netgen/ng/parallelfunc.cpp

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#ifdef PARALLEL
#ifdef OCCGEOMETRY
#include <occgeom.hpp>
#endif
// #include <mystdlib.h>
#include <meshing.hpp>
// #include "incvis.hpp"
#include <visual.hpp>
#ifdef PARALLELGL
#ifndef WIN32
#define GLX_GLXEXT_LEGACY
#define GLX_GLXEXT_PROTOTYPES
#include <X11/Xlib.h>
#include <X11/Xutil.h>
#include <X11/Xatom.h> /* for XA_RGB_DEFAULT_MAP atom */
#include <GL/glx.h>
#include <GL/glxext.h>
#endif
#endif
#include <geometry2d.hpp>
#include <stlgeom.hpp>
// #include <incvis.hpp>
// #include <visual.hpp>
// #include <mystdlib.h>
// #include <myadt.hpp>
// #include <linalg.hpp>
// #include <csg.hpp>
#include <meshing.hpp>
#include "parallel.hpp"
#include "parallelfunc.hpp"
namespace netgen
{
#include "../interface/writeuser.hpp"
extern string ngdir;
#ifdef OPENGL
extern VisualSceneMesh vsmesh;
#endif
}
void Parallel_Exit();
namespace netgen {
extern AutoPtr<Mesh> mesh;
// geometry: either CSG, or, if an other is non-null,
// then the other
extern AutoPtr<CSGeometry> geometry ;
extern STLGeometry * stlgeometry;
extern AutoPtr<SplineGeometry2d> geometry2d ;
#ifdef OCCGEOMETRY
extern OCCGeometry * occgeometry;
#endif
#ifdef ACIS
extern ACISGeometry * acisgeometry;
#endif
}
using namespace netgen;
using netgen::RegisterUserFormats;
#ifdef PARALLEL
void Ng_Exit ()
{
#ifdef NGSOLVE
Parallel_Exit();
#endif
delete stlgeometry;
stlgeometry = NULL;
#ifdef OCCGEOMETRY
delete occgeometry;
occgeometry = 0;
#endif
geometry.Reset (NULL);
geometry2d.Reset (NULL);
// delete testout;
return;
}
#endif
void ParallelRun()
{
string message;
MPI_Status status;
// int id, rc, ntasks;
MPI_Comm_size(MPI_COMM_WORLD, &ntasks);
MPI_Comm_rank(MPI_COMM_WORLD, &id);
bool test = true;
testout = new ofstream (string("testout_proc") + id );
while ( test )
{
#ifdef SCALASCA
#pragma pomp inst begin (message)
#endif
(*testout) << "wait for mess " << endl;
MyMPI_Recv ( message, 0 );
(*testout) << "message " << message << endl;
#ifdef SCALASCA
#pragma pomp inst end (message)
#endif
#ifdef NGSOLVE
if ( message.compare(0, 3, "ngs") == 0 )
{
PrintMessage ( 2, "Starting NgSolve routine ", message ) ;
NGS_ParallelRun (message);
}
else
#endif
if ( message == "mesh" )
{
VT_USER_START ("Mesh::ReceiveParallelMesh");
mesh.Reset( new netgen::Mesh);
mesh->ReceiveParallelMesh();
VT_USER_END ("Mesh::ReceiveParallelMesh");
}
else if ( message == "overlap++" )
{
PrintMessage (1, "overlap++++++");
mesh -> UpdateOverlap();
}
else if ( message == "visualize" )
{
cout << "p" << id << ": ACHTUNG - alles wieder zumachen, sonst geht nix mehr :)" << endl;
cout << "Tcl-disabled" << endl;
/*
// initialize application
Tcl_Interp * myinterp = Tcl_CreateInterp ();
if (Tcl_AppInit (myinterp) == TCL_ERROR)
{
cerr << "Exit Netgen due to initialization problem" << endl;
exit (1);
}
string startfile = ngdir + "/libsrc/parallel/ng_parallel.tcl";
if (verbose)
cout << "Load Tcl-script from " << startfile << endl;
int errcode = Tcl_EvalFile (myinterp, (char*)startfile.c_str());
if (errcode)
{
cout << "Error in Tcl-Script:" << endl;
cout << "result = " << myinterp->result << endl;
cout << "in line " << myinterp->errorLine << endl;
if (myinterp->errorLine == 1)
cout << "\nMake sure to set environment variable NETGENDIR" << endl;
exit (1);
}
// lookup user file formats and insert into format list:
ARRAY<const char*> userformats;
RegisterUserFormats (userformats);
ostringstream fstr;
for (int i = 1; i <= userformats.Size(); i++)
fstr << ".ngmenu.file.filetype add radio -label \""
<< userformats.Get(i) << "\" -variable exportfiletype\n";
Tcl_Eval (myinterp, (char*)fstr.str().c_str());
Tcl_SetVar (myinterp, "exportfiletype", "Neutral Format", 0);
Tk_MainLoop();
Tcl_DeleteInterp (myinterp);
*/
}
#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);
// 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);
MyMPI_Recv (curDrawable, 0);
MyMPI_Recv (contextid, 0);
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);
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cout << "P" << id << ": window-props: x = " << wx << ", y = " << wy
<< ", w = " << ww << ", h = " << wh << ", depth = " << depth << endl;
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#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;
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// context = glXCreateContext( display, visinfo, 0, /* curContext, */ False );
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context = glXCreateContext( display, visinfo, glXImportContextEXT ( display, contextid ), False );
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cout << "context = " << context << endl;
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glXMakeCurrent (display, curDrawable, context);
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#else
// try to get GLXcontext from the master.
// this needs an indirect context (BUT DOES NOT WORK ????)
context = glXImportContextEXT ( display, contextid );
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PrintMessage (1, "GLX-contextid = " , contextid,
" imported context ", context);
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// glXMakeCurrent (display, curDrawable, context);
#endif
// PrintMessage (1, "redraw - init complete");
int hi = id;
MyMPI_Send (hi, 0);
}
if (redraw_cmd == "broadcast")
{
vsmesh.Broadcast ();
}
if (redraw_cmd == "linelist")
{
glXMakeCurrent (display, curDrawable, context);
vsmesh.BuildLineList();
glXMakeCurrent (display, None, NULL);
}
if (redraw_cmd == "filledlist")
{
glXMakeCurrent (display, curDrawable, context);
vsmesh.BuildFilledList();
glXMakeCurrent (display, None, NULL);
}
if (redraw_cmd == "solsurfellist")
{
glXMakeCurrent (display, curDrawable, context);
vssolution.DrawSurfaceElements();
glXMakeCurrent (display, None, NULL);
}
}
#endif
else if ( message == "end" )
{
PrintMessage (1, "EXIT");
test = false;
// end netgen
Ng_Exit();
}
else
{
PrintMessage ( 1, "received unidentified message '" + message + "'\n");
test = false;
}
}
return;
}
#endif