#include #include "meshing.hpp" namespace netgen { class TraceGlobal { string name; public: TraceGlobal(string _name) : name(_name) { cout << "init global " << name << endl; } ~TraceGlobal() { cout << "exit global " << name << endl; } }; // stringstream emptystr; // ostream * testout = &emptystr; // testout -> clear(ios::failbit); // ostream * testout = &cout; ostream * testout = new ostream(0); // NetgenOutStream * testout = new NetgenOutStream; ostream * mycout = &cout; ostream * myerr = &cerr; // some functions (visualization) still need a global mesh // TraceGlobal glob1("global1"); DLL_HEADER shared_ptr mesh; DLL_HEADER shared_ptr ng_geometry; // TraceGlobal glob2("global2"); // global communicator for netgen MPI_Comm ng_comm = MPI_COMM_WORLD; weak_ptr global_mesh; void SetGlobalMesh (shared_ptr m) { PrintMessage(5, "set global mesh"); global_mesh = m; } // true if netgen was started using the netgen executable // false if netgen.gui was imported from python DLL_HEADER bool netgen_executable_started = false; // Flags parameters; int silentflag = 0; int testmode = 0; volatile multithreadt multithread; string ngdir = "."; void Ng_PrintDest(const char * s) { if (id == 0) (*mycout) << s << flush; } DLL_HEADER void MyError(const char * ch) { cout << ch; (*testout) << "Error !!! " << ch << endl << flush; } static clock_t starttimea; void ResetTime () { starttimea = clock(); } double GetTime () { return double(clock() - starttimea) / CLOCKS_PER_SEC; } Array tets_in_qualclass; mutex tcl_todo_mutex; int h_argc = 0; char ** h_argv = NULL; multithreadt :: multithreadt() { pause =0; testmode = 0; redraw = 0; drawing = 0; terminate = 0; running = 0; percent = 0; task = ""; } DebugParameters debugparam; bool verbose = 0; size_t timestamp = 0; /* int GetTimeStamp() { return timestamp; } int NextTimeStamp() { timestamp++; return timestamp; } */ }