#include #include #include #include #include #include namespace netgen { #include "writeuser.hpp" void WriteTETFormat (const Mesh & mesh, const string & filename)//, const string& problemType ) { string problemType = ""; if(!mesh.PureTetMesh()) throw NgException("Can only export pure tet mesh in this format"); cout << "starting .tet export to file " << filename << endl; Array point_ids,edge_ids,face_ids; Array elnum(mesh.GetNE()); elnum = -1; Array userdata_int; Array userdata_double; Array ports; Array uid_to_group_3D, uid_to_group_2D, uid_to_group_1D, uid_to_group_0D; int pos_int = 0; int pos_double = 0; bool haveuserdata = (mesh.GetUserData("TETmesh:double",userdata_double) && mesh.GetUserData("TETmesh:int",userdata_int) && mesh.GetUserData("TETmesh:ports",ports) && mesh.GetUserData("TETmesh:point_id",point_ids,PointIndex::BASE) && mesh.GetUserData("TETmesh:uid_to_group_3D",uid_to_group_3D) && mesh.GetUserData("TETmesh:uid_to_group_2D",uid_to_group_2D) && mesh.GetUserData("TETmesh:uid_to_group_1D",uid_to_group_1D) && mesh.GetUserData("TETmesh:uid_to_group_0D",uid_to_group_0D)); int version,subversion; if(haveuserdata) { version = int(userdata_double[0]); subversion = int(10*(userdata_double[0] - version)); pos_double++; } else { version = 2; subversion = 0; } if(version >= 2) { // test if ids are disjunct, if not version 2.0 not possible int maxbc(-1),mindomain(-1); for(ElementIndex i=0; i maxbc) maxbc = mesh.GetFaceDescriptor(i).BCProperty(); if(maxbc >= mindomain) { cout << "WARNING: writing version " << version << "." << subversion << " tetfile not possible, "; version = 1; subversion = 1; cout << "using version " << version << "." << subversion << endl; } } int startsize = point_ids.Size(); point_ids.SetSize(mesh.GetNP()+1); for(int i=startsize; i edgenumbers(6*mesh.GetNE()+3*mesh.GetNSE());; INDEX_3_CLOSED_HASHTABLE facenumbers(4*mesh.GetNE()+mesh.GetNSE()); Array edge2node; Array face2edge; Array element2face; int numelems(0),numfaces(0),numedges(0),numnodes(0); for(SegmentIndex si = 0; si < mesh.GetNSeg(); si++) { const Segment & seg = mesh[si]; INDEX_2 i2(seg.p1,seg.p2); i2.Sort(); if(edgenumbers.Used(i2)) continue; numedges++; edgenumbers.Set(i2,numedges); edge2node.Append(i2); edge_ids.Append(seg.edgenr); if(point_ids[seg.p1] == -1) point_ids[seg.p1] = (version >= 2) ? seg.edgenr : 0; if(point_ids[seg.p2] == -1) point_ids[seg.p2] = (version >= 2) ? seg.edgenr : 0; } for(SurfaceElementIndex si = 0; si < mesh.GetNSE(); si++) { if(mesh[si].IsDeleted()) continue; const Element2d & elem = mesh[si]; numfaces++; INDEX_3 i3(elem[0], elem[1], elem[2]); int min = i3[0]; int minpos = 0; for(int j=1; j<3; j++) if(i3[j] < min) { min = i3[j]; minpos = j; } if(minpos == 1) { int aux = i3[0]; i3[0] = i3[1]; i3[1] = i3[2]; i3[2] = aux; } else if(minpos == 2) { int aux = i3[0]; i3[0] = i3[2]; i3[2] = i3[1]; i3[1] = aux; } facenumbers.Set(i3,numfaces); int bc = mesh.GetFaceDescriptor(elem.GetIndex()).BCProperty(); face_ids.Append(bc); for(int j=0; j<3; j++) if(point_ids[elem[j]] == -1) point_ids[elem[j]] = (version >= 2) ? bc : 0; INDEX_2 i2a,i2b; INDEX_3 f_to_n; for(int j=0; j<3; j++) { i2a = INDEX_2(i3[j],i3[(j+1)%3]); i2b[0] = i2a[1]; i2b[1] = i2a[0]; if(edgenumbers.Used(i2a)) f_to_n[j] = edgenumbers.Get(i2a); else if(edgenumbers.Used(i2b)) f_to_n[j] = -edgenumbers.Get(i2b); else { numedges++; edgenumbers.Set(i2a,numedges); edge2node.Append(i2a); f_to_n[j] = numedges; if(version >= 2) edge_ids.Append(bc); else edge_ids.Append(0); } } face2edge.Append(f_to_n); } for(ElementIndex ei = 0; ei < mesh.GetNE(); ei++) { const Element & el = mesh[ei]; if(el.IsDeleted()) continue; numelems++; elnum[ei] = numelems; static int tetfaces[4][3] = { { 0, 2, 1 }, { 0, 1, 3 }, { 1, 2, 3 }, { 2, 0, 3 } }; for(int j=0; j<4; j++) if(point_ids[el[j]] == -1) point_ids[el[j]] = (version >= 2) ? el.GetIndex() : 0; INDEX_4 e_to_f; for(int i = 0; i < 4; i++) { INDEX_3 i3a(el[tetfaces[i][0]],el[tetfaces[i][1]],el[tetfaces[i][2]]); int min = i3a[0]; int minpos = 0; for(int j=1; j<3; j++) if(i3a[j] < min) { min = i3a[j]; minpos = j; } if(minpos == 1) { int aux = i3a[0]; i3a[0] = i3a[1]; i3a[1] = i3a[2]; i3a[2] = aux; } else if(minpos == 2) { int aux = i3a[0]; i3a[0] = i3a[2]; i3a[2] = i3a[1]; i3a[1] = aux; } INDEX_3 i3b(i3a[0],i3a[2],i3a[1]); if(facenumbers.Used(i3a)) e_to_f[i] = facenumbers.Get(i3a); else if(facenumbers.Used(i3b)) e_to_f[i] = -facenumbers.Get(i3b); else { numfaces++; facenumbers.Set(i3a,numfaces); e_to_f[i] = numfaces; if(version >= 2) face_ids.Append(el.GetIndex()); else face_ids.Append(0); INDEX_2 i2a,i2b; INDEX_3 f_to_n; for(int j=0; j<3; j++) { i2a = INDEX_2(i3a[j],i3a[(j+1)%3]); i2b[0] = i2a[1]; i2b[1] = i2a[0]; if(edgenumbers.Used(i2a)) f_to_n[j] = edgenumbers.Get(i2a); else if(edgenumbers.Used(i2b)) f_to_n[j] = -edgenumbers.Get(i2b); else { numedges++; edgenumbers.Set(i2a,numedges); edge2node.Append(i2a); f_to_n[j] = numedges; if(version >= 2) edge_ids.Append(el.GetIndex()); else edge_ids.Append(0); } } face2edge.Append(f_to_n); } } element2face.Append(e_to_f); } ofstream outfile(filename.c_str()); outfile.precision(16); int unitcode; double tolerance; double dS1,dS2, alphaDeg; double x3D,y3D,z3D; int modelverts(0), modeledges(0), modelfaces(0), modelcells(0); int numObj0D,numObj1D,numObj2D,numObj3D; int numports = ports.Size(); Array nodenum(point_ids.Size()+1); nodenum = -1; numnodes = 0; for(int i=0; i* > idmaps; for(int i=1; i<=mesh.GetIdentifications().GetMaxNr(); i++) { if(mesh.GetIdentifications().GetType(i) == Identifications::PERIODIC) { idmaps.Append(new Array); mesh.GetIdentifications().GetMap(i,*idmaps.Last(),true); } } Array id_num,id_type; Array< Array *> id_groups; // sst 2008-03-12: Write problem class... { std::string block; block = "// CST Tetrahedral "; block += !problemType.empty() ? problemType : "High Frequency"; block += " Mesh, Version no.:\n"; size_t size = block.size()-3; block += "// "; block.append( size, '^' ); block += "\n"; outfile << block << version << "." << subversion << "\n\n"; } outfile << "// User Units Code (1=CM 2=MM 3=M 4=MIC 5=NM 6=FT 7=IN 8=MIL):\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n" \ << unitcode << "\n\n" \ << "// Geometric coord \"zero\" tolerance threshold:\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n" \ << tolerance << "\n\n" \ << "// Periodic UnitCell dS1 , dS2 , alphaDeg:\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n" \ << dS1 << " " << dS2 << " " << alphaDeg <<"\n\n" \ << "// Periodic UnitCell origin in global coords (x3D,y3D,z3D):\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n" \ << x3D << " " << y3D << " " << z3D << "\n" << endl; if(version == 2) { outfile << "// Model entity count: Vertices, Edges, Faces, Cells:\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n" \ << modelverts << " " << modeledges << " " << modelfaces << " " << modelcells << endl << endl; } outfile << "// Topological mesh-entity counts (#elements,#faces,#edges,#nodes):\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n"; outfile << numelems << " " << numfaces << " " << numedges << " " << numnodes << endl << endl; outfile << "// NodeID, X, Y, Z, Type (0=Reg 1=PMaster 2=PSlave 3=CPMaster 4=CPSlave), "<< uidpid <<":\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n"; id_num.SetSize(mesh.GetNP()+1); id_type.SetSize(mesh.GetNP()+1); id_num = 0; id_type = 0; int n2,n4,n8; n2 = n4 = n8 = 0; for(int i=PointIndex::BASE; i group; group.Append(i); for(int j=0; j 1) { id_groups.Append(new Array(group)); if(group.Size() == 2) { id_type[i] = 1; id_type[group[1]] = 2; n2++; } else if(group.Size() == 4) { id_type[i] = 3; for(int j=1; jSize() != 2) continue; for(int j=0; jSize(); j++) outfile << nodenum[(*id_groups[i])[j]] << " "; for(int j=1; jSize(); j++) outfile << id_num[(*id_groups[i])[j]] << " "; outfile << "\n"; delete id_groups[i]; id_groups[i] = NULL; } outfile << endl; outfile << "// Number of Corner Periodic Master Nodes:\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n" \ << n4 << "\n" \ << "\n" \ << "// MasterNodeID, 3-SlaveNodeID's, 3-TranslCodes (1=dS1 2=dS2 3=dS1+dS2):\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n"; for(int i=0; iSize() != 4) continue; for(int j=0; jSize(); j++) outfile << nodenum[(*id_groups[i])[j]] << " "; for(int j=1; jSize(); j++) { outfile << id_num[(*id_groups[i])[j]] << " "; } outfile << "\n"; delete id_groups[i]; id_groups[i] = NULL; } outfile << endl; outfile << "// Number of Cubic Periodic Master Nodes:\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n" \ << n8 << "\n" \ << "\n" \ << "// MasterNodeID, 7-SlaveNodeID's, TranslCodes:\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n"; for(int i=0; iSize() != 8) continue; for(int j=0; jSize(); j++) outfile << nodenum[(*id_groups[i])[j]] << " "; for(int j=1; jSize(); j++) outfile << id_num[(*id_groups[i])[j]] << " "; outfile << "\n"; delete id_groups[i]; id_groups[i] = NULL; } outfile << endl; outfile << "// EdgeID, NodeID0, NodeID1, Type (0=Reg 1=PMaster 2=PSlave 3=CPMaster 4=CPSlave), "<* > vertex_to_edge(mesh.GetNP()+1); for(int i=0; i<=mesh.GetNP(); i++) vertex_to_edge[i] = new Array; Array< Array* > idmaps_edge(idmaps.Size()); for(int i=0; i(numedges); (*idmaps_edge[i]) = 0; } Array possible; for(int i=0; i 0) { cerr << "ERROR: too many possible edge identifications" << endl; (*testout) << "ERROR: too many possible edge identifications" << endl << "*vertex_to_edge["<Append(i+1); vertex_to_edge[v[1]]->Append(i+1); } for(int i=0; i group; group.Append(i); for(int j=0; j 1) { id_num[i] = 1; id_groups.Append(new Array(group)); if(group.Size() == 2) { id_type[i] = 1; id_type[group[1]] = 2; n2++; } else if(group.Size() == 4) { id_type[i] = 3; for(int j=1; j group; group.Append(i); for(int j=0; j 1) { id_num[i] = 1; id_groups.Append(new Array(group)); if(group.Size() == 2) { id_type[i] = 1; id_type[group[1]] = 2; n2++; } else if(group.Size() == 4) { id_type[i] = 3; for(int j=1; jSize() != 2) continue; for(int j=0; jSize(); j++) outfile << (*id_groups[i])[j] << " "; for(int j=1; jSize(); j++) outfile << id_num[(*id_groups[i])[j]] << " "; outfile << "\n"; delete id_groups[i]; id_groups[i] = NULL; } outfile << endl; outfile << "// Number of Corner Periodic Master Edges:\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n"\ << n4 << "\n" \ << "\n"\ << "// MasterEdgeID, 3 SlaveEdgeID's, 3 TranslCode (1=dS1 2=dS2 3=dS1+dS2):\n"\ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n"; for(int i=0; iSize() != 4) continue; for(int j=0; jSize(); j++) outfile << (*id_groups[i])[j] << " "; for(int j=1; jSize(); j++) outfile << id_num[(*id_groups[i])[j]] << " "; outfile << "\n"; delete id_groups[i]; id_groups[i] = NULL; } outfile << endl; outfile << "// FaceID, EdgeID0, EdgeID1, EdgeID2, FaceType (0=Reg 1=PMaster 2=PSlave), "<* > edge_to_face(numedges+1); for(int i=0; i; for(int i=0; iSetSize(numfaces); (*idmaps[i]) = 0; } for(int i=0; i 0) cerr << "ERROR: too many possible face identifications" << endl; } } edge_to_face[abs(face2edge[i][0])]->Append(i+1); edge_to_face[abs(face2edge[i][1])]->Append(i+1); edge_to_face[abs(face2edge[i][2])]->Append(i+1); } for(int i=0; i group; group.Append(i); for(int j=0; j 1) { id_num[i] = -1; id_groups.Append(new Array(group)); if(group.Size() == 2) n2++; else cerr << "ERROR: face identification group size = " << group.Size() << endl; } } for(int i=0; iSize() != 2) continue; for(int j=0; jSize(); j++) outfile << (*id_groups[i])[j] << " "; for(int j=1; jSize(); j++) outfile << id_num[(*id_groups[i])[j]] << " "; outfile << "\n"; delete id_groups[i]; } outfile << endl; outfile << "// ElemID, FaceID0, FaceID1, FaceID2, FaceID3, "<= 0) { outfile << elnum[i] << " "; for(int j=0; j<4; j++) outfile << element2face[elnum[i]-1][j] << " "; outfile << mesh[i].GetIndex() << "\n"; } } outfile << endl; outfile << "// ElemID, NodeID0, NodeID1, NodeID2, NodeID3:\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n"; for(ElementIndex i=0; i= 0) outfile << elnum[i] << " " << nodenum[mesh[i][1]] << " " << nodenum[mesh[i][0]] << " " << nodenum[mesh[i][2]] << " " << nodenum[mesh[i][3]] << "\n"; } outfile << endl; outfile << "// Physical Object counts (#Obj3D,#Obj2D,#Obj1D,#Obj0D):\n" << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n" << " "<< numObj3D << " " << numObj2D << " " << numObj1D << " " << numObj0D << "\n" \ << "\n" \ << "// Number of Ports (Ports are a subset of Object2D list):\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n" \ << numports << "\n" \ << endl; Array< Array * > groups; int maxg = -1; for(int i = 0; i maxg) maxg = uid_to_group_3D[i]; for(int i = 0; i maxg) maxg = uid_to_group_2D[i]; for(int i = 0; i maxg) maxg = uid_to_group_1D[i]; for(int i = 0; i maxg) maxg = uid_to_group_0D[i]; groups.SetSize(maxg+1); for(int i=0; i; for(ElementIndex i=0; i= 0) groups[uid_to_group_3D[mesh[i].GetIndex()]]->Append(i+1); outfile << "// Object3D GroupID, #Elems ElemID List:\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n"; for(int i=0; iSize() << "\n"; for(int j=0; jSize(); j++) outfile << (*groups[i])[j] << "\n"; } for(int i=0; iSetSize(0); for(int i=0; i= 0) groups[uid_to_group_2D[face_ids[i]]]->Append(i+1); outfile << "// Object2D GroupID, #Faces FaceID List:\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n"; for(int i=0; iSize() << "\n"; for(int j=0; jSize(); j++) { outfile << (*groups[i])[j]; if(ports.Contains(face_ids[(*groups[i])[j]-1])) outfile << " P"; outfile << "\n"; } } outfile << endl; for(int i=0; iSetSize(0); for(int i=0; i= 0) groups[uid_to_group_1D[edge_ids[i]]]->Append(i+1); outfile << "// Object1D GroupID, #Edges EdgeID List:\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n"; for(int i=0; iSize() << "\n"; for(int j=0; jSize(); j++) outfile << (*groups[i])[j] << "\n"; } outfile << endl; for(int i=0; iSetSize(0); for(PointIndex i=PointIndex::BASE; i= 0) groups[uid_to_group_0D[point_ids[i]]]->Append(i+1-PointIndex::BASE); } else groups[uid_to_group_0D[0]]->Append(i+1-PointIndex::BASE); } outfile << "// Object0D GroupID, #Nodes NodeID List:\n" \ << "// ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^\n"; for(int i=0; iSize() << "\n"; for(int j=0; jSize(); j++) outfile << (*groups[i])[j] << "\n"; } outfile << endl; for(int i=0; i