/* The main function of netgen. This file is a modification of tkAppInit.c from the Tcl/Tk package */ #include #include #include #ifdef PARALLEL #include extern void ParallelRun(); namespace netgen { MPI_Comm mesh_comm; } #endif #include "../libsrc/interface/writeuser.hpp" namespace netgen { DLL_HEADER extern Flags parameters; DLL_HEADER extern bool netgen_executable_started; } DLL_HEADER extern bool nodisplay; using netgen::parameters; using netgen::ngdir; using netgen::verbose; using netgen::Array; using netgen::RegisterUserFormats; /* * The following variable is a special hack that is needed in order for * Sun shared libraries to be used for Tcl. */ // extern "C" int matherr(); // int *tclDummyMathPtr = (int *) matherr; extern "C" int Ng_ServerSocketManagerInit (int port); extern "C" int Ng_ServerSocketManagerRun (void); bool shellmode = false; /* * * The Netgen main function * */ int main(int argc, char ** argv) { netgen::netgen_executable_started = true; #ifdef PARALLEL int mpi_required = MPI_THREAD_MULTIPLE; #ifdef VTRACE mpi_required = MPI_THREAD_SINGLE; #endif int mpi_provided; MPI_Init_thread(&argc, &argv, mpi_required, &mpi_provided); MPI_Comm_size(MPI_COMM_WORLD, &netgen::ntasks); MPI_Comm_rank(MPI_COMM_WORLD, &netgen::id); MPI_Comm_dup ( MPI_COMM_WORLD, &netgen::mesh_comm); #endif if ( netgen::id == 0 ) { cout << "NETGEN-" << PACKAGE_VERSION << endl; cout << "Developed by Joachim Schoeberl at" << endl << "2010-xxxx Vienna University of Technology" << endl << "2006-2010 RWTH Aachen University" << endl << "1996-2006 Johannes Kepler University Linz" << endl; #ifdef OCCGEOMETRY cout << "Including OpenCascade geometry kernel" << endl; #endif #ifdef ACIS cout << "Including ACIS geometry kernel" << endl; #endif #ifdef LINUX //feenableexcept(FE_DIVBYZERO | FE_INVALID | FE_OVERFLOW); //feenableexcept(FE_DIVBYZERO | FE_INVALID | FE_OVERFLOW | FE_UNDERFLOW); //cout << "Handle Floating Point Exceptions: " << fegetexcept() << endl; #endif #ifdef DEBUG cout << "You are running the debug version !" << endl; #endif #ifdef PARALLEL if (netgen::ntasks == 1) { cout << "Run parallel Netgen with 'mpirun -np xy netgen'" << endl; } else { cout << "Running MPI - parallel using " << netgen::ntasks << " processor" << ((netgen::ntasks > 1) ? "s " : " ") << endl; cout << "MPI-version = " << MPI_VERSION << '.' << MPI_SUBVERSION << endl; if (mpi_provided == MPI_THREAD_MULTIPLE) cout << "multithreaded MPI is supported" << endl; } #endif } netgen::h_argc = argc; netgen::h_argv = argv; // command line arguments: for (int i = 1; i < argc; i++) { if (argv[i][0] == '-') parameters.SetCommandLineFlag (argv[i]); else { if (strstr(argv[i], ".py")) parameters.SetFlag ("py", argv[i]); else parameters.SetFlag ("geofile", argv[i]); } } if (getenv ("NETGENDIR") && strlen (getenv ("NETGENDIR"))) ngdir = getenv ("NETGENDIR"); else ngdir = "."; verbose = parameters.GetDefineFlag ("V"); if (verbose) cout << "NETGENDIR = " << ngdir << endl; if ( netgen::id == 0 ) { if (parameters.StringFlagDefined ("testout")) netgen::testout = new ofstream (parameters.GetStringFlag ("testout", "test.out")); #ifdef SOCKETS Ng_ServerSocketManagerInit(static_cast(parameters.GetNumFlag("serversocket",-1))); if(parameters.GetNumFlag("serversocket",-1) > 0 && !parameters.GetDefineFlag("display")) nodisplay = true; #endif if(parameters.GetDefineFlag("batchmode")) nodisplay = true; if(parameters.GetDefineFlag("shellmode")) { nodisplay = true; shellmode = true; } Tcl_FindExecutable(NULL); // initialize application Tcl_Interp * myinterp = Tcl_CreateInterp (); if (Tcl_AppInit (myinterp) == TCL_ERROR) { cerr << "Exit Netgen due to initialization problem" << endl; exit (1); } // parse tcl-script int errcode; bool internaltcl = false; if (shellmode) internaltcl = false; if (verbose) { cout << "Tcl header version = " << TCL_PATCH_LEVEL << endl; Tcl_Eval (myinterp, "puts \"Tcl runtime version = [info patchlevel] \";"); } if (parameters.GetDefineFlag ("internaltcl")) internaltcl=true; if (parameters.GetDefineFlag ("externaltcl")) internaltcl=false; if (internaltcl) { if (verbose) cout << "using internal Tcl-script" << endl; // connect to one string extern const char * ngscript[]; const char ** hcp = ngscript; int len = 0; while (*hcp) len += strlen (*hcp++); char * tr1 = new char[len+1]; *tr1 = 0; hcp = ngscript; char * tt1 = tr1; while (*hcp) { strcat (tt1, *hcp); tt1 += strlen (*hcp++); } errcode = Tcl_Eval (myinterp, tr1); delete [] tr1; } else { string startfile = ngdir + "/ng.tcl"; if (verbose) cout << "Load Tcl-script from " << startfile << endl; errcode = Tcl_EvalFile (myinterp, (char*)startfile.c_str()); } if (errcode) { cout << "Error in Tcl-Script:" << endl; // cout << "result = " << myinterp->result << endl; cout << "result = " << Tcl_GetStringResult (myinterp) << endl; // cout << "in line " << myinterp->errorLine << endl; cout << "\nMake sure to set environment variable NETGENDIR to directory containing ng.tcl" << endl; exit (1); } // lookup user file formats and insert into format list: Array userformats; Array extensions; RegisterUserFormats (userformats, extensions); ostringstream fstr; tcl_const char * exportft = Tcl_GetVar (myinterp, "exportfiletype", 0); for (int i = 1; i <= userformats.Size(); i++) { fstr << ".ngmenu.file.filetype add radio -label \"" << userformats.Get(i) << "\" -variable exportfiletype\n"; fstr << "lappend meshexportformats { {" << userformats.Get(i) << "} {" << extensions.Get(i) << "} }\n"; } Tcl_Eval (myinterp, (char*)fstr.str().c_str()); Tcl_SetVar (myinterp, "exportfiletype", exportft, 0); #ifdef SOCKETS Ng_ServerSocketManagerRun(); #endif // start event-loop Tk_MainLoop(); Tcl_DeleteInterp (myinterp); Tcl_Exit(0); } #ifdef PARALLEL else { ParallelRun(); MPI_Finalize(); } #endif return 0; } /* extern "C" int Tix_Init (Tcl_Interp * interp); extern "C" int Itcl_Init (Tcl_Interp * interp); extern "C" int Itk_Init (Tcl_Interp * interp); */ extern "C" int Ng_Init (Tcl_Interp * interp); extern "C" int Ng_Vis_Init (Tcl_Interp * interp); // extern Tcl_PackageInitProc * Tk_SafeInit; /* * * Initialize packages * */ // extern "C" int NGSolve_Init (Tcl_Interp * interp); int Tcl_AppInit(Tcl_Interp * interp) { if (Tcl_Init(interp) == TCL_ERROR) { cerr << "Problem in Tcl_Init: " << endl; cout << "result = " << Tcl_GetStringResult (interp) << endl; // cerr << interp->result << endl; // return TCL_ERROR; } if (!nodisplay && Tk_Init(interp) == TCL_ERROR) { cerr << "Problem in Tk_Init: " << endl; cout << "result = " << Tcl_GetStringResult (interp) << endl; // cerr << interp->result << endl; // return TCL_ERROR; } #ifdef TRAFO // extern int Trafo_Init (Tcl_Interp * interp); // if (Trafo_Init(interp) == TCL_ERROR) // { // cerr << "Problem in Trafo_Init: " << endl; // cerr << interp->result << endl; // return TCL_ERROR; // } #endif #ifdef EBGELAST extern int EBGElast_Init (Tcl_Interp * interp); if(EBGElast_Init(interp) == TCL_ERROR) { cerr << "Problem in EBGElast_Init: " << endl; cerr << interp->result << endl; return TCL_ERROR; } #endif #ifdef SMALLTRAFO extern int SmallModels_Init (Tcl_Interp * interp); if(SmallModels_Init(interp) == TCL_ERROR) { cerr << "Problem in SmallModel_Init: " << endl; cerr << interp->result << endl; return TCL_ERROR; } #endif #ifdef SOCKETS extern int Ng_Socket_Init (Tcl_Interp * interp); if ( Ng_Socket_Init(interp) == TCL_ERROR) { cerr << "Problem in Ng_Socket_Init: " << endl; cerr << interp->result << endl; return TCL_ERROR; } #endif #ifdef ZUGSTANGE extern int Zugstange_Init (Tcl_Interp * interp); if (Zugstange_Init(interp) == TCL_ERROR) { cerr << "Problem in Zugstange_Init: " << endl; cerr << interp->result << endl; return TCL_ERROR; } #endif Tcl_StaticPackage(interp, "Tk", Tk_Init, 0); return TCL_OK; }