netgen/libsrc/interface/readuser.cpp

//
//  Read user dependent output file
//


#include <mystdlib.h>


#include <myadt.hpp>
#include <linalg.hpp>
#include <csg.hpp>
#include <meshing.hpp>

#include "writeuser.hpp"

namespace netgen
{
  void ReadFile (Mesh & mesh,
                 const string & hfilename)
  {
    PrintMessage(3, "Read User File");

    const char * filename = hfilename.c_str();

    char reco[100];
    int np, nbe;


    // ".surf" - mesh
  
    if ( (strlen (filename) > 5) &&
         strcmp (&filename[strlen (filename)-5], ".surf") == 0 )
    
      {
        cout << "Surface file" << endl;
      
        ifstream in (filename);
      
        in >> reco;
        in >> np;
        for (int i = 1; i <= np; i++)
          {
            Point3d p;
            in >> p.X() >> p.Y() >> p.Z();
	    p.Z() *= 10;
            mesh.AddPoint (p);
          }

        mesh.ClearFaceDescriptors();
        mesh.AddFaceDescriptor (FaceDescriptor(0,1,0,0));
      
        in >> nbe;
        //      int invert = globflags.GetDefineFlag ("invertsurfacemesh");
        for (int i = 1; i <= nbe; i++)
          {
            Element2d el;
            el.SetIndex(1);

            for (int j = 1; j <= 3; j++)
              {
                in >> el.PNum(j);
                // el.PNum(j)++;
                if (el.PNum(j) < PointIndex(1) || 
                    el.PNum(j) > PointIndex(np))
                  {
                    cerr << "Point Number " << el.PNum(j) << " out of range 1..."
                         << np << endl;
                    return;
                  }
              }
            /*
              if (invert)
              swap (el.PNum(2), el.PNum(3));
            */
	  
            mesh.AddSurfaceElement (el);
          }
      
      
        cout << "points: " << np << " faces: " << nbe << endl;
      }
  
  
    if ( (strlen (filename) > 4) &&
         strcmp (&filename[strlen (filename)-4], ".unv") == 0 )
      {  
        char reco[100];
        // int invert;
      
        ifstream in(filename);

        mesh.ClearFaceDescriptors();
        mesh.AddFaceDescriptor (FaceDescriptor(0,1,0,0));
        mesh.GetFaceDescriptor(1).SetBCProperty (1);
        // map from unv element nr to our element number + an index if it is vol (0), bnd(1), ...
        std::map<size_t, std::tuple<size_t, int>> element_map;

        NgArray<Segment> tmp_segments;
        while (in.good())
          {
            in >> reco;
            if (strcmp(reco, "-1") == 0)
              continue;

            else if (strcmp (reco, "2411") == 0)
              {
                cout << "nodes found" << endl;

                while (1)
                  {
                    int pi, hi;
                    Point<3> p;

                    in >> pi;
                    if (pi == -1)
                      break;
		    
                    in >> hi >> hi >> hi;
                    in >> p(0) >> p(1) >> p(2);

                    mesh.AddPoint (p);
                  }
		cout << "read " << mesh.GetNP() << " points" << endl;
              }

            else if (strcmp (reco, "2412") == 0)
              {
                cout << "elements found" << endl;

                while (1)
                  {
		    int label, fe_id, phys_prop, mat_prop, color, nnodes;
		    int nodes[100];
		    int hi;

		    in >> label;
		    if (label == -1) break;
		    in >> fe_id >> phys_prop >> mat_prop >> color >> nnodes;
		    
		    if (fe_id >= 11 && fe_id <= 32)
		      in >> hi >> hi >> hi;
		      

		    for (int j = 0; j < nnodes; j++)
		      in >> nodes[j];
		    
		    switch (fe_id)
		      {
                      case 22: // (Tapered beam) SEGM
                        {
                          Segment el;
                          el[0] = nodes[0];
                          el[1] = nodes[2];
                          el[2] = nodes[1];
                          
                          auto nr = tmp_segments.Size();
                          tmp_segments.Append(el);
                          element_map[label] = std::make_tuple(nr+1, 2);
                          break;
                        }
		      case 41: // TRIG
			{
			  Element2d el (TRIG);
			  el.SetIndex (1);
			  for (int j = 0; j < nnodes; j++)
			    el[j] = nodes[j];
			  auto nr = mesh.AddSurfaceElement (el);
                          element_map[label] = std::make_tuple(nr+1, 1);
			  break;
			}
                      case 42: // TRIG6
                        {
                          Element2d el(TRIG6);
                          el.SetIndex(1);
                          int jj = 0;
                          for(auto j : {0,2,4,3,5,1})
                              el[jj++] = nodes[j];
                          auto nr = mesh.AddSurfaceElement(el);
                          element_map[label] = std::make_tuple(nr+1, 1);
                          break;
                        }
		      case 111: // TET
			{
			  Element el (TET);
			  el.SetIndex (1);
			  for (int j = 0; j < nnodes; j++)
			    el[j] = nodes[j];
			  auto nr = mesh.AddVolumeElement (el);
			  element_map[label] = std::make_tuple(nr+1, 0);
			  break;
			}
                      case 118: // TET10
                        {
                          Element el(TET10);
                          el.SetIndex(1);
                          int jj = 0;
                          for(auto j : {0,2,4,9,1,5,6,3,7,8})
                            el[jj++] = nodes[j];
                          auto nr = mesh.AddVolumeElement(el);
                          element_map[label] = std::make_tuple(nr+1, 0);
                          break;
                        }
                      default:
                        cout << "Do not know fe_id = " << fe_id << ", skipping it." << endl;
                        break;
		      }
                  }
                cout << mesh.GetNE() << " elements found" << endl;
                cout << mesh.GetNSE() << " surface elements found" << endl;
              }
            else if(strcmp (reco, "2467") == 0)
              {
                int matnr = 1;
                cout << "Groups found" << endl;
                while(in.good())
                  {
                    int len;
                    string name;
                    in >> len;
                    if(len == -1)
                      break;
                    for(int i=0; i < 7; i++)
                      in >> len;
                    in >> name;
                    cout << len << " element are in group " << name << endl;
                    int hi, index;
                    int fdnr, ednr;

                    in >> hi >> index >> hi >> hi;
                    int codim = get<1>(element_map[index]);
                    // use first element to determine if boundary or volume
                    
                    switch (codim)
                      {
                      case 0:
                        {
                          mesh.SetMaterial(++matnr, name);
                          mesh.VolumeElement(get<0>(element_map[index])).SetIndex(matnr);
                          break;
                        }
                      case 1:
                        {
                          int bcpr = mesh.GetNFD()+1;
                          fdnr = mesh.AddFaceDescriptor(FaceDescriptor(bcpr, 0,0,0));
                          mesh.GetFaceDescriptor(fdnr).SetBCProperty(bcpr+1);
                          mesh.SetBCName(bcpr, name);
                          mesh.SurfaceElement(get<0>(element_map[index])).SetIndex(fdnr);
                          break;
                        }
                      case 2:
                        {
                          int bcpr = mesh.GetNCD2Names()+1;
                          auto ed = EdgeDescriptor();
                          ed.SetSurfNr(0,bcpr);//?
                          ednr = mesh.AddEdgeDescriptor(ed);
                          mesh.SetCD2Name(bcpr, name);
                          auto nr = mesh.AddSegment(tmp_segments[get<0>(element_map[index])-1]);
                          mesh[nr].SetBCName(mesh.GetCD2NamePtr(mesh.GetNCD2Names()));
                          mesh[nr].edgenr = ednr+1;
                          break;
                        }
                      default:
                        {
                          cout << "Codim " << codim << " not implemented yet!" << endl;
                        }
                      }
                        
                    for(int i=0; i<len-1; i++)
                      {
                        in >> hi >> index >> hi >> hi;
                        switch (codim)
                          {
                          case 0:
                            mesh.VolumeElement(get<0>(element_map[index])).SetIndex(matnr);
                            break;
                          case 1:
                            mesh.SurfaceElement(get<0>(element_map[index])).SetIndex(fdnr);
                            break;
                          case 2:
                            {
                              auto nr = mesh.AddSegment(tmp_segments[get<0>(element_map[index])-1]);
                              mesh[nr].edgenr = ednr+1;
                              mesh[nr].SetBCName(mesh.GetCD2NamePtr(mesh.GetNCD2Names()));
                            }
                            break;
                          default:
                            break;
                          }
                      }
                  }
              }
            else
              {
                cout << "Do not know data field type " << reco << ", skipping it" << endl;
                while(in.good())
                  {
                    in >> reco;
                    if(strcmp(reco, "-1") == 0)
                      break;
                  }
              }
          }
      

        Point3d pmin, pmax;
        mesh.ComputeNVertices();
        mesh.RebuildSurfaceElementLists();
        mesh.GetBox (pmin, pmax);
        mesh.UpdateTopology();
        cout << "bounding-box = " << pmin << "-" << pmax << endl;
      }


    // fepp format2d:
  
    if ( (strlen (filename) > 7) &&
         strcmp (&filename[strlen (filename)-7], ".mesh2d") == 0 )
      {
        cout << "Reading FEPP2D Mesh" << endl;
      
        char buf[100];
        int np, ne, nseg, i, j;

        ifstream in (filename);

        in >> buf;

        in >> nseg;
        for (i = 1; i <= nseg; i++)
          {
            int bound, p1, p2;
            in >> bound >> p1 >> p2;
            // forget them
          }

        in >> ne;
        for (i = 1; i <= ne; i++)
          {
            int mat, nelp;
            in >> mat >> nelp;
            Element2d el (nelp == 3 ? TRIG : QUAD);
            el.SetIndex (mat);
            for (j = 1; j <= nelp; j++)
              in >> el.PNum(j);
            mesh.AddSurfaceElement (el);
          }

        in >> np;
        for (i = 1; i <= np; i++)
          {
            Point3d p(0,0,0);
            in >> p.X() >> p.Y();
            mesh.AddPoint (p);
          }
      }

  
    else if ( (strlen (filename) > 5) &&
              strcmp (&filename[strlen (filename)-5], ".mesh") == 0 )
      {
        cout << "Reading Neutral Format" << endl;
      
        int np, ne, nse, i, j;

        ifstream in (filename);

        in >> np;

        if (in.good())
          {
            // file starts with an integer

            for (i = 1; i <= np; i++)
              {
                Point3d p(0,0,0);
                in >> p.X() >> p.Y() >> p.Z();
                mesh.AddPoint (p);
              }
	  
            in >> ne;
            for (i = 1; i <= ne; i++)
              {
                int mat;
                in >> mat;
                Element el (4);
                el.SetIndex (mat);
                for (j = 1; j <= 4; j++)
                  in >> el.PNum(j);
                mesh.AddVolumeElement (el);
              }

            mesh.AddFaceDescriptor (FaceDescriptor (1, 1, 0, 0));
            int nfd = 1;

            in >> nse;
            for (i = 1; i <= nse; i++)
              {
                int mat; // , nelp;
                in >> mat;
                Element2d el (TRIG);
                el.SetIndex (mat);
                while(nfd<mat)
                  {
                    ++nfd;
                    mesh.AddFaceDescriptor(FaceDescriptor(nfd,nfd,0,0));
                  }
                for (j = 1; j <= 3; j++)
                  in >> el.PNum(j);
                mesh.AddSurfaceElement (el);
              }
          }
        else
          {
            char buf[100];
            in.clear();
            do
              {
                in >> buf;
                cout << "buf = " << buf << endl;
                if (strcmp (buf, "points") == 0)
                  {
                    in >> np;
                    cout << "np = " << np << endl;
                  }
              }
            while (in.good());
          }
      }


    if ( (strlen (filename) > 4) &&
         strcmp (&filename[strlen (filename)-4], ".emt") == 0 )
      {
        ifstream inemt (filename);
      
        string pktfile = filename;
        int len = strlen (filename);
        pktfile[len-3] = 'p';
        pktfile[len-2] = 'k';
        pktfile[len-1] = 't';
        cout << "pktfile = " << pktfile << endl;

        int np, nse, i;
        int bcprop;
        ifstream inpkt (pktfile.c_str());
        inpkt >> np;
        NgArray<double> values(np);
        for (i = 1; i <= np; i++)
          {
            Point3d p(0,0,0);
            inpkt >> p.X() >> p.Y() >> p.Z()
                  >> bcprop >> values.Elem(i);
            mesh.AddPoint (p);
          }      

        mesh.ClearFaceDescriptors();
        mesh.AddFaceDescriptor (FaceDescriptor(0,1,0,0));
        mesh.GetFaceDescriptor(1).SetBCProperty (1);
        mesh.AddFaceDescriptor (FaceDescriptor(0,1,0,0));
        mesh.GetFaceDescriptor(2).SetBCProperty (2);
        mesh.AddFaceDescriptor (FaceDescriptor(0,1,0,0));
        mesh.GetFaceDescriptor(3).SetBCProperty (3);
        mesh.AddFaceDescriptor (FaceDescriptor(0,1,0,0));
        mesh.GetFaceDescriptor(4).SetBCProperty (4);
        mesh.AddFaceDescriptor (FaceDescriptor(0,1,0,0));
        mesh.GetFaceDescriptor(5).SetBCProperty (5);

        int p1, p2, p3;
        double value;
        inemt >> nse;
        for (i = 1; i <= nse; i++)
          {
            inemt >> p1 >> p2 >> p3 >> bcprop >> value;

            if (bcprop < 1 || bcprop > 4)
              cerr << "bcprop out of range, bcprop = " << bcprop << endl;
            p1++;
            p2++;
            p3++;
            if (p1 < 1 || p1 > np || p2 < 1 || p2 > np || p3 < 1 || p3 > np)
              {
                cout << "p1 = " << p1 << " p2 = " << p2 << " p3 = " << p3 << endl;
              }

            if (i > 110354) Swap (p2, p3);
            if (mesh.Point(p1)(0) < 0.25)
              Swap (p2,p3);

            Element2d el(TRIG);

            if (bcprop == 1)
              {
                if (values.Get(p1) < -69999)
                  el.SetIndex(1);
                else
                  el.SetIndex(2);
              }
            else
              el.SetIndex(3);


            el.PNum(1) = p1;
            el.PNum(2) = p2;
            el.PNum(3) = p3;
            mesh.AddSurfaceElement (el);
          }


        ifstream incyl ("ngusers/guenter/cylinder.surf");
        int npcyl, nsecyl; 
        incyl >> npcyl;
        cout << "npcyl = " << npcyl << endl;
        for (i = 1; i <= npcyl; i++)
          {
            Point3d p(0,0,0);
            incyl >> p.X() >> p.Y() >> p.Z();
            mesh.AddPoint (p);
          }
        incyl >> nsecyl;
        cout << "nsecyl = " << nsecyl << endl;
        for (i = 1; i <= nsecyl; i++)
          {
            incyl >> p1 >> p2 >> p3;
            p1 += np;
            p2 += np;
            p3 += np;
            Element2d el(TRIG);
            el.SetIndex(5);
            el.PNum(1) = p1;
            el.PNum(2) = p2;
            el.PNum(3) = p3;
            mesh.AddSurfaceElement (el);
          }
      }


    // .tet mesh
    if ( (strlen (filename) > 4) &&
         strcmp (&filename[strlen (filename)-4], ".tet") == 0 )
      {
        ReadTETFormat (mesh, filename);
      }


    // .fnf mesh (FNF - PE neutral format)
    if ( (strlen (filename) > 4) &&
         strcmp (&filename[strlen (filename)-4], ".fnf") == 0 )
      {
        ReadFNFFormat (mesh, filename);
      }

  }
  
}
autotools 2009-01-13 04:40:13 +05:00			`//`
			`// Read user dependent output file`
			`//`


			`#include <mystdlib.h>`


			`#include <myadt.hpp>`
			`#include <linalg.hpp>`
			`#include <csg.hpp>`
			`#include <meshing.hpp>`

			`#include "writeuser.hpp"`

export mesh from python 2016-07-10 21:07:36 +05:00			`namespace netgen`
			`{`
autotools 2009-01-13 04:40:13 +05:00			`void ReadFile (Mesh & mesh,`
			`const string & hfilename)`
			`{`
fnf reader messages with msg level, no error for analysis sect 2019-05-21 13:51:39 +05:00			`PrintMessage(3, "Read User File");`
autotools 2009-01-13 04:40:13 +05:00
			`const char * filename = hfilename.c_str();`

			`char reco[100];`
			`int np, nbe;`



			`// ".surf" - mesh`

			`if ( (strlen (filename) > 5) &&`
			`strcmp (&filename[strlen (filename)-5], ".surf") == 0 )`

			`{`
			`cout << "Surface file" << endl;`

			`ifstream in (filename);`

			`in >> reco;`
			`in >> np;`
extrusion fixes, reduce warnings 2009-04-20 03:15:26 +06:00			`for (int i = 1; i <= np; i++)`
autotools 2009-01-13 04:40:13 +05:00			`{`
			`Point3d p;`
			`in >> p.X() >> p.Y() >> p.Z();`
delaunay meshing 2010-09-23 20:07:12 +06:00			`p.Z() *= 10;`
autotools 2009-01-13 04:40:13 +05:00			`mesh.AddPoint (p);`
			`}`

			`mesh.ClearFaceDescriptors();`
			`mesh.AddFaceDescriptor (FaceDescriptor(0,1,0,0));`

			`in >> nbe;`
			`// int invert = globflags.GetDefineFlag ("invertsurfacemesh");`
extrusion fixes, reduce warnings 2009-04-20 03:15:26 +06:00			`for (int i = 1; i <= nbe; i++)`
autotools 2009-01-13 04:40:13 +05:00			`{`
			`Element2d el;`
			`el.SetIndex(1);`
extrusion fixes, reduce warnings 2009-04-20 03:15:26 +06:00
			`for (int j = 1; j <= 3; j++)`
autotools 2009-01-13 04:40:13 +05:00			`{`
			`in >> el.PNum(j);`
			`// el.PNum(j)++;`
			`if (el.PNum(j) < PointIndex(1) \|\|`
			`el.PNum(j) > PointIndex(np))`
			`{`
			`cerr << "Point Number " << el.PNum(j) << " out of range 1..."`
			`<< np << endl;`
			`return;`
			`}`
			`}`
			`/*`
			`if (invert)`
			`swap (el.PNum(2), el.PNum(3));`
			`*/`

			`mesh.AddSurfaceElement (el);`
			`}`


			`cout << "points: " << np << " faces: " << nbe << endl;`
			`}`





			`if ( (strlen (filename) > 4) &&`
			`strcmp (&filename[strlen (filename)-4], ".unv") == 0 )`
			`{`
			`char reco[100];`
eliminate warnings 2014-08-20 01:58:36 +06:00			`// int invert;`
autotools 2009-01-13 04:40:13 +05:00
			`ifstream in(filename);`

			`mesh.ClearFaceDescriptors();`
			`mesh.AddFaceDescriptor (FaceDescriptor(0,1,0,0));`
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`mesh.GetFaceDescriptor(1).SetBCProperty (1);`
			`// map from unv element nr to our element number + an index if it is vol (0), bnd(1), ...`
			`std::map<size_t, std::tuple<size_t, int>> element_map;`
autotools 2009-01-13 04:40:13 +05:00
Rename Array to NgArray 2019-07-09 13:39:16 +05:00			`NgArray<Segment> tmp_segments;`
autotools 2009-01-13 04:40:13 +05:00			`while (in.good())`
			`{`
			`in >> reco;`
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`if (strcmp(reco, "-1") == 0)`
			`continue;`
read unv file update 2011-07-20 21:08:39 +06:00
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`else if (strcmp (reco, "2411") == 0)`
autotools 2009-01-13 04:40:13 +05:00			`{`
			`cout << "nodes found" << endl;`

			`while (1)`
			`{`
			`int pi, hi;`
read unv file update 2011-07-20 21:08:39 +06:00			`Point<3> p;`
autotools 2009-01-13 04:40:13 +05:00
			`in >> pi;`
			`if (pi == -1)`
			`break;`
read unv file update 2011-07-20 21:08:39 +06:00
autotools 2009-01-13 04:40:13 +05:00			`in >> hi >> hi >> hi;`
read unv file update 2011-07-20 21:08:39 +06:00			`in >> p(0) >> p(1) >> p(2);`
autotools 2009-01-13 04:40:13 +05:00
			`mesh.AddPoint (p);`
			`}`
read unv file update 2011-07-20 21:08:39 +06:00			`cout << "read " << mesh.GetNP() << " points" << endl;`
autotools 2009-01-13 04:40:13 +05:00			`}`

understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`else if (strcmp (reco, "2412") == 0)`
autotools 2009-01-13 04:40:13 +05:00			`{`
			`cout << "elements found" << endl;`

			`while (1)`
			`{`
read unv file update 2011-07-20 21:08:39 +06:00			`int label, fe_id, phys_prop, mat_prop, color, nnodes;`
			`int nodes[100];`
			`int hi;`

			`in >> label;`
			`if (label == -1) break;`
			`in >> fe_id >> phys_prop >> mat_prop >> color >> nnodes;`

			`if (fe_id >= 11 && fe_id <= 32)`
			`in >> hi >> hi >> hi;`


			`for (int j = 0; j < nnodes; j++)`
			`in >> nodes[j];`

			`switch (fe_id)`
			`{`
read bbnd for .unv meshes and update topology 2019-05-02 20:00:37 +05:00			`case 22: // (Tapered beam) SEGM`
			`{`
			`Segment el;`
			`el[0] = nodes[0];`
			`el[1] = nodes[2];`
			`el[2] = nodes[1];`
add only segments if they are real bbnd elements for .unv files 2019-05-06 13:30:19 +05:00
			`auto nr = tmp_segments.Size();`
			`tmp_segments.Append(el);`
read bbnd for .unv meshes and update topology 2019-05-02 20:00:37 +05:00			`element_map[label] = std::make_tuple(nr+1, 2);`
			`break;`
			`}`
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`case 41: // TRIG`
read unv file update 2011-07-20 21:08:39 +06:00			`{`
			`Element2d el (TRIG);`
			`el.SetIndex (1);`
			`for (int j = 0; j < nnodes; j++)`
			`el[j] = nodes[j];`
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`auto nr = mesh.AddSurfaceElement (el);`
			`element_map[label] = std::make_tuple(nr+1, 1);`
read unv file update 2011-07-20 21:08:39 +06:00			`break;`
			`}`
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`case 42: // TRIG6`
			`{`
			`Element2d el(TRIG6);`
			`el.SetIndex(1);`
			`int jj = 0;`
			`for(auto j : {0,2,4,3,5,1})`
			`el[jj++] = nodes[j];`
			`auto nr = mesh.AddSurfaceElement(el);`
			`element_map[label] = std::make_tuple(nr+1, 1);`
			`break;`
			`}`
			`case 111: // TET`
read unv file update 2011-07-20 21:08:39 +06:00			`{`
			`Element el (TET);`
			`el.SetIndex (1);`
			`for (int j = 0; j < nnodes; j++)`
			`el[j] = nodes[j];`
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`auto nr = mesh.AddVolumeElement (el);`
			`element_map[label] = std::make_tuple(nr+1, 0);`
read unv file update 2011-07-20 21:08:39 +06:00			`break;`
			`}`
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`case 118: // TET10`
			`{`
			`Element el(TET10);`
			`el.SetIndex(1);`
			`int jj = 0;`
			`for(auto j : {0,2,4,9,1,5,6,3,7,8})`
			`el[jj++] = nodes[j];`
			`auto nr = mesh.AddVolumeElement(el);`
			`element_map[label] = std::make_tuple(nr+1, 0);`
			`break;`
			`}`
read bbnd for .unv meshes and update topology 2019-05-02 20:00:37 +05:00			`default:`
			`cout << "Do not know fe_id = " << fe_id << ", skipping it." << endl;`
			`break;`
read unv file update 2011-07-20 21:08:39 +06:00			`}`
autotools 2009-01-13 04:40:13 +05:00			`}`
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`cout << mesh.GetNE() << " elements found" << endl;`
			`cout << mesh.GetNSE() << " surface elements found" << endl;`
			`}`
			`else if(strcmp (reco, "2467") == 0)`
			`{`
			`int matnr = 1;`
			`cout << "Groups found" << endl;`
			`while(in.good())`
			`{`
			`int len;`
			`string name;`
			`in >> len;`
			`if(len == -1)`
			`break;`
			`for(int i=0; i < 7; i++)`
			`in >> len;`
			`in >> name;`
			`cout << len << " element are in group " << name << endl;`
			`int hi, index;`
read bbnd for .unv meshes and update topology 2019-05-02 20:00:37 +05:00			`int fdnr, ednr;`

			`in >> hi >> index >> hi >> hi;`
			`int codim = get<1>(element_map[index]);`
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`// use first element to determine if boundary or volume`
read bbnd for .unv meshes and update topology 2019-05-02 20:00:37 +05:00
			`switch (codim)`
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`{`
read bbnd for .unv meshes and update topology 2019-05-02 20:00:37 +05:00			`case 0:`
			`{`
			`mesh.SetMaterial(++matnr, name);`
			`mesh.VolumeElement(get<0>(element_map[index])).SetIndex(matnr);`
			`break;`
			`}`
			`case 1:`
			`{`
			`int bcpr = mesh.GetNFD()+1;`
			`fdnr = mesh.AddFaceDescriptor(FaceDescriptor(bcpr, 0,0,0));`
			`mesh.GetFaceDescriptor(fdnr).SetBCProperty(bcpr+1);`
			`mesh.SetBCName(bcpr, name);`
			`mesh.SurfaceElement(get<0>(element_map[index])).SetIndex(fdnr);`
			`break;`
			`}`
			`case 2:`
			`{`
			`int bcpr = mesh.GetNCD2Names()+1;`
			`auto ed = EdgeDescriptor();`
			`ed.SetSurfNr(0,bcpr);//?`
			`ednr = mesh.AddEdgeDescriptor(ed);`
			`mesh.SetCD2Name(bcpr, name);`
add only segments if they are real bbnd elements for .unv files 2019-05-06 13:30:19 +05:00			`auto nr = mesh.AddSegment(tmp_segments[get<0>(element_map[index])-1]);`
use mesh[nr] 2019-05-06 17:59:18 +05:00			`mesh[nr].SetBCName(mesh.GetCD2NamePtr(mesh.GetNCD2Names()));`
			`mesh[nr].edgenr = ednr+1;`
read bbnd for .unv meshes and update topology 2019-05-02 20:00:37 +05:00			`break;`
			`}`
			`default:`
			`{`
			`cout << "Codim " << codim << " not implemented yet!" << endl;`
			`}`
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`}`
read bbnd for .unv meshes and update topology 2019-05-02 20:00:37 +05:00
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`for(int i=0; i<len-1; i++)`
			`{`
			`in >> hi >> index >> hi >> hi;`
read bbnd for .unv meshes and update topology 2019-05-02 20:00:37 +05:00			`switch (codim)`
			`{`
			`case 0:`
			`mesh.VolumeElement(get<0>(element_map[index])).SetIndex(matnr);`
			`break;`
			`case 1:`
			`mesh.SurfaceElement(get<0>(element_map[index])).SetIndex(fdnr);`
			`break;`
			`case 2:`
add only segments if they are real bbnd elements for .unv files 2019-05-06 13:30:19 +05:00			`{`
			`auto nr = mesh.AddSegment(tmp_segments[get<0>(element_map[index])-1]);`
use mesh[nr] 2019-05-06 17:59:18 +05:00			`mesh[nr].edgenr = ednr+1;`
			`mesh[nr].SetBCName(mesh.GetCD2NamePtr(mesh.GetNCD2Names()));`
add only segments if they are real bbnd elements for .unv files 2019-05-06 13:30:19 +05:00			`}`
read bbnd for .unv meshes and update topology 2019-05-02 20:00:37 +05:00			`break;`
			`default:`
			`break;`
			`}`
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`}`
			`}`
			`}`
			`else`
			`{`
			`cout << "Do not know data field type " << reco << ", skipping it" << endl;`
			`while(in.good())`
			`{`
			`in >> reco;`
			`if(strcmp(reco, "-1") == 0)`
			`break;`
			`}`
autotools 2009-01-13 04:40:13 +05:00			`}`
			`}`


			`Point3d pmin, pmax;`
understand groups of unv file for bc and mat properties, 2nd order els 2019-03-29 18:38:38 +05:00			`mesh.ComputeNVertices();`
build surfaceelement lists for universal file import 2019-04-11 17:45:57 +05:00			`mesh.RebuildSurfaceElementLists();`
autotools 2009-01-13 04:40:13 +05:00			`mesh.GetBox (pmin, pmax);`
read bbnd for .unv meshes and update topology 2019-05-02 20:00:37 +05:00			`mesh.UpdateTopology();`
autotools 2009-01-13 04:40:13 +05:00			`cout << "bounding-box = " << pmin << "-" << pmax << endl;`
			`}`



			`// fepp format2d:`

			`if ( (strlen (filename) > 7) &&`
			`strcmp (&filename[strlen (filename)-7], ".mesh2d") == 0 )`
			`{`
			`cout << "Reading FEPP2D Mesh" << endl;`

			`char buf[100];`
			`int np, ne, nseg, i, j;`

			`ifstream in (filename);`

			`in >> buf;`

			`in >> nseg;`
			`for (i = 1; i <= nseg; i++)`
			`{`
			`int bound, p1, p2;`
			`in >> bound >> p1 >> p2;`
			`// forget them`
			`}`

			`in >> ne;`
			`for (i = 1; i <= ne; i++)`
			`{`
			`int mat, nelp;`
			`in >> mat >> nelp;`
			`Element2d el (nelp == 3 ? TRIG : QUAD);`
			`el.SetIndex (mat);`
			`for (j = 1; j <= nelp; j++)`
			`in >> el.PNum(j);`
			`mesh.AddSurfaceElement (el);`
			`}`

			`in >> np;`
			`for (i = 1; i <= np; i++)`
			`{`
			`Point3d p(0,0,0);`
			`in >> p.X() >> p.Y();`
			`mesh.AddPoint (p);`
			`}`
			`}`


			`else if ( (strlen (filename) > 5) &&`
			`strcmp (&filename[strlen (filename)-5], ".mesh") == 0 )`
			`{`
			`cout << "Reading Neutral Format" << endl;`

			`int np, ne, nse, i, j;`

			`ifstream in (filename);`

			`in >> np;`

			`if (in.good())`
			`{`
			`// file starts with an integer`

			`for (i = 1; i <= np; i++)`
			`{`
			`Point3d p(0,0,0);`
			`in >> p.X() >> p.Y() >> p.Z();`
			`mesh.AddPoint (p);`
			`}`

			`in >> ne;`
			`for (i = 1; i <= ne; i++)`
			`{`
			`int mat;`
			`in >> mat;`
			`Element el (4);`
			`el.SetIndex (mat);`
			`for (j = 1; j <= 4; j++)`
			`in >> el.PNum(j);`
			`mesh.AddVolumeElement (el);`
			`}`

			`mesh.AddFaceDescriptor (FaceDescriptor (1, 1, 0, 0));`
fix import of neutral file format with multiple surface numbers 2017-08-01 13:15:07 +05:00			`int nfd = 1;`

autotools 2009-01-13 04:40:13 +05:00			`in >> nse;`
			`for (i = 1; i <= nse; i++)`
			`{`
extrusion fixes, reduce warnings 2009-04-20 03:15:26 +06:00			`int mat; // , nelp;`
autotools 2009-01-13 04:40:13 +05:00			`in >> mat;`
			`Element2d el (TRIG);`
			`el.SetIndex (mat);`
fix import of neutral file format with multiple surface numbers 2017-08-01 13:15:07 +05:00			`while(nfd<mat)`
			`{`
			`++nfd;`
			`mesh.AddFaceDescriptor(FaceDescriptor(nfd,nfd,0,0));`
			`}`
autotools 2009-01-13 04:40:13 +05:00			`for (j = 1; j <= 3; j++)`
			`in >> el.PNum(j);`
			`mesh.AddSurfaceElement (el);`
			`}`
			`}`
			`else`
			`{`
			`char buf[100];`
			`in.clear();`
			`do`
			`{`
			`in >> buf;`
			`cout << "buf = " << buf << endl;`
			`if (strcmp (buf, "points") == 0)`
			`{`
			`in >> np;`
			`cout << "np = " << np << endl;`
			`}`
			`}`
			`while (in.good());`
			`}`
			`}`


			`if ( (strlen (filename) > 4) &&`
			`strcmp (&filename[strlen (filename)-4], ".emt") == 0 )`
			`{`
			`ifstream inemt (filename);`

			`string pktfile = filename;`
			`int len = strlen (filename);`
			`pktfile[len-3] = 'p';`
			`pktfile[len-2] = 'k';`
			`pktfile[len-1] = 't';`
			`cout << "pktfile = " << pktfile << endl;`

			`int np, nse, i;`
extrusion fixes, reduce warnings 2009-04-20 03:15:26 +06:00			`int bcprop;`
autotools 2009-01-13 04:40:13 +05:00			`ifstream inpkt (pktfile.c_str());`
			`inpkt >> np;`
Rename Array to NgArray 2019-07-09 13:39:16 +05:00			`NgArray<double> values(np);`
autotools 2009-01-13 04:40:13 +05:00			`for (i = 1; i <= np; i++)`
			`{`
			`Point3d p(0,0,0);`
			`inpkt >> p.X() >> p.Y() >> p.Z()`
			`>> bcprop >> values.Elem(i);`
			`mesh.AddPoint (p);`
			`}`

			`mesh.ClearFaceDescriptors();`
			`mesh.AddFaceDescriptor (FaceDescriptor(0,1,0,0));`
			`mesh.GetFaceDescriptor(1).SetBCProperty (1);`
			`mesh.AddFaceDescriptor (FaceDescriptor(0,1,0,0));`
			`mesh.GetFaceDescriptor(2).SetBCProperty (2);`
			`mesh.AddFaceDescriptor (FaceDescriptor(0,1,0,0));`
			`mesh.GetFaceDescriptor(3).SetBCProperty (3);`
			`mesh.AddFaceDescriptor (FaceDescriptor(0,1,0,0));`
			`mesh.GetFaceDescriptor(4).SetBCProperty (4);`
			`mesh.AddFaceDescriptor (FaceDescriptor(0,1,0,0));`
			`mesh.GetFaceDescriptor(5).SetBCProperty (5);`

			`int p1, p2, p3;`
			`double value;`
			`inemt >> nse;`
			`for (i = 1; i <= nse; i++)`
			`{`
			`inemt >> p1 >> p2 >> p3 >> bcprop >> value;`

			`if (bcprop < 1 \|\| bcprop > 4)`
			`cerr << "bcprop out of range, bcprop = " << bcprop << endl;`
			`p1++;`
			`p2++;`
			`p3++;`
			`if (p1 < 1 \|\| p1 > np \|\| p2 < 1 \|\| p2 > np \|\| p3 < 1 \|\| p3 > np)`
			`{`
			`cout << "p1 = " << p1 << " p2 = " << p2 << " p3 = " << p3 << endl;`
			`}`

			`if (i > 110354) Swap (p2, p3);`
			`if (mesh.Point(p1)(0) < 0.25)`
			`Swap (p2,p3);`

			`Element2d el(TRIG);`

			`if (bcprop == 1)`
			`{`
			`if (values.Get(p1) < -69999)`
			`el.SetIndex(1);`
			`else`
			`el.SetIndex(2);`
			`}`
			`else`
			`el.SetIndex(3);`


			`el.PNum(1) = p1;`
			`el.PNum(2) = p2;`
			`el.PNum(3) = p3;`
			`mesh.AddSurfaceElement (el);`
			`}`


			`ifstream incyl ("ngusers/guenter/cylinder.surf");`
			`int npcyl, nsecyl;`
			`incyl >> npcyl;`
			`cout << "npcyl = " << npcyl << endl;`
			`for (i = 1; i <= npcyl; i++)`
			`{`
			`Point3d p(0,0,0);`
			`incyl >> p.X() >> p.Y() >> p.Z();`
			`mesh.AddPoint (p);`
			`}`
			`incyl >> nsecyl;`
			`cout << "nsecyl = " << nsecyl << endl;`
			`for (i = 1; i <= nsecyl; i++)`
			`{`
			`incyl >> p1 >> p2 >> p3;`
			`p1 += np;`
			`p2 += np;`
			`p3 += np;`
			`Element2d el(TRIG);`
			`el.SetIndex(5);`
			`el.PNum(1) = p1;`
			`el.PNum(2) = p2;`
			`el.PNum(3) = p3;`
			`mesh.AddSurfaceElement (el);`
			`}`
			`}`


			`// .tet mesh`
			`if ( (strlen (filename) > 4) &&`
			`strcmp (&filename[strlen (filename)-4], ".tet") == 0 )`
			`{`
			`ReadTETFormat (mesh, filename);`
			`}`


			`// .fnf mesh (FNF - PE neutral format)`
			`if ( (strlen (filename) > 4) &&`
			`strcmp (&filename[strlen (filename)-4], ".fnf") == 0 )`
			`{`
			`ReadFNFFormat (mesh, filename);`
			`}`

			`}`

			`}`