#ifdef PARALLEL #include #include "paralleltop.hpp" namespace netgen { ParallelMeshTopology :: ParallelMeshTopology (const Mesh & amesh) : mesh(amesh) { is_updated = false; } ParallelMeshTopology :: ~ParallelMeshTopology () { ; } void ParallelMeshTopology :: Reset () { *testout << "ParallelMeshTopology::Reset" << endl; if ( ntasks == 1 ) return; int ned = mesh.GetTopology().GetNEdges(); int nfa = mesh.GetTopology().GetNFaces(); if (glob_edge.Size() != ned) { glob_edge.SetSize(ned); glob_face.SetSize(nfa); glob_edge = -1; glob_face = -1; loc2distedge.ChangeSize (ned); loc2distface.ChangeSize (nfa); } if (glob_vert.Size() != mesh.GetNV()) { SetNV(mesh.GetNV()); SetNE(mesh.GetNE()); } } void ParallelMeshTopology :: Print() const { ; } void ParallelMeshTopology :: SetDistantFaceNum (int dest, int locnum) { for ( int i = 0; i < loc2distface[locnum-1].Size(); i+=1 ) if ( loc2distface[locnum-1][i] == dest ) return; loc2distface.Add(locnum-1, dest); } void ParallelMeshTopology :: SetDistantPNum (int dest, int locnum) { for ( int i = 0; i < loc2distvert[locnum-1].Size(); i+=1 ) if ( loc2distvert[locnum-1][i] == dest ) return; loc2distvert.Add (locnum-1, dest); } void ParallelMeshTopology :: SetDistantEdgeNum (int dest, int locnum) { for ( int i = 0; i < loc2distedge[locnum-1].Size(); i+=1 ) if ( loc2distedge[locnum-1][i] == dest ) return; loc2distedge.Add (locnum-1, dest); } void ParallelMeshTopology :: SetNV (int anv) { glob_vert.SetSize(anv); glob_vert = -1; loc2distvert.ChangeSize (anv); } void ParallelMeshTopology :: SetNE ( int ane ) { glob_el.SetSize (ane); glob_el = -1; } void ParallelMeshTopology :: SetNSE ( int anse ) { glob_surfel.SetSize(anse); glob_surfel = -1; } void ParallelMeshTopology :: SetNSegm ( int anseg ) { glob_segm.SetSize (anseg); glob_segm = -1; } void ParallelMeshTopology :: UpdateCoarseGridGlobal () { cout << "updatecoarsegridglobal called" << endl; if (id == 0) PrintMessage ( 3, "UPDATE GLOBAL COARSEGRID STARTS" ); int timer = NgProfiler::CreateTimer ("UpdateCoarseGridGlobal"); NgProfiler::RegionTimer reg(timer); *testout << "ParallelMeshTopology :: UpdateCoarseGridGlobal" << endl; const MeshTopology & topology = mesh.GetTopology(); if ( id == 0 ) { Array*> sendarrays(ntasks); for (int dest = 1; dest < ntasks; dest++) sendarrays[dest] = new Array; Array edges, faces; for (int el = 1; el <= mesh.GetNE(); el++) { topology.GetElementFaces (el, faces); topology.GetElementEdges (el, edges); const Element & volel = mesh.VolumeElement (el); Array & sendarray = *sendarrays[volel.GetPartition()]; for ( int i = 0; i < edges.Size(); i++ ) sendarray.Append (edges[i]); for ( int i = 0; i < faces.Size(); i++ ) sendarray.Append (faces[i]); } for (int el = 1; el <= mesh.GetNSE(); el++) { topology.GetSurfaceElementEdges (el, edges); const Element2d & surfel = mesh.SurfaceElement (el); Array & sendarray = *sendarrays[surfel.GetPartition()]; for ( int i = 0; i < edges.Size(); i++ ) sendarray.Append (edges[i]); sendarray.Append (topology.GetSurfaceElementFace (el)); } Array sendrequests; for (int dest = 1; dest < ntasks; dest++) sendrequests.Append (MyMPI_ISend (*sendarrays[dest], dest, MPI_TAG_MESH+10)); MPI_Waitall (sendrequests.Size(), &sendrequests[0], MPI_STATUS_IGNORE); for (int dest = 1; dest < ntasks; dest++) delete sendarrays[dest]; } else { Array recvarray; MyMPI_Recv (recvarray, 0, MPI_TAG_MESH+10); int ii = 0; Array faces, edges; for (int volel = 1; volel <= mesh.GetNE(); volel++) { topology.GetElementEdges ( volel, edges); for ( int i = 0; i < edges.Size(); i++) SetLoc2Glob_Edge ( edges[i], recvarray[ii++]); topology.GetElementFaces( volel, faces); for ( int i = 0; i < faces.Size(); i++) SetLoc2Glob_Face ( faces[i], recvarray[ii++]); } for (int surfel = 1; surfel <= mesh.GetNSE(); surfel++) { topology.GetSurfaceElementEdges (surfel, edges); for (int i = 0; i < edges.Size(); i++) SetLoc2Glob_Edge (edges[i], recvarray[ii++]); int face = topology.GetSurfaceElementFace (surfel); SetLoc2Glob_Face ( face, recvarray[ii++]); } } is_updated = true; } void ParallelMeshTopology :: UpdateCoarseGrid () { cout << "UpdateCoarseGrid" << endl; // if (is_updated) return; Reset(); static int timer = NgProfiler::CreateTimer ("UpdateCoarseGrid"); NgProfiler::RegionTimer reg(timer); (*testout) << "UPDATE COARSE GRID PARALLEL TOPOLOGY " << endl; if (id == 0) PrintMessage (1, "update parallel topology"); // UpdateCoarseGridGlobal(); // MPI_Barrier (MPI_COMM_WORLD); MPI_Group MPI_GROUP_WORLD; MPI_Group MPI_LocalGroup; MPI_Comm MPI_LocalComm; int process_ranks[] = { 0 }; MPI_Comm_group (MPI_COMM_WORLD, &MPI_GROUP_WORLD); MPI_Group_excl (MPI_GROUP_WORLD, 1, process_ranks, &MPI_LocalGroup); MPI_Comm_create (MPI_COMM_WORLD, MPI_LocalGroup, &MPI_LocalComm); if (id == 0) return; const MeshTopology & topology = mesh.GetTopology(); Array cnt_send(ntasks-1); // update new vertices after mesh-refinement if (mesh.mlbetweennodes.Size() > 0) { cout << "UpdateCoarseGrid - vertices" << endl; int newnv = mesh.mlbetweennodes.Size(); loc2distvert.ChangeSize(mesh.mlbetweennodes.Size()); /* for (PointIndex pi = PointIndex::BASE; pi < newnv+PointIndex::BASE; pi++) { PointIndex v1 = mesh.mlbetweennodes[pi][0]; PointIndex v2 = mesh.mlbetweennodes[pi][1]; if (mesh.mlbetweennodes[pi][0] != PointIndex::BASE-1) for (int dest = 1; dest < ntasks; dest++) if (IsExchangeVert (dest, v1) && IsExchangeVert (dest, v2)) SetDistantPNum(dest, pi); } */ bool changed = true; while (changed) { changed = false; // build exchange vertices cnt_send = 0; for (PointIndex pi : mesh.Points().Range()) for (int dist : GetDistantPNums(pi-PointIndex::BASE)) cnt_send[dist-1]++; TABLE dest2vert(cnt_send); for (PointIndex pi : mesh.Points().Range()) for (int dist : GetDistantPNums(pi-PointIndex::BASE)) dest2vert.Add (dist-1, pi); for (PointIndex pi = PointIndex::BASE; pi < newnv+PointIndex::BASE; pi++) { PointIndex v1 = mesh.mlbetweennodes[pi][0]; PointIndex v2 = mesh.mlbetweennodes[pi][1]; if (mesh.mlbetweennodes[pi][0] != PointIndex::BASE-1) // for (int dest = 1; dest < ntasks; dest++) for (int dest : GetDistantPNums(v1-PointIndex::BASE)) if (IsExchangeVert (dest, v1) && IsExchangeVert (dest, v2)) cnt_send[dest-1]++; } TABLE dest2pair(cnt_send); // for (int dest = 1; dest < ntasks; dest++) for (PointIndex pi = PointIndex::BASE; pi < newnv+PointIndex::BASE; pi++) { PointIndex v1 = mesh.mlbetweennodes[pi][0]; PointIndex v2 = mesh.mlbetweennodes[pi][1]; if (mesh.mlbetweennodes[pi][0] != PointIndex::BASE-1) for (int dest : GetDistantPNums(v1-PointIndex::BASE)) if (IsExchangeVert (dest, v1) && IsExchangeVert (dest, v2)) dest2pair.Add (dest-1, pi); } cnt_send = 0; int v1, v2; for (PointIndex pi = PointIndex::BASE; pi < newnv+PointIndex::BASE; pi++) { PointIndex v1 = mesh.mlbetweennodes[pi][0]; PointIndex v2 = mesh.mlbetweennodes[pi][1]; if (mesh.mlbetweennodes[pi][0] != PointIndex::BASE-1) for (int dest : GetDistantPNums(v1-PointIndex::BASE)) if (IsExchangeVert(dest, v2)) cnt_send[dest-1]+=2; } TABLE send_verts(cnt_send); Array loc2exchange(mesh.GetNV()); for (int dest = 1; dest < ntasks; dest++) if (dest != id) { loc2exchange = -1; int cnt = 0; /* for (PointIndex pi : mesh.Points().Range()) if (IsExchangeVert(dest, pi)) loc2exchange[pi] = cnt++; */ for (PointIndex pi : dest2vert[dest-1]) loc2exchange[pi] = cnt++; // for (PointIndex pi = PointIndex::BASE; pi < newnv+PointIndex::BASE; pi++) for (PointIndex pi : dest2pair[dest-1]) { PointIndex v1 = mesh.mlbetweennodes[pi][0]; PointIndex v2 = mesh.mlbetweennodes[pi][1]; if (mesh.mlbetweennodes[pi][0] != PointIndex::BASE-1) if (IsExchangeVert (dest, v1) && IsExchangeVert (dest, v2)) { send_verts.Add (dest-1, loc2exchange[v1]); send_verts.Add (dest-1, loc2exchange[v2]); } } } TABLE recv_verts(ntasks-1); MyMPI_ExchangeTable (send_verts, recv_verts, MPI_TAG_MESH+9, MPI_LocalComm); for (int dest = 1; dest < ntasks; dest++) if (dest != id) { loc2exchange = -1; int cnt = 0; /* for (PointIndex pi : mesh.Points().Range()) if (IsExchangeVert(dest, pi)) loc2exchange[pi] = cnt++; */ for (PointIndex pi : dest2vert[dest-1]) loc2exchange[pi] = cnt++; FlatArray recvarray = recv_verts[dest-1]; for (int ii = 0; ii < recvarray.Size(); ii+=2) for (PointIndex pi : dest2pair[dest-1]) // for (PointIndex pi = PointIndex::BASE; pi < newnv+PointIndex::BASE; pi++) { PointIndex v1 = mesh.mlbetweennodes[pi][0]; PointIndex v2 = mesh.mlbetweennodes[pi][1]; if (mesh.mlbetweennodes[pi][0] != PointIndex::BASE-1) { INDEX_2 re(recvarray[ii], recvarray[ii+1]); INDEX_2 es(loc2exchange[v1], loc2exchange[v2]); if (es == re && !IsExchangeVert(dest, pi)) { SetDistantPNum(dest, pi); changed = true; } } } } } } Array sendarray, recvarray; cout << "UpdateCoarseGrid - edges" << endl; // static int timerv = NgProfiler::CreateTimer ("UpdateCoarseGrid - ex vertices"); static int timere = NgProfiler::CreateTimer ("UpdateCoarseGrid - ex edges"); static int timerf = NgProfiler::CreateTimer ("UpdateCoarseGrid - ex faces"); NgProfiler::StartTimer (timere); int nfa = topology . GetNFaces(); int ned = topology . GetNEdges(); // build exchange vertices cnt_send = 0; for (PointIndex pi : mesh.Points().Range()) for (int dist : GetDistantPNums(pi-PointIndex::BASE)) cnt_send[dist-1]++; TABLE dest2vert(cnt_send); for (PointIndex pi : mesh.Points().Range()) for (int dist : GetDistantPNums(pi-PointIndex::BASE)) dest2vert.Add (dist-1, pi); // exchange edges cnt_send = 0; int v1, v2; for (int edge = 1; edge <= ned; edge++) { topology.GetEdgeVertices (edge, v1, v2); for (int dest = 1; dest < ntasks; dest++) if (IsExchangeVert (dest, v1) && IsExchangeVert (dest, v2)) cnt_send[dest-1]+=1; } TABLE dest2edge(cnt_send); for (int & v : cnt_send) v *= 2; TABLE send_edges(cnt_send); for (int edge = 1; edge <= ned; edge++) { topology.GetEdgeVertices (edge, v1, v2); for (int dest = 1; dest < ntasks; dest++) if (IsExchangeVert (dest, v1) && IsExchangeVert (dest, v2)) dest2edge.Add (dest-1, edge); } Array loc2exchange(mesh.GetNV()); for (int dest = 1; dest < ntasks; dest++) { loc2exchange = -1; int cnt = 0; for (PointIndex pi : dest2vert[dest-1]) loc2exchange[pi] = cnt++; for (int edge : dest2edge[dest-1]) { topology.GetEdgeVertices (edge, v1, v2); if (IsExchangeVert (dest, v1) && IsExchangeVert (dest, v2)) { send_edges.Add (dest-1, loc2exchange[v1]); send_edges.Add (dest-1, loc2exchange[v2]); } } } cout << "UpdateCoarseGrid - edges mpi-exchange" << endl; TABLE recv_edges(ntasks-1); MyMPI_ExchangeTable (send_edges, recv_edges, MPI_TAG_MESH+9, MPI_LocalComm); cout << "UpdateCoarseGrid - edges mpi-exchange done" << endl; /* for (int dest = 1; dest < ntasks; dest++) { auto ex2loc = dest2vert[dest-1]; FlatArray recvarray = recv_edges[dest-1]; for (int ii = 0; ii < recvarray.Size(); ii+=2) for (int edge : dest2edge[dest-1]) { topology.GetEdgeVertices (edge, v1, v2); INDEX_2 re(ex2loc[recvarray[ii]], ex2loc[recvarray[ii+1]]); INDEX_2 es(v1, v2); if (es == re) SetDistantEdgeNum(dest, edge); } } */ for (int dest = 1; dest < ntasks; dest++) { auto ex2loc = dest2vert[dest-1]; if (ex2loc.Size() == 0) continue; INDEX_2_CLOSED_HASHTABLE vert2edge(2*dest2edge[dest-1].Size()+10); for (int edge : dest2edge[dest-1]) { topology.GetEdgeVertices (edge, v1, v2); vert2edge.Set(INDEX_2(v1,v2), edge); } FlatArray recvarray = recv_edges[dest-1]; for (int ii = 0; ii < recvarray.Size(); ii+=2) { INDEX_2 re(ex2loc[recvarray[ii]], ex2loc[recvarray[ii+1]]); if (vert2edge.Used(re)) SetDistantEdgeNum(dest, vert2edge.Get(re)); } } NgProfiler::StopTimer (timere); // MPI_Barrier (MPI_LocalComm); cout << "UpdateCoarseGrid - faces" << endl; if (mesh.GetDimension() == 3) { NgProfiler::StartTimer (timerf); Array verts; // exchange faces cnt_send = 0; for (int face = 1; face <= nfa; face++) { topology.GetFaceVertices (face, verts); for (int dest = 1; dest < ntasks; dest++) if (dest != id) if (IsExchangeVert (dest, verts[0]) && IsExchangeVert (dest, verts[1]) && IsExchangeVert (dest, verts[2])) cnt_send[dest-1]++; } TABLE dest2face(cnt_send); for (int face = 1; face <= nfa; face++) { topology.GetFaceVertices (face, verts); for (int dest = 1; dest < ntasks; dest++) if (dest != id) if (IsExchangeVert (dest, verts[0]) && IsExchangeVert (dest, verts[1]) && IsExchangeVert (dest, verts[2])) dest2face.Add(dest-1, face); } for (int & c : cnt_send) c*=3; TABLE send_faces(cnt_send); Array loc2exchange(mesh.GetNV()); for (int dest = 1; dest < ntasks; dest++) if (dest != id) { /* loc2exchange = -1; int cnt = 0; for (PointIndex pi : mesh.Points().Range()) if (IsExchangeVert(dest, pi)) loc2exchange[pi] = cnt++; */ if (dest2vert[dest-1].Size() == 0) continue; loc2exchange = -1; int cnt = 0; for (PointIndex pi : dest2vert[dest-1]) loc2exchange[pi] = cnt++; for (int face : dest2face[dest-1]) { topology.GetFaceVertices (face, verts); if (IsExchangeVert (dest, verts[0]) && IsExchangeVert (dest, verts[1]) && IsExchangeVert (dest, verts[2])) { send_faces.Add (dest-1, loc2exchange[verts[0]]); send_faces.Add (dest-1, loc2exchange[verts[1]]); send_faces.Add (dest-1, loc2exchange[verts[2]]); } } } cout << "UpdateCoarseGrid - faces mpi-exchange" << endl; TABLE recv_faces(ntasks-1); MyMPI_ExchangeTable (send_faces, recv_faces, MPI_TAG_MESH+9, MPI_LocalComm); cout << "UpdateCoarseGrid - faces mpi-exchange done" << endl; /* for (int dest = 1; dest < ntasks; dest++) if (dest != id) { loc2exchange = -1; int cnt = 0; for (PointIndex pi : dest2vert[dest-1]) loc2exchange[pi] = cnt++; FlatArray recvarray = recv_faces[dest-1]; for (int ii = 0; ii < recvarray.Size(); ii+=3) for (int face : dest2face[dest-1]) { topology.GetFaceVertices (face, verts); INDEX_3 re(recvarray[ii], recvarray[ii+1], recvarray[ii+2]); INDEX_3 es(loc2exchange[verts[0]], loc2exchange[verts[1]], loc2exchange[verts[2]]); if (es == re) SetDistantFaceNum(dest, face); } } */ for (int dest = 1; dest < ntasks; dest++) { auto ex2loc = dest2vert[dest-1]; if (ex2loc.Size() == 0) continue; INDEX_3_CLOSED_HASHTABLE vert2face(2*dest2face[dest-1].Size()+10); for (int face : dest2face[dest-1]) { topology.GetFaceVertices (face, verts); vert2face.Set(INDEX_3(verts[0], verts[1], verts[2]), face); } FlatArray recvarray = recv_faces[dest-1]; for (int ii = 0; ii < recvarray.Size(); ii+=3) { INDEX_3 re(ex2loc[recvarray[ii]], ex2loc[recvarray[ii+1]], ex2loc[recvarray[ii+2]]); if (vert2face.Used(re)) SetDistantFaceNum(dest, vert2face.Get(re)); } } /* Array glob2loc; int maxface = 0; for (int face = 1; face <= nfa; face++) maxface = max (maxface, GetGlobalFaceNum (face)); // glob2loc.SetSize (nfaglob); glob2loc.SetSize (maxface); glob2loc = -1; for (int loc = 1; loc <= nfa; loc++) glob2loc[GetGlobalFaceNum(loc)] = loc; cnt_send = 0; Array verts; for (int face = 1; face <= nfa; face++) { topology.GetFaceVertices (face, verts); for (int dest = 1; dest < ntasks; dest++) if (IsExchangeVert (dest, verts[0]) && IsExchangeVert (dest, verts[1]) && IsExchangeVert (dest, verts[2])) { cnt_send[dest-1]+=2; } } TABLE send_faces(cnt_send); for (int face = 1; face <= nfa; face++) { topology.GetFaceVertices (face, verts); for (int dest = 1; dest < ntasks; dest++) { if (IsExchangeVert (dest, verts[0]) && IsExchangeVert (dest, verts[1]) && IsExchangeVert (dest, verts[2])) { send_faces.Add (dest-1, GetGlobalFaceNum(face)); send_faces.Add (dest-1, face); } } } TABLE recv_faces(ntasks-1); MyMPI_ExchangeTable (send_faces, recv_faces, MPI_TAG_MESH+8, MPI_LocalComm); for (int sender = 1; sender < ntasks; sender ++) if (id != sender) { FlatArray recvarray = recv_faces[sender-1]; for (int ii = 0; ii < recvarray.Size(); ) { int globf = recvarray[ii++]; int distf = recvarray[ii++]; if (globf <= maxface) { int locf = glob2loc[globf]; if (locf != -1) SetDistantFaceNum (sender, locf); } } } */ NgProfiler::StopTimer (timerf); } cout << "UpdateCoarseGrid - done" << endl; is_updated = true; } } #endif