#ifdef PARALLEL #include "dlfcn.h" // #include #include // #include "incvis.hpp" #include #ifdef PARALLELGL #ifndef WIN32 #define GLX_GLXEXT_LEGACY #define GLX_GLXEXT_PROTOTYPES #include #include #include /* for XA_RGB_DEFAULT_MAP atom */ #include #include #endif #endif #include void (*NGS_ParallelRun) (const string & message) = NULL; namespace netgen { #include "../interface/writeuser.hpp" extern string ngdir; #ifdef OPENGL extern VisualSceneMesh vsmesh; #endif } void Parallel_Exit(); namespace netgen { extern shared_ptr mesh; extern VisualSceneMesh vsmesh; extern VisualSceneSolution vssolution; extern Flags parameters; extern DLL_HEADER MeshingParameters mparam; } using namespace netgen; using netgen::RegisterUserFormats; void ParallelRun() { string message; MPI_Status status; MPI_Comm_size(MPI_COMM_WORLD, &ntasks); MPI_Comm_rank(MPI_COMM_WORLD, &id); if (parameters.StringFlagDefined ("testout")) testout = new ofstream (string("testout_proc") + id ); while ( true ) { message = MyMPI_RecvCmd(); if ( message.compare(0, 3, "ngs") == 0 ) { // PrintMessage ( 1, "Starting NgSolve routine ", message ) ; if (NGS_ParallelRun == NULL) { static int timer = NgProfiler::CreateTimer ("load shared library ngsolve"); NgProfiler::RegionTimer reg (timer); void * handle = dlopen ("libngsolve.so", RTLD_NOW | RTLD_GLOBAL); if (!handle) { cerr << "cannot load shared library libngsolve.so" << endl; exit(1); } NGS_ParallelRun = (void (*) (const string & message)) dlsym (handle, "NGS_ParallelRun"); if (!NGS_ParallelRun) { cerr << "cannot bind function NGS_ParallelRun" << endl; exit(1); } } (*NGS_ParallelRun) (message); } else if ( message == "mesh" ) { VT_USER_START ("Mesh::ReceiveParallelMesh"); mesh.reset( new netgen::Mesh); mesh->SendRecvMesh(); vsmesh.SetMesh (mesh); vssolution.SetMesh (mesh); VT_USER_END ("Mesh::ReceiveParallelMesh"); } else if ( message == "visualize" ) { cout << "parallel message visualize depreciated" << endl; } else if ( message == "bcastparthread" ) { MyMPI_Bcast (mparam.parthread); } #ifdef PARALLELGL else if ( message == "redraw" ) { // draw into the same GLX - drawing context // works on parallel machine, but // did not manage to get glXImportContextEXT working on Laptop (JS) string redraw_cmd; // MyMPI_Recv (redraw_cmd, 0, MPI_TAG_VIS); redraw_cmd = MyMPI_RecvCmd(); // PrintMessage (1, "Redraw - ", redraw_cmd); static string displname; static int curDrawable, contextid; static Display * display = NULL; static GLXContext context; static XVisualInfo * visinfo = 0; // if (!display) if (redraw_cmd == "init") { MyMPI_Recv (displname, 0, MPI_TAG_VIS); MyMPI_Recv (curDrawable, 0, MPI_TAG_VIS); MyMPI_Recv (contextid, 0, MPI_TAG_VIS); display = XOpenDisplay (displname.c_str()); /* PrintMessage (3, "displ - name = ", displname); PrintMessage (3, "display = ", display, " display props: ", " screen w = ", XDisplayWidth (display, 0), " , h = ", XDisplayHeight (display, 0)); */ Window win; int wx, wy; unsigned int ww, wh, bw, depth; // cout << "got drawable: " << curDrawable << endl; XGetGeometry(display, curDrawable, &win, &wx, &wy, &ww, &wh, &bw, &depth); /* cout << "P" << id << ": window-props: x = " << wx << ", y = " << wy << ", w = " << ww << ", h = " << wh << ", depth = " << depth << endl; */ #define VISUAL #ifdef VISUAL // make a new GLXContext // first, generate a visual (copied from togl) int attrib_list[1000]; # define MAX_ATTEMPTS 12 static int ci_depths[MAX_ATTEMPTS] = { 8, 4, 2, 1, 12, 16, 8, 4, 2, 1, 12, 16 }; static int dbl_flags[MAX_ATTEMPTS] = { 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1 }; /* It may take a few tries to get a visual */ for (int attempt = 0; attempt < MAX_ATTEMPTS; attempt++) { int attrib_count = 0; attrib_list[attrib_count++] = GLX_USE_GL; /* RGB[A] mode */ attrib_list[attrib_count++] = GLX_RGBA; attrib_list[attrib_count++] = GLX_RED_SIZE; attrib_list[attrib_count++] = 1; attrib_list[attrib_count++] = GLX_GREEN_SIZE; attrib_list[attrib_count++] = 1; attrib_list[attrib_count++] = GLX_BLUE_SIZE; attrib_list[attrib_count++] = 1; // attrib_list[attrib_count++] = GLX_ALPHA_SIZE; // attrib_list[attrib_count++] = 1; attrib_list[attrib_count++] = GLX_DEPTH_SIZE; attrib_list[attrib_count++] = 1; attrib_list[attrib_count++] = GLX_DOUBLEBUFFER; attrib_list[attrib_count++] = None; visinfo = glXChooseVisual(display, 0, attrib_list); if (visinfo) { /* found a GLX visual! */ // cout << "found VISINFO !!!" << endl; /* int hi = 0; std::cout << "attribs = "; while (attrib_list[hi] != None) std::cout << attrib_list[hi++] << " "; std::cout << std::endl; */ break; } } if (!visinfo) cerr << "no VISINFO found" << endl; // context = glXCreateContext( display, visinfo, 0, /* curContext, */ False ); context = glXCreateContext( display, visinfo, glXImportContextEXT ( display, contextid ), False); // cout << "context = " << context << endl; glXMakeCurrent (display, curDrawable, context); #else // try to get GLXcontext from the master. // this needs an indirect context (BUT DOES NOT WORK ????) context = glXImportContextEXT ( display, contextid ); PrintMessage (1, "GLX-contextid = " , contextid, " imported context ", context); glXMakeCurrent (display, curDrawable, context); #endif // PrintMessage (1, "redraw - init complete"); } if (redraw_cmd == "broadcast") { vsmesh.Broadcast (); } if (redraw_cmd == "linelist") { // glXMakeCurrent (display, curDrawable, context); vsmesh.BuildLineList(); // glXMakeCurrent (display, None, NULL); } if (redraw_cmd == "filledlist") { vsmesh.BuildFilledList (false); } if (redraw_cmd == "solsurfellist") { vssolution.DrawSurfaceElements(); } if (redraw_cmd == "solsurfellinelist") { vssolution.DrawSurfaceElementLines(); } if (redraw_cmd == "clipplanetrigs") { vssolution.DrawClipPlaneTrigs(); } if (redraw_cmd == "getminmax") { double hmin, hmax; vssolution.GetMinMax (-1, -1, hmin, hmax); } } #endif else if ( message == "end" ) { break; } else { PrintMessage ( 1, "received unidentified message '" + message + "'\n"); break; } } } #endif