Esempio n. 1
0
int call_initialize_dobldobl_homotopy ( int *index )
{
   int fail,len,fixed;

   fail = read_dobldobl_target_system(); /* no _without_solutions ! */
   fail = read_dobldobl_start_system();
   fail = copy_dobldobl_start_solutions_to_container();
   fail = solcon_number_of_dobldobl_solutions(&len);
   printf("Number of start solutions : %d\n",len);
   printf("-> give index of solution : "); scanf("%d",index);
   printf("Fixed gamma constant ? (1 = yes/0 = no) "); scanf("%d",&fixed);
   fail = initialize_dobldobl_homotopy(fixed);
   fail = initialize_dobldobl_solution(*index);

   return fail;
}
Esempio n. 2
0
int dobldobl_run ( int myid, int nbrp, int nbc, char* outfile, int verbose )
{
   int fail,dim,nbsols,mysolnum,len,*nbpaths;
   double startwtime,endwtime,wtime,*time;

   startwtime = MPI_Wtime();
   if(myid == 0)
   {
      time = (double*)calloc(nbrp,sizeof(double));
      nbpaths = (int*)calloc(nbrp,sizeof(int));
      fail = read_dobldobl_target_system_without_solutions();
      fail = copy_dobldobl_target_system_to_container();
      fail = syscon_number_of_dobldobl_polynomials(&dim);
      fail = write_dobldobl_target_system();
   }
   dobldobl_dimensions_broadcast(myid,&dim,&dim);

   if(verbose > 0) printf("Process %d has dimension %d.\n",myid,dim);

   dobldobl_monomials_broadcast(myid,dim);

   if(myid != 0) fail = copy_dobldobl_container_to_target_system();

   if(verbose > 0)
      if(myid == 1) fail = write_dobldobl_target_system();

   if(myid == 0)
   {
      fail = read_dobldobl_start_system();
      fail = copy_dobldobl_start_system_to_container();
      fail = write_dobldobl_start_system(); // writes to file
      fail = write_dobldobl_start_solutions(); // writes solutions to file
      fail = copy_dobldobl_start_solutions_to_container();
      fail = solcon_number_of_dobldobl_solutions(&nbsols);
      if(verbose>0) printf("Read %d start solutions.\n",nbsols);
   }
   else
      fail = syscon_initialize_number_of_dobldobl_polynomials(dim);

   dobldobl_monomials_broadcast(myid,dim); // broadcast start system

   if(myid != 0) fail = copy_dobldobl_container_to_start_system();

   if(verbose > 0)
      if(myid == 1) fail = write_dobldobl_start_system();

   parameters_broadcast(myid,nbrp,verbose);

   MPI_Bcast(&nbsols,1,MPI_INT,0,MPI_COMM_WORLD);
   dobldobl_solutions_distribute(myid,nbsols,dim,nbrp,&mysolnum,verbose);

   fail = solcon_number_of_dobldobl_solutions(&len);
   if(verbose > 0) printf("Node %d has %d solutions.\n",myid,len);

   if(myid > 0)
   {
      fail = copy_dobldobl_container_to_start_solutions();
      fail = dobldobl_track_paths(myid,nbrp,nbc,outfile,verbose);
   }
   MPI_Barrier(MPI_COMM_WORLD);
   dobldobl_solutions_collect(myid,nbsols,dim,nbrp,mysolnum);

   if(myid == 0)
   {
      fail = copy_dobldobl_container_to_target_solutions();
      fail = write_dobldobl_target_solutions();
   }
   endwtime = MPI_Wtime();
   wtime = endwtime-startwtime;
   MPI_Gather(&wtime,1,MPI_DOUBLE,time,1,MPI_DOUBLE,0,MPI_COMM_WORLD);
   MPI_Gather(&mysolnum,1,MPI_INT,nbpaths,1,MPI_INT,0,MPI_COMM_WORLD);

   if(myid == 0)
   {
      nbpaths[0] = nbsols;
      write_time_and_paths_to_defined_output_file(nbrp,time,nbpaths);
      free(time); free(nbpaths);
   }
   return 0;
}