
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112
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113 void BayesianArrayStructure::setPositionDistributionScalar(double f){
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114 if (f > 0){
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115 prior.scalar = f;
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116 posterior.scalar = f;
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117 likelihood.scalar = f;
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118 }
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119 }
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120
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121 void BayesianArrayStructure::simpleExample(){
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122 relativeSpeedPosterior.getMaximum();
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123 relativeSpeedPrior.copyFromDynamicVector(relativeSpeedPosterior);
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124 }
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125
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126 void BayesianArrayStructure::copyPriorToPosterior(){
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127
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128 for (int i = 0;i < prior.arraySize;i++){
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129 posterior.array[i] = prior.array[i];
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130 }
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131 }
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132
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133 void BayesianArrayStructure::setStartPlaying(){
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134
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135 lastEventTime = 0;
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136 bestEstimate = 0;
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137 lastBestEstimateUpdateTime = 0;
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138 if (*realTimeMode)
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139 lastBestEstimateUpdateTime = ofGetElapsedTimeMillis();
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140 //cannot just be zero - offline bug
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141 printf("start playing - best estimate %f\n", lastBestEstimateUpdateTime);
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142
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143 resetArrays();
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144 }
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145
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146 void BayesianArrayStructure::resetArrays(){
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147 //called when we start playing
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148
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149 prior.zero();
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150 likelihood.zero();
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151 posterior.zero();
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152
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153 updateCounter = 0;
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154
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155 posterior.offset = 0;
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156 setNewDistributionOffsets(0);
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157
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158 int zeroIndex = posterior.getRealTermsAsIndex(0);
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159
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160 posterior.addGaussianShape(zeroIndex, 500, 1);
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161 // posterior.addToIndex(0, 1);
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162 likelihood.addConstant(1);
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163
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164 updateCounter = 0;
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165
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166
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167 printf("bayes reset arrays - best estimate %f\n", lastBestEstimateUpdateTime);
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168
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169 setSpeedPrior(speedPriorValue);
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170 }
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171
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172
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173 void BayesianArrayStructure::zeroArrays(){
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174 prior.zero();
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175 likelihood.zero();
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176 posterior.zero();
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177
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178 relativeSpeedPrior.zero();
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179 relativeSpeedPosterior.zero();
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180 relativeSpeedLikelihood.zero();
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181
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182 }
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183
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184
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185 void BayesianArrayStructure::updateTmpBestEstimate(const double& timeDifference){
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186 //input is the time since the start of playing
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187
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188 // double timeDiff = ofGetElapsedTimeMillis() - lastEventTime;//lastBestEstimateUpdateTime;
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189
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190 tmpBestEstimate = posterior.getIndexInRealTerms(posterior.MAPestimate) + timeDifference*relativeSpeedPosterior.getIndexInRealTerms(relativeSpeedPosterior.integratedEstimate);
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191 //
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192 //printf("tmp best %f and best %f time diff %f posterior MAP %f at speed %f\n", tmpBestEstimate, bestEstimate, timeDifference, posterior.getIndexInRealTerms(posterior.MAPestimate), relativeSpeedPosterior.getIndexInRealTerms(relativeSpeedPosterior.integratedEstimate));
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193 //lastBestEstimateUpdateTime = ofGetElapsedTimeMillis();
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194 }
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195
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196 void BayesianArrayStructure::updateBestEstimate(const double& timeDifference){
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197 // double timeDiff = ofGetElapsedTimeMillis() - lastEventTime;//
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198
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199 double timeDiff = timeDifference;
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200
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201 //Using timedifferencfe here will make it go wrong. Is time since beginning of playing
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202
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203 if (*realTimeMode)
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204 timeDiff = ofGetElapsedTimeMillis() - lastBestEstimateUpdateTime;
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205
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206 double speedEstimate;
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207 if (usingIntegratedTempoEstimate)
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208 speedEstimate = relativeSpeedPosterior.getIntegratedEstimate();
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209 else
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210 speedEstimate = relativeSpeedPosterior.MAPestimate;
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211
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212
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213 speedEstimate = relativeSpeedPosterior.getIndexInRealTerms(speedEstimate);
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214 //relativeSpeedPosterior.getIndexInRealTerms(relativeSpeedPosterior.MAPestimate)
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215 bestEstimate = posterior.getIndexInRealTerms(posterior.MAPestimate) + timeDiff*speedEstimate;
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216
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217 // bestEstimate = tmpBestEstimate;
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218 }
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219
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220 void BayesianArrayStructure::calculatePosterior(){
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221 //posterior.doProduct(prior, likelihood);
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222
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223 int i;
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224 for (i = 0;i < posterior.length;i++){
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225 posterior.array[i] = likelihood.array[i] * prior.array[i];
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226 }
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227
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228
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229 posterior.renormalise();
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230
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231
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232
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233
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234 }
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235
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236
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237
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238
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239 void BayesianArrayStructure::setNewDistributionOffsets(const double& newOffset){
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240 prior.offset = newOffset;
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241 likelihood.offset = newOffset;
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242 //posterior.offset = newOffset;
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243 }
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244
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245
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246 void BayesianArrayStructure::crossUpdateArrays(DynamicVector& position, DynamicVector& speed, double timeDifference){
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247 //set the cutoff for offset of position first! XXX
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248
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249 // printf("time difference %f, ", timeDifference);
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250
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251 double timeDifferenceInPositionVectorUnits = timeDifference / prior.scalar;
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252
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253
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254 prior.zero();//kill prior
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255 calculateNewPriorOffset(timeDifference);//set new prior offset here
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256
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257 if (timeDifferenceInPositionVectorUnits > crossUpdateTimeThreshold)
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258 complexCrossUpdate(timeDifferenceInPositionVectorUnits);
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259 else
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260 translateByMaximumSpeed(timeDifferenceInPositionVectorUnits);
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261
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262
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263 updateCounter++;
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264 prior.renormalise();
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265
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266 }
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267
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268 void BayesianArrayStructure::complexCrossUpdate(const double& timeDifferenceInPositionVectorUnits){
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269 int distanceMoved, newPriorIndex;
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270
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271 double speedValue = relativeSpeedPosterior.offset;
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272
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273 for (int i = 0;i < relativeSpeedPosterior.arraySize;i++){
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274
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275 // double speedValue = relativeSpeedPosterior.getIndexInRealTerms(i);//so for scalar 0.01, 50 -> speed value of 0.5
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276
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277 //so we have moved
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278 distanceMoved = round(timeDifferenceInPositionVectorUnits * speedValue);//round the value
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279
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280 if (relativeSpeedPosterior.array[i] != 0){
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281 double speedContribution = relativeSpeedPosterior.array[i];
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282 // printf("speed [%i] gives %f moved %i in %f units \n", i, speedValue, distanceMoved, timeDifferenceInPositionVectorUnits);
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283
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284 newPriorIndex = posterior.offset - prior.offset + distanceMoved;
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285
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286 for (int postIndex = 0;postIndex < posterior.arraySize;postIndex++){
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287 //old posterior contributing to new prior
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288 // newPriorIndex = postIndex + posterior.offset - prior.offset + distanceMoved;
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289
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290 if (newPriorIndex >= 0 && newPriorIndex < prior.arraySize){
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291 prior.addToIndex(newPriorIndex, posterior.array[postIndex]*speedContribution);
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292 }
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293
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294 newPriorIndex++;//optimised code - the commented line above explains how this works
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295 }//end for
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296
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297
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298 }//if not zero
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299 speedValue += relativeSpeedPosterior.scalar;
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300 //optimised line
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301 //as we wanted:
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302 // double speedValue = relativeSpeedPosterior.getIndexInRealTerms(i);//so for scalar 0.01, 50 -> speed value of 0.5
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303 }//end speed
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304 }
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305
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306
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307
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308 void BayesianArrayStructure::translateByMaximumSpeed(const double& timeDifferenceInPositionVectorUnits){
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309
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310 int distanceMoved, newPriorIndex;
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311
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312 double speedValue = relativeSpeedPosterior.getIndexInRealTerms(relativeSpeedPosterior.integratedEstimate);
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313 //so for scalar 0.01, 50 -> speed value of 0.5
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314 double speedContribution = relativeSpeedPosterior.array[relativeSpeedPosterior.integratedEstimate];
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315 //so we have moved
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316 distanceMoved = round(timeDifferenceInPositionVectorUnits * speedValue);//round the value
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317 // printf("speed [%i] gives %f moved %i in %f units \n", i, speedValue, distanceMoved, timeDifferenceInPositionVectorUnits);
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318
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319 for (int postIndex = 0;postIndex < posterior.arraySize;postIndex++){
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320 //old posterior contributing to new prior
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321 newPriorIndex = postIndex + posterior.offset - prior.offset + distanceMoved;
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322 if (newPriorIndex >= 0 && newPriorIndex < prior.arraySize){
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323 prior.addToIndex(newPriorIndex, posterior.array[postIndex]*speedContribution);
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324 }
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325
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andrew@4
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326 }
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andrew@4
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327
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andrew@4
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328 }
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andrew@2
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329
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andrew@2
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330 void BayesianArrayStructure::addGaussianNoiseToSpeedPosterior(const double& std_dev){
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andrew@2
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331 tmpPosteriorForStorage.copyFromDynamicVector(relativeSpeedPosterior);
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andrew@2
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332
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andrew@2
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333 for (int i = 0;i < relativeSpeedPosterior.length;i++){
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andrew@2
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334 tmpPosteriorForStorage.addGaussianShape(i, std_dev, relativeSpeedPosterior.array[i]);
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andrew@2
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335 }
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andrew@2
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336
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andrew@2
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337 tmpPosteriorForStorage.renormalise();
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andrew@2
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338
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andrew@2
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339 relativeSpeedPosterior.copyFromDynamicVector(tmpPosteriorForStorage);
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andrew@2
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340 }
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andrew@2
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341
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andrew@2
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342
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andrew@2
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343 void BayesianArrayStructure::addTriangularNoiseToSpeedPosterior(const double& std_dev){
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andrew@2
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344 tmpPosteriorForStorage.copyFromDynamicVector(relativeSpeedPosterior);
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andrew@2
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345
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andrew@2
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346 for (int i = 0;i < relativeSpeedPosterior.length;i++){
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andrew@2
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347 //adding a linear amount depending on distance
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andrew@2
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348 tmpPosteriorForStorage.addTriangularShape(i, std_dev*2.0, relativeSpeedPosterior.array[i]);
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andrew@2
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349 }
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andrew@2
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350
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andrew@2
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351 tmpPosteriorForStorage.renormalise();
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andrew@2
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352
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andrew@2
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353 relativeSpeedPosterior.copyFromDynamicVector(tmpPosteriorForStorage);
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andrew@2
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354 }
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andrew@2
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355
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andrew@0
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356 void BayesianArrayStructure::calculateNewPriorOffset(const double& timeDifference){
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andrew@0
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357
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andrew@9
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358 double maxSpeed = relativeSpeedPosterior.getIndexInRealTerms(relativeSpeedPosterior.integratedEstimate);
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andrew@0
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359 // printf("Maxspeed is %f\n", maxSpeed);
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andrew@0
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360
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andrew@0
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361 double priorMax = posterior.getMaximum();
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andrew@0
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362 double distanceTravelled = maxSpeed * (timeDifference / prior.scalar);
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andrew@0
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363 double newMaxLocation = posterior.MAPestimate + distanceTravelled;
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andrew@0
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364 // printf("MAP: %i, tim df %f, distance %f, new location %f\n", posterior.MAPestimate, timeDifference, distanceTravelled, newMaxLocation);
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andrew@0
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365
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andrew@0
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366 }
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andrew@0
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367
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andrew@0
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368
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andrew@0
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369 void BayesianArrayStructure::decaySpeedDistribution(double timeDifference){
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andrew@0
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370
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andrew@0
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371 // commented for the moment
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andrew@0
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372 double relativeAmount = max(1.0, timeDifference/1000.);
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andrew@0
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373 // printf("decay %f around %i \n", timeDifference, relativeSpeedPosterior.MAPestimate);
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andrew@0
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374 relativeAmount *= speedDecayAmount;
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andrew@0
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375 relativeSpeedPosterior.renormalise();
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andrew@9
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376 relativeSpeedPosterior.addGaussianShape(relativeSpeedPosterior.integratedEstimate, speedDecayWidth, relativeAmount);
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andrew@0
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377
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andrew@0
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378 relativeSpeedPosterior.renormalise();
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andrew@0
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379 double newMax = relativeSpeedPosterior.getMaximum();
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andrew@0
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380
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andrew@0
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381 //old code
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andrew@0
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382 // relativeSpeedPosterior.addGaussianShape(relativeSpeedPosterior.MAPestimate, speedDecayWidth, 10);
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andrew@0
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383 //relativeSpeedPosterior.addConstant(1);
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andrew@0
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384
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andrew@0
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385 /*
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andrew@0
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386 relativeSpeedPrior.copyFromDynamicVector(relativeSpeedPosterior);
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andrew@0
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387 relativeSpeedLikelihood.zero();
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andrew@0
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388 relativeSpeedLikelihood.addConstant(0.2);
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andrew@0
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389 relativeSpeedLikelihood.addGaussianShape(relativeSpeedPosterior.maximumValue, speedDecayWidth, relativeAmount);
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andrew@0
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390 relativeSpeedPosterior.doProduct(relativeSpeedPrior, relativeSpeedLikelihood);
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andrew@0
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391 relativeSpeedPosterior.renormalise();
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andrew@0
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392 */
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andrew@0
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393
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andrew@0
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394
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andrew@0
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395
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andrew@0
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396 }
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andrew@0
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397
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andrew@9
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398 void BayesianArrayStructure::setLikelihoodToConstant(){
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andrew@9
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399 //set new likelihood
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andrew@9
|
400 relativeSpeedLikelihood.zero();
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andrew@9
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401 relativeSpeedLikelihood.addConstant(speedLikelihoodNoise);
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andrew@9
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402 }
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andrew@9
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403
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andrew@9
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404
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andrew@9
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405 void BayesianArrayStructure::updateTempoLikelihood(const double& speedRatio, const double& matchFactor){
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andrew@9
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406
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andrew@0
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407 //speedratio is speed of played relative to the recording
|
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andrew@0
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408
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andrew@0
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409 double index = relativeSpeedLikelihood.getRealTermsAsIndex(speedRatio);
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andrew@9
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410 // printf("index of likelihood would be %f for ratio %f\n", index, speedRatio);
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andrew@9
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411 if (index >= 0 && index < relativeSpeedPrior.length){
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andrew@9
|
412 relativeSpeedLikelihood.addGaussianShape(index , 5, matchFactor);
|
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andrew@9
|
413 }
|
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andrew@9
|
414 }
|
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andrew@0
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415
|
|
andrew@9
|
416
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andrew@9
|
417 void BayesianArrayStructure::updateTempoDistribution(){
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andrew@0
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418
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andrew@0
|
419 //copy posterior to prior
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andrew@0
|
420 relativeSpeedPrior.copyFromDynamicVector(relativeSpeedPosterior);
|
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andrew@0
|
421
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andrew@0
|
422 //update
|
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andrew@0
|
423 relativeSpeedPosterior.doProduct(relativeSpeedPrior, relativeSpeedLikelihood);
|
|
andrew@0
|
424
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|
andrew@0
|
425 //normalise
|
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andrew@0
|
426 relativeSpeedPosterior.renormalise();
|
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andrew@0
|
427
|
|
andrew@0
|
428 relativeSpeedPosterior.getMaximum();
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andrew@0
|
429
|
|
andrew@9
|
430 relativeSpeedPosterior.updateIntegratedEstimate();
|
|
andrew@9
|
431 speedEstimate = relativeSpeedPosterior.getIndexInRealTerms(relativeSpeedPosterior.integratedEstimate);
|
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andrew@0
|
432 }
|
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andrew@0
|
433
|
|
andrew@0
|
434
|
|
andrew@0
|
435 void BayesianArrayStructure::calculateTempoUpdate(){
|
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andrew@0
|
436 //copy posterior to prior
|
|
andrew@0
|
437 relativeSpeedPrior.copyFromDynamicVector(relativeSpeedPosterior);
|
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andrew@0
|
438
|
|
andrew@0
|
439 //update
|
|
andrew@0
|
440 relativeSpeedPosterior.doProduct(relativeSpeedPrior, relativeSpeedLikelihood);
|
|
andrew@0
|
441
|
|
andrew@0
|
442 //normalise
|
|
andrew@0
|
443 relativeSpeedPosterior.renormalise();
|
|
andrew@0
|
444
|
|
andrew@0
|
445 relativeSpeedPosterior.getMaximum();
|
|
andrew@0
|
446
|
|
andrew@0
|
447 }
|
|
andrew@0
|
448
|
|
andrew@0
|
449
|
|
andrew@0
|
450 void BayesianArrayStructure::drawArrays(){
|
|
andrew@0
|
451
|
|
andrew@0
|
452 //bayesArray.drawFloatArray(&bayesArray.prior[0], 0, 200);
|
|
andrew@0
|
453 //bayesArray.drawFloatArray(&bayesArray.prior[0], 0, 200);
|
|
andrew@0
|
454
|
|
andrew@0
|
455 int displaySize = prior.arraySize;
|
|
andrew@2
|
456 ofSetColor(0,0,255);
|
|
andrew@0
|
457 prior.drawVector(0, displaySize);
|
|
andrew@0
|
458 ofSetColor(0,255,0);
|
|
andrew@0
|
459 likelihood.drawVector(0, displaySize);
|
|
andrew@2
|
460 ofSetColor(255,0,255);
|
|
andrew@0
|
461 posterior.drawVector(0, displaySize);
|
|
andrew@2
|
462
|
|
andrew@0
|
463
|
|
andrew@0
|
464 // ofSetColor(255,255,255);
|
|
andrew@0
|
465 // tmpPrior.drawVector(0,300);
|
|
andrew@0
|
466
|
|
andrew@0
|
467 }
|
|
andrew@0
|
468
|
|
andrew@0
|
469
|
|
andrew@0
|
470 void BayesianArrayStructure::drawTempoArrays(){
|
|
andrew@9
|
471 ofSetColor(0,0,255);
|
|
andrew@9
|
472 // relativeSpeedPrior.drawVector(0, relativeSpeedPrior.arraySize);
|
|
andrew@0
|
473
|
|
andrew@0
|
474 ofSetColor(255,0,255);
|
|
andrew@0
|
475 relativeSpeedLikelihood.drawVector(0, relativeSpeedLikelihood.arraySize);
|
|
andrew@9
|
476 // relativeSpeedLikelihood.drawConstrainedVector(0, 199, 0, 1000);// relativeSpeedLikelihood.arraySize);
|
|
andrew@9
|
477 ofSetColor(255,0,0);
|
|
andrew@0
|
478 relativeSpeedPosterior.drawVector(0, relativeSpeedPosterior.arraySize);
|
|
andrew@0
|
479
|
|
andrew@9
|
480 // ofSetColor(0,0,255);
|
|
andrew@9
|
481 // tmpPosteriorForStorage.drawVector(0, tmpPosteriorForStorage.arraySize);
|
|
andrew@2
|
482
|
|
andrew@0
|
483 ofSetColor(255,255, 255);
|
|
andrew@0
|
484 ofLine(screenWidth/2, 0, screenWidth/2, ofGetHeight());//middle of screen
|
|
andrew@0
|
485
|
|
andrew@9
|
486 ofSetColor(155,255, 0);
|
|
andrew@9
|
487 double fractionOfScreen = ((double)relativeSpeedPosterior.integratedEstimate / relativeSpeedPosterior.length);
|
|
andrew@0
|
488 ofLine(screenWidth * fractionOfScreen, 0, screenWidth * fractionOfScreen, ofGetHeight());
|
|
andrew@18
|
489
|
|
andrew@18
|
490 ofSetColor(0,255, 255);
|
|
andrew@18
|
491 fractionOfScreen = ((double)relativeSpeedPosterior.MAPestimate / relativeSpeedPosterior.length);
|
|
andrew@18
|
492 ofLine(screenWidth * fractionOfScreen, 0, screenWidth * fractionOfScreen, ofGetHeight());
|
|
andrew@18
|
493
|
|
andrew@0
|
494 }
|
|
andrew@0
|
495
|
|
andrew@0
|
496
|
|
andrew@0
|
497 void BayesianArrayStructure::drawArraysRelativeToTimeframe(const double& startTimeMillis, const double& endTimeMillis){
|
|
andrew@0
|
498
|
|
andrew@0
|
499 screenWidth = ofGetWidth();
|
|
andrew@0
|
500
|
|
andrew@0
|
501 int startArrayIndex = 0;
|
|
andrew@0
|
502
|
|
andrew@0
|
503 if (prior.getIndexInRealTerms(prior.arraySize-1) > startTimeMillis){
|
|
andrew@0
|
504 //i.e. the array is on the page
|
|
andrew@0
|
505
|
|
andrew@0
|
506 while (prior.getIndexInRealTerms(startArrayIndex) < startTimeMillis){
|
|
andrew@0
|
507 startArrayIndex++;
|
|
andrew@0
|
508 }
|
|
andrew@0
|
509 int endArrayIndex = prior.arraySize-1;
|
|
andrew@0
|
510 //could find constraints here
|
|
andrew@0
|
511 if (prior.getIndexInRealTerms(prior.arraySize-1) > endTimeMillis)
|
|
andrew@0
|
512 endArrayIndex = (floor)((endTimeMillis - prior.offset)/prior.scalar);
|
|
andrew@0
|
513
|
|
andrew@0
|
514 //so we need to figure where start and end array are on screen
|
|
andrew@0
|
515 int startScreenPosition, endScreenPosition;
|
|
andrew@0
|
516 double screenWidthMillis = endTimeMillis - startTimeMillis;
|
|
andrew@0
|
517
|
|
andrew@0
|
518 startScreenPosition = (prior.getIndexInRealTerms(startArrayIndex) - startTimeMillis)*screenWidth/screenWidthMillis;
|
|
andrew@0
|
519 endScreenPosition = (double)(prior.getIndexInRealTerms(endArrayIndex) - startTimeMillis)*screenWidth/screenWidthMillis;
|
|
andrew@0
|
520
|
|
andrew@0
|
521 ofSetColor(0,0,100);
|
|
andrew@0
|
522 string relativeString = " offset "+ofToString(prior.offset, 1);//starttimes("+ofToString(startTimeMillis)+", "+ofToString(endTimeMillis);
|
|
andrew@0
|
523 relativeString += ": index "+ofToString(startArrayIndex)+" , "+ofToString(endArrayIndex)+" [";
|
|
andrew@0
|
524 // relativeString += ofToString(prior.getIndexInRealTerms(endArrayIndex), 3)+"] (sc-width:"+ofToString(screenWidthMillis, 1)+") ";
|
|
andrew@0
|
525 relativeString += " mapped to screen "+ofToString(startScreenPosition)+" , "+ofToString(endScreenPosition);
|
|
andrew@21
|
526 // ofDrawBitmapString(relativeString, 100, 180);
|
|
andrew@0
|
527
|
|
andrew@1
|
528 ofSetColor(255, 255, 0);
|
|
andrew@0
|
529 likelihood.drawConstrainedVector(startArrayIndex, endArrayIndex, startScreenPosition, endScreenPosition);
|
|
andrew@0
|
530
|
|
andrew@0
|
531 ofSetColor(0,0,200);
|
|
andrew@0
|
532 prior.drawConstrainedVector(startArrayIndex, endArrayIndex, startScreenPosition, endScreenPosition);
|
|
andrew@0
|
533
|
|
andrew@0
|
534 ofSetColor(200, 0, 0);
|
|
andrew@0
|
535 posterior.drawConstrainedVector(startArrayIndex, endArrayIndex, startScreenPosition, endScreenPosition);
|
|
andrew@0
|
536
|
|
andrew@1
|
537
|
|
andrew@0
|
538 // ofSetColor(0, 200, 255);
|
|
andrew@0
|
539 // acceleration.drawConstrainedVector(startArrayIndex, endArrayIndex, startScreenPosition, endScreenPosition);
|
|
andrew@0
|
540
|
|
andrew@0
|
541
|
|
andrew@0
|
542 }
|
|
andrew@0
|
543
|
|
andrew@9
|
544 }
|
|
andrew@9
|
545
|
|
andrew@9
|
546
|
|
andrew@9
|
547 /*
|
|
andrew@9
|
548
|
|
andrew@9
|
549 void BayesianArrayStructure::updateTempoDistribution(const double& speedRatio, const double& matchFactor){
|
|
andrew@9
|
550 //speedratio is speed of played relative to the recording
|
|
andrew@9
|
551
|
|
andrew@9
|
552 double index = relativeSpeedLikelihood.getRealTermsAsIndex(speedRatio);
|
|
andrew@9
|
553 // printf("\nindex of likelihood would be %f\n", index);
|
|
andrew@9
|
554 if (index >= 0 && index < relativeSpeedPrior.length){
|
|
andrew@9
|
555 //then we can do update
|
|
andrew@9
|
556
|
|
andrew@9
|
557 //set new likelihood
|
|
andrew@9
|
558 relativeSpeedLikelihood.zero();
|
|
andrew@9
|
559 relativeSpeedLikelihood.addConstant(speedLikelihoodNoise);
|
|
andrew@9
|
560
|
|
andrew@9
|
561 relativeSpeedLikelihood.addGaussianShape(index , 5, 0.5*matchFactor);
|
|
andrew@9
|
562
|
|
andrew@9
|
563
|
|
andrew@9
|
564 //copy posterior to prior
|
|
andrew@9
|
565 relativeSpeedPrior.copyFromDynamicVector(relativeSpeedPosterior);
|
|
andrew@9
|
566
|
|
andrew@9
|
567 //update
|
|
andrew@9
|
568 relativeSpeedPosterior.doProduct(relativeSpeedPrior, relativeSpeedLikelihood);
|
|
andrew@9
|
569
|
|
andrew@9
|
570 //normalise
|
|
andrew@9
|
571 relativeSpeedPosterior.renormalise();
|
|
andrew@9
|
572
|
|
andrew@9
|
573 relativeSpeedPosterior.getMaximum();
|
|
andrew@9
|
574 }//end if within range
|
|
andrew@9
|
575
|
|
andrew@9
|
576
|
|
andrew@9
|
577 }
|
|
andrew@9
|
578
|
|
andrew@9
|
579 */ |
