############################################################################ # ERS default configuration file # Jiri Bittner 2003 ############################################################################# Scene { #filename ../data/Arena/arena-low-lods.obj #filename ../data/Arena/arena-high-lods.obj # filename ../data/City4M/City4M.obj # filename ../data/CityModel/CityModel.obj # filename ../data/GrandCanyon/grandcanyon1_RotXmin90.obj # filename ../data/glasgow/glasgow1.x3d # filename vienna.x3d # filename ../data/vienna/vienna-simple.x3d # filename ../data/vienna/vienna-buildings.x3d #filename ../data/vienna/city1500_flat_1.x3d;../data/vienna/vienna-roofs.x3d;../data/vienna/vienna-roads.x3d #filename ../data/vienna/vienna-buildings.x3d;../data/vienna/vienna-roofs.x3d;../data/vienna/vienna-roads.x3d;../data/vienna/vienna-plane.x3d #filename ../data/vienna/vienna.obj filename ../data/vienna/vienna_cropped.obj # filename ../data/vienna/viewcells-25-sel.x3d #filename ../data/atlanta/atlanta2.x3d #filename ../data/soda/soda.dat #filename ../data/test1/test2.x3d # filename ../data/soda/soda5.dat #filename ../data/PowerPlant/ppsection1/part_a/g0.ply #filename ../data/PowerPlant/ppsection1/part_b/g0.ply #filename ../data/PowerPlant/ppsection1.plb #filename ../data/PowerPlant/all.plb #filename ../data/PowerPlant/selection3.plb #filename ../data/PowerPlant/section10.plb;../data/PowerPlant/section14.plb #filename ../data/PowerPlant/selection.plb #filename ../data/PowerPlant/comps/ppsection1/comps.plb } Preprocessor { delayVisibilityComputation false # stored sample rays samplesFilename rays.out useGlRenderer true useGlDebugger false # 0 = INTERNAL 1 = MLRT rayCastMethod 1 # type sampling # type vss # type rss type combined # type render detectEmptyViewSpace true pvsRenderErrorSamples 0 # pvsRenderErrorSamples 1000 quitOnFinish false computeVisibility true evaluateFilter false applyVisibilityFilter false applyVisibilitySpatialFilter false visibilityFilterWidth 0.01 exportVisibility true visibilityFile visibility.xml loadMeshes false loadKdTree false exportKdTree false histogram { intervals 20 maxValue 1000 file histogram.log } Export { rays true numRays 5000 } } ObjParser { meshGrouping 2 } RenderSampler { samples 10000 } SamplingPreprocessor { totalSamples 100000000 samplesPerPass 5000000 } RssPreprocessor { # distributions rss+spatial+object_direction # distributions rss+object_direction+spatial+object+direction distributions object_direction+spatial+object+direction # distributions rss+object_direction # distributions object_direction samplesPerPass 1000000 initialSamples 2000000 vssSamples 20000000 vssSamplesPerPass 5000000 useImportanceSampling true Export { pvs false rssTree false } useViewcells true updateSubdivision true loadInitialSamples false storeInitialSamples false useRssTree true } RssTree { epsilon 1e-6 perObjectTree false maxDepth 60 minPvs 1 # before vienna test it was: # minRays 50 # splitType heuristic minRays 200 minSize 0.001 maxCostRatio 1.0 maxRayContribution 1.0 maxRays 2000000 maxTotalMemory 400 maxStaticMemory 200 # splitType regular # splitType heuristic splitType hybrid hybridDepth 10 splitUseOnlyDrivingAxis false importanceBasedCost false interleaveDirSplits true dirSplitDepth 0 ct_div_ci 0.0 } Limits { threshold 1e-6 small 1e-6 infinity 1e9 } Unigraphics { meshGrouping 1 } KdTree { sahUseFaces false Termination { minCost 1 maxDepth 30 maxCostRatio 0.98 ct_div_ci 0.5 maxNodes 500000 #500000 } # splitMethod spatialMedian splitMethod SAH splitBorder 0.01 } MeshKdTree { Termination { minCost 150 maxDepth 18 maxCostRatio 0.9 ct_div_ci 0.5 } # splitMethod spatialMedian splitMethod SAH splitBorder 0.01 } ViewCells { useKdPvs true # samples used for view cell construction Construction { samples 0 samplesPerPass 1500000 } #number of active view cells active 20000 maxViewCells 20000 maxStaticMemory 40 exportToFile true loadFromFile true #type kdTree #type vspKdTree #type bspTree type vspBspTree #type vspOspTree #type sceneDependent height 5.0 #percentage of total visible objects where pvs is considered invalid maxPvsRatio 1.0 processOnlyValidViewCells true #stats viewCellStats.log #samplingType directional samplingType box PostProcess { # how much samples are used for post processing samples 0 renderCostWeight 1.0 maxCostRatio 0.1 minViewCells 1 avgCostMaxDeviation 0.01 maxMergesPerPass 5000 useRaysForMerge false compress false merge false } Visualization { # how much samples we use for visualization samples 0 #colorCode PVS #colorCode MergedLeaves #colorCode MergedTreeDiff colorCode Random exportRays false exportGeometry true exportMergedViewCells false useClipPlane true clipPlaneAxis 1 clipPlanePos 0.3 } showVisualization false evaluateViewCells false Evaluation { samplesPerPass 1000000 samples 5000000 statsPrefix ../scripts/viewCells #samplingType directional samplingType box histogram true histoStepSize 5000 } # filename ../data/Arena/viewcells-5000.xml filename ../data/Arena/viewcells-20000.xml # filename ../data/atlanta/atlanta_viewcells_large.x3d # filename ../data/vienna/viewcells-25-sel.x3d # filename ../data/vienna/viewcells-25.x3d # filename ../data/vienna/viewcells-large-sel.x3d # filename ../scripts/viewcells_vienna.xml # filename ../scripts/viewcells_atlanta.xml # filename ../scripts/viewcells_soda5-2.xml # filename ../scripts/viewcells_atlanta.xml # filename ../data/soda/soda-viewcells.xml.gz # filename ../data/test1/test-viewcells.xml # filename ../data/soda/soda5-viewcells.xml # filename ../data/soda/soda-viewcells-1000.xml.gz # filename ../data/CityModel/CityModel-viewcells-5000.xml # filename ../data/City4M/City4M-viewcells-5000.xml # filename ../data/vienna/vsposp-seq-viewCells.xml.gz # filename ../data/atlanta/viewcells_atlanta3.xml # filename ../data/vienna/viewcells_vienna.xml # filename ../data/vienna/viewcells_vienna2.xml # filename ../data/vienna/vienna_simple-21-04-avs2-viewCells.xml # filename ../data/vienna/vienna-viewcells-20000.xml.gz # filename ../data/vienna/vienna-viewcells-5000.xml.gz # filename ../data/vienna/vienna-viewcells-1000.xml.zip # filename ../data/vienna/vsposp-seq-viewCells.xml.gz filename ../data/vienna/vienna_cropped-gradient-viewcells.xml.gz # filename ../data/vienna/vienna_cropped-2-sequential-30000-viewcells.xml.gz # filename ../data/vienna/vienna_cropped-sequential-400000-viewcells.xml.gz # filename ../data/vienna/city1500_flat_viewcells-1000.xml # filename ../data/vienna/city1500_flat-vsposp.xml # filename ../data/vienna/vienna-simple-vsposp.xml # filename ../data/PowerPlant/power_plant_viewcells1.xml } Simulation { objRenderCost 1.0 vcOverhead 1.0 # always between 0 and 1 moveSpeed 0.0001 } VspBspTree { Construction { samples 500000 epsilon 0.0000001 randomize false renderCostWeight 1.0 } # random polygon = 1 # axis aligned = 2 # least ray splits = 256 # balanced rays = 512 # pvs = 1024 splitPlaneStrategy 1026 # maximal candidates for split planes maxPolyCandidates 0 usePolygonSplitIfAvailable false # maximal tested rays for split cost heuristics maxTests 10000 maxTotalMemory 50 maxStaticMemory 50 subdivisionStats ../subdivisionStats.log # factors for evaluating split plane costs Factor { leastRaySplits 1.0 balancedRays 1.0 pvs 1.0 } Termination { # parameters used for autopartition minRays -15 minPolygons -1 maxDepth 25 minPvs 0 minProbability 0.000001 maxRayContribution 1 maxCostRatio 0.9 missTolerance 6 globalCostMissTolerance 4 minGlobalCostRatio 0.0000001 # minGlobalCostRatio 0.0001 # $$MAXVIEWCELLS maxViewCells 20000 # used for pvs criterium ct_div_ci 0.0 AxisAligned { minRays 50000 maxRayContribution 9.9 } } useSplitCostQueue true useCostHeuristics false splitUseOnlyDrivingAxis false simulateOctree false useRandomAxis false usePolygonSplitIfAvailable false nodePriorityQueueType 0 Visualization { # x3d visualization of the split planes exportSplits false } } BspTree { Construction { samples 100000 epsilon 0.005 } # random polygon = 1 # axis aligned = 2 # least splits = 4 # balanced polygons = 8 # balanced view cells = 16 # largest polygon area = 32 # vertical axis = 64 # blocked rays = 128 # least ray splits = 256 # balanced rays = 512 # pvs = 1024 # least splits + balanced polygons #splitPlaneStrategy 12 #axis aligned + vertical axis #splitPlaneStrategy 66 # axis aligned + balanced view cells # splitPlaneStrategy 18 # largest polygon area #splitPlaneStrategy 32 # axus aligned + balanced polygons #splitPlaneStrategy 72 # axis aligned + blocked rays #splitPlaneStrategy 130 #splitPlaneStrategy 384 #splitPlaneStrategy 130 splitPlaneStrategy 32 maxPolyCandidates 100 maxRayCandidates 0 maxTests 10000 subdivisionStats ../subDivisionStats.log # factors for evaluating split plane costs Factor { verticalSplits 1.0 largestPolyArea 1.0 blockedRays 1.0 leastRaySplits 1.0 balancedRays 1.0 pvs 1.0 leastSplits 1.0 balancedPolys 1.0 balancedViewCells 1.0 } Termination { # parameters used for autopartition minRays -1 minPolygons 0 maxDepth 30 minPvs -1 minProbability 0.00001 maxRayContribution 9999 maxViewCells 50000 # used for pvs criterium ct_div_ci 0.0 maxCostRatio 0.9 # axis aligned splits AxisAligned { minPolys 5000 minRays 500 minObjects 10 ct_div_ci 0.5 } } AxisAligned { splitBorder 0.01 } Visualization { # x3d visualization of the split planes exportSplits false } }