netgen/ng/ngpkg.cpp

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/*
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The interface between the GUI and the netgen library
*/
#include <mystdlib.h>
#include <myadt.hpp>
#include <linalg.hpp>
#include <meshing.hpp>
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#include <incvis.hpp>
#include <visual.hpp>
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#include <csg.hpp>
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#ifdef SOCKETS
#include "../libsrc/sockets/sockets.hpp"
#include "../libsrc/sockets/socketmanager.hpp"
#endif
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// to be sure to include the 'right' togl-version
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#include "togl_1_7.h"
// #include "togl_2_0.h"
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extern bool nodisplay;
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#include <nginterface.h>
// extern "C" void RunParallel ( void * (*fun)(void *), void * in);
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namespace netgen
{
#include "../libsrc/interface/writeuser.hpp"
#include "demoview.hpp"
}
#ifdef ACIS
#include "ng_acis.hpp"
#endif
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#ifdef JPEGLIB
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#include <jpeglib.h>
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#endif
#ifdef FFMPEG
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extern "C" {
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/*
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#include <ffmpeg/avcodec.h>
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#include <ffmpeg/avformat.h>
#include <ffmpeg/swscale.h>
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*/
#include <libavcodec/avcodec.h>
#include <libavformat/avformat.h>
#include <libswscale/swscale.h>
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}
#endif
#ifdef NGSOLVE
extern "C" void NGSolve_Exit();
#endif
// extern void * ngsolve_handle;
namespace netgen
{
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extern Flags parameters;
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NetgenOutStream operator<< ( ostream & ost, Imp imp )
{
return ( NetgenOutStream ( &ost, imp ) );
}
NetgenOutStream operator<< ( ostream & ost, Proc proc )
{
return ( NetgenOutStream ( &ost, proc ) );
}
NetgenOutStream operator<< ( ostream & ost, Procs & procs )
{
return ( NetgenOutStream ( &ost, procs ) );
}
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extern NetgenGeometry * ng_geometry;
extern AutoPtr<Mesh> mesh;
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Tcl_Interp * tcl_interp;
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#ifdef SOCKETS
AutoPtr<ClientSocket> clientsocket;
ServerSocketManager serversocketmanager;
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//Array< AutoPtr < ServerInfo > > servers;
Array< ServerInfo* > servers;
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AutoPtr<ServerSocketUserNetgen> serversocketusernetgen;
#endif
// visualization scenes, pointer vs selects which one is drawn:
static VisualScene vscross;
extern VisualSceneSurfaceMeshing vssurfacemeshing;
extern VisualSceneMesh vsmesh;
extern VisualSceneMeshDoctor vsmeshdoc;
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static VisualSceneSpecPoints vsspecpoints;
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VisualSceneSolution vssolution;
VisualScene *vs = &vscross;
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char * err_needsmesh = (char*) "This operation needs a mesh";
char * err_jobrunning = (char*) "Meshing Job already running";
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#ifndef SMALLLIB
// Destination for messages, errors, ...
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DLL_HEADER void Ng_PrintDest(const char * s)
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{
#ifdef PARALLEL
int id, ntasks;
MPI_Comm_size(MPI_COMM_WORLD, &ntasks);
MPI_Comm_rank(MPI_COMM_WORLD, &id);
#else
int id = 0; int ntasks = 1;
#endif
if ( ntasks == 1 )
(*mycout) << s << flush;
else
(*mycout) << "p" << id << ": " << s << flush ;
}
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DLL_HEADER void MyError(const char * ch)
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{
cout << ch;
(*testout) << "Error !!! " << ch << endl << flush;
}
#endif
static clock_t starttimea;
void ResetTime ()
{
starttimea = clock();
}
#ifndef SMALLLIB
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DLL_HEADER double GetTime ()
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{
return double(clock() - starttimea) / CLOCKS_PER_SEC;
}
#endif
// file handling ..
int Ng_New (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (strcmp (argv[1], "mesh") == 0)
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mesh.Reset();
if (strcmp (argv[1], "geom") == 0)
{
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delete ng_geometry;
ng_geometry = new NetgenGeometry;
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}
return TCL_OK;
}
int Ng_ImportMesh (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[]);
int Ng_LoadMesh (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
string filename (argv[1]);
if ( (strlen (filename.c_str()) > 4) &&
strcmp (&filename[strlen (filename.c_str())-4], ".vol") != 0 )
{
return Ng_ImportMesh(clientData,interp,argc,argv);
}
PrintMessage (1, "load mesh from file ", filename);
mesh.Reset (new Mesh());
try
{
//mesh -> Load (filename);
ifstream infile(filename.c_str());
mesh -> Load(infile);
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for (int i = 0; i < geometryregister.Size(); i++)
{
NetgenGeometry * hgeom = geometryregister[i]->LoadFromMeshFile (infile);
if (hgeom)
{
delete ng_geometry;
ng_geometry = hgeom;
break;
}
}
/*
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string auxstring;
if(infile.good())
{
infile >> auxstring;
if(auxstring == "csgsurfaces")
{
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CSGeometry * geometry = new CSGeometry ("");
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geometry -> LoadSurfaces(infile);
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delete ng_geometry;
ng_geometry = geometry;
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}
}
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*/
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}
catch (NgException e)
{
PrintMessage (3, e.What());
return TCL_ERROR;
}
PrintMessage (2, mesh->GetNP(), " Points, ",
mesh->GetNE(), " Elements.");
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return TCL_OK;
}
int Ng_SaveMesh (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
const string filename (argv[1]);
PrintMessage (1, "Save mesh to file ", filename, ".... Please Wait!");
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ofstream outfile(filename.c_str());
mesh -> Save (outfile);
outfile << endl << endl << "endmesh" << endl << endl;
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ng_geometry -> SaveToMeshFile (outfile);
/*
CSGeometry * geometry = dynamic_cast<CSGeometry*> (ng_geometry);
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if (geometry && geometry->GetNSurf()) geometry->SaveSurfaces(outfile);
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*/
PrintMessage (1, "Save mesh to file .... DONE!");
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return TCL_OK;
}
int Ng_MergeMesh (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
string filename (argv[1]);
PrintMessage (1, "merge with mesh from file ", filename);
try
{
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CSGeometry * geometry = dynamic_cast<CSGeometry*> (ng_geometry);
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//mesh -> Merge (filename);
ifstream infile(filename.c_str());
const int offset = (geometry) ? geometry->GetNSurf() : 0;
mesh -> Merge(infile,offset);
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string auxstring;
if(infile.good())
{
infile >> auxstring;
if(auxstring == "csgsurfaces")
geometry -> LoadSurfaces(infile);
}
}
catch (NgException e)
{
PrintMessage (3, e.What());
return TCL_ERROR;
}
PrintMessage (2, mesh->GetNP(), " Points, ",
mesh->GetNSE(), " Surface Elements.");
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return TCL_OK;
}
int Ng_ExportMesh (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
string filename (argv[1]);
string filetype (argv[2]);
PrintMessage (1, "Export mesh to file ", filename, ".... Please Wait!");
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// CSGeometry * geometry = dynamic_cast<CSGeometry*> (ng_geometry);
if (WriteUserFormat (filetype, *mesh, *ng_geometry, filename))
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{
ostringstream ost;
ost << "Sorry, nothing known about file format " << filetype << endl;
Tcl_SetResult (interp, (char*)ost.str().c_str(), TCL_VOLATILE);
return TCL_ERROR;
}
PrintMessage (1, "Export mesh to file .... DONE!");
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return TCL_OK;
}
int Ng_ImportMesh (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
const string filename (argv[1]);
PrintMessage (1, "import mesh from ", filename);
mesh.Reset (new Mesh());
ReadFile (*mesh, filename);
PrintMessage (2, mesh->GetNP(), " Points, ",
mesh->GetNE(), " Elements.");
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mesh->SetGlobalH (mparam.maxh);
mesh->CalcLocalH();
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return TCL_OK;
}
int Ng_ImportSolution (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
const char * filename = argv[1];
PrintMessage (1, "Import solution from file ", filename);
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ImportSolution (filename);
return TCL_OK;
}
static DemoView * demoview = 0;
int Ng_ShowDemo (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
const char * filename = argv[1];
PrintMessage (1, "Show demo ", filename);
demoview = new DemoView (filename);
return TCL_OK;
}
int Ng_DemoSetTime (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
cout << "demosettime, time = " << argv[1] << endl;
int result = -1;
static char strminusone[] = "-1";
static char str0[] = "0";
if (demoview)
result = demoview->SetTime (atof (argv[1]));
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if (result == -1)
Tcl_SetResult (interp, strminusone, TCL_STATIC);
else
Tcl_SetResult (interp, str0, TCL_STATIC);
return TCL_OK;
}
int Ng_SaveSolution (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
const char * filename = argv[1];
PrintMessage (1, "Save solution to file ", filename);
vssolution.SaveSolutionData (filename);
return TCL_OK;
}
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int Ng_SetNextTimeStamp (ClientData clientData,
Tcl_Interp * interp,
int argqc, tcl_const char *argv[])
{
if (mesh.Ptr())
mesh -> SetNextTimeStamp();
return TCL_OK;
}
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int Ng_LoadGeometry (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
tcl_const char * lgfilename = argv[1];
#ifdef LOG_STREAM
(*logout) << "Load geometry file: " << lgfilename << endl;
#endif
#ifdef STAT_STREAM
(*statout) << lgfilename << " & " << endl;
#endif
try
{
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for (int i = 0; i < geometryregister.Size(); i++)
{
NetgenGeometry * hgeom = geometryregister[i]->Load (lgfilename);
if (hgeom)
{
delete ng_geometry;
ng_geometry = hgeom;
mesh.Reset();
return TCL_OK;
}
}
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ifstream infile(lgfilename);
if (strlen(lgfilename) < 4)
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{
cout << "ERROR: cannot recognise file format!" << endl;
}
else
{
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if ((strcmp (&lgfilename[strlen(lgfilename)-4], "iges") == 0) ||
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(strcmp (&lgfilename[strlen(lgfilename)-3], "igs") == 0) ||
(strcmp (&lgfilename[strlen(lgfilename)-3], "IGS") == 0) ||
(strcmp (&lgfilename[strlen(lgfilename)-4], "IGES") == 0))
{
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Tcl_SetResult (interp, (char*)"IGES import requires the OpenCascade geometry kernel. "
"Please install OpenCascade as described in the Netgen-website",
TCL_STATIC);
return TCL_ERROR;
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}
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else if (strcmp (&lgfilename[strlen(lgfilename)-3], "sat") == 0)
{
#ifdef ACIS
PrintMessage (1, "Load ACIS geometry file ", lgfilename);
acisgeometry = netgen::LoadACIS_SAT (lgfilename);
#endif
}
else if ((strcmp (&lgfilename[strlen(lgfilename)-4], "step") == 0) ||
(strcmp (&lgfilename[strlen(lgfilename)-3], "stp") == 0) ||
(strcmp (&lgfilename[strlen(lgfilename)-3], "STP") == 0) ||
(strcmp (&lgfilename[strlen(lgfilename)-4], "STEP") == 0))
{
#ifdef ACISxxx
PrintMessage (1, "Load STEP geometry file ", lgfilename);
acisgeometry = netgen::LoadACIS_STEP (lgfilename);
#else
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Tcl_SetResult (interp, (char*)"IGES import requires the OpenCascade geometry kernel. "
"Please install OpenCascade as described in the Netgen-website",
TCL_STATIC);
return TCL_ERROR;
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#endif
}
else if ((strcmp (&lgfilename[strlen(lgfilename)-4], "brep") == 0) ||
(strcmp (&lgfilename[strlen(lgfilename)-4], "Brep") == 0) ||
(strcmp (&lgfilename[strlen(lgfilename)-4], "BREP") == 0))
{
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Tcl_SetResult (interp, (char*)"BREP import requires the OpenCascade geometry kernel. "
"Please install OpenCascade as described in the Netgen-website",
TCL_STATIC);
return TCL_ERROR;
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}
}
}
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catch (NgException e)
{
Tcl_SetResult (interp, const_cast<char*> (e.What().c_str()), TCL_VOLATILE);
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return TCL_ERROR;
}
mesh.Reset();
return TCL_OK;
}
int Ng_SaveGeometry (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (argc == 2)
{
const char * cfilename = argv[1];
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try
{
ng_geometry -> Save (string (cfilename));
}
catch (NgException e)
{
Tcl_SetResult (interp, const_cast<char*> (e.What().c_str()), TCL_VOLATILE);
return TCL_ERROR;
}
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PrintMessage (1, "Save geometry to file ", cfilename);
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if (strlen(cfilename) < 4) {cout << "ERROR: can not recognise file format!!!" << endl;}
else
{
#ifdef ACIS
if (acisgeometry)
{
char * filename = const_cast<char*> (argv[1]);
if (strcmp (&filename[strlen(filename)-3], "sat") == 0)
{
acisgeometry -> SaveSATFile (filename);
}
}
#endif
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/*
if (strcmp (&cfilename[strlen(cfilename)-3], "ngg") == 0)
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{
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CSGeometry * geometry = dynamic_cast<CSGeometry*> (ng_geometry);
if (geometry)
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{
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ofstream of(cfilename);
geometry->Save (of);
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}
}
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*/
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}
}
return TCL_OK;
}
int Ng_ReadStatus (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
char buf[20], lstring[200];
if (mesh.Ptr())
{
sprintf (buf, "%d", mesh->GetNP());
Tcl_SetVar (interp, "::status_np", buf, 0);
sprintf (buf, "%d", mesh->GetNE());
Tcl_SetVar (interp, "::status_ne", buf, 0);
sprintf (buf, "%d", mesh->GetNSE());
Tcl_SetVar (interp, "::status_nse", buf, 0);
}
else
{
Tcl_SetVar (interp, "::status_np", "0", 0);
Tcl_SetVar (interp, "::status_ne", "0", 0);
Tcl_SetVar (interp, "::status_nse", "0", 0);
}
if (multithread.running)
Tcl_SetVar (interp, "::status_working", "working", 0);
else
Tcl_SetVar (interp, "::status_working", " ", 0);
Tcl_SetVar (interp, "::status_task", const_cast<char *>(multithread.task), 0);
sprintf (buf, "%lf", multithread.percent);
Tcl_SetVar (interp, "::status_percent", buf, 0);
int i;
lstring[0] = 0;
for (i = 1; i <= tets_in_qualclass.Size(); i++)
{
sprintf (buf, " %d", tets_in_qualclass.Get(i));
strcat (lstring, buf);
}
for (i = tets_in_qualclass.Size()+1; i <= 20; i++)
strcat (lstring, " 0");
Tcl_SetVar (interp, "::status_tetqualclasses", lstring, 0);
return TCL_OK;
}
int Ng_MemInfo (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (argc < 2) return TCL_ERROR;
if (strcmp (argv[1], "usedmb") == 0)
{ // returns string of 512 '0' or '1'
static char usedmb[513];
for (int i = 0; i < 512; i++)
usedmb[i] = (i % 7 == 0) ? '1' : '0';
usedmb[512] = 0;
BaseDynamicMem::GetUsed (512, usedmb);
Tcl_SetResult (interp, usedmb, TCL_STATIC);
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return TCL_OK;
}
return TCL_ERROR;
}
int Ng_BCProp (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
static char buf[100];
if (argc < 2)
{
Tcl_SetResult (interp, (char*)"Ng_BCProp needs arguments", TCL_STATIC);
return TCL_ERROR;
}
if (strcmp (argv[1], "setbc") == 0)
{
int facenr = atoi (argv[2]);
int bcnr = atoi (argv[3]);
if (mesh.Ptr() && facenr >= 1 && facenr <= mesh->GetNFD())
mesh->GetFaceDescriptor (facenr).SetBCProperty (bcnr);
}
if (strcmp (argv[1], "setall") == 0)
{
int bcnr = atoi (argv[2]);
if (mesh.Ptr())
{
int nfd = mesh->GetNFD();
for (int i = 1; i <= nfd; i++)
mesh->GetFaceDescriptor (i).SetBCProperty (bcnr);
}
}
if (strcmp (argv[1], "getbc") == 0)
{
int facenr = atoi (argv[2]);
if (mesh.Ptr() && facenr >= 1 && facenr <= mesh->GetNFD())
{
sprintf (buf, "%d", mesh->GetFaceDescriptor(facenr).BCProperty());
}
else
{
strcpy (buf, "0");
}
Tcl_SetResult (interp, buf, TCL_STATIC);
}
if (strcmp (argv[1], "getbcname") == 0)
{
int facenr = atoi (argv[2]);
if (mesh.Ptr() && facenr >= 1 && facenr <= mesh->GetNFD())
{
sprintf (buf, "%s", mesh->GetFaceDescriptor(facenr).GetBCName().c_str());
}
else
{
strcpy (buf, "-");
}
Tcl_SetResult (interp, buf, TCL_STATIC);
}
if (strcmp (argv[1], "getactive") == 0)
{
sprintf (buf, "%d", vsmesh.SelectedFace());
Tcl_SetResult (interp, buf, TCL_STATIC);
}
if (strcmp (argv[1], "setactive") == 0)
{
int facenr = atoi (argv[2]);
if (mesh.Ptr() && facenr >= 1 && facenr <= mesh->GetNFD())
{
vsmesh.SetSelectedFace (facenr);
}
}
if (strcmp (argv[1], "getnfd") == 0)
{
if (mesh.Ptr())
sprintf (buf, "%d", mesh->GetNFD());
else
sprintf (buf, "0");
Tcl_SetResult (interp, buf, TCL_STATIC);
}
return TCL_OK;
}
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int Ng_Refine (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
#ifdef ACIS
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if (acisgeometry)
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{
ACISRefinementSurfaces ref (*acisgeometry);
ACISMeshOptimize2dSurfaces opt(*acisgeometry);
ref.Set2dOptimizer(&opt);
ref.Refine (*mesh);
}
else
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#endif
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{
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ng_geometry -> GetRefinement().Refine(*mesh);
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}
//redo second order refinement if desired
if (mparam.secondorder)
const_cast<Refinement&> (ng_geometry->GetRefinement()).MakeSecondOrder(*mesh);
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return TCL_OK;
}
int Ng_SecondOrder (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
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const_cast<Refinement&> (ng_geometry -> GetRefinement()).MakeSecondOrder (*mesh);
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return TCL_OK;
}
void * HighOrderDummy (void *)
{
// mparam.elementorder = atoi (Tcl_GetVar (interp, "options.elementorder", 0));
const char * savetask = multithread.task;
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Refinement & ref = const_cast<Refinement&> (ng_geometry -> GetRefinement());
mesh -> GetCurvedElements().BuildCurvedElements (&ref, mparam.elementorder);
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multithread.task = savetask;
multithread.running = 0;
multithread.terminate = 1;
mesh -> SetNextMajorTimeStamp();
return 0;
}
int Ng_HighOrder (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
multithread.running = 1;
multithread.terminate = 0;
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mparam.elementorder = atoi(argv[1]);
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HighOrderDummy(NULL);
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return TCL_OK;
}
void * ValidateDummy (void *)
{
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Refinement & ref = const_cast<Refinement&> (ng_geometry -> GetRefinement());
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ref.ValidateSecondOrder (*mesh);
multithread.running = 0;
return NULL;
}
int Ng_ValidateSecondOrder (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
multithread.running = 1;
RunParallel (ValidateDummy, NULL);
return TCL_OK;
}
int Ng_ZRefinement (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
ZRefinementOptions opt;
opt.minref = 5;
if (argc >= 2) opt.minref = atoi (argv[1]);
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ZRefinement (*mesh, ng_geometry, opt);
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return TCL_OK;
}
int Ng_HPRefinement (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
int levels = atoi (argv[1]);
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Refinement & ref = const_cast<Refinement&> (ng_geometry -> GetRefinement());
HPRefinement (*mesh, &ref, levels);
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return TCL_OK;
}
int Ng_LoadMeshSize (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
mesh->LoadLocalMeshSize(argv[1]);
return TCL_OK;
}
int Ng_MeshSizeFromSurfaceMesh (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
mesh->SetGlobalH (mparam.maxh);
mesh->CalcLocalH();
return TCL_OK;
}
// Philippose Rajan - 13 June 2009
// Added a new TCL function call for the generation
// of prismatic boundary layers
int Ng_GenerateBoundaryLayer (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if(multithread.running)
{
Tcl_SetResult(interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
GenerateBoundaryLayer (*mesh, mparam);
return TCL_OK;
}
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int Ng_InsertVirtualBL (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
InsertVirtualBoundaryLayer (*mesh);
return TCL_OK;
}
int Ng_CutOffAndCombine (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
Mesh othermesh;
othermesh.Load (argv[1]);
othermesh.SetGlobalH (mparam.maxh);
othermesh.CalcLocalH();
CutOffAndCombine (*mesh, othermesh);
return TCL_OK;
}
int Ng_HelmholtzMesh (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
HelmholtzMesh (*mesh);
return TCL_OK;
}
int Ng_SetMeshingParameters (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
mparam.maxh = atof (Tcl_GetVar (interp, "::options.meshsize", 0));
mparam.minh = atof (Tcl_GetVar (interp, "::options.minmeshsize", 0));
mparam.meshsizefilename = Tcl_GetVar (interp, "::options.meshsizefilename", 0);
if (!strlen (mparam.meshsizefilename))
mparam.meshsizefilename = NULL;
mparam.curvaturesafety = atof (Tcl_GetVar (interp, "::options.curvaturesafety", 0));
mparam.segmentsperedge = atof (Tcl_GetVar (interp, "::options.segmentsperedge", 0));
mparam.badellimit = atof (Tcl_GetVar (interp, "::options.badellimit", 0));
mparam.secondorder = atoi (Tcl_GetVar (interp, "::options.secondorder", 0));
mparam.elementorder = atoi (Tcl_GetVar (interp, "::options.elementorder", 0));
mparam.quad = atoi (Tcl_GetVar (interp, "::options.quad", 0));
mparam.inverttets = atoi (Tcl_GetVar (interp, "::options.inverttets", 0));
mparam.inverttrigs = atoi (Tcl_GetVar (interp, "::options.inverttrigs", 0));
mparam.uselocalh = atoi (Tcl_GetVar (interp, "::options.localh", 0));
mparam.grading = atof (Tcl_GetVar (interp, "::options.grading", 0));
mparam.delaunay = atoi (Tcl_GetVar (interp, "::options.delaunay", 0));
mparam.checkoverlap = atoi (Tcl_GetVar (interp, "::options.checkoverlap", 0));
mparam.checkoverlappingboundary = atoi (Tcl_GetVar (interp, "::options.checkoverlappingboundary", 0));
mparam.checkchartboundary = atoi (Tcl_GetVar (interp, "::options.checkchartboundary", 0));
mparam.optsteps3d = atoi (Tcl_GetVar (interp, "::options.optsteps3d", 0));
mparam.optsteps2d = atoi (Tcl_GetVar (interp, "::options.optsteps2d", 0));
mparam.opterrpow = atof (Tcl_GetVar (interp, "::options.opterrpow", 0));
mparam.parthread = atoi (Tcl_GetVar (interp, "::options.parthread", 0));
mparam.elsizeweight = atof (Tcl_GetVar (interp, "::options.elsizeweight", 0));
mparam.autozrefine = atoi (Tcl_GetVar (interp, "::options.autozrefine", 0));
extern int printmessage_importance;
extern int printdots;
printmessage_importance = atoi (Tcl_GetVar (interp, "::options.printmsg", 0));
printdots = (printmessage_importance >= 4);
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//BaseMoveableMem::totalsize = 0;
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// 1048576 * atoi (Tcl_GetVar (interp, "::options.memory", 0));
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if (mesh.Ptr())
{
mesh->SetGlobalH (mparam.maxh);
mesh->SetMinimalH (mparam.minh);
}
return TCL_OK;
}
int Ng_SetDebugParameters (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
debugparam.slowchecks = atoi (Tcl_GetVar (interp, "::debug.slowchecks", 0));
debugparam.debugoutput = atoi (Tcl_GetVar (interp, "::debug.debugoutput", 0));
debugparam.haltexistingline = atoi (Tcl_GetVar (interp, "::debug.haltexistingline", 0));
debugparam.haltoverlap = atoi (Tcl_GetVar (interp, "::debug.haltoverlap", 0));
debugparam.haltsuccess = atoi (Tcl_GetVar (interp, "::debug.haltsuccess", 0));
debugparam.haltnosuccess = atoi (Tcl_GetVar (interp, "::debug.haltnosuccess", 0));
debugparam.haltlargequalclass = atoi (Tcl_GetVar (interp, "::debug.haltlargequalclass", 0));
debugparam.haltsegment = atoi (Tcl_GetVar (interp, "::debug.haltsegment", 0));
debugparam.haltnode = atoi (Tcl_GetVar (interp, "::debug.haltnode", 0));
debugparam.haltface = atoi (Tcl_GetVar (interp, "::debug.haltface", 0));
debugparam.haltsegmentp1 = atoi (Tcl_GetVar (interp, "::debug.haltsegmentp1", 0));
debugparam.haltsegmentp2 = atoi (Tcl_GetVar (interp, "::debug.haltsegmentp2", 0));
debugparam.haltfacenr = atoi (Tcl_GetVar (interp, "::debug.haltfacenr", 0));
return TCL_OK;
}
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int Ng_GetCommandLineParameter (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (argc != 2)
{
Tcl_SetResult (interp, (char*)"Ng_GetCommandLineParameter needs 1 parameter",
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TCL_STATIC);
return TCL_ERROR;
}
static char buf[10];
if (parameters.StringFlagDefined (argv[1]))
Tcl_SetResult (interp,
(char*)parameters.GetStringFlag (argv[1], NULL), TCL_STATIC);
else if (parameters.NumFlagDefined (argv[1]))
{
sprintf (buf, "%lf", parameters.GetNumFlag (argv[1], 0));
Tcl_SetResult (interp, buf, TCL_STATIC);
}
else if (parameters.GetDefineFlag (argv[1]))
Tcl_SetResult (interp, (char*)"defined", TCL_STATIC);
else
Tcl_SetResult (interp, (char*)"undefined", TCL_STATIC);
return TCL_OK;
}
static int perfstepsstart;
static int perfstepsend;
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static char* optstring = NULL;
static char* optstringcsg = NULL;
void * MeshingDummy (void *)
{
const char * savetask = multithread.task;
multithread.task = "Generate Mesh";
ResetTime();
try
{
#ifdef LOG_STREAM
(*logout) << "Start meshing" << endl;
(*logout) << "Meshing parameters:" << endl;
mparam.Print (*logout);
#endif
#ifdef ACIS
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if (acisgeometry)
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{
ACISGenerateMesh(*acisgeometry, mesh.Ptr(), perfstepsstart, perfstepsend, optstring);
}
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else
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#endif
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/*
if (geometry2d)
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{
extern void MeshFromSpline2D (SplineGeometry2d & geometry2d,
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Mesh *& mesh, MeshingParameters & mp);
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MeshFromSpline2D (*geometry2d, mesh.Ptr(), mparam);
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}
else
*/
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{
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int res = ng_geometry -> GenerateMesh (mesh.Ptr(), mparam, perfstepsstart, perfstepsend);
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if (res != MESHING3_OK)
{
multithread.task = savetask;
multithread.running = 0;
return 0;
}
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}
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if (mparam.autozrefine)
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{
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ZRefinementOptions opt;
opt.minref = 5;
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ZRefinement (*mesh, ng_geometry, opt);
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mesh -> SetNextMajorTimeStamp();
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}
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if (mparam.secondorder)
{
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const_cast<Refinement&> (ng_geometry -> GetRefinement()).MakeSecondOrder (*mesh);
mesh -> SetNextMajorTimeStamp();
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}
if (mparam.elementorder > 1)
{
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mesh -> GetCurvedElements().BuildCurvedElements (&const_cast<Refinement&> (ng_geometry -> GetRefinement()),
mparam.elementorder);
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mesh -> SetNextMajorTimeStamp();
}
PrintMessage (1, "Meshing done, time = ", GetTime(), " sec");
}
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catch (NgException e)
{
cout << e.What() << endl;
}
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multithread.task = savetask;
multithread.running = 0;
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#ifdef OCCGEOMETRYorig
// currently not active
OCCGeometry * occgeometry = dynamic_cast<OCCGeometry*> (ng_geometry);
if (occgeometry && occgeometry->ErrorInSurfaceMeshing())
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{
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char script[] = "rebuildoccdialog";
Tcl_GlobalEval (tcl_interp, script);
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}
#endif
return NULL;
}
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int MeshingVal(tcl_const char* str)
{
if (strcmp(str, "ag") == 0) {return MESHCONST_ANALYSE;}
if (strcmp(str, "me") == 0) {return MESHCONST_MESHEDGES;}
if (strcmp(str, "ms") == 0) {return MESHCONST_MESHSURFACE;}
if (strcmp(str, "os") == 0) {return MESHCONST_OPTSURFACE;}
if (strcmp(str, "mv") == 0) {return MESHCONST_MESHVOLUME;}
if (strcmp(str, "ov") == 0) {return MESHCONST_OPTVOLUME;}
cout << "TCL TK ERROR, wrong meshing value, return='" << str << "'" << endl;
return 0;
}
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int Ng_GenerateMesh (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
multithread.running = 1;
multithread.terminate = 0;
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for (int i = 0; i < geometryregister.Size(); i++)
geometryregister[i] -> SetParameters (interp);
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Ng_SetMeshingParameters (clientData, interp, 0, argv);
perfstepsstart = 1;
perfstepsend = 6;
if (optstringcsg) delete optstringcsg;
optstringcsg = NULL;
if (optstring) delete optstring;
optstring = NULL;
if (argc == 2)
{
perfstepsstart = 1;
perfstepsend = MeshingVal(argv[1]);
}
else if (argc == 3)
{
perfstepsstart = MeshingVal(argv[1]);
perfstepsend = MeshingVal(argv[2]);
}
else if (argc == 4)
{
perfstepsstart = MeshingVal(argv[1]);
perfstepsend = MeshingVal(argv[2]);
optstring = new char[strlen(argv[3])+1];
strcpy(optstring, argv[3]);
optstringcsg = new char[strlen(argv[3])+1];
strcpy(optstringcsg, argv[3]);
}
RunParallel (MeshingDummy, NULL);
return TCL_OK;
}
int Ng_StopMeshing (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
multithread.terminate = 1;
return TCL_OK;
}
int Ng_MeshInfo (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
ostringstream str;
if (argc >= 2 && strcmp (argv[1], "dim") == 0)
str << mesh->GetDimension();
else if (argc >= 2 && strcmp (argv[1], "np") == 0)
str << mesh->GetNP();
else if (argc >= 2 && strcmp (argv[1], "ne") == 0)
str << mesh->GetNE();
else if (argc >= 2 && strcmp (argv[1], "nse") == 0)
str << mesh->GetNSE();
else if (argc >= 2 && strcmp (argv[1], "nseg") == 0)
str << mesh->GetNSeg();
else if (argc >= 2 && strcmp (argv[1], "bbox") == 0)
{
Point3d pmin, pmax;
mesh->GetBox (pmin, pmax);
str << pmin.X() << " " << pmax.X() << " "
<< pmin.Y() << " " << pmax.Y() << " "
<< pmin.Z() << " " << pmax.Z() << endl;
}
else
{
cout << "argv[1] = " << argv[1] << endl;
Tcl_SetResult (interp, (char*)"Ng_MeshInfo requires an argument out of \n dim np ne", TCL_STATIC);
return TCL_ERROR;
}
Tcl_SetResult (interp, (char*)str.str().c_str(), TCL_VOLATILE);
return TCL_OK;
}
int Ng_MeshQuality (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
double angles[4];
char buf[10];
if (mesh.Ptr())
mesh->CalcMinMaxAngle(mparam.badellimit, angles);
else
{
angles[0] = angles[1] = angles[2] = angles[3] = 0;
}
sprintf (buf, "%5.1lf", angles[0]);
Tcl_SetVar (interp, argv[1], buf, 0);
sprintf (buf, "%5.1lf", angles[1]);
Tcl_SetVar (interp, argv[2], buf, 0);
sprintf (buf, "%5.1lf", angles[2]);
Tcl_SetVar (interp, argv[3], buf, 0);
sprintf (buf, "%5.1lf", angles[3]);
Tcl_SetVar (interp, argv[4], buf, 0);
return TCL_OK;
}
int Ng_CheckSurfaceMesh (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
mesh->FindOpenElements();
if (mesh->CheckConsistentBoundary())
{
PrintMessage (1, "surface mesh not consistent, trying orientation");
mesh->SurfaceMeshOrientation();
}
else
{
PrintMessage (1, "surface mesh consistent");
}
mesh->CheckOverlappingBoundary();
return TCL_OK;
}
int Ng_CheckVolumeMesh (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
mesh->CheckVolumeMesh();
return TCL_OK;
}
int Ng_DeleteVolMesh (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (mesh.Ptr())
mesh->ClearVolumeElements();
return TCL_OK;
}
int Ng_SplitSeparatedFaces (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (mesh.Ptr())
mesh->SplitSeparatedFaces ();
return TCL_OK;
}
int Ng_RestrictH (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
if (argc != 3)
return TCL_OK;
if (!mesh.Ptr())
return TCL_OK;
double loch = atof (argv[2]);
if (strcmp (argv[1], "face") == 0)
{
cout << "Restrict h at face to " << loch << endl;
mesh -> RestrictLocalH (RESTRICTH_FACE, vsmesh.SelectedFace(), loch);
}
if (strcmp (argv[1], "edge") == 0)
{
cout << "Restrict h at edge to " << loch << endl;
mesh -> RestrictLocalH (RESTRICTH_EDGE, vsmesh.SelectedEdge(), loch);
}
if (strcmp (argv[1], "point") == 0)
{
cout << "Restrict h at point to " << loch << endl;
mesh -> RestrictLocalH (RESTRICTH_POINT, vsmesh.SelectedPoint(), loch);
}
return TCL_OK;
}
int Ng_Anisotropy (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
if (argc != 2)
return TCL_OK;
if (!mesh.Ptr())
return TCL_OK;
if (strcmp (argv[1], "edge") == 0)
{
int edgenr = vsmesh.SelectedEdge();
for (int i = 1; i <= mesh->GetNSeg(); i++)
{
Segment & seg = mesh->LineSegment(i);
if (seg.edgenr == edgenr)
{
seg.singedge_left = 1 - seg.singedge_left;
seg.singedge_right = 1 - seg.singedge_right;
}
}
}
return TCL_OK;
}
BisectionOptions biopt;
void * BisectDummy (void *)
{
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const Refinement & ref = ng_geometry->GetRefinement();
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MeshOptimize2d * opt = NULL;
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/*
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#ifdef ACIS
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if (acisgeometry)
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{
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// ref = new ACISRefinementSurfaces(*acisgeometry);
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opt = new ACISMeshOptimize2dSurfaces(*acisgeometry);
ref->Set2dOptimizer(opt);
}
#endif
else
{
ref = new RefinementSurfaces(*geometry);
opt = new MeshOptimize2dSurfaces(*geometry);
ref->Set2dOptimizer(opt);
}
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*/
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if(!mesh->LocalHFunctionGenerated())
mesh->CalcLocalH();
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mesh->LocalHFunction().SetGrading (mparam.grading);
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ref . Bisect (*mesh, biopt);
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mesh -> UpdateTopology();
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mesh -> GetCurvedElements().BuildCurvedElements (&ref, mparam.elementorder);
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multithread.running = 0;
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delete opt;
return NULL;
}
int Ng_Bisect (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
cout << "Thread alrad running" << endl;
return TCL_OK;
}
multithread.running = 1;
biopt.outfilename = NULL; // "ngfepp.vol";
biopt.femcode = "fepp";
biopt.refinementfilename = NULL;
if (argc >= 2)
biopt.refinementfilename = argv[1];
// pthread_create (&meshingthread, NULL, &BisectDummy, NULL);
BisectDummy (0);
/*
extern void BisectTets (Mesh &, const CSGeometry *);
BisectTets (*mesh, geometry);
*/
return TCL_OK;
}
// int Ng_BisectCopyMesh (ClientData clientData,
// Tcl_Interp * interp,
// int argc, tcl_const char *argv[])
// {
// if (!mesh.Ptr())
// {
// Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
// return TCL_ERROR;
// }
// if (multithread.running)
// {
// Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
// return TCL_ERROR;
// }
// BisectTetsCopyMesh (*mesh, geometry.Ptr(), biopt);
// return TCL_OK;
// }
int Ng_Split2Tets (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
if (!mesh.Ptr())
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
if (multithread.running)
{
Tcl_SetResult (interp, err_jobrunning, TCL_STATIC);
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return TCL_ERROR;
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}
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mesh->Split2Tets ();
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return TCL_OK;
}
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extern int Ng_MeshDoctor (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[]);
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SYMBOLTABLE<VisualScene*> & GetVisualizationScenes ()
{
static SYMBOLTABLE<VisualScene*> vss;
return vss;
}
void AddVisualizationScene (const string & name,
VisualScene * avs)
{
GetVisualizationScenes().Set (name.c_str(), avs);
}
void SetVisualScene (Tcl_Interp * interp)
{
const char * vismode = vispar.selectvisual;
// Tcl_GetVar (interp, "selectvisual", 0);
vs = &vscross;
if (GetVisualizationScenes().Used(vismode))
{
vs = GetVisualizationScenes().Get(vismode);
}
else if (vismode)
{
if (strcmp (vismode, "geometry") == 0)
{
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for (int i = 0; i < geometryregister.Size(); i++)
{
VisualScene * hvs = geometryregister[i]->GetVisualScene (ng_geometry);
if (hvs)
{
vs = hvs;
return;
}
}
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#ifdef ACIS
else if (acisgeometry)
vs = &vsacisgeom;
#endif // ACIS
}
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if (strcmp (vismode, "mesh") == 0)
{
if (!meshdoctor.active)
vs = &vsmesh;
else
vs = &vsmeshdoc;
}
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// if (strcmp (vismode, "surfmeshing") == 0) vs = &vssurfacemeshing;
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if (strcmp (vismode, "specpoints") == 0) vs = &vsspecpoints;
// if (strcmp (vismode, "solution") == 0) vs = &vssolution;
}
}
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#if TOGL_MAJOR_VERSION==1
// Togl
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static int fontbase = 0;
void MyOpenGLText (const char * text)
{
glListBase (fontbase);
glCallLists (GLsizei(strlen(text)), GL_UNSIGNED_BYTE, text);
}
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static void init( struct Togl *togl )
{
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fontbase = Togl_LoadBitmapFont( togl, TOGL_BITMAP_8_BY_13 );
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glMatrixMode(GL_PROJECTION);
glLoadIdentity();
glMatrixMode(GL_MODELVIEW);
SetVisualScene (Togl_Interp(togl));
vs->DrawScene();
}
static void zap( struct Togl *togl )
{
;
}
static void draw( struct Togl *togl )
{
Tcl_Interp * interp = Togl_Interp(togl);
SetVisualScene (interp);
#ifdef STEREO
if (1) // vispar.stereo)
{
glMatrixMode (GL_MODELVIEW);
glPushMatrix();
glLoadIdentity ();
// glTranslatef (0.1, 0, 0);
gluLookAt (0.3, 0, 6, 0, 0, 0, 0, 1, 0);
Togl_StereoDrawBuffer(GL_BACK_RIGHT);
vs->DrawScene();
glLoadIdentity ();
// glTranslatef (-0.1, 0, 0);
gluLookAt (-0.3, 0, 6, 0, 0, 0, 0, 1, 0);
Togl_StereoDrawBuffer(GL_BACK_LEFT);
vs->DrawScene();
glPopMatrix();
Togl_SwapBuffers(togl);
}
else
#endif
{
glPushMatrix();
glLoadIdentity();
// gluLookAt (0, 0, 6, 0, 0, 0, 0, 1, 0);
vs->DrawScene();
Togl_SwapBuffers(togl);
glPopMatrix();
}
}
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static void reshape( struct Togl *togl)
{
int w = Togl_Width (togl);
int h = Togl_Height (togl);
glViewport(0, 0, w, h);
glMatrixMode(GL_PROJECTION);
glLoadIdentity();
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// OpenGL near and far clipping planes
double pnear = 0.1;
double pfar = 10;
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gluPerspective(20.0f, double(w) / h, pnear, pfar);
glMatrixMode(GL_MODELVIEW);
draw (togl);
}
#else
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// Sorry, Togl 2.0 not supported
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Tcl_Obj * togl_font;
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Togl * togl = NULL;
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void MyOpenGLText (const char * text)
{
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// cout << "togl - text: " << text << endl;
Togl_WriteChars (togl, togl_font, text, strlen(text));
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}
static int
init(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *const *objv)
{
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cout << "call init" << endl;
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if (Togl_GetToglFromObj(interp, objv[1], &togl) != TCL_OK)
return TCL_ERROR;
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cout << "call Togl - load font (crashes on my OpenSuse Linux64)" << endl;
// togl_font = Togl_LoadBitmapFont( togl, "Helvetica");
// togl_font = Togl_LoadBitmapFont( togl, "Times");
togl_font = Togl_LoadBitmapFont( togl, TOGL_BITMAP_8_BY_13 );
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// togl_font = Togl_LoadBitmapFont( togl, NULL );
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cout << "success" << endl;
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glMatrixMode(GL_PROJECTION);
glLoadIdentity();
glMatrixMode(GL_MODELVIEW);
SetVisualScene (Togl_Interp(togl));
vs->DrawScene();
return TCL_OK;
}
static int
zap(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *const *objv)
{
return TCL_OK;
}
static int
draw(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *const *objv)
{
SetVisualScene (interp);
glPushMatrix();
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glLoadIdentity();
vs->DrawScene();
Togl_SwapBuffers(togl);
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glPopMatrix();
return TCL_OK;
}
static int
reshape(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *const *objv)
{
int w = Togl_Width (togl);
int h = Togl_Height (togl);
glViewport(0, 0, w, h);
glMatrixMode(GL_PROJECTION);
glLoadIdentity();
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// OpenGL near and far clipping planes
double pnear = 0.1;
double pfar = 10;
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gluPerspective(20.0f, double(w) / h, pnear, pfar);
glMatrixMode(GL_MODELVIEW);
return TCL_OK;
}
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#endif
#if TOGL_MAJOR_VERSION==1
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#ifndef JPEGLIB
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static int Ng_SnapShot (struct Togl * togl,
int argc, tcl_const char *argv[])
{
const char * filename = argv[2];
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char str[250];
char filename2[250];
int len = strlen(filename);
strcpy (filename2, filename);
filename2[len-3] = 'p';
filename2[len-2] = 'p';
filename2[len-1] = 'm';
filename2[len] = 0;
cout << "Snapshot to file '" << filename << endl;
int w = Togl_Width (togl);
w = int((w + 1) / 4) * 4 + 4;
int h = Togl_Height (togl);
// unsigned char * buffer = new unsigned char[w*h*4];
unsigned char * buffer = new unsigned char[w*h*3];
glReadPixels (0, 0, w, h, GL_RGB, GL_UNSIGNED_BYTE, buffer);
ofstream outfile(filename2);
outfile << "P6" << endl
<< "# CREATOR: Netgen" << endl
<< w << " " << h << endl
<< "255" << endl;
for (int i = 0; i < h; i++)
for (int j = 0; j < w; j++)
for (int k = 0; k < 3; k++)
outfile.put (buffer[k+3*j+3*w*(h-i-1)]);
outfile << flush;
delete[] buffer;
// convert image file (Unix/Linux only):
sprintf(str,"convert -quality 100 %s %s", filename2, filename);
int err = system(str);
if (err != 0)
{
Tcl_SetResult (Togl_Interp(togl), (char*)"Cannot convert image file", TCL_VOLATILE);
return TCL_ERROR;
}
sprintf(str,"rm %s", filename2);
system(str);
return TCL_OK;
}
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#else
static int Ng_SnapShot (struct Togl * togl,
int argc, tcl_const char *argv[])
{
const char * filename = argv[2];
int len = strlen(filename);
if (strcmp ("jpg", filename+len-3) == 0)
{
cout << "Snapshot to file '" << filename << "'" << endl;
int w = Togl_Width (togl);
w = int((w + 1) / 4) * 4 + 4;
int h = Togl_Height (togl);
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// unsigned char * buffer = new unsigned char[w*h*4];
unsigned char * buffer = new unsigned char[w*h*3];
glReadPixels (0, 0, w, h, GL_RGB, GL_UNSIGNED_BYTE, buffer);
struct jpeg_compress_struct cinfo;
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struct jpeg_error_mgr jerr;
FILE *outfile = fopen(filename,"wb");
JSAMPROW row_pointer[1];
int row_stride, quality = 85; // 1...100
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cinfo.err = jpeg_std_error( &jerr );
jpeg_create_compress( &cinfo );
jpeg_stdio_dest( &cinfo, outfile );
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cinfo.image_width = w;
cinfo.image_height = h;
cinfo.input_components = 3;
cinfo.in_color_space = JCS_RGB;
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jpeg_set_defaults( &cinfo );
jpeg_set_quality( &cinfo, quality, TRUE );
jpeg_start_compress( &cinfo, TRUE );
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row_stride = 3*w;
while( cinfo.next_scanline < cinfo.image_height ) {
row_pointer[0] = &buffer[ (h-1-cinfo.next_scanline) * row_stride ];
(void)jpeg_write_scanlines( &cinfo, row_pointer, 1 );
}
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jpeg_finish_compress( &cinfo );
fclose( outfile );
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jpeg_destroy_compress( &cinfo );
fprintf( stdout, "done [ok]\n" );
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fflush( stdout );
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free( buffer );
return TCL_OK;
}
else
{
cout << "Snapshot to " << filename << " not supported" << endl;
return TCL_ERROR;
}
}
#endif
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#ifdef FFMPEG
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// thanks to Mikko Lyly @ CSC, Helsinki
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#define STATE_READY 0
#define STATE_STARTED 1
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#define INBUF_SIZE 4096
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#define DEFAULT_B_FRAMES 3
// #define DEFAULT_B_FRAMES 0
#define DEFAULT_GOP_SIZE 200
// #define DEFAULT_GOP_SIZE 10
// #define DEFAULT_BITRATE 500000
#define DEFAULT_BITRATE 5000000
// #define DEFAULT_MPG_BUFSIZE 500000
#define DEFAULT_MPG_BUFSIZE 500000
typedef struct buffer_s {
uint8_t *MPG;
uint8_t *YUV;
uint8_t *RGB;
uint8_t *ROW;
} buffer_t;
void free_buffers( buffer_t *buff ) {
free( buff->MPG );
free( buff->YUV );
free( buff->RGB );
free( buff->ROW );
}
static double psnr( double d ) {
if( d==0 )
return INFINITY;
return -10.0*log( d )/log( 10.0 );
}
void print_info( int count_frames, AVCodecContext *context, int bytes ) {
double tmp = context->width * context->height * 255.0 * 255.0;
double Ypsnr = psnr( context->coded_frame->error[0] / tmp );
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double quality = context->coded_frame->quality/(double)FF_QP2LAMBDA;
char pict_type = av_get_pict_type_char(context->coded_frame->pict_type);
cout << "video: frame=" << count_frames << " type=" << pict_type;
cout << " size=" << bytes << " PSNR(Y)=" << Ypsnr << " dB q=" << (float)quality << endl;
}
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static int Ng_VideoClip (struct Togl * togl,
int argc, tcl_const char *argv[])
{
static AVCodec *codec = NULL;
static AVCodecContext *context = NULL;
static AVFrame *YUVpicture = NULL;
static AVFrame *RGBpicture = NULL;
static int bytes, PIXsize, stride;
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static int y, nx, ny;
// static int ox, oy, viewp[4];
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static int i_state = STATE_READY;
static int initialized = 0;
static int count_frames = 0;
static int bitrate = DEFAULT_BITRATE;
static int gopsize = DEFAULT_GOP_SIZE;
static int bframes = DEFAULT_B_FRAMES;
static int MPGbufsize = DEFAULT_MPG_BUFSIZE;
static CodecID codec_id = CODEC_ID_MPEG1VIDEO;
static FILE *MPGfile;
static buffer_t buff;
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static struct SwsContext *img_convert_ctx;
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if (strcmp (argv[2], "init") == 0)
{
// Can't initialize when running:
//-------------------------------
if( i_state != STATE_READY ) {
cout << "cannot initialize: already running" << endl;
return TCL_ERROR;
}
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// Open output file:
//-------------------
const char * filename = argv[3];
cout << "Saving videoclip to file '" << filename << "'" << endl;
MPGfile = fopen(filename, "wb");
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// Determine picture size:
//------------------------
nx = Togl_Width (togl);
nx = int((nx + 1) / 4) * 4 + 4;
ny = Togl_Height (togl);
ny = 2 * (ny/2);
cout << "Width=" << nx << ", height=" << ny << endl;
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// Allocate buffers:
//------------------
PIXsize = nx*ny;
stride = 3*nx;
buff.RGB = (uint8_t*)malloc(stride*ny);
buff.ROW = (uint8_t*)malloc(stride);
buff.YUV = (uint8_t*)malloc(3*(PIXsize/2));
buff.MPG = (uint8_t*)malloc(MPGbufsize);
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// Initialize libavcodec:
//-----------------------
if( !initialized ) {
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av_register_all();
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initialized = 1;
}
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// Choose codec:
//--------------
codec = avcodec_find_encoder( codec_id );
if( !codec ) {
free_buffers( &buff );
fclose( MPGfile );
cout << "can't find codec" << endl;
return TCL_ERROR;
}
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// Init codec context etc.:
//--------------------------
context = avcodec_alloc_context();
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context->bit_rate = bitrate;
context->width = nx;
context->height = ny;
context->time_base = (AVRational){ 1, 25 };
context->gop_size = gopsize;
context->max_b_frames = bframes;
context->pix_fmt = PIX_FMT_YUV420P;
context->flags |= CODEC_FLAG_PSNR;
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if( avcodec_open( context, codec ) < 0 ) {
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cout << "can't open codec" << endl;
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avcodec_close( context );
av_free( context );
free_buffers( &buff );
fclose( MPGfile );
return TCL_ERROR;
}
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YUVpicture = avcodec_alloc_frame();
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YUVpicture->data[0] = buff.YUV;
YUVpicture->data[1] = buff.YUV + PIXsize;
YUVpicture->data[2] = buff.YUV + PIXsize + PIXsize / 4;
YUVpicture->linesize[0] = nx;
YUVpicture->linesize[1] = nx / 2;
YUVpicture->linesize[2] = nx / 2;
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RGBpicture = avcodec_alloc_frame();
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RGBpicture->data[0] = buff.RGB;
RGBpicture->data[1] = buff.RGB;
RGBpicture->data[2] = buff.RGB;
RGBpicture->linesize[0] = stride;
RGBpicture->linesize[1] = stride;
RGBpicture->linesize[2] = stride;
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// Set state "started":
//----------------------
i_state = STATE_STARTED;
cout << "savempg: state: started" << endl;
return TCL_OK;
}
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else if (strcmp (argv[2], "addframe") == 0)
{
// Can't compress if status != started:
//-------------------------------------
if( i_state != STATE_STARTED ) {
cout << "cannot add frame: codec not initialized" << endl;
return TCL_ERROR;
}
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// Read RGB data:
//---------------
glReadPixels (0, 0, nx, ny, GL_RGB, GL_UNSIGNED_BYTE, buff.RGB );
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// The picture is upside down - flip it:
//---------------------------------------
for( y=0; y<ny/2; y++ ) {
uint8_t *r1 = buff.RGB + stride*y;
uint8_t *r2 = buff.RGB + stride*(ny-1-y);
memcpy( buff.ROW, r1, stride );
memcpy( r1, r2, stride );
memcpy( r2, buff.ROW, stride );
}
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// Convert to YUV:
//----------------
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if( img_convert_ctx == NULL )
img_convert_ctx = sws_getContext( nx, ny, PIX_FMT_RGB24,
nx, ny, PIX_FMT_YUV420P,
SWS_BICUBIC, NULL, NULL, NULL );
if( img_convert_ctx == NULL ) {
cout << "can't initialize scaler context" << endl;
return TCL_ERROR;
}
sws_scale( img_convert_ctx, RGBpicture->data, RGBpicture->linesize,
0, ny, YUVpicture->data, YUVpicture->linesize );
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// Encode frame:
//--------------
bytes = avcodec_encode_video( context, buff.MPG,
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MPGbufsize, YUVpicture );
count_frames++;
print_info( count_frames, context, bytes );
fwrite( buff.MPG, 1, bytes, MPGfile );
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return TCL_OK;
}
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else if (strcmp (argv[2], "finalize") == 0)
{
// Can't stop if status != started:
//---------------------------------
if( i_state != STATE_STARTED ) {
cout << "cannot finalize: codec not initialized" << endl;
return TCL_ERROR;
}
// Get the delayed frames, if any:
//--------------------------------
for( ; bytes; ) {
bytes = avcodec_encode_video( context, buff.MPG, MPGbufsize, NULL );
count_frames++;
print_info( count_frames, context, bytes );
fwrite( buff.MPG, 1, bytes, MPGfile );
}
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// Add sequence end code:
//-----------------------
if( codec_id == CODEC_ID_MPEG1VIDEO ) {
buff.MPG[0] = 0x00;
buff.MPG[1] = 0x00;
buff.MPG[2] = 0x01;
buff.MPG[3] = 0xb7;
fwrite( buff.MPG, 1, 4, MPGfile );
}
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// Finalize:
//-----------
avcodec_close( context );
av_free( context );
av_free( YUVpicture );
av_free( RGBpicture );
free_buffers( &buff );
fclose( MPGfile );
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i_state = STATE_READY;
cout << "finalized" << endl;
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return TCL_OK;
}
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return TCL_OK;
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}
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#else
static int Ng_VideoClip (struct Togl * togl,
int argc, tcl_const char *argv[])
{
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Tcl_SetResult (Togl_Interp(togl), (char*)"Video not available, Netgen was not compiled with FFMPEG library", TCL_STATIC);
return TCL_ERROR;
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}
#endif
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#endif
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int Ng_MouseMove (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
int oldx, oldy;
int newx, newy;
oldx = atoi (argv[1]);
oldy = atoi (argv[2]);
newx = atoi (argv[3]);
newy = atoi (argv[4]);
SetVisualScene(interp);
vs->MouseMove (oldx, oldy, newx, newy, argv[5][0]);
return TCL_OK;
}
int Ng_MouseDblClick (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
int px, py;
px = atoi (argv[1]);
py = atoi (argv[2]);
SetVisualScene(interp);
vs->MouseDblClick (px, py);
return TCL_OK;
}
int Ng_ZoomAll (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
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SetVisualScene(interp);
vs->BuildScene (1);
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return TCL_OK;
}
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int Ng_Center (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
SetVisualScene(interp);
vs->BuildScene (2);
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return TCL_OK;
}
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int Ng_StandardRotation (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
SetVisualScene(interp);
vs->StandardRotation (argv[1]);
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return TCL_OK;
}
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int Ng_ArbitraryRotation (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
SetVisualScene(interp);
Array<double> alpha;
Array<Vec3d> vec;
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for(int i=1; i<argc; i+=4)
{
alpha.Append(atof(argv[i]));
vec.Append(Vec3d(atof(argv[i+1]),atof(argv[i+2]),atof(argv[i+3])));
}
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vs->ArbitraryRotation (alpha,vec);
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return TCL_OK;
}
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int Ng_Metis (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
#ifdef METISold
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if (!mesh)
{
Tcl_SetResult (interp, err_needsmesh, TCL_STATIC);
return TCL_ERROR;
}
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// METIS Partitioning
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if (mesh->GetDimension() == 3)
{
using namespace metis;
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int ne = mesh->GetNE();
if (ne < 3)
{
Tcl_SetResult (interp, "This operation needs a volume mesh", TCL_STATIC);
return TCL_ERROR;
}
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int nn = mesh->GetNP();
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ELEMENT_TYPE elementtype = mesh->VolumeElement(1).GetType();
int npe = mesh->VolumeElement(1).GetNP();
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for (int i = 2; i<=ne; i++)
if (mesh->VolumeElement(i).GetType() != elementtype)
{
Tcl_SetResult (interp, "Works in 3D only uniformal tet or hex meshes", TCL_STATIC);
return TCL_ERROR;
}
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idxtype *elmnts;
elmnts = new idxtype[ne*npe];
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int etype;
if (elementtype == TET)
etype = 2;
else if (elementtype == HEX)
etype = 3;
else
{
Tcl_SetResult (interp, "Works in 3D only uniformal tet or hex meshes", TCL_STATIC);
return TCL_ERROR;
}
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for (int i=1; i<=ne; i++)
for (int j=1; j<=npe; j++)
elmnts[(i-1)*npe+(j-1)] = mesh->VolumeElement(i).PNum(j)-1;
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int numflag = 0;
int nparts = atoi (argv[1]);
int edgecut;
idxtype *epart, *npart;
epart = new idxtype[ne];
npart = new idxtype[nn];
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cout << "Starting Metis (" << ne << " Elements, " << nn << " Nodes, " << nparts << " Partitions) ... " << flush;
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METIS_PartMeshNodal (&ne, &nn, elmnts, &etype, &numflag, &nparts,
&edgecut, epart, npart);
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cout << "done" << endl;
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cout << "edge-cut: " << edgecut << ", balance: " << ComputeElementBalance(ne, nparts, epart) << endl;
for (int i=1; i<=ne; i++)
mesh->VolumeElement(i).SetPartition(epart[i-1]);
mesh->SetNextTimeStamp();
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}
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#endif
return TCL_OK;
}
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void SelectFaceInOCCDialogTree (int facenr)
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{
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char script[50];
sprintf (script, "selectentity {Face %i}", facenr);
Tcl_GlobalEval (tcl_interp, script);
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}
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#ifndef ACIS
int Ng_ACISCommand (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
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{
if (argc >= 2)
{
if (strcmp (argv[1], "isACISavailable") == 0)
{
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Tcl_SetResult (interp, (char*)"no", TCL_STATIC);
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return TCL_OK;
}
}
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Tcl_SetResult (interp, (char*)"undefined ACiS command", TCL_STATIC);
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return TCL_ERROR;
}
#endif
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// from ng_interface
void Ng_SetVisualizationParameter (const char * name, const char * value)
{
// #ifdef OPENGL
// #ifndef NOTCL
char buf[100];
sprintf (buf, "visoptions.%s", name);
if (printmessage_importance>0)
{
cout << "name = " << name << ", value = " << value << endl;
cout << "set tcl-variable " << buf << " to " << value << endl;
}
Tcl_SetVar (tcl_interp, buf, const_cast<char*> (value), 0);
Tcl_Eval (tcl_interp, "Ng_Vis_Set parameters;");
// #endif
// #endif
}
}
using namespace netgen;
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void Ng_InitSolutionData (Ng_SolutionData * soldata)
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{
soldata -> name = NULL;
soldata -> data = NULL;
soldata -> components = 1;
soldata -> dist = 1;
soldata -> order = 1;
soldata -> iscomplex = 0;
soldata -> draw_surface = 1;
soldata -> draw_volume = 1;
soldata -> soltype = NG_SOLUTION_NODAL;
soldata -> solclass = 0;
}
void Ng_SetSolutionData (Ng_SolutionData * soldata)
{
#ifdef OPENGL
// vssolution.ClearSolutionData ();
VisualSceneSolution::SolData * vss = new VisualSceneSolution::SolData;
vss->name = new char[strlen (soldata->name)+1];
strcpy (vss->name, soldata->name);
vss->data = soldata->data;
vss->components = soldata->components;
vss->dist = soldata->dist;
vss->order = soldata->order;
vss->iscomplex = bool(soldata->iscomplex);
vss->draw_surface = soldata->draw_surface;
vss->draw_volume = soldata->draw_volume;
vss->soltype = VisualSceneSolution::SolType (soldata->soltype);
vss->solclass = soldata->solclass;
vssolution.AddSolutionData (vss);
#endif
}
void Ng_ClearSolutionData ()
{
#ifdef OPENGL
vssolution.ClearSolutionData();
#endif
}
namespace netgen
{
extern void Render ();
}
void Ng_Redraw ()
{
#ifdef OPENGL
extern bool nodisplay; // he: global in ngappinit.cpp
if (!nodisplay)
{
netgen::vssolution.UpdateSolutionTimeStamp();
Render();
}
#endif
}
namespace netgen
{
int firsttime = 1;
int animcnt = 0;
void PlayAnimFile(const char* name, int speed, int maxcnt)
{
//extern Mesh * mesh;
/*
if (mesh.Ptr()) mesh->DeleteMesh();
if (!mesh.Ptr()) mesh = new Mesh();
*/
mesh.Reset (new Mesh());
int ne, np, i;
char str[80];
char str2[80];
//int tend = 5000;
// for (ti = 1; ti <= tend; ti++)
//{
int rti = (animcnt%(maxcnt-1)) + 1;
animcnt+=speed;
sprintf(str2,"%05i.sol",rti);
strcpy(str,"mbssol/");
strcat(str,name);
strcat(str,str2);
if (printmessage_importance>0)
cout << "read file '" << str << "'" << endl;
ifstream infile(str);
infile >> ne;
for (i = 1; i <= ne; i++)
{
int j;
Element2d tri(TRIG);
tri.SetIndex(1); //faceind
for (j = 1; j <= 3; j++)
infile >> tri.PNum(j);
infile >> np;
for (i = 1; i <= np; i++)
{
Point3d p;
infile >> p.X() >> p.Y() >> p.Z();
if (firsttime)
mesh->AddPoint (p);
else
mesh->Point(i) = Point<3> (p);
}
//firsttime = 0;
Ng_Redraw();
}
}
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int Ng_SetVisParameters (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
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if (!Tcl_GetVar (interp, "::viewoptions.light.amb", TCL_GLOBAL_ONLY))
return TCL_ERROR;
vispar.lightamb = atof (Tcl_GetVar (interp, "::viewoptions.light.amb", TCL_GLOBAL_ONLY));
vispar.lightdiff = atof (Tcl_GetVar (interp, "::viewoptions.light.diff", TCL_GLOBAL_ONLY));
vispar.lightspec = atof (Tcl_GetVar (interp, "::viewoptions.light.spec", TCL_GLOBAL_ONLY));
vispar.shininess = atof (Tcl_GetVar (interp, "::viewoptions.mat.shininess", TCL_GLOBAL_ONLY));
vispar.locviewer = atoi (Tcl_GetVar (interp, "::viewoptions.light.locviewer", TCL_GLOBAL_ONLY));
vispar.transp = atof (Tcl_GetVar (interp, "::viewoptions.mat.transp", TCL_GLOBAL_ONLY));
vispar.clipnormal.X() = atof (Tcl_GetVar (interp, "::viewoptions.clipping.nx", TCL_GLOBAL_ONLY));
vispar.clipnormal.Y() = atof (Tcl_GetVar (interp, "::viewoptions.clipping.ny", TCL_GLOBAL_ONLY));
vispar.clipnormal.Z() = atof (Tcl_GetVar (interp, "::viewoptions.clipping.nz", TCL_GLOBAL_ONLY));
vispar.clipdist = atof (Tcl_GetVar (interp, "::viewoptions.clipping.dist", TCL_GLOBAL_ONLY));
vispar.clipenable = atoi (Tcl_GetVar (interp, "::viewoptions.clipping.enable", TCL_GLOBAL_ONLY));
vispar.clipdomain =
atoi (Tcl_GetVar (interp, "::viewoptions.clipping.onlydomain", TCL_GLOBAL_ONLY));
vispar.donotclipdomain =
atoi (Tcl_GetVar (interp, "::viewoptions.clipping.notdomain", TCL_GLOBAL_ONLY));
vispar.clipplanetimestamp = NextTimeStamp();
vispar.whitebackground = atoi (Tcl_GetVar (interp, "::viewoptions.whitebackground", TCL_GLOBAL_ONLY));
vispar.drawcoordinatecross = atoi (Tcl_GetVar (interp, "::viewoptions.drawcoordinatecross", TCL_GLOBAL_ONLY));
vispar.drawcolorbar = atoi (Tcl_GetVar (interp, "::viewoptions.drawcolorbar", TCL_GLOBAL_ONLY));
vispar.drawnetgenlogo = atoi (Tcl_GetVar (interp, "::viewoptions.drawnetgenlogo", TCL_GLOBAL_ONLY));
vispar.stereo = atoi (Tcl_GetVar (interp, "::viewoptions.stereo", TCL_GLOBAL_ONLY));
vispar.colormeshsize = atoi (Tcl_GetVar (interp, "::viewoptions.colormeshsize", TCL_GLOBAL_ONLY));
VisualScene :: SetBackGroundColor (vispar.whitebackground ? 1 : 0);
strcpy (vispar.selectvisual, Tcl_GetVar (interp, "::selectvisual", TCL_GLOBAL_ONLY));
// vispar.showstltrias = atoi (Tcl_GetVar (interp, "::viewoptions.stl.showtrias", TCL_GLOBAL_ONLY));
vispar.stlshowtrias =
atoi (Tcl_GetVar (interp, "::stloptions.showtrias", TCL_GLOBAL_ONLY));
vispar.stlshowfilledtrias =
atoi (Tcl_GetVar (interp, "::stloptions.showfilledtrias", TCL_GLOBAL_ONLY));
vispar.stlshowedges =
atoi (Tcl_GetVar (interp, "::stloptions.showedges", TCL_GLOBAL_ONLY));
vispar.stlshowmarktrias =
atoi (Tcl_GetVar (interp, "::stloptions.showmarktrias", TCL_GLOBAL_ONLY));
vispar.stlshowactivechart =
atoi (Tcl_GetVar (interp, "::stloptions.showactivechart", TCL_GLOBAL_ONLY));
vispar.stlchartnumber =
atoi (Tcl_GetVar (interp, "::stloptions.chartnumber", TCL_GLOBAL_ONLY));
vispar.stlchartnumberoffset =
atoi (Tcl_GetVar (interp, "::stloptions.chartnumberoffset", TCL_GLOBAL_ONLY));
vispar.occshowsurfaces =
atoi (Tcl_GetVar (interp, "::occoptions.showsurfaces", TCL_GLOBAL_ONLY));
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vispar.occshowedges =
atoi (Tcl_GetVar (interp, "::occoptions.showedges", TCL_GLOBAL_ONLY));
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vispar.drawoutline =
atoi (Tcl_GetVar (interp, "::viewoptions.drawoutline", TCL_GLOBAL_ONLY));
vispar.drawfilledtrigs =
atoi (Tcl_GetVar (interp, "::viewoptions.drawfilledtrigs", TCL_GLOBAL_ONLY));
vispar.subdivisions =
atoi (Tcl_GetVar (interp, "::visoptions.subdivisions", TCL_GLOBAL_ONLY));
vispar.drawbadels =
atoi (Tcl_GetVar (interp, "::viewoptions.drawbadels", TCL_GLOBAL_ONLY));
vispar.drawedges =
atoi (Tcl_GetVar (interp, "::viewoptions.drawedges", TCL_GLOBAL_ONLY));
vispar.drawtetsdomain =
atoi (Tcl_GetVar (interp, "::viewoptions.drawtetsdomain", TCL_GLOBAL_ONLY));
vispar.drawtets =
atoi (Tcl_GetVar (interp, "::viewoptions.drawtets", TCL_GLOBAL_ONLY));
vispar.drawprisms =
atoi (Tcl_GetVar (interp, "::viewoptions.drawprisms", TCL_GLOBAL_ONLY));
vispar.drawpyramids =
atoi (Tcl_GetVar (interp, "::viewoptions.drawpyramids", TCL_GLOBAL_ONLY));
vispar.drawhexes =
atoi (Tcl_GetVar (interp, "::viewoptions.drawhexes", TCL_GLOBAL_ONLY));
vispar.shrink =
atof (Tcl_GetVar (interp, "::viewoptions.shrink", TCL_GLOBAL_ONLY));
vispar.drawidentified =
atoi (Tcl_GetVar (interp, "::viewoptions.drawidentified", TCL_GLOBAL_ONLY));
vispar.drawpointnumbers =
atoi (Tcl_GetVar (interp, "::viewoptions.drawpointnumbers", TCL_GLOBAL_ONLY));
vispar.drawedgenumbers =
atoi (Tcl_GetVar (interp, "::viewoptions.drawedgenumbers", TCL_GLOBAL_ONLY));
vispar.drawfacenumbers =
atoi (Tcl_GetVar (interp, "::viewoptions.drawfacenumbers", TCL_GLOBAL_ONLY));
vispar.drawelementnumbers =
atoi (Tcl_GetVar (interp, "::viewoptions.drawelementnumbers", TCL_GLOBAL_ONLY));
vispar.drawdomainsurf =
atoi (Tcl_GetVar (interp, "::viewoptions.drawdomainsurf", TCL_GLOBAL_ONLY));
vispar.drawededges =
atoi (Tcl_GetVar (interp, "::viewoptions.drawededges", TCL_GLOBAL_ONLY));
vispar.drawedpoints =
atoi (Tcl_GetVar (interp, "::viewoptions.drawedpoints", TCL_GLOBAL_ONLY));
vispar.drawedpointnrs =
atoi (Tcl_GetVar (interp, "::viewoptions.drawedpointnrs", TCL_GLOBAL_ONLY));
vispar.drawedtangents =
atoi (Tcl_GetVar (interp, "::viewoptions.drawedtangents", TCL_GLOBAL_ONLY));
vispar.drawededgenrs =
atoi (Tcl_GetVar (interp, "::viewoptions.drawededgenrs", TCL_GLOBAL_ONLY));
vispar.drawcurveproj =
atoi (Tcl_GetVar (interp, "::viewoptions.drawcurveproj", TCL_GLOBAL_ONLY));
vispar.drawcurveprojedge =
atoi (Tcl_GetVar (interp, "::viewoptions.drawcurveprojedge", TCL_GLOBAL_ONLY));
vispar.centerpoint =
atoi (Tcl_GetVar (interp, "::viewoptions.centerpoint", TCL_GLOBAL_ONLY));
vispar.use_center_coords =
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atoi (Tcl_GetVar (interp, "::viewoptions.usecentercoords", TCL_GLOBAL_ONLY)) > 0;
vispar.centerx =
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atof (Tcl_GetVar (interp, "::viewoptions.centerx", TCL_GLOBAL_ONLY));
vispar.centery =
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atof (Tcl_GetVar (interp, "::viewoptions.centery", TCL_GLOBAL_ONLY));
vispar.centerz =
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atof (Tcl_GetVar (interp, "::viewoptions.centerz", TCL_GLOBAL_ONLY));
vispar.drawelement =
atoi (Tcl_GetVar (interp, "::viewoptions.drawelement", TCL_GLOBAL_ONLY));
vispar.drawmetispartition =
atoi (Tcl_GetVar (interp, "::viewoptions.drawmetispartition", TCL_GLOBAL_ONLY));
vispar.drawspecpoint =
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atoi (Tcl_GetVar (interp, "::viewoptions.drawspecpoint", TCL_GLOBAL_ONLY));
vispar.specpointx =
atof (Tcl_GetVar (interp, "::viewoptions.specpointx", TCL_GLOBAL_ONLY));
vispar.specpointy =
atof (Tcl_GetVar (interp, "::viewoptions.specpointy", TCL_GLOBAL_ONLY));
vispar.specpointz =
atof (Tcl_GetVar (interp, "::viewoptions.specpointz", TCL_GLOBAL_ONLY));
vsspecpoints.len =
atof (Tcl_GetVar (interp, "::viewoptions.specpointvlen", TCL_GLOBAL_ONLY));
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vispar.occdeflection = pow(10.0,-1-atof (Tcl_GetVar (interp, "::occoptions.deflection", TCL_GLOBAL_ONLY)));
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#ifdef PARALLELGL
vsmesh.Broadcast ();
#endif
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return TCL_OK;
}
int Ng_BuildFieldLines (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
vssolution.BuildFieldLinesPlot();
return TCL_OK;
}
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int Ng_Exit (ClientData clientData,
Tcl_Interp * interp,
int argc, tcl_const char *argv[])
{
#ifdef PARALLEL
int id, rc, ntasks;
MPI_Comm_size(MPI_COMM_WORLD, &ntasks);
MPI_Comm_rank(MPI_COMM_WORLD, &id);
if ( id != 0 )
return TCL_OK;
#endif
/*
if (ngsolve_handle)
{
void (*ngs_exit)();
ngs_exit = ( void (*)() ) dlsym (ngsolve_handle, "NGSolve_Exit");
if (ngs_exit) (*ngs_exit)();
}
*/
#ifdef NGSOLVE
NGSolve_Exit ();
#endif
#ifdef ACIS
outcome res;
res = api_terminate_faceter();
if(!res.ok())
cerr << "problem with terminating acis faceter" << endl;
res = api_terminate_constructors();
if(!res.ok())
cerr << "problem with terminating acis constructors" << endl;
res = api_terminate_kernel();
if(!res.ok())
cerr << "problem with terminating acis kernel" << endl;
res = api_stop_modeller();
if(!res.ok())
cerr << "problem with terminating acis modeller" << endl;
//cout << "stopped acis, outcome = " << res.ok() << endl;
#endif
#ifdef PARALLEL
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MyMPI_SendCmd ("end");
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#endif
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mesh.Reset (NULL);
if (testout != &cout)
delete testout;
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return TCL_OK;
}
#ifdef SOCKETS
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void * ServerSocketManagerRunDummy ( void * nix )
{
serversocketmanager.Run();
return NULL;
}
extern "C" int Ng_ServerSocketManagerRun( void );
int Ng_ServerSocketManagerRun( void )
{
if(mparam.parthread)
RunParallel(ServerSocketManagerRunDummy,NULL);
else
serversocketmanager.Run();
return TCL_OK;
}
extern "C" int Ng_ServerSocketManagerInit(int port);
int Ng_ServerSocketManagerInit(int port)
{
serversocketmanager.Init(port);
return TCL_OK;
}
#endif //SOCKETS
extern "C" int Ng_Init (Tcl_Interp * interp);
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extern "C" int Ng_CSG_Init (Tcl_Interp * interp);
#ifdef _MSC_VER
extern "C" int Ng_stl_Init (Tcl_Interp * interp);
extern "C" int Ng_geom2d_Init (Tcl_Interp * interp);
#endif
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#ifdef OCCGEOMETRY
// extern "C" int Ng_occ_Init (Tcl_Interp * interp);
#endif
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// extern "C" int Ng_Geom2d_Init (Tcl_Interp * interp);
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// int main_Eero (ClientData clientData,
// Tcl_Interp * interp,
// int argc, tcl_const char *argv[]);
int Ng_Init (Tcl_Interp * interp)
{
#ifdef SOCKETS
if(serversocketmanager.Good())
serversocketusernetgen.Reset(new ServerSocketUserNetgen (serversocketmanager, mesh, geometry));
#endif
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Ng_CSG_Init(interp);
#ifdef _MSC_VER
Ng_stl_Init(interp);
Ng_geom2d_Init (interp);
#endif
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// Ng_Geom2d_Init(interp);
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tcl_interp = interp;
// Tcl_CreateCommand (interp, "Ng_Eero", main_Eero,
// (ClientData)NULL,
// (Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_New", Ng_New,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
// Tcl_CreateCommand (interp, "Ng_Lock", Ng_Lock,
// (ClientData)NULL,
// (Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_LoadGeometry", Ng_LoadGeometry,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_SaveGeometry", Ng_SaveGeometry,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_LoadMesh", Ng_LoadMesh,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_SaveMesh", Ng_SaveMesh,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_MergeMesh", Ng_MergeMesh,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_ExportMesh", Ng_ExportMesh,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_ImportMesh", Ng_ImportMesh,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_ImportSolution", Ng_ImportSolution,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_ShowDemo", Ng_ShowDemo,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_DemoSetTime", Ng_DemoSetTime,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_SaveSolution", Ng_SaveSolution,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
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// meshing
Tcl_CreateCommand (interp, "Ng_GenerateMesh", Ng_GenerateMesh,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_StopMeshing", Ng_StopMeshing,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_MeshInfo", Ng_MeshInfo,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_MeshQuality", Ng_MeshQuality,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_CheckSurfaceMesh", Ng_CheckSurfaceMesh,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_CheckVolumeMesh", Ng_CheckVolumeMesh,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_DeleteVolMesh", Ng_DeleteVolMesh,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_SplitSeparatedFaces", Ng_SplitSeparatedFaces,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_SetNextTimeStamp", Ng_SetNextTimeStamp,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_Refine", Ng_Refine,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_SecondOrder", Ng_SecondOrder,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_HighOrder", Ng_HighOrder,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_ValidateSecondOrder", Ng_ValidateSecondOrder,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_RestrictH", Ng_RestrictH,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_Anisotropy", Ng_Anisotropy,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_Bisect", Ng_Bisect,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
// Tcl_CreateCommand (interp, "Ng_BisectCopyMesh", Ng_BisectCopyMesh,
// (ClientData)NULL,
// (Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_Split2Tets", Ng_Split2Tets,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_ZRefinement", Ng_ZRefinement,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_HPRefinement", Ng_HPRefinement,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_LoadMeshSize", Ng_LoadMeshSize,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_MeshSizeFromSurfaceMesh", Ng_MeshSizeFromSurfaceMesh,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_GenerateBoundaryLayer", Ng_GenerateBoundaryLayer,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
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Tcl_CreateCommand (interp, "Ng_InsertVirtualBL", Ng_InsertVirtualBL,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_CutOffAndCombine", Ng_CutOffAndCombine,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_HelmholtzMesh", Ng_HelmholtzMesh,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_ReadStatus", Ng_ReadStatus,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_MemInfo", Ng_MemInfo,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_MeshDoctor", Ng_MeshDoctor,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_BCProp", Ng_BCProp,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_ACISCommand",
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Ng_ACISCommand,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_MouseMove", Ng_MouseMove,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_MouseDblClick", Ng_MouseDblClick,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_ZoomAll", Ng_ZoomAll,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_Center", Ng_Center,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_StandardRotation", Ng_StandardRotation,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_ArbitraryRotation", Ng_ArbitraryRotation,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_SetVisParameters", Ng_SetVisParameters,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
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Tcl_CreateCommand (interp, "Ng_SetMeshingParameters", Ng_SetMeshingParameters,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_SetDebugParameters", Ng_SetDebugParameters,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_GetCommandLineParameter",
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Ng_GetCommandLineParameter,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_Exit",
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Ng_Exit,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_Metis",
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Ng_Metis,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
Tcl_CreateCommand (interp, "Ng_BuildFieldLines",
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Ng_BuildFieldLines,
(ClientData)NULL,
(Tcl_CmdDeleteProc*) NULL);
/*
* Specify the C callback functions for widget creation, display,
* and reshape.
*/
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#if TOGL_MAJOR_VERSION==1
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if (!nodisplay)
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{
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if (Togl_Init(interp) == TCL_ERROR)
return TCL_ERROR;
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Togl_CreateFunc( init );
Togl_DestroyFunc( zap );
Togl_DisplayFunc( draw );
Togl_ReshapeFunc( reshape );
// Togl_TimerFunc( idle );
Togl_CreateCommand( (char*)"Ng_SnapShot", Ng_SnapShot);
Togl_CreateCommand( (char*)"Ng_VideoClip", Ng_VideoClip);
// Togl_CreateCommand("position",position);
}
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#else
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if (!nodisplay)
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{
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if (Togl_Init(interp) == TCL_ERROR)
return TCL_ERROR;
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Tcl_CreateObjCommand(interp, "init", init, NULL, NULL);
Tcl_CreateObjCommand(interp, "zap", zap, NULL, NULL);
Tcl_CreateObjCommand(interp, "draw", draw, NULL, NULL);
Tcl_CreateObjCommand(interp, "reshape", reshape, NULL, NULL);
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// Togl_TimerFunc( idle );
// Togl_CreateCommand( (char*)"Ng_SnapShot", Ng_SnapShot);
// Togl_CreateCommand( (char*)"Ng_VideoClip", Ng_VideoClip);
// Togl_CreateCommand("position",position);
}
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#endif
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multithread.pause = 0;
multithread.testmode = 0;
multithread.redraw = 0;
multithread.drawing = 1;
multithread.terminate = 0;
multithread.running = 0;
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multithread.task = "";
multithread.percent = 20;
Tcl_LinkVar (interp, "multithread_pause",
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(char*)&multithread.pause, TCL_LINK_INT);
Tcl_LinkVar (interp, "multithread_testmode",
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(char*)&multithread.testmode, TCL_LINK_INT);
Tcl_LinkVar (interp, "multithread_redraw",
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(char*)&multithread.redraw, TCL_LINK_INT);
Tcl_LinkVar (interp, "multithread_drawing",
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(char*)&multithread.drawing, TCL_LINK_INT);
Tcl_LinkVar (interp, "multithread_terminate",
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(char*)&multithread.terminate, TCL_LINK_INT);
Tcl_LinkVar (interp, "multithread_running",
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(char*)&multithread.running, TCL_LINK_INT);
//testout->setstate(ios_base::badbit);
myerr = &cerr;
extern ostream * mycout;
mycout = &cout;
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testmode = 0;
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#ifdef ACIS
outcome res;
res = api_start_modeller (0);
if(!res.ok())
cerr << "problem with starting acis modeller" << endl;
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#ifdef ACIS_R17
unlock_spatial_products_661();
#endif
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res = api_initialize_kernel();
if(!res.ok())
cerr << "problem with starting acis kernel" << endl;
res = api_initialize_constructors();
if(!res.ok())
cerr << "problem with starting acis constructors" << endl;
res = api_initialize_faceter();
if(!res.ok())
cerr << "problem with starting acis faceter" << endl;
#endif
return TCL_OK;
}
}