mirror of
https://github.com/NGSolve/netgen.git
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209 lines
5.1 KiB
C++
209 lines
5.1 KiB
C++
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//
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// Write Elmer file
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//
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//
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#include <mystdlib.h>
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#include <myadt.hpp>
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#include <linalg.hpp>
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#include <csg.hpp>
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#include <meshing.hpp>
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#include <sys/stat.h>
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#include "writeuser.hpp"
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namespace netgen
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{
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extern MeshingParameters mparam;
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void WriteElmerFormat (const Mesh &mesh,
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const string &filename)
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{
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cout << "write elmer mesh files" << endl;
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std::map<ELEMENT_TYPE, int> tmap;
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tmap[TRIG] = 303;
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tmap[TRIG6] = 306;
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tmap[QUAD] = 404;
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tmap[QUAD8] = 408;
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tmap[TET] = 504;
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tmap[TET10] = 510;
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tmap[PYRAMID] = 605;
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tmap[PYRAMID13] = 613;
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tmap[PRISM] = 706;
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tmap[PRISM15] = 715;
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tmap[HEX] = 808;
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tmap[HEX20] = 820;
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std::map<int, Array<int,int>> pmap;
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pmap[TRIG] = {1,2,3};
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pmap[TRIG6] = {1,2,3, 6,4,5};
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pmap[QUAD] = {1,2,3,4};
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pmap[QUAD8] = {1,2,3,4, 5,8,6,7};
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pmap[TET] = {1,2,3,4};
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pmap[TET10] = {1,2,3,4, 5,8,6,7,9,10};
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pmap[PYRAMID]={1,2,3,4,5};
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pmap[PYRAMID13]= {1,2,3,4,5,6,7,8,9,10,11,12,13};
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pmap[PRISM] = {1,2,3,4,5,6};
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pmap[PRISM15] = {1,2,3,4,5,6,7,8,9,10,11,12,13,14,15};
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pmap[HEX] = {1,2,3,4,5,6,7,8};
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pmap[HEX20] = {1,2,3,4,5,8,6,7,8, 9,12,10,11, 17,20,19,18, 13,16,14,15};
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int np = mesh.GetNP();
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int ne = mesh.GetNE();
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int nse = mesh.GetNSE();
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int i, j;
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char str[200];
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int inverttets = mparam.inverttets;
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int invertsurf = mparam.inverttrigs;
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#ifdef WIN32
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char a[256];
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sprintf( a, "mkdir %s", filename.c_str() );
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system( a );
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#else
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// int rc =
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mkdir(filename.c_str(), S_IRWXU|S_IRWXG);
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#endif
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sprintf( str, "%s/mesh.header", filename.c_str() );
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ofstream outfile_h(str);
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sprintf( str, "%s/mesh.nodes", filename.c_str() );
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ofstream outfile_n(str);
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sprintf( str, "%s/mesh.elements", filename.c_str() );
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ofstream outfile_e(str);
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sprintf( str, "%s/mesh.boundary", filename.c_str() );
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ofstream outfile_b(str);
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sprintf( str, "%s/mesh.names", filename.c_str() );
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ofstream outfile_names(str);
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for( auto codim : IntRange(0, mesh.GetDimension()-1) )
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{
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auto & names = const_cast<Mesh&>(mesh).GetRegionNamesCD(codim);
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for (auto i0 : Range(names) )
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{
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if(names[i0] == nullptr)
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continue;
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string name = *names[i0];
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if(name == "" || name == "default")
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continue;
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outfile_names << "$" << name << "=" << i0+1 << "\n";
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}
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}
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auto get3FacePoints = [](const Element2d & el)
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{
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INDEX_3 i3;
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INDEX_4 i4;
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auto eltype = el.GetType();
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switch (eltype)
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{
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case TRIG:
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case TRIG6:
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i3 = {el[0], el[1], el[2]};
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i3.Sort();
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break;
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case QUAD:
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case QUAD8:
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i4 = {el[0], el[1], el[2], el[3]};
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i4.Sort();
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i3 = {i4[0], i4[1], i4[2]};
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break;
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default:
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throw Exception("Got invalid type (no face)");
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}
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return i3;
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};
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// fill hashtable
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// use lowest three point numbers of lowest-order face to index faces
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INDEX_3_HASHTABLE<int> face2volelement(ne);
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for (int i = 1; i <= ne; i++)
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{
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const Element & el = mesh.VolumeElement(i);
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// getface not working for second order elements -> reconstruct linear element here
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Element linear_el = el;
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linear_el.SetNP(el.GetNV()); // GetNV returns 8 for HEX20 for instance
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for (auto j : Range(1,el.GetNFaces()+1))
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{
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Element2d face;
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linear_el.GetFace(j, face);
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face2volelement.Set (get3FacePoints(face), i);
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cout << "set " << get3FacePoints(face) << "\tto " << i << endl;
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}
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}
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// outfile.precision(6);
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// outfile.setf (ios::fixed, ios::floatfield);
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// outfile.setf (ios::showpoint);
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std::map<ELEMENT_TYPE, size_t> elcount;
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for (i = 1; i <= np; i++)
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{
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const Point3d & p = mesh.Point(i);
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outfile_n << i << " -1 ";
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outfile_n << p.X() << " ";
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outfile_n << p.Y() << " ";
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outfile_n << p.Z() << "\n";
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}
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for (i = 1; i <= ne; i++)
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{
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Element el = mesh.VolumeElement(i);
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if (inverttets) el.Invert();
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auto eltype = el.GetType();
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elcount[eltype]++;
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outfile_e << i << " " << el.GetIndex() << " " << tmap[eltype] << " ";
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auto & map = pmap[eltype];
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for (j = 1; j <= el.GetNP(); j++)
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{
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outfile_e << " ";
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outfile_e << el.PNum(map[j-1]);
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}
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outfile_e << "\n";
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}
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for (i = 1; i <= nse; i++)
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{
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Element2d el = mesh.SurfaceElement(i);
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if (invertsurf) el.Invert();
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auto eltype = el.GetType();
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elcount[eltype]++;
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int elind = face2volelement.Get(get3FacePoints(el));
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cout << "get " << get3FacePoints(el) << "\t " << elind << endl;
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outfile_b << i << " " << mesh.GetFaceDescriptor(el.GetIndex()).BCProperty() <<
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" " << elind << " 0 " << tmap[eltype] << " ";
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auto & map = pmap[el.GetType()];
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for (j = 1; j <= el.GetNP(); j++)
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{
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outfile_b << " ";
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outfile_b << el.PNum(map[j-1]);
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}
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outfile_b << "\n";
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}
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outfile_h << np << " " << ne << " " << nse << "\n";
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outfile_h << "2" << "\n";
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for( auto & [eltype,count] : elcount )
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outfile_h << tmap[eltype] << " " << count << "\n";
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}
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}
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