Better testing of the point to mesh distance functions.
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87d01da58f
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@ -66,8 +66,14 @@ void Usage()
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exit(-1);
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}
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template <class MeshType, bool useEdge>
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bool UnitTest_Closest(const char *filename1, int sampleNum, float dispPerc)
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// Testing of closest point on a mesh functionalities
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// Two main options
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// - using or not precomputed edges and planes
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// - using the simple wrapper or the basic functions of the grid.
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// - using the fn as size of the grid or the edge lenght as cell side
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template <class MeshType, bool useEdge,bool useWrap, bool useFaceNumForGrid>
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bool UnitTest_Closest(const char *filename1, int sampleNum, float dispPerc, std::vector<int> resultVec)
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{
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MeshType mr;
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typedef typename MeshType::ScalarType ScalarType;
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@ -87,7 +93,7 @@ bool UnitTest_Closest(const char *filename1, int sampleNum, float dispPerc)
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exit(-1);
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}
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int endOpen = clock();
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printf("Mesh loaded in %6.3f - ",float(endOpen-startOpen)/CLOCKS_PER_SEC);
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printf("Loading %6.3f - ",float(endOpen-startOpen)/CLOCKS_PER_SEC);
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int startSampling = clock();
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@ -108,41 +114,73 @@ bool UnitTest_Closest(const char *filename1, int sampleNum, float dispPerc)
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}
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int endSampling = clock();
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printf("Mesh Sampled in %6.3f - ",float(endSampling-startSampling)/CLOCKS_PER_SEC);
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printf("Sampling %6.3f - ",float(endSampling-startSampling)/CLOCKS_PER_SEC);
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int startGridInit = clock();
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TriMeshGrid TRGrid;
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TRGrid.Set(mr.face.begin(),mr.face.end());
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if(useFaceNumForGrid)
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{
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TRGrid.Set(mr.face.begin(),mr.face.end(),mr.fn*2);
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}
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else
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{
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float avgEdge = tri::Stat<MeshType>::ComputeFaceEdgeAverage(mr);
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TRGrid.SetWithRadius(mr.face.begin(),mr.face.end(),avgEdge*2);
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}
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if(useEdge)
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tri::UpdateEdges<MeshType>::Set(mr);
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int endGridInit = clock();
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printf("Grid Init in %6.3f\n",float(endGridInit-startGridInit)/CLOCKS_PER_SEC);
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printf("Grid Init %6.3f - ",float(endGridInit-startGridInit)/CLOCKS_PER_SEC);
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const ScalarType maxDist=std::max(dispAbs*10.0f,mr.bbox.Diag()/1000.f);
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CoordType closest;
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ScalarType dist;
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std::vector<FaceType *> resultVec(MontecarloSamples.size());
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int startGridQuery = clock();
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double avgDist=0;
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if(useEdge)
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resultVec.resize(MontecarloSamples.size());
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if(useEdge && useWrap)
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for(size_t i=0;i<MontecarloSamples.size();++i)
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{
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resultVec[i]=tri::GetClosestFaceRT(mr,TRGrid,MontecarloSamples[i], maxDist,dist,closest);
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resultVec[i]=tri::Index(mr,tri::GetClosestFaceRT(mr,TRGrid,MontecarloSamples[i], maxDist,dist,closest));
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if(resultVec[i]) avgDist += double(dist);
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}
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else
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if(!useEdge && useWrap)
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for(size_t i=0;i<MontecarloSamples.size();++i)
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{
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resultVec[i]=tri::GetClosestFaceBase(mr,TRGrid,MontecarloSamples[i], maxDist,dist,closest);
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resultVec[i]=tri::Index(mr,tri::GetClosestFaceBase(mr,TRGrid,MontecarloSamples[i], maxDist,dist,closest));
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if(resultVec[i]) avgDist += double(dist);
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}
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if(useEdge && !useWrap)
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{
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typedef tri::FaceTmark<MeshType> MarkerFace;
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MarkerFace mf;
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mf.SetMesh(&mr);
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face::PointDistanceFunctor<ScalarType> PDistFunct;
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for(size_t i=0;i<MontecarloSamples.size();++i)
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{
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resultVec[i]=tri::Index(mr,TRGrid.GetClosest(PDistFunct,mf,MontecarloSamples[i],maxDist,dist,closest));
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if(resultVec[i]) avgDist += double(dist);
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}
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}
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if(!useEdge && !useWrap)
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{
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typedef tri::FaceTmark<MeshType> MarkerFace;
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MarkerFace mf;
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mf.SetMesh(&mr);
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face::PointDistanceBaseFunctor<ScalarType> PDistFunct;
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for(size_t i=0;i<MontecarloSamples.size();++i)
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{
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resultVec[i]=tri::Index(mr,TRGrid.GetClosest(PDistFunct,mf,MontecarloSamples[i],maxDist,dist,closest));
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if(resultVec[i]) avgDist += double(dist);
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}
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}
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int endGridQuery = clock();
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printf("Grid Size %4i %4i %4i ",TRGrid.siz[0],TRGrid.siz[1],TRGrid.siz[2]);
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printf("Grid Size %3i %3i %3i - ",TRGrid.siz[0],TRGrid.siz[1],TRGrid.siz[2]);
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printf("Avg dist %6.9lf - ",avgDist / float(MontecarloSamples.size()));
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printf("Grid Query Sampled in %6.3f sec\n\n", float(endGridQuery-startGridQuery)/CLOCKS_PER_SEC);
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printf("Grid Query %6.3f \n", float(endGridQuery-startGridQuery)/CLOCKS_PER_SEC);
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return true;
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}
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@ -151,11 +189,28 @@ int main(int argc ,char**argv)
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if(argc<3) Usage();
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float dispPerc = atof(argv[3]);
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int sampleNum = atoi(argv[2]);
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UnitTest_Closest<RTMesh,true> (argv[1],sampleNum,dispPerc);
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UnitTest_Closest<RTMesh,true> (argv[1],sampleNum,dispPerc);
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UnitTest_Closest<RTMesh,false> (argv[1],sampleNum,dispPerc);
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UnitTest_Closest<RTMesh,false> (argv[1],sampleNum,dispPerc);
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UnitTest_Closest<BaseMesh,false>(argv[1],sampleNum,dispPerc);
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UnitTest_Closest<BaseMesh,false>(argv[1],sampleNum,dispPerc);
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std::vector<int> resultVecRT11;
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std::vector<int> resultVecRT01;
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std::vector<int> resultVecRT00;
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std::vector<int> resultVecRT10;
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std::vector<int> resultVecBS01;
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std::vector<int> resultVecBS00;
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UnitTest_Closest<RTMesh,true,true,true> (argv[1],sampleNum,dispPerc,resultVecRT11);
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UnitTest_Closest<RTMesh,true,true,false> (argv[1],sampleNum,dispPerc,resultVecRT11);
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UnitTest_Closest<RTMesh,false,true,true> (argv[1],sampleNum,dispPerc,resultVecRT01);
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UnitTest_Closest<RTMesh,true,false,true> (argv[1],sampleNum,dispPerc,resultVecRT00);
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UnitTest_Closest<RTMesh,false,false,true> (argv[1],sampleNum,dispPerc,resultVecRT10);
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UnitTest_Closest<BaseMesh,false,true,true> (argv[1],sampleNum,dispPerc,resultVecBS01);
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UnitTest_Closest<BaseMesh,false,false,true> (argv[1],sampleNum,dispPerc,resultVecBS01);
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UnitTest_Closest<BaseMesh,false,false,false>(argv[1],sampleNum,dispPerc,resultVecBS01);
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for(size_t i=0;i<resultVecRT11.size();++i)
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{
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if(resultVecRT11[i]!=resultVecRT01[i]) printf("%i is diff",i);
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if(resultVecRT11[i]!=resultVecRT00[i]) printf("%i is diff",i);
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if(resultVecRT11[i]!=resultVecRT10[i]) printf("%i is diff",i);
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if(resultVecRT11[i]!=resultVecBS00[i]) printf("%i is diff",i);
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if(resultVecRT11[i]!=resultVecBS01[i]) printf("%i is diff",i);
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}
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return 0;
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}
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@ -7,6 +7,6 @@ TEMPLATE = app
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HEADERS +=
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SOURCES += trimesh_closest.cpp ../../../wrap/ply/plylib.cpp
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#DEFINES += N_DEBUG
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release {DEFINES += NDEBUG}
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# Mac specific Config required to avoid to make application bundles
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CONFIG -= app_bundle
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