1 | // ================================================================
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2 | // $Id: lsds_kdtree.cpp,v 1.18 2005/04/16 09:34:21 bittner Exp $
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3 | // ****************************************************************
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4 | /**
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5 | The KD tree based LSDS
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6 | */
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7 | // Initial coding by
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8 | /**
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9 | @author Jiri Bittner
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10 | */
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11 |
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12 | // Standard headers
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13 | #include <stack>
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14 | #include <queue>
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15 | #include <algorithm>
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16 | #include <fstream>
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17 | #include <string>
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18 |
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19 | #include "RssTree.h"
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20 |
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21 | #include "Environment.h"
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22 | #include "VssRay.h"
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23 | #include "Intersectable.h"
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24 | #include "Ray.h"
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25 | #include "Containers.h"
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26 | #include "ViewCell.h"
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27 | #include "Exporter.h"
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28 | #include "Preprocessor.h"
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29 | #include "SceneGraph.h"
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30 |
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31 |
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32 | namespace GtpVisibilityPreprocessor {
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33 |
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34 |
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35 | #define DEBUG_SPLIT_COST 0
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36 | #define DEBUG_SPLITS 0
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37 |
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38 | #define EVAL_VIEWCELLS 0
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39 |
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40 | // Static variables
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41 | int
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42 | RssTreeLeaf::mailID = 0;
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43 |
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44 | inline void
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45 | AddObject2Pvs(Intersectable *object,
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46 | const int side,
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47 | int &pvsBack,
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48 | int &pvsFront)
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49 | {
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50 |
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51 | if (!object)
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52 | return;
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53 |
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54 | if (side <= 0) {
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55 | if (!object->Mailed() && !object->Mailed(2)) {
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56 | pvsBack++;
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57 | if (object->Mailed(1))
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58 | object->Mail(2);
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59 | else
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60 | object->Mail();
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61 | }
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62 | }
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63 |
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64 | if (side >= 0) {
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65 | if (!object->Mailed(1) && !object->Mailed(2)) {
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66 | pvsFront++;
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67 | if (object->Mailed())
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68 | object->Mail(2);
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69 | else
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70 | object->Mail(1);
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71 | }
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72 | }
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73 | }
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74 |
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75 | inline void
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76 | AddViewcells2Pvs(const ViewCellContainer &viewcells,
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77 | const int side,
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78 | int &viewcellsBack,
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79 | int &viewcellsFront)
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80 | {
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81 | ViewCellContainer::const_iterator it = viewcells.begin();
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82 |
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83 | for (; it != viewcells.end(); ++it) {
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84 | ViewCell *viewcell = *it;
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85 | if (side <= 0) {
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86 | if (!viewcell->Mailed() && !viewcell->Mailed(2)) {
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87 | viewcellsBack++;
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88 | if (viewcell->Mailed(1))
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89 | viewcell->Mail(2);
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90 | else
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91 | viewcell->Mail();
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92 | }
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93 | }
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94 |
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95 | if (side >= 0) {
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96 | if (!viewcell->Mailed(1) && !viewcell->Mailed(2)) {
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97 | viewcellsFront++;
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98 | if (viewcell->Mailed())
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99 | viewcell->Mail(2);
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100 | else
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101 | viewcell->Mail(1);
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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 |
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107 |
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108 | // Constructor
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109 | RssTree::RssTree()
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110 | {
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111 | Environment::GetSingleton()->GetIntValue("RssTree.maxDepth", termMaxDepth);
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112 | Environment::GetSingleton()->GetIntValue("RssTree.minPvs", termMinPvs);
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113 | Environment::GetSingleton()->GetIntValue("RssTree.minRays", termMinRays);
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114 | Environment::GetSingleton()->GetFloatValue("RssTree.maxRayContribution", termMaxRayContribution);
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115 | Environment::GetSingleton()->GetFloatValue("RssTree.maxCostRatio", termMaxCostRatio);
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116 |
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117 | Environment::GetSingleton()->GetFloatValue("RssTree.minSize", termMinSize);
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118 | termMinSize = sqr(termMinSize);
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119 |
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120 | Environment::GetSingleton()->GetFloatValue("RssTree.refDirBoxMaxSize", refDirBoxMaxSize);
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121 | refDirBoxMaxSize = sqr(refDirBoxMaxSize);
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122 |
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123 | Environment::GetSingleton()->GetFloatValue("RssTree.epsilon", epsilon);
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124 | Environment::GetSingleton()->GetFloatValue("RssTree.ct_div_ci", ct_div_ci);
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125 |
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126 | Environment::GetSingleton()->GetFloatValue("RssTree.maxTotalMemory", maxTotalMemory);
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127 | Environment::GetSingleton()->GetFloatValue("RssTree.maxStaticMemory", maxStaticMemory);
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128 |
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129 | Environment::GetSingleton()->GetFloatValue("RssTree.maxStaticMemory", maxStaticMemory);
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130 |
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131 |
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132 |
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133 | Environment::GetSingleton()->GetIntValue("RssTree.accessTimeThreshold", accessTimeThreshold);
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134 | //= 1000;
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135 | Environment::GetSingleton()->GetIntValue("RssTree.minCollapseDepth", minCollapseDepth);
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136 | // int minCollapseDepth = 4;
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137 |
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138 | // pRefDirThresh = cos(0.5*M_PI - M_PI*refDirAngle/180.0);
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139 | // cosRefDir = cos(M_PI*refDirAngle/180.0);
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140 | // sinRefDir = sin(M_PI*refDirAngle/180.0);
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141 |
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142 |
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143 | // split type
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144 | char sname[128];
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145 | Environment::GetSingleton()->GetStringValue("RssTree.splitType", sname);
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146 | string name(sname);
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147 |
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148 | if (name.compare("regular") == 0)
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149 | splitType = ESplitRegular;
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150 | else
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151 | if (name.compare("heuristic") == 0)
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152 | splitType = ESplitHeuristic;
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153 | else
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154 | if (name.compare("hybrid") == 0)
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155 | splitType = ESplitHybrid;
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156 | else {
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157 | cerr<<"Invalid RssTree split type "<<name<<endl;
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158 | exit(1);
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159 | }
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160 |
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161 | Environment::GetSingleton()->GetIntValue("RssTree.hybridDepth", mHybridDepth);
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162 |
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163 | Environment::GetSingleton()->GetBoolValue("RssTree.randomize", randomize);
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164 | Environment::GetSingleton()->GetBoolValue("RssTree.splitUseOnlyDrivingAxis", mSplitUseOnlyDrivingAxis);
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165 |
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166 | Environment::GetSingleton()->GetBoolValue("RssTree.interleaveDirSplits", mInterleaveDirSplits);
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167 | Environment::GetSingleton()->GetIntValue("RssTree.dirSplitDepth", mDirSplitDepth);
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168 |
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169 | Environment::GetSingleton()->GetBoolValue("RssTree.importanceBasedCost", mImportanceBasedCost);
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170 |
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171 | Environment::GetSingleton()->GetIntValue("RssTree.maxRays", mMaxRays);
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172 |
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173 | Environment::GetSingleton()->GetBoolValue("RssTree.perObjectTree", mPerObjectTree);
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174 |
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175 | // mRoots;
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176 |
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177 | splitCandidates = new vector<SortableEntry>;
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178 | }
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179 |
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180 |
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181 | RssTree::~RssTree()
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182 | {
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183 | for (int i=0; i < mRoots.size(); i++)
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184 | if (mRoots[i])
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185 | delete mRoots[i];
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186 | }
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187 |
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188 |
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189 |
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190 |
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191 | void
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192 | RssStatistics::Print(ostream &app) const
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193 | {
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194 | app << "###### RssTree statistics ######\n";
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195 |
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196 | app << "#N_RAYS ( Number of rays )\n"
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197 | << rays <<endl;
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198 |
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199 | app << "#N_INITPVS ( Initial PVS size )\n"
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200 | << initialPvsSize <<endl;
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201 |
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202 | app << "#N_NODES ( Number of nodes )\n" << nodes << "\n";
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203 |
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204 | app << "#N_LEAVES ( Number of leaves )\n" << Leaves() << "\n";
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205 |
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206 | app << "#N_SPLITS ( Number of splits in axes x y z dx dy dz)\n";
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207 | for (int i=0; i<7; i++)
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208 | app << splits[i] <<" ";
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209 | app <<endl;
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210 |
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211 | app << "#N_RAYREFS ( Number of rayRefs )\n" <<
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212 | rayRefs << "\n";
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213 |
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214 | app << "#N_RAYRAYREFS ( Number of rayRefs / ray )\n" <<
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215 | rayRefs/(double)rays << "\n";
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216 |
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217 | app << "#N_LEAFRAYREFS ( Number of rayRefs / leaf )\n" <<
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218 | rayRefs/(double)Leaves() << "\n";
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219 |
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220 | app << "#N_MAXRAYREFS ( Max number of rayRefs / leaf )\n" <<
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221 | maxRayRefs << "\n";
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222 |
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223 |
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224 | // app << setprecision(4);
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225 |
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226 | app << "#N_PMAXDEPTHLEAVES ( Percentage of leaves at maxdepth )\n"<<
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227 | maxDepthNodes*100/(double)Leaves()<<endl;
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228 |
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229 | app << "#N_PMINPVSLEAVES ( Percentage of leaves with minPvs )\n"<<
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230 | minPvsNodes*100/(double)Leaves()<<endl;
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231 |
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232 | app << "#N_PMINRAYSLEAVES ( Percentage of leaves with minRays )\n"<<
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233 | minRaysNodes*100/(double)Leaves()<<endl;
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234 |
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235 | app << "#N_PMINSIZELEAVES ( Percentage of leaves with minSize )\n"<<
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236 | minSizeNodes*100/(double)Leaves()<<endl;
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237 |
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238 | app << "#N_PMAXRAYCONTRIBLEAVES ( Percentage of leaves with maximal ray contribution )\n"<<
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239 | maxRayContribNodes*100/(double)Leaves()<<endl;
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240 |
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241 | app << "#N_PMAXCOSTRATIOLEAVES ( Percentage of leaves with max cost ratio )\n"<<
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242 | maxCostRatioNodes*100/(double)Leaves()<<endl;
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243 |
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244 | app << "#N_ADDED_RAYREFS (Number of dynamically added ray references )\n"<<
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245 | addedRayRefs<<endl;
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246 |
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247 | app << "#N_REMOVED_RAYREFS (Number of dynamically removed ray references )\n"<<
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248 | removedRayRefs<<endl;
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249 |
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250 | // app << setprecision(4);
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251 |
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252 | app << "#N_CTIME ( Construction time [s] )\n"
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253 | << Time() << " \n";
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254 |
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255 | app << "###### END OF RssTree statistics ######\n";
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256 |
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257 | }
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258 |
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259 |
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260 | void
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261 | RssTree::UpdatePvsSize(RssTreeLeaf *leaf)
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262 | {
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263 | if (!leaf->mValidPvs) {
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264 | Intersectable::NewMail();
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265 | int pvsSize = 0;
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266 | for(RssTreeNode::RayInfoContainer::iterator ri = leaf->rays.begin();
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267 | ri != leaf->rays.end();
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268 | ri++)
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269 | if ((*ri).mRay->IsActive()) {
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270 | Intersectable *object;
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271 | object = (*ri).GetObject();
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272 | if (object && !object->Mailed()) {
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273 | pvsSize++;
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274 | object->Mail();
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275 | }
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276 | }
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277 | leaf->SetPvsSize(pvsSize);
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278 |
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279 | ComputeImportance(leaf);
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280 | }
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281 | }
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282 |
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283 | bool
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284 | RssTree::ClipRay(
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285 | RssTreeNode::RayInfo &rayInfo,
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286 | const AxisAlignedBox3 &box
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287 | )
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288 | {
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289 | float tmin, tmax;
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290 | static Ray ray;
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291 | cerr<<"Clip not reimplented yet...Quiting\n";
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292 | exit(1);
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293 | ray.Init(rayInfo.GetOrigin(), rayInfo.GetDir(), Ray::LINE_SEGMENT);
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294 |
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295 | if (!box.ComputeMinMaxT(ray, &tmin, &tmax) || tmin>=tmax)
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296 | return false;
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297 |
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298 | // now check if the ray origin lies inside the box
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299 | if ( tmax < rayInfo.mRay->GetSize() ) {
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300 | // this ray does not leave the box
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301 | rayInfo.mRay->SetupEndPoints(
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302 | ray.Extrap(tmax),
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303 | rayInfo.mRay->mTermination
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304 | );
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305 | return true;
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306 | }
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307 |
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308 | return false;
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309 | }
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310 |
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311 |
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312 | void
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313 | RssTree::Construct(
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314 | ObjectContainer &objects,
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315 | VssRayContainer &rays
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316 | // forced bounding box is only used when computing from-box
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317 | // visibility
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318 | // AxisAlignedBox3 *forcedBoundingBox
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319 | )
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320 | {
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321 | cout<<"Constructing rss tree"<<endl<<flush;
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322 | stat.Start();
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323 |
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324 | maxMemory = maxStaticMemory;
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325 |
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326 | // if (root)
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327 | // delete root;
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328 |
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329 | if (mPerObjectTree) {
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330 | // get max id from the rays
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331 | int i;
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332 | mRoots.resize(objects.size());
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333 | for (i = 0; i < objects.size(); i++) {
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334 | RssTreeLeaf *leaf = new RssTreeLeaf(NULL, 0);
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335 | // leaf->bbox.Initialize();
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336 | leaf->dirBBox.Initialize();
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337 | leaf->dirBBox.SetMin(2, 0.0f);
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338 | leaf->dirBBox.SetMax(2, 0.0f);
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339 | mRoots[i] = leaf;
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340 | }
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341 |
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342 | // init spatial bounding boxes
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343 | for (i = 0; i < objects.size(); i++) {
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344 | GetRoot(objects[i])->bbox = objects[i]->GetBox();
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345 | }
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346 | stat.nodes = i;
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347 | stat.leaves = i;
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348 | } else {
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349 | mRoots.resize(1);
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350 | RssTreeLeaf *leaf = new RssTreeLeaf(NULL, (int)rays.size());
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351 | leaf->bbox.Initialize();
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352 | leaf->dirBBox.Initialize();
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353 | leaf->dirBBox.SetMin(2, 0.0f);
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354 | leaf->dirBBox.SetMax(2, 1.0f);
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355 | mRoots[0] = leaf;
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356 | stat.nodes = 1;
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357 | stat.leaves = 1;
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358 | }
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359 |
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360 | for(VssRayContainer::const_iterator ri = rays.begin();
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361 | ri != rays.end();
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362 | ri++) {
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363 |
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364 | RssTreeNode::RayInfo info(*ri);
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365 |
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366 | // first construct a leaf that will get subdivide
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367 | RssTreeLeaf *leaf = (RssTreeLeaf *) GetRoot(info.GetSourceObject());
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368 |
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369 | leaf->AddRay(info);
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370 |
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371 | // leaf bbox contains bbox of origins only
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372 |
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373 | // include both origin and terminatin in the global bbox
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374 | #if USE_ORIGIN
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375 | leaf->bbox.Include((*ri)->GetOrigin());
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376 | bbox.Include((*ri)->GetOrigin());
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377 | #else
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378 | bbox.Include((*ri)->GetTermination());
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379 | leaf->bbox.Include((*ri)->GetTermination());
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380 | #endif
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381 | Vector3 dVec = Vector3(
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382 | (*ri)->GetDirParametrization(0),
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383 | (*ri)->GetDirParametrization(1),
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384 | 0
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385 | );
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386 |
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387 | leaf->dirBBox.Include(dVec);
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388 | dirBBox.Include(dVec);
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389 | }
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390 |
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391 | // make the z axis (unused) a unit size
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392 | // important for volume computation
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393 |
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394 | // if ( forcedBoundingBox )
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395 | // bbox = *forcedBoundingBox;
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396 |
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397 | cout<<"Bbox = "<<bbox<<endl;
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398 | cout<<"Dirr Bbox = "<<dirBBox<<endl;
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399 |
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400 | stat.rays = rays.size();
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401 | stat.initialPvsSize = 0;
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402 | for (int i=0; i < mRoots.size(); i++) {
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403 | RssTreeLeaf *leaf = (RssTreeLeaf *)mRoots[i];
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404 | UpdatePvsSize(leaf);
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405 | stat.initialPvsSize += leaf->GetPvsSize();
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406 | mRoots[i] = Subdivide(TraversalData(leaf, GetBBox(leaf), 0));
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407 | }
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408 |
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409 | if (splitCandidates) {
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410 | // force realease of this vector
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411 | delete splitCandidates;
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412 | splitCandidates = new vector<SortableEntry>;
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413 | }
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414 |
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415 | stat.Stop();
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416 | stat.Print(cout);
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417 | cout<<"#Total memory="<<GetMemUsage()<<endl;
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418 |
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419 | // this rotine also updates importances etc...
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420 | }
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421 |
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422 | int
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423 | RssTree::UpdateSubdivision()
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424 | {
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425 | priority_queue<TraversalData> tStack;
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426 | // stack<TraversalData> tStack;
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427 |
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428 | // tStack.push(TraversalData(root, bbox, 0));
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429 | PushRoots(tStack);
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430 |
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431 | AxisAlignedBox3 backBox;
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432 | AxisAlignedBox3 frontBox;
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433 |
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434 | maxMemory = maxTotalMemory;
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435 | int subdivided = 0;
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436 | int lastMem = 0;
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437 | while (!tStack.empty()) {
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438 |
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439 | float mem = GetMemUsage();
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440 |
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441 | if ( lastMem/10 != ((int)mem)/10) {
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442 | cout<<mem<<" MB"<<endl;
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443 | }
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444 | lastMem = (int)mem;
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445 |
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446 | if ( mem > maxMemory ) {
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447 | // count statistics on unprocessed leafs
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448 | while (!tStack.empty()) {
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449 | // EvaluateLeafStats(tStack.top());
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450 | tStack.pop();
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451 | }
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452 | break;
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453 | }
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454 |
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455 | TraversalData data = tStack.top();
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456 | tStack.pop();
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457 |
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458 | if (data.node->IsLeaf()) {
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459 | RssTreeNode *node = SubdivideNode((RssTreeLeaf *) data.node,
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460 | data.bbox,
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461 | backBox,
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462 | frontBox
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463 | );
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464 | if (!node->IsLeaf()) {
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465 | subdivided++;
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466 |
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467 |
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468 | RssTreeInterior *interior = (RssTreeInterior *) node;
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469 | // push the children on the stack
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470 | tStack.push(TraversalData(interior->back, backBox, data.depth+1));
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471 | tStack.push(TraversalData(interior->front, frontBox, data.depth+1));
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472 | } else {
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473 | // EvaluateLeafStats(data);
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---|
474 | }
|
---|
475 | } else {
|
---|
476 | RssTreeInterior *interior = (RssTreeInterior *) data.node;
|
---|
477 | tStack.push(TraversalData(interior->back, GetBBox(interior->back), data.depth+1));
|
---|
478 | tStack.push(TraversalData(interior->front, GetBBox(interior->front), data.depth+1));
|
---|
479 | }
|
---|
480 | }
|
---|
481 | return subdivided;
|
---|
482 | }
|
---|
483 |
|
---|
484 |
|
---|
485 | RssTreeNode *
|
---|
486 | RssTree::Subdivide(const TraversalData &tdata)
|
---|
487 | {
|
---|
488 | RssTreeNode *result = NULL;
|
---|
489 |
|
---|
490 | priority_queue<TraversalData> tStack;
|
---|
491 | // stack<TraversalData> tStack;
|
---|
492 |
|
---|
493 | tStack.push(tdata);
|
---|
494 |
|
---|
495 | AxisAlignedBox3 backBox;
|
---|
496 | AxisAlignedBox3 frontBox;
|
---|
497 |
|
---|
498 |
|
---|
499 | int lastMem = 0;
|
---|
500 | while (!tStack.empty()) {
|
---|
501 |
|
---|
502 | float mem = GetMemUsage();
|
---|
503 |
|
---|
504 | if ( lastMem/10 != ((int)mem)/10) {
|
---|
505 | cout<<mem<<" MB"<<endl;
|
---|
506 | }
|
---|
507 | lastMem = (int)mem;
|
---|
508 |
|
---|
509 | if ( mem > maxMemory ) {
|
---|
510 | // count statistics on unprocessed leafs
|
---|
511 | while (!tStack.empty()) {
|
---|
512 | EvaluateLeafStats(tStack.top());
|
---|
513 | tStack.pop();
|
---|
514 | }
|
---|
515 | break;
|
---|
516 | }
|
---|
517 |
|
---|
518 | TraversalData data = tStack.top();
|
---|
519 | tStack.pop();
|
---|
520 |
|
---|
521 | #if DEBUG_SPLITS
|
---|
522 | Debug<<"#Splitting node"<<endl;
|
---|
523 | data.node->Print(Debug);
|
---|
524 | #endif
|
---|
525 | RssTreeNode *node = SubdivideNode((RssTreeLeaf *) data.node,
|
---|
526 | data.bbox,
|
---|
527 | backBox,
|
---|
528 | frontBox
|
---|
529 | );
|
---|
530 |
|
---|
531 |
|
---|
532 | if (result == NULL)
|
---|
533 | result = node;
|
---|
534 |
|
---|
535 | if (!node->IsLeaf()) {
|
---|
536 |
|
---|
537 | RssTreeInterior *interior = (RssTreeInterior *) node;
|
---|
538 | // push the children on the stack
|
---|
539 | tStack.push(TraversalData(interior->back, backBox, data.depth+1));
|
---|
540 | tStack.push(TraversalData(interior->front, frontBox, data.depth+1));
|
---|
541 |
|
---|
542 | #if DEBUG_SPLITS
|
---|
543 | Debug<<"#New nodes"<<endl;
|
---|
544 | interior->back->Print(Debug);
|
---|
545 | interior->front->Print(Debug);
|
---|
546 | Debug<<"#####################################"<<endl;
|
---|
547 | #endif
|
---|
548 |
|
---|
549 | } else {
|
---|
550 | EvaluateLeafStats(data);
|
---|
551 | }
|
---|
552 | }
|
---|
553 |
|
---|
554 | return result;
|
---|
555 | }
|
---|
556 |
|
---|
557 |
|
---|
558 | // returns selected plane for subdivision
|
---|
559 | int
|
---|
560 | RssTree::SelectPlane(
|
---|
561 | RssTreeLeaf *leaf,
|
---|
562 | const AxisAlignedBox3 &box,
|
---|
563 | SplitInfo &info
|
---|
564 | )
|
---|
565 | {
|
---|
566 |
|
---|
567 | BestCostRatio(leaf,
|
---|
568 | info);
|
---|
569 |
|
---|
570 | #if DEBUG_SPLIT_COST
|
---|
571 | Debug<<"Split Info:"<<endl;
|
---|
572 | Debug<<"axis="<<info.axis<<" ratio="<<info.costRatio<<endl;
|
---|
573 | Debug<<"rays="<<info.rays<<
|
---|
574 | " rays back="<<info.raysBack<<
|
---|
575 | " rays front="<<info.raysFront<<endl;
|
---|
576 | Debug<<"c="<<info.contribution<<
|
---|
577 | " c back="<<info.contributionBack<<
|
---|
578 | " c front="<<info.contributionFront<<endl;
|
---|
579 |
|
---|
580 | // Debug<<"viewcells="<<info.viewCells<<
|
---|
581 | // " viewcells back="<<info.viewCellsBack<<
|
---|
582 | // " viewcells back="<<info.viewCellsFront<<endl;
|
---|
583 | #endif
|
---|
584 |
|
---|
585 | if (info.costRatio > termMaxCostRatio) {
|
---|
586 | // cout<<"Too big cost ratio "<<costRatio<<endl;
|
---|
587 | stat.maxCostRatioNodes++;
|
---|
588 | return -1;
|
---|
589 | }
|
---|
590 |
|
---|
591 | #if 0
|
---|
592 | cout<<
|
---|
593 | "pvs="<<leaf->mPvsSize<<
|
---|
594 | " rays="<<leaf->rays.size()<<
|
---|
595 | " rc="<<leaf->GetAvgRayContribution()<<
|
---|
596 | " axis="<<info.axis<<endl;
|
---|
597 | #endif
|
---|
598 |
|
---|
599 | return info.axis;
|
---|
600 | }
|
---|
601 |
|
---|
602 |
|
---|
603 | void
|
---|
604 | RssTree::GetCostRatio(
|
---|
605 | RssTreeLeaf *leaf,
|
---|
606 | SplitInfo &info
|
---|
607 | )
|
---|
608 | {
|
---|
609 |
|
---|
610 | AxisAlignedBox3 box;
|
---|
611 | float minBox, maxBox;
|
---|
612 |
|
---|
613 | if (info.axis < 3) {
|
---|
614 | box = GetBBox(leaf);
|
---|
615 | minBox = box.Min(info.axis);
|
---|
616 | maxBox = box.Max(info.axis);
|
---|
617 | } else {
|
---|
618 | box = GetDirBBox(leaf);
|
---|
619 | minBox = box.Min(info.axis-3);
|
---|
620 | maxBox = box.Max(info.axis-3);
|
---|
621 | }
|
---|
622 |
|
---|
623 | float sizeBox = maxBox - minBox;
|
---|
624 |
|
---|
625 | int pvsSize = leaf->GetPvsSize();
|
---|
626 |
|
---|
627 | if (!mImportanceBasedCost) {
|
---|
628 | const int costMethod = 0;
|
---|
629 |
|
---|
630 | switch (costMethod) {
|
---|
631 | case 0: {
|
---|
632 | float sum = info.pvsBack*(info.position - minBox) + info.pvsFront*(maxBox - info.position);
|
---|
633 | float newCost = ct_div_ci + sum/sizeBox;
|
---|
634 | float oldCost = (float)pvsSize;
|
---|
635 | info.costRatio = newCost/oldCost;
|
---|
636 | break;
|
---|
637 | }
|
---|
638 | case 6: {
|
---|
639 | float sum = info.raysBack*(info.position - minBox) + info.raysFront*(maxBox - info.position);
|
---|
640 | float newCost = ct_div_ci + sum/sizeBox;
|
---|
641 | float oldCost = (float)info.rays;
|
---|
642 | info.costRatio = newCost/oldCost;
|
---|
643 | break;
|
---|
644 | }
|
---|
645 | case 7: {
|
---|
646 | float benefit =
|
---|
647 | (sqr(info.contributionBack) + sqr(info.contributionFront))/
|
---|
648 | (2.0f*sqr(info.contribution));
|
---|
649 | info.costRatio = 1.0f/(benefit + Limits::Small);
|
---|
650 | break;
|
---|
651 | }
|
---|
652 |
|
---|
653 |
|
---|
654 | case 1: {
|
---|
655 | float newContrib =
|
---|
656 | (info.contributionBack*(info.position - minBox) +
|
---|
657 | +
|
---|
658 | info.contributionFront*(maxBox - info.position))/sizeBox;
|
---|
659 | float oldContrib = info.contribution;
|
---|
660 | info.costRatio = newContrib/oldContrib;
|
---|
661 | // cout<<info.contribution<<" "<<info.contributionBack<<" "<<info.contributionFront<<endl;
|
---|
662 | break;
|
---|
663 | }
|
---|
664 | case 2: {
|
---|
665 | float sum =
|
---|
666 | info.viewCellsBack*(info.position - minBox) +
|
---|
667 | info.viewCellsFront*(maxBox - info.position);
|
---|
668 | float newCost = ct_div_ci + sum/sizeBox;
|
---|
669 | float oldCost = (float)info.viewCells;
|
---|
670 | info.costRatio = newCost/oldCost;
|
---|
671 | break;
|
---|
672 | }
|
---|
673 | case 3: {
|
---|
674 | float newCost = (float)(info.raysBack*info.pvsBack + info.raysFront*info.pvsFront);
|
---|
675 | float oldCost = (float)leaf->rays.size()*pvsSize;
|
---|
676 | info.costRatio = newCost/oldCost;
|
---|
677 | }
|
---|
678 | }
|
---|
679 | } else {
|
---|
680 | const int costMethod = 1;
|
---|
681 | // importance based cost
|
---|
682 | switch (costMethod) {
|
---|
683 | case 0: {
|
---|
684 | break;
|
---|
685 | }
|
---|
686 | case 1: {
|
---|
687 | float newContrib =
|
---|
688 | sqr(info.pvsBack/(info.raysBack + Limits::Small)) +
|
---|
689 | sqr(info.pvsFront/(info.raysFront + Limits::Small));
|
---|
690 | float oldContrib = sqr(leaf->GetAvgRayContribution());
|
---|
691 | info.costRatio = oldContrib/newContrib;
|
---|
692 | break;
|
---|
693 | }
|
---|
694 | case 2: {
|
---|
695 | float newCost = (info.pvsBack + info.pvsFront)*0.5f;
|
---|
696 | float oldCost = (float)pvsSize;
|
---|
697 | info.costRatio = newCost/oldCost;
|
---|
698 | break;
|
---|
699 | }
|
---|
700 | case 3: {
|
---|
701 | float newCost = (float)abs(info.raysBack - info.raysFront);
|
---|
702 | float oldCost = (float)leaf->rays.size();
|
---|
703 | info.costRatio = newCost/oldCost;
|
---|
704 | break;
|
---|
705 | }
|
---|
706 | }
|
---|
707 | }
|
---|
708 | }
|
---|
709 |
|
---|
710 |
|
---|
711 | void
|
---|
712 | RssTree::EvalCostRatio(
|
---|
713 | RssTreeLeaf *leaf,
|
---|
714 | SplitInfo &info
|
---|
715 | )
|
---|
716 | {
|
---|
717 | info.rays = 0;
|
---|
718 | info.raysBack = 0;
|
---|
719 | info.raysFront = 0;
|
---|
720 | info.pvsFront = 0;
|
---|
721 | info.pvsBack = 0;
|
---|
722 | info.viewCells = 0;
|
---|
723 | info.viewCellsFront = 0;
|
---|
724 | info.viewCellsBack = 0;
|
---|
725 |
|
---|
726 |
|
---|
727 |
|
---|
728 | float sumWeights = Limits::Small;
|
---|
729 | float sumWeightsBack = Limits::Small;
|
---|
730 | float sumWeightsFront = Limits::Small;
|
---|
731 |
|
---|
732 | float sumContribution = 0.0f;
|
---|
733 | float sumContributionBack = 0.0f;
|
---|
734 | float sumContributionFront = 0.0f;
|
---|
735 |
|
---|
736 | Intersectable::NewMail();
|
---|
737 |
|
---|
738 | #if EVAL_VIEWCELLS
|
---|
739 | // count the numebr of viewcells first
|
---|
740 | for(RssTreeNode::RayInfoContainer::iterator ri = leaf->rays.begin();
|
---|
741 | ri != leaf->rays.end();
|
---|
742 | ri++)
|
---|
743 | if ((*ri).mRay->IsActive()) {
|
---|
744 |
|
---|
745 | ViewCellContainer::const_iterator it = (*ri).mRay->mViewCells.begin();
|
---|
746 | for (; it != (*ri).mRay->mViewCells.end(); ++it) {
|
---|
747 | if (!(*it)->Mailed()) {
|
---|
748 | (*it)->Mail();
|
---|
749 | info.viewCells++;
|
---|
750 | }
|
---|
751 | }
|
---|
752 | }
|
---|
753 | #endif
|
---|
754 |
|
---|
755 | Intersectable::NewMail(3);
|
---|
756 |
|
---|
757 | // this is the main ray classification loop!
|
---|
758 | for(RssTreeNode::RayInfoContainer::iterator ri = leaf->rays.begin();
|
---|
759 | ri != leaf->rays.end();
|
---|
760 | ri++)
|
---|
761 | if ((*ri).mRay->IsActive()) {
|
---|
762 | int side;
|
---|
763 |
|
---|
764 |
|
---|
765 | // determine the side of this ray with respect to the plane
|
---|
766 | side = (*ri).ComputeRaySide(info.axis, info.position);
|
---|
767 |
|
---|
768 | float weight, contribution;
|
---|
769 |
|
---|
770 | GetRayContribution(*ri, weight, contribution);
|
---|
771 | sumWeights += weight;
|
---|
772 | sumContribution += contribution;
|
---|
773 | info.rays++;
|
---|
774 | if (side <= 0) {
|
---|
775 | info.raysBack++;
|
---|
776 | sumWeightsBack += weight;
|
---|
777 | sumContributionBack += contribution;
|
---|
778 | }
|
---|
779 |
|
---|
780 | if (side >= 0) {
|
---|
781 | info.raysFront++;
|
---|
782 | sumWeightsFront += weight;
|
---|
783 | sumContributionFront += contribution;
|
---|
784 | }
|
---|
785 |
|
---|
786 | AddObject2Pvs((*ri).GetObject(), side, info.pvsBack, info.pvsFront);
|
---|
787 |
|
---|
788 | #if EVAL_VIEWCELLS
|
---|
789 | AddViewcells2Pvs((*ri).mRay->mViewCells,
|
---|
790 | side,
|
---|
791 | info.viewCellsBack,
|
---|
792 | info.viewCellsFront);
|
---|
793 | #endif
|
---|
794 | }
|
---|
795 |
|
---|
796 | if (sumWeights!=0.0f)
|
---|
797 | info.contribution = sumContribution/sumWeights;
|
---|
798 | else
|
---|
799 | info.contribution = 0.0f;
|
---|
800 |
|
---|
801 | if (sumWeightsBack!=0.0f)
|
---|
802 | info.contributionBack = sumContributionBack/sumWeightsBack;
|
---|
803 | else
|
---|
804 | info.contributionBack = 0.0f;
|
---|
805 |
|
---|
806 | if (sumWeightsFront!=0.0f)
|
---|
807 | info.contributionFront = sumContributionFront/sumWeightsFront;
|
---|
808 | else
|
---|
809 | info.contributionFront = 0.0f;
|
---|
810 |
|
---|
811 | // info.costRatio = 0.1 + Random(0.5f);
|
---|
812 | // return;
|
---|
813 |
|
---|
814 | GetCostRatio(
|
---|
815 | leaf,
|
---|
816 | info);
|
---|
817 |
|
---|
818 | //cout<<axis<<" "<<pvsSize<<" "<<pvsBack<<" "<<pvsFront<<endl;
|
---|
819 | // float oldCost = leaf->rays.size();
|
---|
820 |
|
---|
821 | // cout<<"ratio="<<ratio<<endl;
|
---|
822 | }
|
---|
823 |
|
---|
824 | void
|
---|
825 | RssTree::BestCostRatio(
|
---|
826 | RssTreeLeaf *leaf,
|
---|
827 | SplitInfo &info
|
---|
828 | )
|
---|
829 | {
|
---|
830 | SplitInfo nInfo[5];
|
---|
831 | int bestAxis = -1;
|
---|
832 |
|
---|
833 | AxisAlignedBox3 sBox = GetBBox(leaf);
|
---|
834 | AxisAlignedBox3 dBox = GetDirBBox(leaf);
|
---|
835 | // int sAxis = box.Size().DrivingAxis();
|
---|
836 | int sAxis = sBox.Size().DrivingAxis();
|
---|
837 | int dAxis = dBox.Size().DrivingAxis() + 3;
|
---|
838 |
|
---|
839 | float dirSplitBoxSize = 0.01f;
|
---|
840 | bool allowDirSplit = Magnitude(sBox.Size())*dirSplitBoxSize < Magnitude(bbox.Size());
|
---|
841 |
|
---|
842 | bool useCyclingAxis = true;
|
---|
843 |
|
---|
844 | if (splitType == ESplitHeuristic ||
|
---|
845 | (splitType == ESplitHybrid && leaf->depth > mHybridDepth))
|
---|
846 | useCyclingAxis = false;
|
---|
847 |
|
---|
848 | int cyclingAxis = 0;
|
---|
849 |
|
---|
850 | if (leaf->parent)
|
---|
851 | cyclingAxis = (leaf->parent->axis + 1)%5;
|
---|
852 |
|
---|
853 | if (0 && useCyclingAxis) {
|
---|
854 | int axis = cyclingAxis;
|
---|
855 | info.position = (sBox.Min()[axis] + sBox.Max()[axis])*0.5f;
|
---|
856 | info.axis = axis;
|
---|
857 | info.costRatio = 0.5f; // not true but good for speeding up the subdivision at the top levels!
|
---|
858 | info.raysBack = info.raysFront = leaf->rays.size()/2;
|
---|
859 | return;
|
---|
860 | }
|
---|
861 |
|
---|
862 |
|
---|
863 | for (int axis = 0; axis < 5; axis++)
|
---|
864 | if (
|
---|
865 | (axis < 3 && (leaf->depth < mDirSplitDepth || mInterleaveDirSplits)) ||
|
---|
866 | (axis >= 3 && (leaf->depth >= mDirSplitDepth))
|
---|
867 | ) {
|
---|
868 | nInfo[axis].axis = axis;
|
---|
869 | if ((!useCyclingAxis && (!mSplitUseOnlyDrivingAxis || axis == sAxis || axis == dAxis))
|
---|
870 | || (useCyclingAxis && (axis == cyclingAxis))
|
---|
871 | ) {
|
---|
872 |
|
---|
873 | if (splitType == ESplitRegular) {
|
---|
874 | if (axis < 3)
|
---|
875 | nInfo[axis].position = (sBox.Min()[axis] + sBox.Max()[axis])*0.5f;
|
---|
876 | else
|
---|
877 | nInfo[axis].position = (dBox.Min()[axis-3] + dBox.Max()[axis-3])*0.5f;
|
---|
878 | EvalCostRatio(leaf,
|
---|
879 | nInfo[axis]);
|
---|
880 | } else
|
---|
881 | if (splitType == ESplitHeuristic) {
|
---|
882 | EvalCostRatioHeuristic(
|
---|
883 | leaf,
|
---|
884 | nInfo[axis]
|
---|
885 | );
|
---|
886 | } else
|
---|
887 | if (splitType == ESplitHybrid) {
|
---|
888 | if (leaf->depth > mHybridDepth)
|
---|
889 | EvalCostRatioHeuristic(
|
---|
890 | leaf,
|
---|
891 | nInfo[axis]
|
---|
892 | );
|
---|
893 | else {
|
---|
894 | if (axis < 3)
|
---|
895 | nInfo[axis].position = (sBox.Min()[axis] + sBox.Max()[axis])*0.5f;
|
---|
896 | else
|
---|
897 | nInfo[axis].position = (dBox.Min()[axis-3] + dBox.Max()[axis-3])*0.5f;
|
---|
898 |
|
---|
899 | EvalCostRatio(leaf,
|
---|
900 | nInfo[axis]
|
---|
901 | );
|
---|
902 | }
|
---|
903 | } else {
|
---|
904 | cerr<<"RssTree: Unknown split heuristics\n";
|
---|
905 | exit(1);
|
---|
906 | }
|
---|
907 |
|
---|
908 | if ( bestAxis == -1)
|
---|
909 | bestAxis = axis;
|
---|
910 | else
|
---|
911 | if ( nInfo[axis].costRatio < nInfo[bestAxis].costRatio )
|
---|
912 | bestAxis = axis;
|
---|
913 | }
|
---|
914 | }
|
---|
915 |
|
---|
916 | info = nInfo[bestAxis];
|
---|
917 | }
|
---|
918 |
|
---|
919 |
|
---|
920 | void
|
---|
921 | RssTree::EvalCostRatioHeuristic(
|
---|
922 | RssTreeLeaf *leaf,
|
---|
923 | SplitInfo &info
|
---|
924 | )
|
---|
925 | {
|
---|
926 | AxisAlignedBox3 box;
|
---|
927 | float minBox, maxBox;
|
---|
928 |
|
---|
929 | if (info.axis < 3) {
|
---|
930 | box = GetBBox(leaf);
|
---|
931 | minBox = box.Min(info.axis);
|
---|
932 | maxBox = box.Max(info.axis);
|
---|
933 | } else {
|
---|
934 | box = GetDirBBox(leaf);
|
---|
935 | minBox = box.Min(info.axis-3);
|
---|
936 | maxBox = box.Max(info.axis-3);
|
---|
937 | }
|
---|
938 |
|
---|
939 | SortSubdivisionCandidates(leaf, info.axis);
|
---|
940 |
|
---|
941 | // go through the lists, count the number of objects left and right
|
---|
942 | // and evaluate the following cost funcion:
|
---|
943 | // C = ct_div_ci + (ql*rl + qr*rr)/queries
|
---|
944 |
|
---|
945 | SplitInfo currInfo;
|
---|
946 | currInfo.axis = info.axis;
|
---|
947 |
|
---|
948 | currInfo.raysBack = 0;
|
---|
949 | currInfo.raysFront = leaf->rays.size();
|
---|
950 |
|
---|
951 | currInfo.pvsBack = 0;
|
---|
952 | currInfo.pvsFront = leaf->GetPvsSize();
|
---|
953 |
|
---|
954 |
|
---|
955 | float sumWeights = Limits::Small;
|
---|
956 | float sumWeightsBack = Limits::Small;
|
---|
957 | float sumWeightsFront = Limits::Small;
|
---|
958 |
|
---|
959 | float sumContribution = 0.0f;
|
---|
960 | float sumContributionBack = 0.0f;
|
---|
961 | float sumContributionFront = 0.0f;
|
---|
962 |
|
---|
963 |
|
---|
964 | float sizeBox = maxBox - minBox;
|
---|
965 |
|
---|
966 | float minBand = minBox + 0.1f*(maxBox - minBox);
|
---|
967 | float maxBand = minBox + 0.9f*(maxBox - minBox);
|
---|
968 |
|
---|
969 | // best cost ratio
|
---|
970 | info.costRatio = 1e20f;
|
---|
971 |
|
---|
972 | currInfo.viewCells = 0;
|
---|
973 | currInfo.rays = 0;
|
---|
974 |
|
---|
975 | Intersectable::NewMail();
|
---|
976 | // set all object as belonging to the fron pvs
|
---|
977 | for(RssTreeNode::RayInfoContainer::iterator ri = leaf->rays.begin();
|
---|
978 | ri != leaf->rays.end();
|
---|
979 | ri++)
|
---|
980 | if ((*ri).mRay->IsActive()) {
|
---|
981 |
|
---|
982 | float weight, contribution;
|
---|
983 | GetRayContribution(*ri, weight, contribution);
|
---|
984 |
|
---|
985 | sumWeights += weight;
|
---|
986 | sumContribution += contribution;
|
---|
987 | currInfo.rays++;
|
---|
988 |
|
---|
989 | Intersectable *object = (*ri).GetObject();
|
---|
990 | if (object)
|
---|
991 | if (!object->Mailed()) {
|
---|
992 | object->Mail();
|
---|
993 | object->mCounter = 1;
|
---|
994 | } else
|
---|
995 | object->mCounter++;
|
---|
996 |
|
---|
997 | #if EVAL_VIEWCELLS
|
---|
998 | // and do the same for all viewcells
|
---|
999 | ViewCellContainer::const_iterator it = (*ri).mRay->mViewCells.begin();
|
---|
1000 |
|
---|
1001 | for (; it != (*ri).mRay->mViewCells.end(); ++it) {
|
---|
1002 | ViewCell *viewcell = *it;
|
---|
1003 | if (!viewcell->Mailed()) {
|
---|
1004 | currInfo.viewCells++;
|
---|
1005 | viewcell->Mail();
|
---|
1006 | viewcell->mCounter = 1;
|
---|
1007 | } else
|
---|
1008 | viewcell->mCounter++;
|
---|
1009 | }
|
---|
1010 | #endif
|
---|
1011 | }
|
---|
1012 |
|
---|
1013 | if (sumWeights!=0.0f)
|
---|
1014 | currInfo.contribution = sumContribution/sumWeights;
|
---|
1015 | else
|
---|
1016 | currInfo.contribution = 0.0f;
|
---|
1017 |
|
---|
1018 | sumWeightsFront = sumWeights;
|
---|
1019 | sumContributionFront = sumContribution;
|
---|
1020 |
|
---|
1021 | sumWeightsBack = 0;
|
---|
1022 | sumContributionBack = 0;
|
---|
1023 |
|
---|
1024 | currInfo.viewCellsBack = 0;
|
---|
1025 | currInfo.viewCellsFront = currInfo.viewCells;
|
---|
1026 |
|
---|
1027 | Intersectable::NewMail();
|
---|
1028 |
|
---|
1029 | for(vector<SortableEntry>::const_iterator ci = splitCandidates->begin();
|
---|
1030 | ci < splitCandidates->end();
|
---|
1031 | ci++) {
|
---|
1032 | switch ((*ci).type) {
|
---|
1033 | case SortableEntry::ERayMin: {
|
---|
1034 | currInfo.raysFront--;
|
---|
1035 | currInfo.raysBack++;
|
---|
1036 |
|
---|
1037 | RssTreeNode::RayInfo *rayInfo = (RssTreeNode::RayInfo *) (*ci).data;
|
---|
1038 |
|
---|
1039 | float weight, contribution;
|
---|
1040 | GetRayContribution(*rayInfo, weight, contribution);
|
---|
1041 |
|
---|
1042 | sumWeightsBack += weight;
|
---|
1043 | sumContributionBack += contribution;
|
---|
1044 |
|
---|
1045 | sumWeightsFront -= weight;
|
---|
1046 | sumContributionFront -= contribution;
|
---|
1047 |
|
---|
1048 | Intersectable *object = rayInfo->GetObject();
|
---|
1049 | if (object) {
|
---|
1050 | if (!object->Mailed()) {
|
---|
1051 | object->Mail();
|
---|
1052 | currInfo.pvsBack++;
|
---|
1053 | }
|
---|
1054 | if (--object->mCounter == 0)
|
---|
1055 | currInfo.pvsFront--;
|
---|
1056 | }
|
---|
1057 |
|
---|
1058 | #if EVAL_VIEWCELLS
|
---|
1059 | ViewCellContainer::const_iterator it = rayInfo->mRay->mViewCells.begin();
|
---|
1060 | for (; it != rayInfo->mRay->mViewCells.end(); ++it) {
|
---|
1061 | ViewCell *viewcell = *it;
|
---|
1062 | if (!viewcell->Mailed()) {
|
---|
1063 | viewcell->Mail();
|
---|
1064 | currInfo.viewCellsBack++;
|
---|
1065 | }
|
---|
1066 | if (--viewcell->mCounter == 0)
|
---|
1067 | currInfo.viewCellsFront--;
|
---|
1068 | }
|
---|
1069 | #endif
|
---|
1070 |
|
---|
1071 | break;
|
---|
1072 | }
|
---|
1073 | }
|
---|
1074 |
|
---|
1075 | float position = (*ci).value;
|
---|
1076 |
|
---|
1077 | if (position > minBand && position < maxBand) {
|
---|
1078 | currInfo.position = position;
|
---|
1079 |
|
---|
1080 |
|
---|
1081 | if (sumWeightsBack!=0.0f)
|
---|
1082 | info.contributionBack = sumContributionBack/sumWeightsBack;
|
---|
1083 | else
|
---|
1084 | info.contributionBack = 0.0f;
|
---|
1085 |
|
---|
1086 | if (sumWeightsFront!=0.0f)
|
---|
1087 | info.contributionFront = sumContributionFront/sumWeightsFront;
|
---|
1088 | else
|
---|
1089 | info.contributionFront = 0.0f;
|
---|
1090 |
|
---|
1091 | GetCostRatio(
|
---|
1092 | leaf,
|
---|
1093 | currInfo);
|
---|
1094 |
|
---|
1095 |
|
---|
1096 | // cout<<"pos="<<(*ci).value<<"\t q=("<<ql<<","<<qr<<")\t r=("<<rl<<","<<rr<<")"<<endl;
|
---|
1097 | // cout<<"cost= "<<sum<<endl;
|
---|
1098 |
|
---|
1099 | if (currInfo.costRatio < info.costRatio) {
|
---|
1100 | info = currInfo;
|
---|
1101 | }
|
---|
1102 | }
|
---|
1103 | }
|
---|
1104 |
|
---|
1105 |
|
---|
1106 | // cout<<"===================="<<endl;
|
---|
1107 | // cout<<"costRatio="<<ratio<<" pos="<<position<<" t="<<(position - minBox)/(maxBox - minBox)
|
---|
1108 | // <<"\t q=("<<queriesBack<<","<<queriesFront<<")\t r=("<<raysBack<<","<<raysFront<<")"<<endl;
|
---|
1109 | }
|
---|
1110 |
|
---|
1111 | void
|
---|
1112 | RssTree::SortSubdivisionCandidates(
|
---|
1113 | RssTreeLeaf *node,
|
---|
1114 | const int axis
|
---|
1115 | )
|
---|
1116 | {
|
---|
1117 |
|
---|
1118 | splitCandidates->clear();
|
---|
1119 |
|
---|
1120 | int requestedSize = 2*(node->rays.size());
|
---|
1121 | // creates a sorted split candidates array
|
---|
1122 | if (splitCandidates->capacity() > 500000 &&
|
---|
1123 | requestedSize < (int)(splitCandidates->capacity()/10) ) {
|
---|
1124 |
|
---|
1125 | delete splitCandidates;
|
---|
1126 | splitCandidates = new vector<SortableEntry>;
|
---|
1127 | }
|
---|
1128 |
|
---|
1129 | splitCandidates->reserve(requestedSize);
|
---|
1130 |
|
---|
1131 | // insert all queries
|
---|
1132 | for(RssTreeNode::RayInfoContainer::const_iterator ri = node->rays.begin();
|
---|
1133 | ri < node->rays.end();
|
---|
1134 | ri++) {
|
---|
1135 | if ((*ri).mRay->IsActive()) {
|
---|
1136 | if (axis < 3) {
|
---|
1137 | splitCandidates->push_back(SortableEntry(SortableEntry::ERayMin,
|
---|
1138 | (*ri).GetOrigin(axis),
|
---|
1139 | (void *)&(*ri))
|
---|
1140 | );
|
---|
1141 | } else {
|
---|
1142 | float pos = (*ri).GetDirParametrization(axis-3);
|
---|
1143 | splitCandidates->push_back(SortableEntry(SortableEntry::ERayMin,
|
---|
1144 | pos,
|
---|
1145 | (void *)&(*ri))
|
---|
1146 | );
|
---|
1147 | }
|
---|
1148 | }
|
---|
1149 | }
|
---|
1150 |
|
---|
1151 | stable_sort(splitCandidates->begin(), splitCandidates->end());
|
---|
1152 | }
|
---|
1153 |
|
---|
1154 |
|
---|
1155 | void
|
---|
1156 | RssTree::EvaluateLeafStats(const TraversalData &data)
|
---|
1157 | {
|
---|
1158 |
|
---|
1159 | // the node became a leaf -> evaluate stats for leafs
|
---|
1160 | RssTreeLeaf *leaf = (RssTreeLeaf *)data.node;
|
---|
1161 |
|
---|
1162 | if (data.depth >= termMaxDepth)
|
---|
1163 | stat.maxDepthNodes++;
|
---|
1164 |
|
---|
1165 | // if ( (int)(leaf->rays.size()) < termMinCost)
|
---|
1166 | // stat.minCostNodes++;
|
---|
1167 | if ( leaf->GetPvsSize() <= termMinPvs)
|
---|
1168 | stat.minPvsNodes++;
|
---|
1169 |
|
---|
1170 | if ( leaf->GetPvsSize() <= termMinRays)
|
---|
1171 | stat.minRaysNodes++;
|
---|
1172 |
|
---|
1173 | if (leaf->GetAvgRayContribution() > termMaxRayContribution )
|
---|
1174 | stat.maxRayContribNodes++;
|
---|
1175 |
|
---|
1176 | if (SqrMagnitude(data.bbox.Size()) <= termMinSize) {
|
---|
1177 | stat.minSizeNodes++;
|
---|
1178 | }
|
---|
1179 |
|
---|
1180 | if ( (int)(leaf->rays.size()) > stat.maxRayRefs)
|
---|
1181 | stat.maxRayRefs = leaf->rays.size();
|
---|
1182 |
|
---|
1183 | }
|
---|
1184 |
|
---|
1185 | bool
|
---|
1186 | RssTree::TerminationCriteriaSatisfied(RssTreeLeaf *leaf)
|
---|
1187 | {
|
---|
1188 | return ( (leaf->GetPvsSize() <= termMinPvs) ||
|
---|
1189 | (leaf->rays.size() <= termMinRays) ||
|
---|
1190 | // (leaf->GetAvgRayContribution() > termMaxRayContribution ) ||
|
---|
1191 | (leaf->depth >= termMaxDepth) ||
|
---|
1192 | (SqrMagnitude(GetBBox(leaf).Size()) <= termMinSize)
|
---|
1193 | );
|
---|
1194 | }
|
---|
1195 |
|
---|
1196 |
|
---|
1197 | RssTreeNode *
|
---|
1198 | RssTree::SubdivideNode(
|
---|
1199 | RssTreeLeaf *leaf,
|
---|
1200 | const AxisAlignedBox3 &box,
|
---|
1201 | AxisAlignedBox3 &backBBox,
|
---|
1202 | AxisAlignedBox3 &frontBBox
|
---|
1203 | )
|
---|
1204 | {
|
---|
1205 |
|
---|
1206 | if (TerminationCriteriaSatisfied(leaf)) {
|
---|
1207 | #if 0
|
---|
1208 | if (leaf->depth >= termMaxDepth) {
|
---|
1209 | cout<<"Warning: max depth reached depth="<<(int)leaf->depth<<" rays="<<leaf->rays.size()<<endl;
|
---|
1210 | cout<<"Bbox: "<<GetBBox(leaf)<<" dirbbox:"<<GetDirBBox(leaf)<<endl;
|
---|
1211 | }
|
---|
1212 | #endif
|
---|
1213 |
|
---|
1214 | return leaf;
|
---|
1215 | }
|
---|
1216 |
|
---|
1217 | SplitInfo info;
|
---|
1218 |
|
---|
1219 | // select subdivision axis
|
---|
1220 | int axis = SelectPlane( leaf,
|
---|
1221 | box,
|
---|
1222 | info
|
---|
1223 | );
|
---|
1224 | // Debug<<"axis="<<axis<<" depth="<<(int)leaf->depth<<" rb="<<raysBack<<" rf="<<raysFront<<" pvsb="<<pvsBack<<" pvsf="<<pvsFront<<endl;
|
---|
1225 |
|
---|
1226 | if (axis == -1) {
|
---|
1227 | return leaf;
|
---|
1228 | }
|
---|
1229 |
|
---|
1230 | stat.nodes+=2;
|
---|
1231 | stat.leaves += 1;
|
---|
1232 | stat.splits[axis]++;
|
---|
1233 |
|
---|
1234 | // add the new nodes to the tree
|
---|
1235 | RssTreeInterior *node = new RssTreeInterior(leaf->parent);
|
---|
1236 |
|
---|
1237 | node->axis = axis;
|
---|
1238 | node->position = info.position;
|
---|
1239 | // node->bbox = box;
|
---|
1240 | // node->dirBBox = GetDirBBox(leaf);
|
---|
1241 |
|
---|
1242 |
|
---|
1243 | RssTreeLeaf *back = new RssTreeLeaf(node, info.raysBack);
|
---|
1244 | RssTreeLeaf *front = new RssTreeLeaf(node, info.raysFront);
|
---|
1245 |
|
---|
1246 |
|
---|
1247 | // update halton generator
|
---|
1248 | back->halton.index = leaf->halton.index;
|
---|
1249 | front->halton.index = leaf->halton.index;
|
---|
1250 |
|
---|
1251 | // replace a link from node's parent
|
---|
1252 | if ( leaf->parent )
|
---|
1253 | leaf->parent->ReplaceChildLink(leaf, node);
|
---|
1254 | // and setup child links
|
---|
1255 | node->SetupChildLinks(back, front);
|
---|
1256 |
|
---|
1257 | back->bbox = leaf->bbox;
|
---|
1258 | front->bbox = leaf->bbox;
|
---|
1259 | back->dirBBox = leaf->dirBBox;
|
---|
1260 | front->dirBBox = leaf->dirBBox;
|
---|
1261 |
|
---|
1262 | if (axis <= RssTreeNode::SPLIT_Z) {
|
---|
1263 | back->bbox.SetMax(axis, info.position);
|
---|
1264 | front->bbox.SetMin(axis, info.position);
|
---|
1265 | } else {
|
---|
1266 | back->dirBBox.SetMax(axis-3, info.position);
|
---|
1267 | front->dirBBox.SetMin(axis-3, info.position);
|
---|
1268 | }
|
---|
1269 |
|
---|
1270 | for(RssTreeNode::RayInfoContainer::iterator ri = leaf->rays.begin();
|
---|
1271 | ri != leaf->rays.end();
|
---|
1272 | ri++) {
|
---|
1273 | if ((*ri).mRay->IsActive()) {
|
---|
1274 |
|
---|
1275 | // first unref ray from the former leaf
|
---|
1276 | (*ri).mRay->Unref();
|
---|
1277 |
|
---|
1278 | // Debug << "computed t: " << (*ri).mRay->mT << endl;
|
---|
1279 | // determine the side of this ray with respect to the plane
|
---|
1280 | int side = node->ComputeRaySide(*ri);
|
---|
1281 |
|
---|
1282 | if (side == 1)
|
---|
1283 | front->AddRay(*ri);
|
---|
1284 | else
|
---|
1285 | back->AddRay(*ri);
|
---|
1286 | } else
|
---|
1287 | (*ri).mRay->Unref();
|
---|
1288 | }
|
---|
1289 |
|
---|
1290 | // distribute the total number of rays according to the distribution
|
---|
1291 | // of rays which remained
|
---|
1292 | // front->mTotalRays = front->rays.size()*leaf->mTotalRays/leaf->rays.size();
|
---|
1293 | // back->mTotalRays = back->rays.size()*leaf->mTotalRays/leaf->rays.size();
|
---|
1294 |
|
---|
1295 | #if 0
|
---|
1296 | front->SetPvsSize(pvsFront);
|
---|
1297 | back->SetPvsSize(pvsBack);
|
---|
1298 | // compute entropy as well
|
---|
1299 | front->ComputeEntropyImportance();
|
---|
1300 | back->ComputeEntropyImportance();
|
---|
1301 | #else
|
---|
1302 | UpdatePvsSize(front);
|
---|
1303 | UpdatePvsSize(back);
|
---|
1304 | #endif
|
---|
1305 |
|
---|
1306 |
|
---|
1307 | // update stats
|
---|
1308 | stat.rayRefs -= (int)leaf->rays.size();
|
---|
1309 | stat.rayRefs += back->rays.size() + front->rays.size();
|
---|
1310 |
|
---|
1311 |
|
---|
1312 | delete leaf;
|
---|
1313 | return node;
|
---|
1314 | }
|
---|
1315 |
|
---|
1316 |
|
---|
1317 |
|
---|
1318 |
|
---|
1319 |
|
---|
1320 |
|
---|
1321 | int
|
---|
1322 | RssTree::ReleaseMemory(const int time)
|
---|
1323 | {
|
---|
1324 | stack<RssTreeNode *> tstack;
|
---|
1325 |
|
---|
1326 | // find a node in the tree which subtree will be collapsed
|
---|
1327 | int maxAccessTime = time - accessTimeThreshold;
|
---|
1328 | int released;
|
---|
1329 |
|
---|
1330 | PushRoots(tstack);
|
---|
1331 |
|
---|
1332 | while (!tstack.empty()) {
|
---|
1333 | RssTreeNode *node = tstack.top();
|
---|
1334 | tstack.pop();
|
---|
1335 |
|
---|
1336 |
|
---|
1337 | if (!node->IsLeaf()) {
|
---|
1338 | RssTreeInterior *in = (RssTreeInterior *)node;
|
---|
1339 | // cout<<"depth="<<(int)in->depth<<" time="<<in->lastAccessTime<<endl;
|
---|
1340 | if (in->depth >= minCollapseDepth &&
|
---|
1341 | in->lastAccessTime <= maxAccessTime) {
|
---|
1342 | released = CollapseSubtree(node, time);
|
---|
1343 | break;
|
---|
1344 | }
|
---|
1345 |
|
---|
1346 | if (in->back->GetAccessTime() <
|
---|
1347 | in->front->GetAccessTime()) {
|
---|
1348 | tstack.push(in->front);
|
---|
1349 | tstack.push(in->back);
|
---|
1350 | } else {
|
---|
1351 | tstack.push(in->back);
|
---|
1352 | tstack.push(in->front);
|
---|
1353 | }
|
---|
1354 | }
|
---|
1355 | }
|
---|
1356 |
|
---|
1357 | while (tstack.empty()) {
|
---|
1358 | // could find node to collaps...
|
---|
1359 | // cout<<"Could not find a node to release "<<endl;
|
---|
1360 | break;
|
---|
1361 | }
|
---|
1362 |
|
---|
1363 | return released;
|
---|
1364 | }
|
---|
1365 |
|
---|
1366 |
|
---|
1367 |
|
---|
1368 |
|
---|
1369 | RssTreeNode *
|
---|
1370 | RssTree::SubdivideLeaf(
|
---|
1371 | RssTreeLeaf *leaf
|
---|
1372 | )
|
---|
1373 | {
|
---|
1374 | RssTreeNode *node = leaf;
|
---|
1375 |
|
---|
1376 | AxisAlignedBox3 leafBBox = GetBBox(leaf);
|
---|
1377 |
|
---|
1378 | static int pass = 0;
|
---|
1379 | pass ++;
|
---|
1380 |
|
---|
1381 | // check if we should perform a dynamic subdivision of the leaf
|
---|
1382 | if (!TerminationCriteriaSatisfied(leaf)) {
|
---|
1383 |
|
---|
1384 | // memory check and realese...
|
---|
1385 | if (GetMemUsage() > maxTotalMemory) {
|
---|
1386 | ReleaseMemory( pass );
|
---|
1387 | }
|
---|
1388 |
|
---|
1389 | AxisAlignedBox3 backBBox, frontBBox;
|
---|
1390 |
|
---|
1391 | // subdivide the node
|
---|
1392 | node =
|
---|
1393 | SubdivideNode(leaf,
|
---|
1394 | leafBBox,
|
---|
1395 | backBBox,
|
---|
1396 | frontBBox
|
---|
1397 | );
|
---|
1398 | }
|
---|
1399 |
|
---|
1400 | return node;
|
---|
1401 | }
|
---|
1402 |
|
---|
1403 |
|
---|
1404 |
|
---|
1405 | void
|
---|
1406 | RssTree::UpdateRays(
|
---|
1407 | VssRayContainer &remove,
|
---|
1408 | VssRayContainer &add
|
---|
1409 | )
|
---|
1410 | {
|
---|
1411 | RssTreeLeaf::NewMail();
|
---|
1412 |
|
---|
1413 | // schedule rays for removal
|
---|
1414 | for(VssRayContainer::const_iterator ri = remove.begin();
|
---|
1415 | ri != remove.end();
|
---|
1416 | ri++) {
|
---|
1417 | (*ri)->ScheduleForRemoval();
|
---|
1418 | }
|
---|
1419 |
|
---|
1420 | int inactive=0;
|
---|
1421 |
|
---|
1422 | for(VssRayContainer::const_iterator ri = remove.begin();
|
---|
1423 | ri != remove.end();
|
---|
1424 | ri++) {
|
---|
1425 | if ((*ri)->ScheduledForRemoval())
|
---|
1426 | // RemoveRay(*ri, NULL, false);
|
---|
1427 | // !!! BUG - with true it does not work correctly - aggreated delete
|
---|
1428 | RemoveRay(*ri, NULL, true);
|
---|
1429 | else
|
---|
1430 | inactive++;
|
---|
1431 | }
|
---|
1432 |
|
---|
1433 |
|
---|
1434 | // cout<<"all/inactive"<<remove.size()<<"/"<<inactive<<endl;
|
---|
1435 |
|
---|
1436 | for(VssRayContainer::const_iterator ri = add.begin();
|
---|
1437 | ri != add.end();
|
---|
1438 | ri++) {
|
---|
1439 | RssTreeNode::RayInfo info(*ri);
|
---|
1440 | // if (mForcedBoundingBox==NULL || ClipRay(info, bbox))
|
---|
1441 | AddRay(info);
|
---|
1442 | }
|
---|
1443 |
|
---|
1444 | stat.rayRefs += add.size() - remove.size();
|
---|
1445 |
|
---|
1446 | UpdateTreeStatistics();
|
---|
1447 | // check whether the tree should be prunned
|
---|
1448 | if (stat.rayRefs > mMaxRays) {
|
---|
1449 | PruneRays(mMaxRays);
|
---|
1450 | // UpdateTreeStatistics();
|
---|
1451 | }
|
---|
1452 |
|
---|
1453 | }
|
---|
1454 |
|
---|
1455 |
|
---|
1456 |
|
---|
1457 |
|
---|
1458 | void
|
---|
1459 | RssTree::RemoveRay(VssRay *ray,
|
---|
1460 | vector<RssTreeLeaf *> *affectedLeaves,
|
---|
1461 | const bool removeAllScheduledRays
|
---|
1462 | )
|
---|
1463 | {
|
---|
1464 |
|
---|
1465 | stack<RayTraversalData> tstack;
|
---|
1466 |
|
---|
1467 | PushRoots(tstack, RssTreeLeaf::RayInfo(ray));
|
---|
1468 |
|
---|
1469 | RayTraversalData data;
|
---|
1470 |
|
---|
1471 | // cout<<"Number of ray refs = "<<ray->RefCount()<<endl;
|
---|
1472 |
|
---|
1473 | while (!tstack.empty()) {
|
---|
1474 | data = tstack.top();
|
---|
1475 | tstack.pop();
|
---|
1476 |
|
---|
1477 | if (!data.node->IsLeaf()) {
|
---|
1478 | // split the set of rays in two groups intersecting the
|
---|
1479 | // two subtrees
|
---|
1480 |
|
---|
1481 | TraverseInternalNode(data, tstack);
|
---|
1482 |
|
---|
1483 | } else {
|
---|
1484 | // remove the ray from the leaf
|
---|
1485 | // find the ray in the leaf and swap it with the last ray...
|
---|
1486 | RssTreeLeaf *leaf = (RssTreeLeaf *)data.node;
|
---|
1487 |
|
---|
1488 | if (!leaf->Mailed()) {
|
---|
1489 | leaf->Mail();
|
---|
1490 | if (affectedLeaves)
|
---|
1491 | affectedLeaves->push_back(leaf);
|
---|
1492 |
|
---|
1493 | if (removeAllScheduledRays) {
|
---|
1494 | int tail = (int)leaf->rays.size()-1;
|
---|
1495 |
|
---|
1496 | for (int i=0; i < (int)(leaf->rays.size()); i++) {
|
---|
1497 | if (leaf->rays[i].mRay->ScheduledForRemoval()) {
|
---|
1498 | // find a ray to replace it with
|
---|
1499 | while (tail >= i && leaf->rays[tail].mRay->ScheduledForRemoval()) {
|
---|
1500 | stat.removedRayRefs++;
|
---|
1501 | leaf->rays[tail].mRay->Unref();
|
---|
1502 | leaf->rays.pop_back();
|
---|
1503 | tail--;
|
---|
1504 | }
|
---|
1505 |
|
---|
1506 | if (tail < i)
|
---|
1507 | break;
|
---|
1508 |
|
---|
1509 | stat.removedRayRefs++;
|
---|
1510 | leaf->rays[i].mRay->Unref();
|
---|
1511 | leaf->rays[i] = leaf->rays[tail];
|
---|
1512 | leaf->rays.pop_back();
|
---|
1513 | tail--;
|
---|
1514 | }
|
---|
1515 | }
|
---|
1516 | }
|
---|
1517 | }
|
---|
1518 |
|
---|
1519 | if (!removeAllScheduledRays)
|
---|
1520 | for (int i=0; i < (int)leaf->rays.size(); i++) {
|
---|
1521 | if (leaf->rays[i].mRay == ray) {
|
---|
1522 | stat.removedRayRefs++;
|
---|
1523 | ray->Unref();
|
---|
1524 | leaf->rays[i] = leaf->rays[leaf->rays.size()-1];
|
---|
1525 | leaf->rays.pop_back();
|
---|
1526 | // check this ray again
|
---|
1527 | break;
|
---|
1528 | }
|
---|
1529 | }
|
---|
1530 |
|
---|
1531 | }
|
---|
1532 | }
|
---|
1533 |
|
---|
1534 | if (ray->RefCount() != 0) {
|
---|
1535 | cerr<<"Error: Number of remaining refs = "<<ray->RefCount()<<endl;
|
---|
1536 | exit(1);
|
---|
1537 | }
|
---|
1538 |
|
---|
1539 | }
|
---|
1540 |
|
---|
1541 |
|
---|
1542 | void
|
---|
1543 | RssTree::AddRay(RssTreeNode::RayInfo &info)
|
---|
1544 | {
|
---|
1545 |
|
---|
1546 | stack<RayTraversalData> tstack;
|
---|
1547 |
|
---|
1548 | RssTreeNode *root = GetRoot(info.GetSourceObject());
|
---|
1549 | tstack.push(RayTraversalData(root, info));
|
---|
1550 |
|
---|
1551 | RayTraversalData data;
|
---|
1552 |
|
---|
1553 | while (!tstack.empty()) {
|
---|
1554 | data = tstack.top();
|
---|
1555 | tstack.pop();
|
---|
1556 |
|
---|
1557 | if (!data.node->IsLeaf()) {
|
---|
1558 | TraverseInternalNode(data, tstack);
|
---|
1559 | } else {
|
---|
1560 | // remove the ray from the leaf
|
---|
1561 | // find the ray in the leaf and swap it with the last ray...
|
---|
1562 | RssTreeLeaf *leaf = (RssTreeLeaf *)data.node;
|
---|
1563 | leaf->AddRay(data.rayData);
|
---|
1564 | stat.addedRayRefs++;
|
---|
1565 | }
|
---|
1566 | }
|
---|
1567 | }
|
---|
1568 |
|
---|
1569 | void
|
---|
1570 | RssTree::TraverseInternalNode(
|
---|
1571 | RayTraversalData &data,
|
---|
1572 | stack<RayTraversalData> &tstack)
|
---|
1573 | {
|
---|
1574 | RssTreeInterior *in = (RssTreeInterior *) data.node;
|
---|
1575 |
|
---|
1576 | // determine the side of this ray with respect to the plane
|
---|
1577 | int side = in->ComputeRaySide(data.rayData
|
---|
1578 | );
|
---|
1579 |
|
---|
1580 | if (side == 1)
|
---|
1581 | tstack.push(RayTraversalData(in->front, data.rayData));
|
---|
1582 | else
|
---|
1583 | tstack.push(RayTraversalData(in->back, data.rayData));
|
---|
1584 |
|
---|
1585 | }
|
---|
1586 |
|
---|
1587 |
|
---|
1588 | int
|
---|
1589 | RssTree::CollapseSubtree(RssTreeNode *sroot, const int time)
|
---|
1590 | {
|
---|
1591 | // first count all rays in the subtree
|
---|
1592 | // use mail 1 for this purpose
|
---|
1593 | stack<RssTreeNode *> tstack;
|
---|
1594 | int rayCount = 0;
|
---|
1595 | int totalRayCount = 0;
|
---|
1596 | int collapsedNodes = 0;
|
---|
1597 |
|
---|
1598 | #if DEBUG_COLLAPSE
|
---|
1599 | cout<<"Collapsing subtree"<<endl;
|
---|
1600 | cout<<"acessTime="<<sroot->GetAccessTime()<<endl;
|
---|
1601 | cout<<"depth="<<(int)sroot->depth<<endl;
|
---|
1602 | #endif
|
---|
1603 |
|
---|
1604 | // tstat.collapsedSubtrees++;
|
---|
1605 | // tstat.collapseDepths += (int)sroot->depth;
|
---|
1606 | // tstat.collapseAccessTimes += time - sroot->GetAccessTime();
|
---|
1607 |
|
---|
1608 | tstack.push(sroot);
|
---|
1609 | VssRay::NewMail();
|
---|
1610 |
|
---|
1611 | while (!tstack.empty()) {
|
---|
1612 | collapsedNodes++;
|
---|
1613 | RssTreeNode *node = tstack.top();
|
---|
1614 | tstack.pop();
|
---|
1615 |
|
---|
1616 | if (node->IsLeaf()) {
|
---|
1617 | RssTreeLeaf *leaf = (RssTreeLeaf *) node;
|
---|
1618 | for(RssTreeNode::RayInfoContainer::iterator ri = leaf->rays.begin();
|
---|
1619 | ri != leaf->rays.end();
|
---|
1620 | ri++) {
|
---|
1621 |
|
---|
1622 | totalRayCount++;
|
---|
1623 | if ((*ri).mRay->IsActive() && !(*ri).mRay->Mailed()) {
|
---|
1624 | (*ri).mRay->Mail();
|
---|
1625 | rayCount++;
|
---|
1626 | }
|
---|
1627 | }
|
---|
1628 | } else {
|
---|
1629 | tstack.push(((RssTreeInterior *)node)->back);
|
---|
1630 | tstack.push(((RssTreeInterior *)node)->front);
|
---|
1631 | }
|
---|
1632 | }
|
---|
1633 |
|
---|
1634 | VssRay::NewMail();
|
---|
1635 |
|
---|
1636 | // create a new node that will hold the rays
|
---|
1637 | RssTreeLeaf *newLeaf = new RssTreeLeaf( sroot->parent, rayCount );
|
---|
1638 | if ( newLeaf->parent )
|
---|
1639 | newLeaf->parent->ReplaceChildLink(sroot, newLeaf);
|
---|
1640 |
|
---|
1641 |
|
---|
1642 | tstack.push( sroot );
|
---|
1643 |
|
---|
1644 | while (!tstack.empty()) {
|
---|
1645 |
|
---|
1646 | RssTreeNode *node = tstack.top();
|
---|
1647 | tstack.pop();
|
---|
1648 |
|
---|
1649 | if (node->IsLeaf()) {
|
---|
1650 | RssTreeLeaf *leaf = (RssTreeLeaf *) node;
|
---|
1651 |
|
---|
1652 | for(RssTreeNode::RayInfoContainer::iterator ri = leaf->rays.begin();
|
---|
1653 | ri != leaf->rays.end();
|
---|
1654 | ri++) {
|
---|
1655 |
|
---|
1656 | // unref this ray from the old node
|
---|
1657 |
|
---|
1658 | if ((*ri).mRay->IsActive()) {
|
---|
1659 | (*ri).mRay->Unref();
|
---|
1660 | if (!(*ri).mRay->Mailed()) {
|
---|
1661 | (*ri).mRay->Mail();
|
---|
1662 | newLeaf->AddRay(*ri);
|
---|
1663 | }
|
---|
1664 | } else
|
---|
1665 | (*ri).mRay->Unref();
|
---|
1666 |
|
---|
1667 | }
|
---|
1668 | } else {
|
---|
1669 | tstack.push(((RssTreeInterior *)node)->back);
|
---|
1670 | tstack.push(((RssTreeInterior *)node)->front);
|
---|
1671 | }
|
---|
1672 | }
|
---|
1673 |
|
---|
1674 | // delete the node and all its children
|
---|
1675 | delete sroot;
|
---|
1676 |
|
---|
1677 | // for(RssTreeNode::SRayContainer::iterator ri = newLeaf->rays.begin();
|
---|
1678 | // ri != newLeaf->rays.end();
|
---|
1679 | // ri++)
|
---|
1680 | // (*ri).ray->UnMail(2);
|
---|
1681 |
|
---|
1682 |
|
---|
1683 | #if DEBUG_COLLAPSE
|
---|
1684 | cout<<"Total memory before="<<GetMemUsage()<<endl;
|
---|
1685 | #endif
|
---|
1686 |
|
---|
1687 | stat.nodes -= collapsedNodes - 1;
|
---|
1688 | stat.leaves -= collapsedNodes/2 - 1;
|
---|
1689 | stat.rayRefs -= totalRayCount - rayCount;
|
---|
1690 |
|
---|
1691 | #if DEBUG_COLLAPSE
|
---|
1692 | cout<<"collapsed nodes"<<collapsedNodes<<endl;
|
---|
1693 | cout<<"collapsed rays"<<totalRayCount - rayCount<<endl;
|
---|
1694 | cout<<"Total memory after="<<GetMemUsage()<<endl;
|
---|
1695 | cout<<"================================"<<endl;
|
---|
1696 | #endif
|
---|
1697 |
|
---|
1698 | // tstat.collapsedNodes += collapsedNodes;
|
---|
1699 | // tstat.collapsedRays += totalRayCount - rayCount;
|
---|
1700 |
|
---|
1701 | return totalRayCount - rayCount;
|
---|
1702 | }
|
---|
1703 |
|
---|
1704 |
|
---|
1705 | int
|
---|
1706 | RssTree::GetPvsSize(const AxisAlignedBox3 &box) const
|
---|
1707 | {
|
---|
1708 | stack<RssTreeNode *> tstack;
|
---|
1709 | PushRoots(tstack);
|
---|
1710 |
|
---|
1711 | Intersectable::NewMail();
|
---|
1712 | int pvsSize = 0;
|
---|
1713 |
|
---|
1714 | while (!tstack.empty()) {
|
---|
1715 | RssTreeNode *node = tstack.top();
|
---|
1716 | tstack.pop();
|
---|
1717 |
|
---|
1718 |
|
---|
1719 | if (node->IsLeaf()) {
|
---|
1720 | RssTreeLeaf *leaf = (RssTreeLeaf *)node;
|
---|
1721 | for(RssTreeNode::RayInfoContainer::iterator ri = leaf->rays.begin();
|
---|
1722 | ri != leaf->rays.end();
|
---|
1723 | ri++)
|
---|
1724 | if ((*ri).mRay->IsActive()) {
|
---|
1725 | Intersectable *object;
|
---|
1726 | object = (*ri).GetObject();
|
---|
1727 | if (object && !object->Mailed()) {
|
---|
1728 | pvsSize++;
|
---|
1729 | object->Mail();
|
---|
1730 | }
|
---|
1731 | }
|
---|
1732 | } else {
|
---|
1733 | RssTreeInterior *in = (RssTreeInterior *)node;
|
---|
1734 | if (in->axis < 3) {
|
---|
1735 | if (box.Max(in->axis) >= in->position )
|
---|
1736 | tstack.push(in->front);
|
---|
1737 |
|
---|
1738 | if (box.Min(in->axis) <= in->position )
|
---|
1739 | tstack.push(in->back);
|
---|
1740 | } else {
|
---|
1741 | // both nodes for directional splits
|
---|
1742 | tstack.push(in->front);
|
---|
1743 | tstack.push(in->back);
|
---|
1744 | }
|
---|
1745 | }
|
---|
1746 | }
|
---|
1747 | return pvsSize;
|
---|
1748 | }
|
---|
1749 |
|
---|
1750 | int
|
---|
1751 | RssTree::CollectPvs(const AxisAlignedBox3 &box,
|
---|
1752 | ObjectContainer &pvs
|
---|
1753 | ) const
|
---|
1754 | {
|
---|
1755 | stack<RssTreeNode *> tstack;
|
---|
1756 | PushRoots(tstack);
|
---|
1757 |
|
---|
1758 | Intersectable::NewMail();
|
---|
1759 |
|
---|
1760 | while (!tstack.empty()) {
|
---|
1761 | RssTreeNode *node = tstack.top();
|
---|
1762 | tstack.pop();
|
---|
1763 |
|
---|
1764 |
|
---|
1765 | if (node->IsLeaf()) {
|
---|
1766 | RssTreeLeaf *leaf = (RssTreeLeaf *)node;
|
---|
1767 | for(RssTreeNode::RayInfoContainer::iterator ri = leaf->rays.begin();
|
---|
1768 | ri != leaf->rays.end();
|
---|
1769 | ri++)
|
---|
1770 | if ((*ri).mRay->IsActive()) {
|
---|
1771 | Intersectable *object;
|
---|
1772 | object = (*ri).GetObject();
|
---|
1773 | if (object && !object->Mailed()) {
|
---|
1774 | pvs.push_back(object);
|
---|
1775 | object->Mail();
|
---|
1776 | }
|
---|
1777 | }
|
---|
1778 | } else {
|
---|
1779 | RssTreeInterior *in = (RssTreeInterior *)node;
|
---|
1780 | if (in->axis < 3) {
|
---|
1781 | if (box.Max(in->axis) >= in->position )
|
---|
1782 | tstack.push(in->front);
|
---|
1783 |
|
---|
1784 | if (box.Min(in->axis) <= in->position )
|
---|
1785 | tstack.push(in->back);
|
---|
1786 | } else {
|
---|
1787 | // both nodes for directional splits
|
---|
1788 | tstack.push(in->front);
|
---|
1789 | tstack.push(in->back);
|
---|
1790 | }
|
---|
1791 | }
|
---|
1792 | }
|
---|
1793 | return pvs.size();
|
---|
1794 | }
|
---|
1795 |
|
---|
1796 | void
|
---|
1797 | RssTree::UpdateTreeStatistics()
|
---|
1798 | {
|
---|
1799 | stack<RssTreeNode *> tstack;
|
---|
1800 | PushRoots(tstack);
|
---|
1801 |
|
---|
1802 | float sumPvsSize = 0.0f;
|
---|
1803 | float sumRayContribution = 0.0f;
|
---|
1804 | float sumWeightedRayContribution = 0.0f;
|
---|
1805 | float sumImportance = 0.0f;
|
---|
1806 | float sumPvsEntropy = 0.0f;
|
---|
1807 | float sumRayLengthEntropy = 0.0f;
|
---|
1808 | float sumRays = 0.0f;
|
---|
1809 |
|
---|
1810 | int leaves = 0;
|
---|
1811 |
|
---|
1812 | while (!tstack.empty()) {
|
---|
1813 | RssTreeNode *node = tstack.top();
|
---|
1814 | tstack.pop();
|
---|
1815 |
|
---|
1816 | if (node->IsLeaf()) {
|
---|
1817 | leaves++;
|
---|
1818 | RssTreeLeaf *leaf = (RssTreeLeaf *)node;
|
---|
1819 | UpdatePvsSize(leaf);
|
---|
1820 |
|
---|
1821 | sumPvsSize += leaf->GetPvsSize();
|
---|
1822 | sumRayContribution += leaf->GetAvgRayContribution();
|
---|
1823 |
|
---|
1824 |
|
---|
1825 | RssTreeNode::RayInfoContainer::const_iterator it = leaf->rays.begin();
|
---|
1826 | for (;it != leaf->rays.end(); ++it) {
|
---|
1827 | float weight, contribution;
|
---|
1828 | GetRayContribution(*it, weight, contribution);
|
---|
1829 | sumWeightedRayContribution += weight*contribution;
|
---|
1830 | }
|
---|
1831 |
|
---|
1832 | // sumPvsEntropy += leaf->mPvsEntropy;
|
---|
1833 | // sumRayLengthEntropy += leaf->mRayLengthEntropy;
|
---|
1834 | sumRays += leaf->rays.size();
|
---|
1835 |
|
---|
1836 | float imp = leaf->GetImportance();
|
---|
1837 |
|
---|
1838 | // if (imp > 1.0f)
|
---|
1839 | // cout<<"warning imp > 1.0f:"<<imp<<endl;
|
---|
1840 |
|
---|
1841 | sumImportance += imp;
|
---|
1842 |
|
---|
1843 |
|
---|
1844 | } else {
|
---|
1845 | RssTreeInterior *in = (RssTreeInterior *)node;
|
---|
1846 | // both nodes for directional splits
|
---|
1847 | tstack.push(in->front);
|
---|
1848 | tstack.push(in->back);
|
---|
1849 | }
|
---|
1850 | }
|
---|
1851 |
|
---|
1852 | stat.avgPvsSize = sumPvsSize/(float)leaves;
|
---|
1853 | stat.avgRays = sumRays/(float)leaves;
|
---|
1854 | stat.avgRayContribution = sumRayContribution/(float)leaves;
|
---|
1855 | // avgPvsEntropy = sumPvsEntropy/(float)leaves;
|
---|
1856 | // avgRayLengthEntropy = sumRayLengthEntropy/(float)leaves;
|
---|
1857 | stat.avgImportance = sumImportance/(float)leaves;
|
---|
1858 | stat.avgWeightedRayContribution = sumWeightedRayContribution/(float)sumRays;
|
---|
1859 | stat.rayRefs = (int)sumRays;
|
---|
1860 | }
|
---|
1861 |
|
---|
1862 |
|
---|
1863 |
|
---|
1864 | int
|
---|
1865 | RssTree::GenerateRays(
|
---|
1866 | const float ratioPerLeaf,
|
---|
1867 | SimpleRayContainer &rays)
|
---|
1868 | {
|
---|
1869 | stack<RssTreeNode *> tstack;
|
---|
1870 | PushRoots(tstack);
|
---|
1871 |
|
---|
1872 | while (!tstack.empty()) {
|
---|
1873 | RssTreeNode *node = tstack.top();
|
---|
1874 | tstack.pop();
|
---|
1875 |
|
---|
1876 | if (node->IsLeaf()) {
|
---|
1877 | RssTreeLeaf *leaf = (RssTreeLeaf *)node;
|
---|
1878 | float c = leaf->GetImportance();
|
---|
1879 | int num = int(c*ratioPerLeaf + 0.5f);
|
---|
1880 | // cout<<num<<" ";
|
---|
1881 |
|
---|
1882 | for (int i=0; i < num; i++) {
|
---|
1883 | Vector3 origin = GetBBox(leaf).GetRandomPoint();
|
---|
1884 | Vector3 dirVector = GetDirBBox(leaf).GetRandomPoint();
|
---|
1885 | Vector3 direction = VssRay::GetDirection(dirVector.x, dirVector.y);
|
---|
1886 | //cout<<"dir vector.x="<<dirVector.x<<"direction'.x="<<atan2(direction.x, direction.y)<<endl;
|
---|
1887 | rays.push_back(SimpleRay(origin, direction));
|
---|
1888 | }
|
---|
1889 | } else {
|
---|
1890 | RssTreeInterior *in = (RssTreeInterior *)node;
|
---|
1891 | // both nodes for directional splits
|
---|
1892 | tstack.push(in->front);
|
---|
1893 | tstack.push(in->back);
|
---|
1894 | }
|
---|
1895 | }
|
---|
1896 |
|
---|
1897 | return (int)rays.size();
|
---|
1898 | }
|
---|
1899 |
|
---|
1900 | void
|
---|
1901 | RssTree::CollectLeaves(vector<RssTreeLeaf *> &leaves)
|
---|
1902 | {
|
---|
1903 | stack<RssTreeNode *> tstack;
|
---|
1904 | PushRoots(tstack);
|
---|
1905 |
|
---|
1906 | while (!tstack.empty()) {
|
---|
1907 | RssTreeNode *node = tstack.top();
|
---|
1908 | tstack.pop();
|
---|
1909 |
|
---|
1910 | if (node->IsLeaf()) {
|
---|
1911 | RssTreeLeaf *leaf = (RssTreeLeaf *)node;
|
---|
1912 | leaves.push_back(leaf);
|
---|
1913 | } else {
|
---|
1914 | RssTreeInterior *in = (RssTreeInterior *)node;
|
---|
1915 | // both nodes for directional splits
|
---|
1916 | tstack.push(in->front);
|
---|
1917 | tstack.push(in->back);
|
---|
1918 | }
|
---|
1919 | }
|
---|
1920 | }
|
---|
1921 |
|
---|
1922 | bool
|
---|
1923 | RssTree::ValidLeaf(RssTreeLeaf *leaf) const
|
---|
1924 | {
|
---|
1925 | return true;
|
---|
1926 | //return leaf->rays.size() > termMinRays/4;
|
---|
1927 | }
|
---|
1928 |
|
---|
1929 |
|
---|
1930 | void
|
---|
1931 | RssTree::PickEdgeRays(RssTreeLeaf *leaf,
|
---|
1932 | int &r1,
|
---|
1933 | int &r2
|
---|
1934 | )
|
---|
1935 | {
|
---|
1936 | int nrays = leaf->rays.size();
|
---|
1937 |
|
---|
1938 | if (nrays == 2) {
|
---|
1939 | r1 = 0;
|
---|
1940 | r2 = 1;
|
---|
1941 | return;
|
---|
1942 | }
|
---|
1943 |
|
---|
1944 | #if 1
|
---|
1945 | int tries = min(20, nrays);
|
---|
1946 |
|
---|
1947 | while (--tries) {
|
---|
1948 | r1 = Random(nrays);
|
---|
1949 | r2 = Random(nrays);
|
---|
1950 | if (leaf->rays[r1].GetObject() != leaf->rays[r2].GetObject())
|
---|
1951 | break;
|
---|
1952 | }
|
---|
1953 |
|
---|
1954 | if (r1 == r2)
|
---|
1955 | r2 = (r1+1)%leaf->rays.size();
|
---|
1956 |
|
---|
1957 | #else
|
---|
1958 | // pick a random ray
|
---|
1959 | int base = Random(nrays);
|
---|
1960 | RssTreeNode::RayInfo *baseRay = &leaf->rays[base];
|
---|
1961 | Intersectable *baseObject = baseRay->GetObject();
|
---|
1962 |
|
---|
1963 | // and a random 5D derivative which will be used to find the minimal projected distances
|
---|
1964 | Vector3 spatialDerivative;
|
---|
1965 | Vector3 directionalDerivative;
|
---|
1966 |
|
---|
1967 | while (1) {
|
---|
1968 | spatialDerivative = Vector3(RandomValue(-1.0f, 1.0f),
|
---|
1969 | RandomValue(-1.0f, 1.0f),
|
---|
1970 | RandomValue(-1.0f, 1.0f));
|
---|
1971 | float m = Magnitude(spatialDerivative);
|
---|
1972 | if (m != 0) {
|
---|
1973 | spatialDerivative /= m*Magnitude(GetBBox(leaf).Size());
|
---|
1974 | break;
|
---|
1975 | }
|
---|
1976 | }
|
---|
1977 |
|
---|
1978 | while (1) {
|
---|
1979 | directionalDerivative = Vector3(RandomValue(-1.0f, 1.0f),
|
---|
1980 | RandomValue(-1.0f, 1.0f),
|
---|
1981 | 0.0f);
|
---|
1982 | float m = Magnitude(directionalDerivative);
|
---|
1983 | if (m != 0) {
|
---|
1984 | directionalDerivative /= m*Magnitude(GetDirBBox(leaf).Size());
|
---|
1985 | break;
|
---|
1986 | }
|
---|
1987 | }
|
---|
1988 |
|
---|
1989 | // now find the furthest sample from the same object and the closest from a different object
|
---|
1990 | int i = 0;
|
---|
1991 | float minDist = MAX_FLOAT;
|
---|
1992 | float maxDist = -MAX_FLOAT;
|
---|
1993 | r1 = base;
|
---|
1994 | r2 = base;
|
---|
1995 | for(RssTreeNode::RayInfoContainer::iterator ri = leaf->rays.begin();
|
---|
1996 | ri != leaf->rays.end();
|
---|
1997 | ri++, i++) {
|
---|
1998 | float dist = RssTreeNode::RayInfo::SqrDistance5D(*baseRay,
|
---|
1999 | *ri,
|
---|
2000 | spatialDerivative,
|
---|
2001 | directionalDerivative
|
---|
2002 | );
|
---|
2003 |
|
---|
2004 | if ((*ri).GetObject() == baseObject) {
|
---|
2005 | if (dist > maxDist) {
|
---|
2006 | maxDist = dist;
|
---|
2007 | r1 = i;
|
---|
2008 | }
|
---|
2009 | } else {
|
---|
2010 | if (dist > 0.0f && dist < minDist) {
|
---|
2011 | minDist = dist;
|
---|
2012 | r2 = i;
|
---|
2013 | }
|
---|
2014 | }
|
---|
2015 | }
|
---|
2016 |
|
---|
2017 | #endif
|
---|
2018 | }
|
---|
2019 |
|
---|
2020 |
|
---|
2021 | struct RayNeighbor {
|
---|
2022 | int rayInfo;
|
---|
2023 | float distance;
|
---|
2024 | RayNeighbor():rayInfo(0), distance(MAX_FLOAT) {}
|
---|
2025 | };
|
---|
2026 |
|
---|
2027 | void
|
---|
2028 | RssTree::FindSilhouetteRays(RssTreeLeaf *leaf,
|
---|
2029 | vector<RssTreeLeaf::SilhouetteRays> &rays
|
---|
2030 | )
|
---|
2031 | {
|
---|
2032 | // for every leaf find its neares neighbor from a different object
|
---|
2033 | vector<RayNeighbor> neighbors(leaf->rays.size());
|
---|
2034 | int i, j;
|
---|
2035 | for (i=0; i < leaf->rays.size(); i++)
|
---|
2036 | for (j=0; j < leaf->rays.size(); j++)
|
---|
2037 | if (i!=j) {
|
---|
2038 | float d = RssTreeLeaf::RayInfo::Distance(leaf->rays[i], leaf->rays[j]);
|
---|
2039 | if (d < neighbors[i].distance) {
|
---|
2040 | neighbors[i].distance = d;
|
---|
2041 | neighbors[i].rayInfo = j;
|
---|
2042 | }
|
---|
2043 | }
|
---|
2044 |
|
---|
2045 | // now check which are the pairs of nearest neighbors
|
---|
2046 | for (i=0; i < leaf->rays.size(); i++) {
|
---|
2047 | int j = neighbors[i].rayInfo;
|
---|
2048 | if (neighbors[j].rayInfo == i) {
|
---|
2049 | // this is a silhouette edge pair
|
---|
2050 | if (i < j) {
|
---|
2051 | // generate an silhoutte ray pair
|
---|
2052 | rays.push_back(RssTreeLeaf::SilhouetteRays(&leaf->rays[i],
|
---|
2053 | &leaf->rays[j]));
|
---|
2054 | }
|
---|
2055 | } else {
|
---|
2056 | // this is not a silhouette ray - delete???
|
---|
2057 | }
|
---|
2058 | }
|
---|
2059 |
|
---|
2060 | }
|
---|
2061 |
|
---|
2062 |
|
---|
2063 | bool
|
---|
2064 | GetRandomTripple(vector<RssTreeLeaf::RayInfo *> &rays,
|
---|
2065 | const int index,
|
---|
2066 | int &i1,
|
---|
2067 | int &i2,
|
---|
2068 | int &i3)
|
---|
2069 | {
|
---|
2070 | int found = 0;
|
---|
2071 | int indices[3];
|
---|
2072 |
|
---|
2073 | int size = rays.size();
|
---|
2074 | // use russian roulete selection for the tripple
|
---|
2075 | // number of free positions for the bullet
|
---|
2076 | int positions = size - 1;
|
---|
2077 | int i;
|
---|
2078 | for (i=0; i < size; i++) {
|
---|
2079 | if (rays[i]->mRay->Mailed())
|
---|
2080 | positions--;
|
---|
2081 | }
|
---|
2082 |
|
---|
2083 | if (positions < 3)
|
---|
2084 | return false;
|
---|
2085 |
|
---|
2086 | for (i=0; i < size; i++) {
|
---|
2087 | if (i != index && !rays[i]->mRay->Mailed()) {
|
---|
2088 | float p = (3 - found)/(float)positions;
|
---|
2089 | if (Random(1.0f) < p) {
|
---|
2090 | indices[found] = i;
|
---|
2091 | found++;
|
---|
2092 | }
|
---|
2093 | }
|
---|
2094 | positions--;
|
---|
2095 | }
|
---|
2096 | return true; // corr. matt
|
---|
2097 | }
|
---|
2098 |
|
---|
2099 | bool
|
---|
2100 | RssTree::IsRayConvexCombination(const RssTreeNode::RayInfo &ray,
|
---|
2101 | const RssTreeNode::RayInfo &r1,
|
---|
2102 | const RssTreeNode::RayInfo &r2,
|
---|
2103 | const RssTreeNode::RayInfo &r3)
|
---|
2104 | {
|
---|
2105 |
|
---|
2106 |
|
---|
2107 | return false;
|
---|
2108 | }
|
---|
2109 |
|
---|
2110 | int
|
---|
2111 | RssTree::RemoveInteriorRays(
|
---|
2112 | RssTreeLeaf *leaf
|
---|
2113 | )
|
---|
2114 | {
|
---|
2115 | #if 1
|
---|
2116 | // first collect all objects refered in this leaf
|
---|
2117 | map<Intersectable *, vector<RssTreeLeaf::RayInfo *> > rayMap;
|
---|
2118 |
|
---|
2119 | RssTreeLeaf::RayInfoContainer::iterator it = leaf->rays.begin();
|
---|
2120 | for (; it != leaf->rays.end(); ++it) {
|
---|
2121 | Intersectable *object = (*it).GetObject();
|
---|
2122 |
|
---|
2123 | rayMap[object].push_back(&(*it));
|
---|
2124 | // vector<RayInfo *> *data = rayMap.Find(object);
|
---|
2125 | // if (data) {
|
---|
2126 | // data->push_back(&(*it));
|
---|
2127 | // } else {
|
---|
2128 | // // rayMap[object] = vector<RayInfo *>;
|
---|
2129 | // rayMap[object].push_back(&(*it));
|
---|
2130 | // }
|
---|
2131 | }
|
---|
2132 |
|
---|
2133 | // now go through all objects
|
---|
2134 | map<Intersectable *, vector<RssTreeLeaf::RayInfo *> >::iterator mi;
|
---|
2135 |
|
---|
2136 | // infos of mailed rays are scheduled for removal
|
---|
2137 | VssRay::NewMail();
|
---|
2138 | for (mi = rayMap.begin(); mi != rayMap.end(); ++ mi) {
|
---|
2139 | vector<RssTreeLeaf::RayInfo *> &rays = (*mi).second;
|
---|
2140 | vector<RssTreeLeaf::RayInfo *>::iterator ri = rays.begin();
|
---|
2141 | int rayIndex = 0;
|
---|
2142 |
|
---|
2143 | for (; ri != rays.end(); ++ri, ++rayIndex) {
|
---|
2144 | RssTreeNode::RayInfo *ray = *ri;
|
---|
2145 | int tries = rays.size();
|
---|
2146 | for (int i = 0; i < tries; i++) {
|
---|
2147 | int r1, r2, r3;
|
---|
2148 | GetRandomTripple(rays,
|
---|
2149 | rayIndex,
|
---|
2150 | r1,
|
---|
2151 | r2,
|
---|
2152 | r3);
|
---|
2153 | if (IsRayConvexCombination(*ray,
|
---|
2154 | *rays[r1],
|
---|
2155 | *rays[r2],
|
---|
2156 | *rays[r3])) {
|
---|
2157 | ray->mRay->Mail();
|
---|
2158 | }
|
---|
2159 | }
|
---|
2160 | }
|
---|
2161 | }
|
---|
2162 |
|
---|
2163 |
|
---|
2164 | #endif
|
---|
2165 | return 0;
|
---|
2166 | }
|
---|
2167 |
|
---|
2168 |
|
---|
2169 | void
|
---|
2170 | RssTree::GenerateLeafRaysSimple(RssTreeLeaf *leaf,
|
---|
2171 | const int numberOfRays,
|
---|
2172 | SimpleRayContainer &rays)
|
---|
2173 | {
|
---|
2174 |
|
---|
2175 | if (numberOfRays == 0)
|
---|
2176 | return;
|
---|
2177 |
|
---|
2178 | int startIndex = (int)rays.size();
|
---|
2179 |
|
---|
2180 | // Debug<<"B"<<flush;
|
---|
2181 |
|
---|
2182 | AxisAlignedBox3 box = GetBBox(leaf);
|
---|
2183 | AxisAlignedBox3 dirBox = GetDirBBox(leaf);
|
---|
2184 |
|
---|
2185 | float boxSize = Magnitude(box.Diagonal());
|
---|
2186 |
|
---|
2187 | const float smoothRange = 0.1f;
|
---|
2188 | if (smoothRange != 0.0f) {
|
---|
2189 | box.Scale(1.0f + smoothRange);
|
---|
2190 | dirBox.Scale(1.0f + smoothRange);
|
---|
2191 | }
|
---|
2192 |
|
---|
2193 | // Debug<<"R"<<flush;
|
---|
2194 |
|
---|
2195 | for (int i=0; i < numberOfRays; i++) {
|
---|
2196 | // Debug<<i<<flush;
|
---|
2197 |
|
---|
2198 | Vector3 origin, direction;
|
---|
2199 | Vector3 dirVector;
|
---|
2200 |
|
---|
2201 | Vector3 pVector;
|
---|
2202 | Vector3 dVector;
|
---|
2203 |
|
---|
2204 | bool useHalton = false;
|
---|
2205 |
|
---|
2206 |
|
---|
2207 | if (useHalton) {
|
---|
2208 | // generate a random 5D vector
|
---|
2209 | pVector = Vector3(leaf->halton.GetNumber(1),
|
---|
2210 | leaf->halton.GetNumber(2),
|
---|
2211 | leaf->halton.GetNumber(3));
|
---|
2212 |
|
---|
2213 | dVector = Vector3(leaf->halton.GetNumber(4),
|
---|
2214 | leaf->halton.GetNumber(5),
|
---|
2215 | 0.0f);
|
---|
2216 |
|
---|
2217 | leaf->halton.GenerateNext();
|
---|
2218 | } else {
|
---|
2219 | pVector = Vector3(RandomValue(0.0f, 1.0f),
|
---|
2220 | RandomValue(0.0f, 1.0f),
|
---|
2221 | RandomValue(0.0f, 1.0f));
|
---|
2222 |
|
---|
2223 | dVector = Vector3(RandomValue(0.0f, 1.0f),
|
---|
2224 | RandomValue(0.0f, 1.0f),
|
---|
2225 | 0.0f);
|
---|
2226 | }
|
---|
2227 |
|
---|
2228 | origin = box.GetPoint(pVector);
|
---|
2229 | dirVector = dirBox.GetPoint(dVector);
|
---|
2230 |
|
---|
2231 | direction = VssRay::GetInvDirParam(dirVector.x, dirVector.y);
|
---|
2232 |
|
---|
2233 | // float dist = Min(avgLength*0.5f, Magnitude(GetBBox(leaf).Size()));
|
---|
2234 | float dist = 0.0f;
|
---|
2235 | float minT, maxT;
|
---|
2236 |
|
---|
2237 | // compute interection of the ray with the box
|
---|
2238 | #if 1
|
---|
2239 | if (box.ComputeMinMaxT(origin, direction, &minT, &maxT) && minT < maxT)
|
---|
2240 | dist = (maxT + 1e-2*boxSize);
|
---|
2241 | #else
|
---|
2242 | dist = 0.5f*boxSize;
|
---|
2243 | #endif
|
---|
2244 |
|
---|
2245 | origin += direction*dist;
|
---|
2246 |
|
---|
2247 | #if 0
|
---|
2248 | static int counter = 0;
|
---|
2249 | // Debug<<counter++<<flush;
|
---|
2250 |
|
---|
2251 | if (counter > 10374968) {
|
---|
2252 | Debug<<"size="<<rays.size()<<endl;
|
---|
2253 | Debug<<"capacity="<<rays.capacity()<<endl;
|
---|
2254 | Debug<<"o="<<origin<<endl;
|
---|
2255 | Debug<<"d="<<direction<<endl;
|
---|
2256 | }
|
---|
2257 | #endif
|
---|
2258 | //Debug<<"dir vector.x="<<dirVector.x<<"direction'.x="<<atan2(direction.x, direction.y)<<endl;
|
---|
2259 | rays.push_back(SimpleRay(origin, direction));
|
---|
2260 | // Debug<<endl;
|
---|
2261 |
|
---|
2262 | }
|
---|
2263 |
|
---|
2264 | // Debug<<"D"<<flush;
|
---|
2265 |
|
---|
2266 | float density = 1.0f;
|
---|
2267 | float p = 1.0f/density; //(box.GetVolume()*dirBox.GetVolume())/i;
|
---|
2268 | for (int i=startIndex; i < rays.size(); i++) {
|
---|
2269 | rays[i].mPdf = p;
|
---|
2270 | }
|
---|
2271 | }
|
---|
2272 |
|
---|
2273 | void
|
---|
2274 | RssTree::GenerateLeafRays(RssTreeLeaf *leaf,
|
---|
2275 | const int numberOfRays,
|
---|
2276 | SimpleRayContainer &rays)
|
---|
2277 | {
|
---|
2278 |
|
---|
2279 | if (numberOfRays == 0)
|
---|
2280 | return;
|
---|
2281 |
|
---|
2282 |
|
---|
2283 | int nrays = (int)leaf->rays.size();
|
---|
2284 | int startIndex = (int)rays.size();
|
---|
2285 |
|
---|
2286 | AxisAlignedBox3 box = GetBBox(leaf);
|
---|
2287 | AxisAlignedBox3 dirBox = GetDirBBox(leaf);
|
---|
2288 |
|
---|
2289 |
|
---|
2290 | const float smoothRange = 0.1f;
|
---|
2291 | if (smoothRange != 0.0f) {
|
---|
2292 | box.Scale(1.0f + smoothRange);
|
---|
2293 | dirBox.Scale(1.0f + smoothRange);
|
---|
2294 | }
|
---|
2295 |
|
---|
2296 | Exporter *exporter = NULL;
|
---|
2297 | VssRayContainer selectedRays;
|
---|
2298 | static int counter = 0;
|
---|
2299 | if (counter < 0) {
|
---|
2300 | char filename[128];
|
---|
2301 | sprintf(filename, "selected-rays%04d.x3d", counter);
|
---|
2302 | exporter = Exporter::GetExporter(filename);
|
---|
2303 | // exporter->SetWireframe();
|
---|
2304 | // exporter->ExportKdTree(*mKdTree);
|
---|
2305 | exporter->SetWireframe();
|
---|
2306 | // exporter->ExportScene(preprocessor->mSceneGraph->GetRoot());
|
---|
2307 | exporter->SetWireframe();
|
---|
2308 | exporter->ExportBox(box);
|
---|
2309 | exporter->SetFilled();
|
---|
2310 | counter++;
|
---|
2311 | }
|
---|
2312 |
|
---|
2313 |
|
---|
2314 | float extendedConvexCombinationProb = 0.0f; //0.7f
|
---|
2315 | // float silhouetteCheckPercentage = 1.0f; //0.5f
|
---|
2316 | float silhouetteCheckPercentage = 0.0f; //0.9f; // 0.5f;
|
---|
2317 | float silhouetteObjectCheckPercentage = 0.8f;
|
---|
2318 |
|
---|
2319 | // int numberOfTries = numberOfRays*4;
|
---|
2320 | int numberOfTries = numberOfRays;
|
---|
2321 | int generated = 0;
|
---|
2322 |
|
---|
2323 | vector<Intersectable *> pvs(0);
|
---|
2324 | if (silhouetteCheckPercentage != 0.0f) {
|
---|
2325 | Intersectable::NewMail();
|
---|
2326 | pvs.reserve(leaf->GetPvsSize());
|
---|
2327 | for(RssTreeNode::RayInfoContainer::iterator ri = leaf->rays.begin();
|
---|
2328 | ri != leaf->rays.end();
|
---|
2329 | ri++) {
|
---|
2330 | Intersectable *object = (*ri).GetObject();
|
---|
2331 | if (object) {
|
---|
2332 | if (!object->Mailed()) {
|
---|
2333 | object->Mail();
|
---|
2334 | object->mCounter = 1;
|
---|
2335 | pvs.push_back(object);
|
---|
2336 | if (exporter)
|
---|
2337 | exporter->ExportIntersectable(object);
|
---|
2338 | } else {
|
---|
2339 | object->mCounter++;
|
---|
2340 | }
|
---|
2341 | }
|
---|
2342 | }
|
---|
2343 | // sort objects based on their mCounter
|
---|
2344 | sort(pvs.begin(), pvs.end(), Intersectable::GreaterCounter);
|
---|
2345 | }
|
---|
2346 |
|
---|
2347 | for (int i=0; generated < numberOfRays && i < numberOfTries; i++) {
|
---|
2348 | bool useExtendedConvexCombination = ((nrays >= 2) && (Random(1.0f) <
|
---|
2349 | extendedConvexCombinationProb));
|
---|
2350 |
|
---|
2351 | Vector3 origin, direction;
|
---|
2352 | // generate half of convex combination and half of random rays
|
---|
2353 | if (useExtendedConvexCombination) {
|
---|
2354 | // pickup 2 random rays
|
---|
2355 | int r1, r2;
|
---|
2356 | PickEdgeRays(leaf, r1, r2);
|
---|
2357 |
|
---|
2358 |
|
---|
2359 | Vector3 o1 = leaf->rays[r1].GetOrigin();
|
---|
2360 | Vector3 o2 = leaf->rays[r2].GetOrigin();
|
---|
2361 |
|
---|
2362 | const float overlap = 0.0f;
|
---|
2363 | float w1, w2;
|
---|
2364 | GenerateExtendedConvexCombinationWeights2(w1, w2, overlap);
|
---|
2365 | origin = w1*o1 + w2*o2;
|
---|
2366 | GenerateExtendedConvexCombinationWeights2(w1, w2, overlap);
|
---|
2367 | direction =
|
---|
2368 | w1*leaf->rays[r1].GetDir() +
|
---|
2369 | w2*leaf->rays[r2].GetDir();
|
---|
2370 |
|
---|
2371 | // shift the origin a little bit
|
---|
2372 | direction.Normalize();
|
---|
2373 |
|
---|
2374 | } else {
|
---|
2375 | Vector3 dirVector;
|
---|
2376 |
|
---|
2377 | Vector3 pVector;
|
---|
2378 | Vector3 dVector;
|
---|
2379 |
|
---|
2380 | bool useHalton = true;
|
---|
2381 |
|
---|
2382 | if (useHalton) {
|
---|
2383 | // generate a random 5D vector
|
---|
2384 | pVector = Vector3(leaf->halton.GetNumber(1),
|
---|
2385 | leaf->halton.GetNumber(2),
|
---|
2386 | leaf->halton.GetNumber(3));
|
---|
2387 |
|
---|
2388 | dVector = Vector3(leaf->halton.GetNumber(4),
|
---|
2389 | leaf->halton.GetNumber(5),
|
---|
2390 | 0.0f);
|
---|
2391 |
|
---|
2392 | leaf->halton.GenerateNext();
|
---|
2393 | } else {
|
---|
2394 | pVector = Vector3(RandomValue(0.0f, 1.0f),
|
---|
2395 | RandomValue(0.0f, 1.0f),
|
---|
2396 | RandomValue(0.0f, 1.0f));
|
---|
2397 |
|
---|
2398 | dVector = Vector3(RandomValue(0.0f, 1.0f),
|
---|
2399 | RandomValue(0.0f, 1.0f),
|
---|
2400 | 0.0f);
|
---|
2401 | }
|
---|
2402 |
|
---|
2403 | origin = box.GetPoint(pVector);
|
---|
2404 | dirVector = dirBox.GetPoint(dVector);
|
---|
2405 |
|
---|
2406 | direction = VssRay::GetInvDirParam(dirVector.x,dirVector.y);
|
---|
2407 | }
|
---|
2408 |
|
---|
2409 |
|
---|
2410 | // float dist = Min(avgLength*0.5f, Magnitude(GetBBox(leaf).Size()));
|
---|
2411 | float dist = 0.0f;
|
---|
2412 | float minT, maxT;
|
---|
2413 | // compute interection of the ray with the box
|
---|
2414 |
|
---|
2415 | if (box.ComputeMinMaxT(origin, direction, &minT, &maxT) && minT < maxT)
|
---|
2416 | dist = maxT;
|
---|
2417 |
|
---|
2418 |
|
---|
2419 | origin += direction*dist;
|
---|
2420 |
|
---|
2421 | bool intersects = false;
|
---|
2422 |
|
---|
2423 | if (i >= numberOfRays*(1.0f - silhouetteCheckPercentage)) {
|
---|
2424 | if (exporter) {
|
---|
2425 | VssRay *ray = new VssRay(origin, origin + 100*direction, NULL, NULL);
|
---|
2426 | selectedRays.push_back(ray);
|
---|
2427 | }
|
---|
2428 |
|
---|
2429 | // check whether the ray does not intersect already visible objects
|
---|
2430 | Ray traversalRay;
|
---|
2431 | traversalRay.Init(origin, direction, Ray::LOCAL_RAY);
|
---|
2432 | for(vector<Intersectable *>::const_iterator oi = pvs.begin();
|
---|
2433 | oi != pvs.end();
|
---|
2434 | oi++) {
|
---|
2435 | Intersectable *object = *oi;
|
---|
2436 | // do not test every object
|
---|
2437 | if ( Random(1.0f) <= silhouetteObjectCheckPercentage &&
|
---|
2438 | object->CastRay(traversalRay) ) {
|
---|
2439 | intersects = true;
|
---|
2440 | break;
|
---|
2441 | }
|
---|
2442 | }
|
---|
2443 | }
|
---|
2444 |
|
---|
2445 |
|
---|
2446 | if (!intersects) {
|
---|
2447 | //cout<<"dir vector.x="<<dirVector.x<<"direction'.x="<<atan2(direction.x, direction.y)<<endl;
|
---|
2448 | rays.push_back(SimpleRay(origin, direction));
|
---|
2449 | generated++;
|
---|
2450 | }
|
---|
2451 | }
|
---|
2452 |
|
---|
2453 | // cout<<"desired="<<numberOfRays<<" tries="<<i<<endl;
|
---|
2454 | // assign pdfs to the generated rays
|
---|
2455 | // float density = generated/(box.SurfaceArea()*dirBox.GetVolume());
|
---|
2456 | float density = 1.0f;
|
---|
2457 |
|
---|
2458 | float p = 1.0f/density; //(box.GetVolume()*dirBox.GetVolume())/i;
|
---|
2459 | for (int i=startIndex; i < rays.size(); i++) {
|
---|
2460 | rays[i].mPdf = p;
|
---|
2461 | }
|
---|
2462 |
|
---|
2463 |
|
---|
2464 | if (exporter) {
|
---|
2465 | exporter->ExportRays(selectedRays, RgbColor(1, 0, 0));
|
---|
2466 | delete exporter;
|
---|
2467 | CLEAR_CONTAINER(selectedRays);
|
---|
2468 | }
|
---|
2469 |
|
---|
2470 | }
|
---|
2471 |
|
---|
2472 | int
|
---|
2473 | RssTree::PruneRays(RssTreeLeaf *leaf,
|
---|
2474 | const float contributionThreshold)
|
---|
2475 | {
|
---|
2476 | int i;
|
---|
2477 | int j;
|
---|
2478 |
|
---|
2479 | for (j=0, i=0; i < leaf->rays.size(); i++) {
|
---|
2480 |
|
---|
2481 | if (leaf->rays[i].mRay->mWeightedPvsContribution > contributionThreshold) {
|
---|
2482 | // copy a valid sample
|
---|
2483 | leaf->rays[j] = leaf->rays[i];
|
---|
2484 | j++;
|
---|
2485 | } else {
|
---|
2486 | // delete the ray
|
---|
2487 | leaf->rays[i].mRay->Unref();
|
---|
2488 | if (leaf->rays[i].mRay->RefCount() != 0) {
|
---|
2489 | cerr<<"Error: refcount!=0, but"<<leaf->rays[j].mRay->RefCount()<<endl;
|
---|
2490 | exit(1);
|
---|
2491 | }
|
---|
2492 | delete leaf->rays[i].mRay;
|
---|
2493 | }
|
---|
2494 | }
|
---|
2495 |
|
---|
2496 |
|
---|
2497 | leaf->rays.resize(j);
|
---|
2498 | int removed = (i-j);
|
---|
2499 | stat.rayRefs -= removed;
|
---|
2500 | return removed;
|
---|
2501 | }
|
---|
2502 |
|
---|
2503 | int
|
---|
2504 | RssTree::PruneRaysRandom(RssTreeLeaf *leaf,
|
---|
2505 | const float ratio)
|
---|
2506 | {
|
---|
2507 | int i;
|
---|
2508 | int j;
|
---|
2509 |
|
---|
2510 | for (j=0, i=0; i < leaf->rays.size(); i++) {
|
---|
2511 |
|
---|
2512 | if (Random(1.0f) < ratio) {
|
---|
2513 | // copy a valid sample
|
---|
2514 | if (i!=j)
|
---|
2515 | leaf->rays[j] = leaf->rays[i];
|
---|
2516 | j++;
|
---|
2517 | } else {
|
---|
2518 | // delete the ray
|
---|
2519 | leaf->rays[i].mRay->Unref();
|
---|
2520 | if (leaf->rays[i].mRay->RefCount() != 0) {
|
---|
2521 | cerr<<"Error: refcount!=0, but"<<leaf->rays[j].mRay->RefCount()<<endl;
|
---|
2522 | exit(1);
|
---|
2523 | }
|
---|
2524 | delete leaf->rays[i].mRay;
|
---|
2525 | }
|
---|
2526 | }
|
---|
2527 |
|
---|
2528 |
|
---|
2529 | leaf->rays.resize(j);
|
---|
2530 | int removed = (i-j);
|
---|
2531 | stat.rayRefs -= removed;
|
---|
2532 | return removed;
|
---|
2533 | }
|
---|
2534 |
|
---|
2535 | int
|
---|
2536 | RssTree::PruneRaysContribution(RssTreeLeaf *leaf,
|
---|
2537 | const float ratio)
|
---|
2538 | {
|
---|
2539 | int i;
|
---|
2540 |
|
---|
2541 | if (leaf->rays.size() == 0)
|
---|
2542 | return 0;
|
---|
2543 |
|
---|
2544 | sort(leaf->rays.begin(),
|
---|
2545 | leaf->rays.end(),
|
---|
2546 | RssTreeLeaf::RayInfo::GreaterWeightedPvsContribution);
|
---|
2547 |
|
---|
2548 | int desired = int(ratio*leaf->rays.size());
|
---|
2549 | int removed = (int)leaf->rays.size() - desired;
|
---|
2550 |
|
---|
2551 | for (i=desired; i < (int)leaf->rays.size(); i++) {
|
---|
2552 | // delete the ray
|
---|
2553 | leaf->rays[i].mRay->Unref();
|
---|
2554 | if (leaf->rays[i].mRay->RefCount() != 0) {
|
---|
2555 | cerr<<"Error: refcount!=0, but"<<leaf->rays[i].mRay->RefCount()<<endl;
|
---|
2556 | cerr<<"desired="<<desired<<"i="<<i<<" size="<<(int)leaf->rays.size()<<endl;
|
---|
2557 | exit(1);
|
---|
2558 | }
|
---|
2559 | delete leaf->rays[i].mRay;
|
---|
2560 | }
|
---|
2561 |
|
---|
2562 | leaf->rays.resize(desired);
|
---|
2563 | stat.rayRefs -= removed;
|
---|
2564 | return removed;
|
---|
2565 | }
|
---|
2566 |
|
---|
2567 |
|
---|
2568 | int
|
---|
2569 | RssTree::PruneRays(
|
---|
2570 | const int maxRays
|
---|
2571 | )
|
---|
2572 | {
|
---|
2573 | bool globalPrunning = false;
|
---|
2574 |
|
---|
2575 | stack<RssTreeNode *> tstack;
|
---|
2576 | int prunned = 0;
|
---|
2577 |
|
---|
2578 | // prune more rays to amortize the procedure
|
---|
2579 | int desired = (int)(maxRays * 0.8f);
|
---|
2580 |
|
---|
2581 | Debug<<"Prunning rays...\nOriginal size "<<stat.rayRefs<<endl<<flush;
|
---|
2582 |
|
---|
2583 | if (globalPrunning) {
|
---|
2584 | VssRayContainer allRays;
|
---|
2585 | allRays.reserve(stat.rayRefs);
|
---|
2586 | CollectRays(allRays);
|
---|
2587 | sort(allRays.begin(),
|
---|
2588 | allRays.end(),
|
---|
2589 | GreaterWeightedPvsContribution);
|
---|
2590 |
|
---|
2591 | if ( maxRays >= allRays.size() )
|
---|
2592 | return 0;
|
---|
2593 |
|
---|
2594 | float contributionThreshold = allRays[desired]->mWeightedPvsContribution;
|
---|
2595 |
|
---|
2596 | PushRoots(tstack);
|
---|
2597 |
|
---|
2598 | while (!tstack.empty()) {
|
---|
2599 | RssTreeNode *node = tstack.top();
|
---|
2600 | tstack.pop();
|
---|
2601 |
|
---|
2602 | if (node->IsLeaf()) {
|
---|
2603 | RssTreeLeaf *leaf = (RssTreeLeaf *)node;
|
---|
2604 | prunned += PruneRays(leaf, contributionThreshold);
|
---|
2605 | } else {
|
---|
2606 | RssTreeInterior *in = (RssTreeInterior *)node;
|
---|
2607 | // both nodes for directional splits
|
---|
2608 | tstack.push(in->front);
|
---|
2609 | tstack.push(in->back);
|
---|
2610 | }
|
---|
2611 | }
|
---|
2612 | } else {
|
---|
2613 | // prune random rays from each leaf so that the ratio's remain the same
|
---|
2614 | PushRoots(tstack);
|
---|
2615 |
|
---|
2616 | if ( maxRays >= stat.rayRefs )
|
---|
2617 | return 0;
|
---|
2618 |
|
---|
2619 | float ratio = desired/(float)stat.rayRefs;
|
---|
2620 |
|
---|
2621 | while (!tstack.empty()) {
|
---|
2622 | RssTreeNode *node = tstack.top();
|
---|
2623 | tstack.pop();
|
---|
2624 |
|
---|
2625 | if (node->IsLeaf()) {
|
---|
2626 | RssTreeLeaf *leaf = (RssTreeLeaf *)node;
|
---|
2627 | // prunned += PruneRaysRandom(leaf, ratio);
|
---|
2628 | prunned += PruneRaysContribution(leaf, ratio);
|
---|
2629 | } else {
|
---|
2630 | RssTreeInterior *in = (RssTreeInterior *)node;
|
---|
2631 | // both nodes for directional splits
|
---|
2632 | tstack.push(in->front);
|
---|
2633 | tstack.push(in->back);
|
---|
2634 | }
|
---|
2635 | }
|
---|
2636 |
|
---|
2637 |
|
---|
2638 |
|
---|
2639 |
|
---|
2640 | }
|
---|
2641 |
|
---|
2642 |
|
---|
2643 |
|
---|
2644 | Debug<<"Remained "<<stat.rayRefs<<" rays"<<endl<<flush;
|
---|
2645 |
|
---|
2646 | return prunned;
|
---|
2647 | }
|
---|
2648 |
|
---|
2649 | int
|
---|
2650 | RssTree::GenerateRays(const int numberOfRays,
|
---|
2651 | const int numberOfLeaves,
|
---|
2652 | SimpleRayContainer &rays)
|
---|
2653 | {
|
---|
2654 |
|
---|
2655 |
|
---|
2656 | vector<RssTreeLeaf *> leaves;
|
---|
2657 |
|
---|
2658 | Debug<<"Collecting leaves..."<<endl<<flush;
|
---|
2659 | CollectLeaves(leaves);
|
---|
2660 | Debug<<"done."<<endl<<flush;
|
---|
2661 |
|
---|
2662 |
|
---|
2663 | if (numberOfLeaves != leaves.size()) {
|
---|
2664 | Debug<<"sorting leaves..."<<endl<<flush;
|
---|
2665 | sort(leaves.begin(),
|
---|
2666 | leaves.end(),
|
---|
2667 | GreaterContribution);
|
---|
2668 | Debug<<"done."<<endl<<flush;
|
---|
2669 | }
|
---|
2670 |
|
---|
2671 |
|
---|
2672 | Debug<<"Evaluating leaf importance..."<<endl<<flush;
|
---|
2673 |
|
---|
2674 | float sumContrib = 0.0;
|
---|
2675 | int i;
|
---|
2676 | int k = 0;
|
---|
2677 | for (i=0; i < leaves.size() && k < numberOfLeaves; i++)
|
---|
2678 | if (ValidLeaf(leaves[i])) {
|
---|
2679 | float c = leaves[i]->GetImportance();
|
---|
2680 | sumContrib += c;
|
---|
2681 | // cout<<"ray contrib "<<i<<" : "<<c<<endl;
|
---|
2682 | k++;
|
---|
2683 | }
|
---|
2684 |
|
---|
2685 | Debug<<"done."<<endl<<flush;
|
---|
2686 |
|
---|
2687 | float avgContrib = sumContrib/numberOfLeaves;
|
---|
2688 |
|
---|
2689 | // always generate at leat n ray per leaf
|
---|
2690 | int fixedPerLeaf = 1;
|
---|
2691 | // int fixedPerLeaf = 0;
|
---|
2692 | int fixed = fixedPerLeaf*(int)leaves.size();
|
---|
2693 |
|
---|
2694 | // check if the number of fixed is not too big
|
---|
2695 |
|
---|
2696 | if (fixed >= numberOfRays/2) {
|
---|
2697 | fixedPerLeaf = 0;
|
---|
2698 | fixed = 0;
|
---|
2699 | }
|
---|
2700 |
|
---|
2701 | int iGenerated = numberOfRays - fixed;
|
---|
2702 | float ratioPerLeaf = iGenerated /(avgContrib*numberOfLeaves);
|
---|
2703 |
|
---|
2704 | k = 0;
|
---|
2705 |
|
---|
2706 | Debug<<"generating leaf rays..."<<endl<<flush;
|
---|
2707 |
|
---|
2708 | for (i=0; i < leaves.size() && k < numberOfLeaves; i++)
|
---|
2709 | if (ValidLeaf(leaves[i])) {
|
---|
2710 | RssTreeLeaf *leaf = leaves[i];
|
---|
2711 | float c = leaf->GetImportance();
|
---|
2712 |
|
---|
2713 | int num = fixedPerLeaf + (int)(c*ratioPerLeaf + 0.5f);
|
---|
2714 | GenerateLeafRaysSimple(leaf, num, rays);
|
---|
2715 |
|
---|
2716 | k++;
|
---|
2717 | }
|
---|
2718 |
|
---|
2719 | Debug<<"done."<<endl<<flush;
|
---|
2720 |
|
---|
2721 | return (int)rays.size();
|
---|
2722 | }
|
---|
2723 |
|
---|
2724 |
|
---|
2725 | float
|
---|
2726 | RssTree::GetAvgPvsSize()
|
---|
2727 | {
|
---|
2728 | stack<RssTreeNode *> tstack;
|
---|
2729 | PushRoots(tstack);
|
---|
2730 |
|
---|
2731 | int sumPvs = 0;
|
---|
2732 | int leaves = 0;
|
---|
2733 | while (!tstack.empty()) {
|
---|
2734 | RssTreeNode *node = tstack.top();
|
---|
2735 | tstack.pop();
|
---|
2736 |
|
---|
2737 | if (node->IsLeaf()) {
|
---|
2738 | RssTreeLeaf *leaf = (RssTreeLeaf *)node;
|
---|
2739 | // update pvs size
|
---|
2740 | UpdatePvsSize(leaf);
|
---|
2741 | sumPvs += leaf->GetPvsSize();
|
---|
2742 | leaves++;
|
---|
2743 | } else {
|
---|
2744 | RssTreeInterior *in = (RssTreeInterior *)node;
|
---|
2745 | // both nodes for directional splits
|
---|
2746 | tstack.push(in->front);
|
---|
2747 | tstack.push(in->back);
|
---|
2748 | }
|
---|
2749 | }
|
---|
2750 |
|
---|
2751 |
|
---|
2752 | return sumPvs/(float)leaves;
|
---|
2753 | }
|
---|
2754 |
|
---|
2755 | float weightAbsContributions = ABS_CONTRIBUTION_WEIGHT;
|
---|
2756 | // if small very high importance of the last sample
|
---|
2757 | // if 1.0f then weighs = 1 1/2 1/3 1/4
|
---|
2758 | //float passSampleWeightDecay = 1.0f;
|
---|
2759 | float passSampleWeightDecay = 1.0f;
|
---|
2760 |
|
---|
2761 | float
|
---|
2762 | RssTree::GetSampleWeight(const int pass)
|
---|
2763 | {
|
---|
2764 | int passDiff = mCurrentPass - pass;
|
---|
2765 | float weight;
|
---|
2766 | if (1)
|
---|
2767 | weight = 1.0f/(passDiff + passSampleWeightDecay);
|
---|
2768 | else
|
---|
2769 | switch (passDiff) {
|
---|
2770 | case 0:
|
---|
2771 | // weight = 1.0f;
|
---|
2772 | // break;
|
---|
2773 | default:
|
---|
2774 | weight = 1.0f;
|
---|
2775 | break;
|
---|
2776 | // case 1:
|
---|
2777 | // weight = 0.5f;
|
---|
2778 | // break;
|
---|
2779 | // case 2:
|
---|
2780 | // weight = 0.25f;
|
---|
2781 | // break;
|
---|
2782 | // case 3:
|
---|
2783 | // weight = 0.12f;
|
---|
2784 | // break;
|
---|
2785 | // case 4:
|
---|
2786 | // weight = 0.06f;
|
---|
2787 | // break;
|
---|
2788 | // default:
|
---|
2789 | // weight = 0.03f;
|
---|
2790 | // break;
|
---|
2791 | }
|
---|
2792 | return weight;
|
---|
2793 | }
|
---|
2794 |
|
---|
2795 | void
|
---|
2796 | RssTree::GetRayContribution(const RssTreeNode::RayInfo &info,
|
---|
2797 | float &weight,
|
---|
2798 | float &contribution)
|
---|
2799 | {
|
---|
2800 | VssRay *ray = info.mRay;
|
---|
2801 | weight = GetSampleWeight(mCurrentPass);
|
---|
2802 | contribution =
|
---|
2803 | weightAbsContributions*ray->mPvsContribution +
|
---|
2804 | (1.0f - weightAbsContributions)*ray->mRelativePvsContribution;
|
---|
2805 | // store the computed value
|
---|
2806 | info.mRay->mWeightedPvsContribution = weight*contribution;
|
---|
2807 | }
|
---|
2808 |
|
---|
2809 |
|
---|
2810 | void
|
---|
2811 | RssTree::ComputeImportance(RssTreeLeaf *leaf)
|
---|
2812 | {
|
---|
2813 | if (0)
|
---|
2814 | leaf->mImportance = leaf->GetAvgRayContribution();
|
---|
2815 | else {
|
---|
2816 | RssTreeNode::RayInfoContainer::const_iterator it = leaf->rays.begin(),
|
---|
2817 | it_end = leaf->rays.end();
|
---|
2818 |
|
---|
2819 | float sumContributions = 0.0f;
|
---|
2820 | float sumRelContributions = 0.0f;
|
---|
2821 | float sumWeights = 0.0f;
|
---|
2822 | float maxContribution = 0.0f;
|
---|
2823 | float maxRelContribution = 0.0f;
|
---|
2824 | float sumLength = 0;
|
---|
2825 |
|
---|
2826 | for (; it != it_end; ++it) {
|
---|
2827 | VssRay *ray = (*it).mRay;
|
---|
2828 | float sumLength = ray->Length();
|
---|
2829 |
|
---|
2830 | float weight = GetSampleWeight(ray->mPass);
|
---|
2831 |
|
---|
2832 | float c1 = weight*ray->mPvsContribution;
|
---|
2833 | float c2 = weight*ray->mRelativePvsContribution;
|
---|
2834 | sumContributions += c1;
|
---|
2835 | if (c1 > maxContribution)
|
---|
2836 | maxContribution = c1;
|
---|
2837 |
|
---|
2838 | //$$ 20.7. changed to sqr to pronouce higher contribution so that
|
---|
2839 | // they do not get smoothed!!
|
---|
2840 | //sumRelContributions += weight*ray->mRelativePvsContribution;
|
---|
2841 |
|
---|
2842 | sumRelContributions += c2;
|
---|
2843 | if (c2 > maxRelContribution)
|
---|
2844 | maxRelContribution = c2;
|
---|
2845 |
|
---|
2846 | //sumWeights += weight;
|
---|
2847 | sumWeights += 1.0f;
|
---|
2848 | }
|
---|
2849 |
|
---|
2850 | float distImportance = 0.0f;
|
---|
2851 |
|
---|
2852 | float spatialArea = GetBBox(leaf).SurfaceArea();
|
---|
2853 | float dirArea = GetDirBBox(leaf).SurfaceArea();
|
---|
2854 | if (leaf->rays.size()) {
|
---|
2855 | // compute average length of the ray
|
---|
2856 | float avgLength = sumLength/leaf->rays.size();
|
---|
2857 | // compute estimated area of the visible surface corresponding to these rays
|
---|
2858 | float ss = spatialArea/2.0f;
|
---|
2859 | float sd = dirArea;
|
---|
2860 | float s = ss + avgLength*(2*sqrt(ss*sd) + avgLength*sd);
|
---|
2861 |
|
---|
2862 | distImportance = s/leaf->rays.size();
|
---|
2863 | }
|
---|
2864 |
|
---|
2865 | // $$
|
---|
2866 | sumWeights = (float)leaf->mTotalRays;
|
---|
2867 |
|
---|
2868 | //$$ test 30.11. 2006
|
---|
2869 | // normalize per volume of the cell not the number of rays!
|
---|
2870 | // sumWeights = spatialArea*dirArea;
|
---|
2871 |
|
---|
2872 | if (sumWeights != 0.0f) {
|
---|
2873 | leaf->mImportance =
|
---|
2874 | sqr(((weightAbsContributions*sumContributions +
|
---|
2875 | (1.0f - weightAbsContributions)*sumRelContributions)/sumWeights));
|
---|
2876 |
|
---|
2877 | // leaf->mImportance =
|
---|
2878 | // (weightAbsContributions*maxContribution +
|
---|
2879 | // (1.0f - weightAbsContributions)*maxRelContribution)/sumWeights;
|
---|
2880 |
|
---|
2881 | } else
|
---|
2882 | leaf->mImportance = 0.0f;
|
---|
2883 |
|
---|
2884 | }
|
---|
2885 |
|
---|
2886 | // return GetAvgRayContribution()*mImportance;
|
---|
2887 | //return GetAvgRayContribution();
|
---|
2888 | }
|
---|
2889 |
|
---|
2890 |
|
---|
2891 | float
|
---|
2892 | RssTreeLeaf::GetImportance() const
|
---|
2893 | {
|
---|
2894 | // return sqr(mImportance);
|
---|
2895 | return mImportance;
|
---|
2896 | }
|
---|
2897 |
|
---|
2898 |
|
---|
2899 | float
|
---|
2900 | RssTreeLeaf::ComputePvsEntropy() const
|
---|
2901 | {
|
---|
2902 | int samples = 0;
|
---|
2903 | Intersectable::NewMail();
|
---|
2904 | // set all object as belonging to the fron pvs
|
---|
2905 | for(RssTreeNode::RayInfoContainer::const_iterator ri = rays.begin();
|
---|
2906 | ri != rays.end();
|
---|
2907 | ri++)
|
---|
2908 | if ((*ri).mRay->IsActive()) {
|
---|
2909 | Intersectable *object = (*ri).GetObject();
|
---|
2910 | if (object) {
|
---|
2911 | if (!object->Mailed()) {
|
---|
2912 | object->Mail();
|
---|
2913 | object->mCounter = 1;
|
---|
2914 | } else
|
---|
2915 | object->mCounter++;
|
---|
2916 | samples++;
|
---|
2917 | }
|
---|
2918 | }
|
---|
2919 |
|
---|
2920 | float entropy = 0.0f;
|
---|
2921 |
|
---|
2922 | if (samples > 1) {
|
---|
2923 | Intersectable::NewMail();
|
---|
2924 | for(RayInfoContainer::const_iterator ri = rays.begin();
|
---|
2925 | ri != rays.end();
|
---|
2926 | ri++)
|
---|
2927 | if ((*ri).mRay->IsActive()) {
|
---|
2928 | Intersectable *object = (*ri).GetObject();
|
---|
2929 | if (object) {
|
---|
2930 | if (!object->Mailed()) {
|
---|
2931 | object->Mail();
|
---|
2932 | float p = object->mCounter/(float)samples;
|
---|
2933 | entropy -= p*log(p);
|
---|
2934 | }
|
---|
2935 | }
|
---|
2936 | }
|
---|
2937 | entropy = entropy/log((float)samples);
|
---|
2938 | }
|
---|
2939 | else
|
---|
2940 | entropy = 1.0f;
|
---|
2941 |
|
---|
2942 | return entropy;
|
---|
2943 | }
|
---|
2944 |
|
---|
2945 | float
|
---|
2946 | RssTreeLeaf::ComputeRayLengthEntropy() const
|
---|
2947 | {
|
---|
2948 | // get sum of all ray lengths
|
---|
2949 | // consider only passing rays or originating rays
|
---|
2950 | float sum = 0.0f;
|
---|
2951 | int samples = 0;
|
---|
2952 | int i=0;
|
---|
2953 | for(RayInfoContainer::const_iterator ri = rays.begin();
|
---|
2954 | ri != rays.end();
|
---|
2955 | ri++)
|
---|
2956 | if ((*ri).mRay->IsActive()) {
|
---|
2957 | // float s;
|
---|
2958 | // if (i == 0)
|
---|
2959 | // s = 200;
|
---|
2960 | // else
|
---|
2961 | // s = 100;
|
---|
2962 | // i++;
|
---|
2963 |
|
---|
2964 | sum += (*ri).mRay->GetSize();
|
---|
2965 | samples++;
|
---|
2966 | }
|
---|
2967 |
|
---|
2968 |
|
---|
2969 | float entropy = 0.0f;
|
---|
2970 |
|
---|
2971 | if (samples > 1) {
|
---|
2972 | i = 0;
|
---|
2973 | for(RayInfoContainer::const_iterator ri = rays.begin();
|
---|
2974 | ri != rays.end();
|
---|
2975 | ri++)
|
---|
2976 | if ((*ri).mRay->IsActive()) {
|
---|
2977 | // float s;
|
---|
2978 | // if (i==0)
|
---|
2979 | // s = 200;
|
---|
2980 | // else
|
---|
2981 | // s = 100;
|
---|
2982 | // i++;
|
---|
2983 | // float p = s/sum;
|
---|
2984 | float p = (*ri).mRay->GetSize()/sum;
|
---|
2985 | entropy -= p*log(p);
|
---|
2986 | }
|
---|
2987 | entropy = entropy/log((float)samples);
|
---|
2988 | } else
|
---|
2989 | entropy = 1.0f;
|
---|
2990 |
|
---|
2991 | return entropy;
|
---|
2992 | }
|
---|
2993 |
|
---|
2994 |
|
---|
2995 |
|
---|
2996 | float
|
---|
2997 | RssTreeLeaf::ComputeEntropyImportance() const
|
---|
2998 | {
|
---|
2999 |
|
---|
3000 | // mEntropy = 1.0f - ComputeRayLengthEntropy();
|
---|
3001 | return 1.0f - ComputePvsEntropy();
|
---|
3002 | }
|
---|
3003 |
|
---|
3004 | float
|
---|
3005 | RssTreeLeaf::ComputeRayContributionImportance() const
|
---|
3006 | {
|
---|
3007 | // mPvsEntropy = ComputePvsEntropy();
|
---|
3008 | // mRayLengthEntropy = ComputeRayLengthEntropy();
|
---|
3009 |
|
---|
3010 | // mEntropy = 1.0f - ComputeRayLengthEntropy();
|
---|
3011 | return 1.0f - ComputePvsEntropy();
|
---|
3012 | }
|
---|
3013 |
|
---|
3014 |
|
---|
3015 | AxisAlignedBox3
|
---|
3016 | RssTree::GetShrankedBBox(const RssTreeNode *node) const
|
---|
3017 | {
|
---|
3018 | if (node->parent == NULL)
|
---|
3019 | return bbox;
|
---|
3020 |
|
---|
3021 | if (!node->IsLeaf())
|
---|
3022 | return ((RssTreeInterior *)node)->bbox;
|
---|
3023 |
|
---|
3024 | // evaluate bounding box from the ray origins
|
---|
3025 | AxisAlignedBox3 box;
|
---|
3026 | box.Initialize();
|
---|
3027 | RssTreeLeaf *leaf = (RssTreeLeaf *)node;
|
---|
3028 | for(RssTreeNode::RayInfoContainer::iterator ri = leaf->rays.begin();
|
---|
3029 | ri != leaf->rays.end();
|
---|
3030 | ri++)
|
---|
3031 | if ((*ri).mRay->IsActive()) {
|
---|
3032 | box.Include((*ri).GetOrigin());
|
---|
3033 | }
|
---|
3034 | return box;
|
---|
3035 | }
|
---|
3036 |
|
---|
3037 |
|
---|
3038 | int
|
---|
3039 | RssTree::CollectRays(VssRayContainer &rays,
|
---|
3040 | const int number)
|
---|
3041 | {
|
---|
3042 | VssRayContainer allRays;
|
---|
3043 | CollectRays(allRays);
|
---|
3044 |
|
---|
3045 |
|
---|
3046 | int desired = min(number, (int)allRays.size());
|
---|
3047 | float prob = desired/(float)allRays.size();
|
---|
3048 | //int skip = allRays.size()/desired;
|
---|
3049 | while (rays.size() < desired) {
|
---|
3050 | VssRayContainer::const_iterator it = allRays.begin();
|
---|
3051 | for (; it != allRays.end() && rays.size() < desired; it++) {
|
---|
3052 | if (Random(1.0f) < prob)
|
---|
3053 | rays.push_back(*it);
|
---|
3054 | }
|
---|
3055 | }
|
---|
3056 | return (int)rays.size();
|
---|
3057 | }
|
---|
3058 |
|
---|
3059 |
|
---|
3060 | int
|
---|
3061 | RssTree::CollectRays(VssRayContainer &rays
|
---|
3062 | )
|
---|
3063 | {
|
---|
3064 | VssRay::NewMail();
|
---|
3065 |
|
---|
3066 | stack<RssTreeNode *> tstack;
|
---|
3067 | PushRoots(tstack);
|
---|
3068 |
|
---|
3069 | while (!tstack.empty()) {
|
---|
3070 | RssTreeNode *node = tstack.top();
|
---|
3071 | tstack.pop();
|
---|
3072 |
|
---|
3073 | if (node->IsLeaf()) {
|
---|
3074 | RssTreeLeaf *leaf = (RssTreeLeaf *)node;
|
---|
3075 | // update pvs size
|
---|
3076 | RssTreeNode::RayInfoContainer::const_iterator it = leaf->rays.begin();
|
---|
3077 | for (;it != leaf->rays.end(); ++it)
|
---|
3078 | if (!(*it).mRay->Mailed()) {
|
---|
3079 | (*it).mRay->Mail();
|
---|
3080 | rays.push_back((*it).mRay);
|
---|
3081 | }
|
---|
3082 | } else {
|
---|
3083 | RssTreeInterior *in = (RssTreeInterior *)node;
|
---|
3084 | // both nodes for directional splits
|
---|
3085 | tstack.push(in->front);
|
---|
3086 | tstack.push(in->back);
|
---|
3087 | }
|
---|
3088 | }
|
---|
3089 |
|
---|
3090 | return (int)rays.size();
|
---|
3091 | }
|
---|
3092 |
|
---|
3093 |
|
---|
3094 | RssTreeNode *
|
---|
3095 | RssTree::GetRoot(Intersectable *object) const
|
---|
3096 | {
|
---|
3097 | if (mPerObjectTree && object) {
|
---|
3098 | int id = object->GetId()-1;
|
---|
3099 | if (id < 0 || id >= mRoots.size()) {
|
---|
3100 | Debug<<"Error: object Id out of range, Id="<<id<<" roots.size()="<<(int)mRoots.size()<<
|
---|
3101 | endl<<flush;
|
---|
3102 | id = (int)mRoots.size()-1; // $$ last tree is used by all unsigned objects
|
---|
3103 | }
|
---|
3104 | return mRoots[id];
|
---|
3105 | } else
|
---|
3106 | return mRoots[0];
|
---|
3107 | }
|
---|
3108 |
|
---|
3109 | void
|
---|
3110 | RssTree::PushRoots(priority_queue<TraversalData> &st) const
|
---|
3111 | {
|
---|
3112 | for (int i=0; i < mRoots.size(); i++)
|
---|
3113 | st.push(TraversalData(mRoots[i], GetBBox(mRoots[i]), 0));
|
---|
3114 | }
|
---|
3115 |
|
---|
3116 | void
|
---|
3117 | RssTree::PushRoots(stack<RssTreeNode *> &st) const
|
---|
3118 | {
|
---|
3119 | for (int i=0; i < mRoots.size(); i++)
|
---|
3120 | st.push(mRoots[i]);
|
---|
3121 | }
|
---|
3122 |
|
---|
3123 | void
|
---|
3124 | RssTree::PushRoots(stack<RayTraversalData> &st, RssTreeNode::RayInfo &info) const
|
---|
3125 | {
|
---|
3126 | for (int i=0; i < mRoots.size(); i++)
|
---|
3127 | st.push(RayTraversalData(mRoots[i], info));
|
---|
3128 | }
|
---|
3129 |
|
---|
3130 |
|
---|
3131 | }
|
---|