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/* Copyright (c) 2008 The University of Notre Dame. All Rights Reserved. |
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/* Copyright (c) 2008, 2009 The University of Notre Dame. All Rights Reserved. |
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* |
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* The University of Notre Dame grants you ("Licensee") a |
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* non-exclusive, royalty free, license to use, modify and |
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* |
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* Created by Charles F. Vardeman II on 11 Dec 2006. |
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* @author Charles F. Vardeman II |
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* @version $Id: ConvexHull.cpp,v 1.11 2008-10-20 19:36:32 chuckv Exp $ |
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* @version $Id: ConvexHull.cpp,v 1.14 2009-10-12 20:11:29 chuckv Exp $ |
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* |
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*/ |
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nproc_ = MPI::COMM_WORLD.Get_size(); |
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myrank_ = MPI::COMM_WORLD.Get_rank(); |
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NstoProc_ = new int[nproc_]; |
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displs_ = new int[nproc_]; |
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vecdispls_ = new int[nproc_]; |
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displs_ = new int[nproc_]; |
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// Create a surface point type in MPI to send |
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surfacePtType = MPI::DOUBLE.Create_contiguous(3); |
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surfacePtType.Commit(); |
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/* Build a displacements array */ |
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for (int i = 1; i < nproc_; i++){ |
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displs_[i] = displs_[i-1] + NstoProc_[i-1]; |
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vecdispls_[i] = vecdispls_[i-1] + NstoProc_[i-1]; |
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} |
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int noffset = displs_[myrank_]; |
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int noffset = vecdispls_[myrank_]; |
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/* gather the potential hull */ |
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surfacePtsLocal_.push_back(mpiSurfacePt); |
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} |
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MPI::COMM_WORLD.Allgatherv(&surfacePtsLocal_[0],Ns_,surfacePtType,&surfacePtsGlobal_[0],NstoProc_,displs_,surfacePtType); |
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MPI::COMM_WORLD.Allgatherv(&surfacePtsLocal_[0],Ns_,surfacePtType,&surfacePtsGlobal_[0],NstoProc_,vecdispls_,surfacePtType); |
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std::vector<surfacePt_>::iterator spt; |
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std::vector<Enriched_Point_3> gblpoints; |
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} |
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std::cout << "Number of surface atoms is: " << Ns_ << std::endl; |
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nproc_ = MPI::COMM_WORLD.Get_size(); |
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myrank_ = MPI::COMM_WORLD.Get_rank(); |
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NstoProc_ = new int[nproc_]; |
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displs_ = new int[nproc_]; |
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vecdispls_ = new int[nproc_]; |
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vecNstoProc_ = new int[nproc_]; |
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displs_ = new int[nproc_]; |
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// Create a surface point type in MPI to send |
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//surfacePtType = MPI::DOUBLE.Create_contiguous(3); |
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boolT ismalloc = False; |
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/* Clean up memory from previous convex hull calculations*/ |
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Triangles_.clear(); |
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surfaceSDs_.clear(); |
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surfaceSDs_.reserve(Ns_); |
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#ifdef IS_MPI |
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std::vector<double> localPts; |
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std::vector<double> localVel; |
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std::vector<double> localMass; |
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int localPtArraySize; |
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/* |
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std::sort(surfaceIDs.begin(),surfaceIDs.end()); |
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surfaceIDs.erase(std::unique(surfaceIDs.begin(), surfaceIDs.end()), surfaceIDs.end()); |
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int localPtArraySize = surfaceIDs.size() * 3; |
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*/ |
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//localPts.resize(localPtArraySize); |
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//std::fill(localPts.begin(),localPts.end(),0.0); |
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int idx = 0; |
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int nIsIts = 0; |
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/* |
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// Copy the surface points into an array. |
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for(std::vector<bool>::iterator list_iter = isSurfaceID.begin(); |
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list_iter != isSurfaceID.end(); list_iter++) |
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{ |
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bool isIt = *list_iter; |
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if (isIt){ |
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localPts.push_back(ptArray[dim_ * idx]); |
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localPts.push_back(ptArray[dim_ * idx + 1]); |
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localPts.push_back(ptArray[dim_ * idx + 2]); |
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localPtsMap.push_back(idx); |
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nIsIts++; |
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} //Isit |
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idx++; |
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} //isSurfaceID |
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*/ |
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FORALLvertices { |
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idx = qh_pointid(vertex->point); |
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localPts.push_back(ptArray[dim_ * idx]); |
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localVel.push_back(vel.y()); |
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localVel.push_back(vel.z()); |
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RealType bdmass = bodydoubles[idx]->getMass(); |
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localMass.push_back(bdmass); |
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localPtsMap.push_back(idx); |
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} |
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localPtArraySize = localPts.size(); |
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localPtArraySize = int(localPts.size()/3.0); |
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MPI::COMM_WORLD.Allgather(&localPtArraySize,1,MPI::INT,&NstoProc_[0],1,MPI::INT); |
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Nsglobal_=0; |
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for (int i = 0; i < nproc_; i++){ |
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Nsglobal_ += NstoProc_[i]; |
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vecNstoProc_[i] = NstoProc_[i]*3; |
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} |
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int nglobalPts = int(Nsglobal_/3); |
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int nglobalPts = Nsglobal_*3; |
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std::vector<double> globalPts(Nsglobal_); |
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std::vector<double> globalVel(Nsglobal_); |
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std::vector<double> globalPts(nglobalPts); |
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std::vector<double> globalVel(nglobalPts); |
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std::vector<double> globalMass(Nsglobal_); |
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isSurfaceID.resize(nglobalPts); |
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std::fill(globalPts.begin(),globalPts.end(),0.0); |
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displs_[0] = 0; |
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vecdispls_[0] = 0; |
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/* Build a displacements array */ |
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for (int i = 1; i < nproc_; i++){ |
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displs_[i] = displs_[i-1] + NstoProc_[i-1]; |
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vecdispls_[i] = vecdispls_[i-1] + vecNstoProc_[i-1]; |
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} |
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displs_[0] = 0; |
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for (int i = 1; i < nproc_; i++){ |
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displs_[i] = displs_[i-1] + NstoProc_[i-1]; |
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} |
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int noffset = displs_[myrank_]; |
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int noffset = vecdispls_[myrank_]; |
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/* gather the potential hull */ |
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MPI::COMM_WORLD.Allgatherv(&localPts[0],localPtArraySize,MPI::DOUBLE,&globalPts[0],&NstoProc_[0],&displs_[0],MPI::DOUBLE); |
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MPI::COMM_WORLD.Allgatherv(&localVel[0],localPtArraySize,MPI::DOUBLE,&globalVel[0],&NstoProc_[0],&displs_[0],MPI::DOUBLE); |
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MPI::COMM_WORLD.Allgatherv(&localPts[0],localPtArraySize*3,MPI::DOUBLE,&globalPts[0],&vecNstoProc_[0],&vecdispls_[0],MPI::DOUBLE); |
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MPI::COMM_WORLD.Allgatherv(&localVel[0],localPtArraySize*3,MPI::DOUBLE,&globalVel[0],&vecNstoProc_[0],&vecdispls_[0],MPI::DOUBLE); |
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MPI::COMM_WORLD.Allgatherv(&localMass[0],localPtArraySize,MPI::DOUBLE,&globalMass[0],&NstoProc_[0],&displs_[0],MPI::DOUBLE); |
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/* |
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int tmpidx = 0; |
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if (myrank_ == 0){ |
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for (i = 0; i < globalPts.size(); i++){ |
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std::cout << globalPts[i] << std::endl; |
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for (i = 0; i < nglobalPts-3; i++){ |
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std::cout << "Au " << globalPts[tmpidx] << " " << globalPts[tmpidx+1] << " " << globalPts[tmpidx +2] << std::endl; |
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tmpidx = tmpidx + 3; |
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} |
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} |
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*/ |
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// Free previous hull |
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qh_freeqhull(!qh_ALL); |
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qh_memfreeshort(&curlong, &totlong); |
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std::cerr << "qhull internal warning (main): did not free %d bytes of long memory (%d pieces) " |
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<< totlong << curlong << std::endl; |
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if (qh_new_qhull(dim_, nglobalPts, &globalPts[0], ismalloc, |
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if (qh_new_qhull(dim_, Nsglobal_, &globalPts[0], ismalloc, |
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const_cast<char *>(options_.c_str()), NULL, stderr)){ |
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sprintf(painCave.errMsg, "ConvexHull: Qhull failed to compute global convex hull"); |
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simError(); |
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} //simplicical |
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Triangle* face = new Triangle(); |
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Triangle face; |
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Vector3d V3dNormal(facet->normal[0],facet->normal[1],facet->normal[2]); |
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face->setNormal(V3dNormal); |
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face.setNormal(V3dNormal); |
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RealType faceArea = 0.5*V3dNormal.length(); |
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face->setArea(faceArea); |
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//RealType faceArea = 0.5*V3dNormal.length(); |
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RealType faceArea = qh_facetarea(facet); |
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face.setArea(faceArea); |
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vertices = qh_facet3vertex(facet); |
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coordT *center = qh_getcenter(vertices); |
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Vector3d V3dCentroid(center[0], center[1], center[2]); |
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face->setCentroid(V3dCentroid); |
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face.setCentroid(V3dCentroid); |
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Vector3d faceVel = V3Zero; |
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Vector3d p[3]; |
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RealType faceMass = 0.0; |
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int ver = 0; |
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FOREACHvertex_(vertices){ |
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id = qh_pointid(vertex->point); |
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p[ver][0] = vertex->point[0]; |
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p[ver][1] = vertex->point[1]; |
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p[ver][2] = vertex->point[2]; |
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int localindex = id; |
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#ifdef IS_MPI |
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Vector3d velVector(globalVel[dim_ * id],globalVel[dim_ * id + 1], globalVel[dim_ * id + 1]); |
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faceVel = faceVel + velVector; |
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faceMass = faceMass + globalMass[id]; |
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if (id >= noffset/3 && id < (noffset + localPtArraySize)/3 ){ |
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localindex = localPtsMap[id-noffset/3]; |
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#else |
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faceVel = faceVel + bodydoubles[localindex]->getVel(); |
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faceMass = faceMass + bodydoubles[localindex]->getMass(); |
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#endif |
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face->addVertex(bodydoubles[localindex]); |
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face.addVertexSD(bodydoubles[localindex]); |
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if( !isSurfaceID[id] ){ |
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isSurfaceID[id] = true; |
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#ifdef IS_MPI |
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#ifdef IS_MPI |
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}else{ |
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face->addVertex(NULL); |
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face.addVertexSD(NULL); |
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} |
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#endif |
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ver++; |
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} //Foreachvertex |
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/* |
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if (!SETempty_(facet->coplanarset)){ |
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} |
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} |
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*/ |
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face->setFacetVelocity(faceVel/3.0); |
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face.addVertices(p[0],p[1],p[2]); |
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face.setFacetMass(faceMass); |
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face.setFacetVelocity(faceVel/3.0); |
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Triangles_.push_back(face); |
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qh_settempfree(&vertices); |
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} //FORALLfacets |
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/* |
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/* |
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std::cout << surfaceSDs_.size() << std::endl; |
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for (SD = surfaceSDs_.begin(); SD != surfaceSDs_.end(); ++SD){ |
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Vector3d thisatom = (*SD)->getPos(); |
