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C++ MPI_Comm_dup函数代码示例

原作者: [db:作者] 来自: [db:来源] 收藏 邀请

本文整理汇总了C++中MPI_Comm_dup函数的典型用法代码示例。如果您正苦于以下问题:C++ MPI_Comm_dup函数的具体用法?C++ MPI_Comm_dup怎么用?C++ MPI_Comm_dup使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。



在下文中一共展示了MPI_Comm_dup函数的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的C++代码示例。

示例1: main

main(int argc, char* argv[]) {
    int         test_count = 2;    /* Number of tests  */
    int         max_size = 1000;   /* Max msg. length  */
    int         min_size = 1000;   /* Min msg. length  */
    int         size_incr = 1000;  /* Increment for    */
                                   /*     msg. sizes   */
    float*      x;                 /* Message buffer   */
    double*     times;             /* Elapsed times    */
    double*     max_times;         /* Max times        */
    double*     min_times;         /* Min times        */
    int         time_array_order;  /* Size of timing   */
                                   /*     arrays.      */
    double      start;             /* Start time       */
    double      elapsed;           /* Elapsed time     */
    int         i, test, size;     /* Loop variables   */
    int         p, my_rank, source, dest; 
    MPI_Comm    io_comm;
    MPI_Status  status;

    MPI_Init(&argc, &argv);
    MPI_Comm_size(MPI_COMM_WORLD, &p);
    MPI_Comm_rank(MPI_COMM_WORLD, &my_rank);
    MPI_Comm_dup(MPI_COMM_WORLD, &io_comm);
    Cache_io_rank(MPI_COMM_WORLD, io_comm);

    Initialize(max_size, min_size, size_incr, my_rank,
        &x, &times, &max_times, &min_times, 
        &time_array_order);

    source = (my_rank -  1) % p;
    dest = (my_rank + 1) % p;

    /* For each message size, find average circuit time */
    /*     Loop var size = message size                 */
    /*     Loop var i = index into arrays for timings   */
    for (size = min_size, i = 0; size <= max_size; 
            size = size + size_incr, i++) {
        times[i] =0.0;
        max_times[i] = 0.0;
        min_times[i] = 1000000.0;
        for (test = 0; test < test_count; test++) {
            start = MPI_Wtime();
            MPI_Recv(x, size, MPI_FLOAT, source, 0, 
                 MPI_COMM_WORLD, &status);
            MPI_Send(x, size, MPI_FLOAT, dest, 0, 
                 MPI_COMM_WORLD);
            elapsed = MPI_Wtime() - start;
            times[i] = times[i] + elapsed;
            if (elapsed > max_times[i])
                max_times[i] = elapsed;
            if (elapsed < min_times[i])
                min_times[i] = elapsed;
        }
    } /* for size . . . */

    Print_results(io_comm, my_rank, min_size, max_size, 
        size_incr, time_array_order, test_count, times, 
        max_times, min_times);

    MPI_Finalize();
} /* main */
开发者ID:cyliustack,项目名称:benchmark,代码行数:61,代码来源:comm_time_0.c


示例2: PIOc_Init_Intracomm

/* @ingroup PIO_init
 *
 * Library initialization used when IO tasks are a subset of compute
 * tasks.
 *
 * This function creates an MPI intracommunicator between a set of IO
 * tasks and one or more sets of computational tasks.
 *
 * The caller must create all comp_comm and the io_comm MPI
 * communicators before calling this function.
 *
 * @param comp_comm the MPI_Comm of the compute tasks
 *
 * @param num_iotasks the number of io tasks to use
 *
 * @param stride the offset between io tasks in the comp_comm
 *
 * @param base the comp_comm index of the first io task
 *
 * @param rearr the rearranger to use by default, this may be
 * overriden in the @ref PIO_initdecomp
 *
 * @param iosysidp index of the defined system descriptor
 *
 * @return 0 on success, otherwise a PIO error code.
 */
int PIOc_Init_Intracomm(const MPI_Comm comp_comm, const int num_iotasks,
			const int stride, const int base, const int rearr,
			int *iosysidp)
{
  iosystem_desc_t *iosys;
  int ierr = PIO_NOERR;
  int ustride;
  int lbase;
  int mpierr;

  iosys = (iosystem_desc_t *) malloc(sizeof(iosystem_desc_t));

  /* Copy the computation communicator into union_comm. */
  mpierr = MPI_Comm_dup(comp_comm, &iosys->union_comm);
  CheckMPIReturn(mpierr, __FILE__, __LINE__);
  if (mpierr)
      ierr = PIO_EIO;

  /* Copy the computation communicator into comp_comm. */
  if (!ierr)
  {
      mpierr = MPI_Comm_dup(comp_comm, &iosys->comp_comm);
      CheckMPIReturn(mpierr, __FILE__, __LINE__);
      if (mpierr)
	  ierr = PIO_EIO;
  }

  if (!ierr)
  {
      iosys->my_comm = iosys->comp_comm;
      iosys->io_comm = MPI_COMM_NULL;
      iosys->intercomm = MPI_COMM_NULL;
      iosys->error_handler = PIO_INTERNAL_ERROR;
      iosys->async_interface= false;
      iosys->compmaster = 0;
      iosys->iomaster = 0;
      iosys->ioproc = false;
      iosys->default_rearranger = rearr;
      iosys->num_iotasks = num_iotasks;

      ustride = stride;

      /* Find MPI rank and number of tasks in comp_comm communicator. */
      CheckMPIReturn(MPI_Comm_rank(iosys->comp_comm, &(iosys->comp_rank)),__FILE__,__LINE__);
      CheckMPIReturn(MPI_Comm_size(iosys->comp_comm, &(iosys->num_comptasks)),__FILE__,__LINE__);
      if(iosys->comp_rank==0)
	  iosys->compmaster = MPI_ROOT;

      /* Ensure that settings for number of computation tasks, number
       * of IO tasks, and the stride are reasonable. */
      if((iosys->num_comptasks == 1) && (num_iotasks*ustride > 1)) {
	  // This is a serial run with a bad configuration. Set up a single task.
	  fprintf(stderr, "PIO_TP PIOc_Init_Intracomm reset stride and tasks.\n");
	  iosys->num_iotasks = 1;
	  ustride = 1;
      }
      if((iosys->num_iotasks < 1) || ((iosys->num_iotasks*ustride) > iosys->num_comptasks)){
	  fprintf(stderr, "PIO_TP PIOc_Init_Intracomm error\n");
	  fprintf(stderr, "num_iotasks=%d, ustride=%d, num_comptasks=%d\n", num_iotasks, ustride, iosys->num_comptasks);
	  return PIO_EBADID;
      }

      /* Create an array that holds the ranks of the tasks to be used for IO. */
      iosys->ioranks = (int *) calloc(sizeof(int), iosys->num_iotasks);
      for(int i=0;i< iosys->num_iotasks; i++){
	  iosys->ioranks[i] = (base + i*ustride) % iosys->num_comptasks;
	  if(iosys->ioranks[i] == iosys->comp_rank)
	      iosys->ioproc = true;
      }
      iosys->ioroot = iosys->ioranks[0];

      /* Create an MPI info object. */
      CheckMPIReturn(MPI_Info_create(&(iosys->info)),__FILE__,__LINE__);
      iosys->info = MPI_INFO_NULL;
//.........这里部分代码省略.........
开发者ID:Novarizark,项目名称:ParallelIO,代码行数:101,代码来源:pioc.c


示例3: main

int main(int argc, char *argv[])
{

    int provided, i[2], k;
    char *buffer, *ptr_dt;
    buffer = (char *) malloc(BUFSIZE * sizeof(char));
    MPI_Status status;
    pthread_t receiver_thread, sender_thread[NUMSENDS];
    pthread_attr_t attr;
    MPI_Comm communicator;
    int bs;

    MPI_Init_thread(&argc, &argv, MPI_THREAD_MULTIPLE, &provided);

    if (provided != MPI_THREAD_MULTIPLE) {
        printf("Error\n");
        MPI_Abort(911, MPI_COMM_WORLD);
    }

    MPI_Buffer_attach(buffer, BUFSIZE);

    MPI_Comm_rank(MPI_COMM_WORLD, &rank);
    MPI_Comm_size(MPI_COMM_WORLD, &size);
    MPI_Comm_dup(MPI_COMM_WORLD, &communicator);        /* We do not use this communicator in this program, but
                                                           with this call, the problem appears more reliably.
                                                           If the MPI_Comm_dup() call is commented out, it is still
                                                           evident but does not appear that often (don't know why) */

    /* Initialize and set thread detached attribute */
    pthread_attr_init(&attr);
    pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_JOINABLE);

    pthread_create(&receiver_thread, &attr, &receiver, NULL);
    for (k = 0; k < NUMSENDS; k++)
        pthread_create(&sender_thread[k], &attr, &sender_bsend, NULL);
    pthread_join(receiver_thread, NULL);
    for (k = 0; k < NUMSENDS; k++)
        pthread_join(sender_thread[k], NULL);
    MPI_Barrier(MPI_COMM_WORLD);

    pthread_create(&receiver_thread, &attr, &receiver, NULL);
    for (k = 0; k < NUMSENDS; k++)
        pthread_create(&sender_thread[k], &attr, &sender_ibsend, NULL);
    pthread_join(receiver_thread, NULL);
    for (k = 0; k < NUMSENDS; k++)
        pthread_join(sender_thread[k], NULL);
    MPI_Barrier(MPI_COMM_WORLD);

    pthread_create(&receiver_thread, &attr, &receiver, NULL);
    for (k = 0; k < NUMSENDS; k++)
        pthread_create(&sender_thread[k], &attr, &sender_isend, NULL);
    pthread_join(receiver_thread, NULL);
    for (k = 0; k < NUMSENDS; k++)
        pthread_join(sender_thread[k], NULL);
    MPI_Barrier(MPI_COMM_WORLD);

    pthread_create(&receiver_thread, &attr, &receiver, NULL);
    for (k = 0; k < NUMSENDS; k++)
        pthread_create(&sender_thread[k], &attr, &sender_send, NULL);
    pthread_join(receiver_thread, NULL);
    for (k = 0; k < NUMSENDS; k++)
        pthread_join(sender_thread[k], NULL);
    MPI_Barrier(MPI_COMM_WORLD);

    pthread_attr_destroy(&attr);
    if (!rank)
        printf( " No Errors\n" );

    MPI_Comm_free(&communicator);
    MPI_Buffer_detach(&ptr_dt, &bs);
    free(buffer);
    MPI_Finalize();
    return 0;
}
开发者ID:adevress,项目名称:MPICH-BlueGene,代码行数:74,代码来源:ibsend.c


示例4: main

int main( int argc, char* argv[] ) {
	MPI_Comm CommWorld;
	int rank;
	int numProcessors;
	int procToWatch;
	
	/* Initialise MPI, get world info */
	MPI_Init( &argc, &argv );
	MPI_Comm_dup( MPI_COMM_WORLD, &CommWorld );
	MPI_Comm_size( CommWorld, &numProcessors );
	MPI_Comm_rank( CommWorld, &rank );
	
	BaseFoundation_Init( &argc, &argv );
	BaseIO_Init( &argc, &argv );
	
	if( argc >= 2 ) {
		procToWatch = atoi( argv[1] );
	}
	else {
		procToWatch = 0;
	}
	if( rank == procToWatch )
	{
		Stream* myInfo;
		Stream* myDebug;		
		Stream* myDump;
		Stream* myError;
		
		Stream* allNew;

		myInfo = Journal_Register( Info_Type, "MyInfo" );
		myDebug = Journal_Register( Debug_Type, "MyDebug" );
		myDump = Journal_Register( Dump_Type, "MyDump" );
		myError = Journal_Register( Error_Type, "MyError" );
		
		allNew = Journal_Register( "My own stream", "allNew" );
		
		printf( "TEST: \"HELLO\" should appear\n" );
		Journal_Printf( myInfo, "%s\n", "HELLO" );
		printf( "TEST: \"WORLD\" should NOT appear\n" );
		Journal_Printf( myDebug, "%s\n", "HELLO" );
		printf( "TEST: \"HELLO\" should NOT appear\n" );
		Journal_Printf( myDump, "%s\n", "HELLO" );
		printf( "TEST: \"WORLD\" should NOT appear\n" );
		Journal_Printf( myError, "%s\n", "HELLO" );

		printf( "Turning off myInfo\n" );
		Journal_Enable_NamedStream( Info_Type, "MyInfo" , False );
		
		printf( "TEST: \"HELLO\" should NOT appear\n" );
		Journal_Printf( myInfo, "%s\n", "HELLO" );

		printf( "Turning on Dump\n"  );
		Journal_Enable_TypedStream( Dump_Type, True );
		Journal_Enable_NamedStream( Dump_Type, "MyDump", True );
		
		printf( "TEST: \"HELLO\" should appear\n" );
		Journal_Printf( myDump, "%s\n", "HELLO" );
		
		printf( "Turning off Journal\n" );
		stJournal->enable = False;

		printf( "TEST: \"HELLO\" should NOT appear\n" );		
		Journal_Printf( myDump, "%s\n", "HELLO" );
		
		stJournal->enable = True;
		
		Journal_Enable_NamedStream( Info_Type, "MyInfo", True );
		
		printf( "TEST: DPrintf\n" );
		Journal_DPrintf( myInfo, "DPrintf\n" );	
	}

	Memory_Print();
	
	BaseIO_Finalise();

	BaseFoundation_Finalise();

	/* Close off MPI */
	MPI_Finalize();
	
	return EXIT_SUCCESS;
}
开发者ID:bmi-forum,项目名称:bmi-pyre,代码行数:84,代码来源:testJournal1.c


示例5: main

int main(int narg, char* arg[])
{
  sint transpose=0;
  sint id=0,np=1;
  sint i,handle,maxv=3;
  real *u;
  slong *glindex;
#ifndef MPI
  int comm;
#else
  MPI_Comm comm;
  MPI_Init(&narg,&arg);
  MPI_Comm_dup(MPI_COMM_WORLD,&comm);
  { int i;
    MPI_Comm_rank(comm,&i); id=i;
    MPI_Comm_size(comm,&i); np=i;
  }
#endif

  glindex = malloc(np*2*sizeof(slong));
  for(i=0;i<np;++i) glindex[2*i+1] = glindex[2*i] = i+1;
  i=np*2;
  fgs_setup(&handle,glindex,&i,&comm,&np);
  free(glindex);
  
  u = malloc(np*2*sizeof(real));
  for(i=0;i<np;++i) u[2*i  ] = (real)( 2*np*id + 2*i ),
                    u[2*i+1] = (real)( 2*np*id + 2*i+1 );
  /*for(i=0;i<np;++i) printf(" (%g %g)", u[2*i], u[2*i+1]); printf("\n");*/
  i=1, fgs_op(&handle,u,&datatype,&i,&transpose);
  /*for(i=0;i<np;++i) printf(" (%g %g)", u[2*i], u[2*i+1]); printf("\n");*/
  for(i=0;i<np;++i) assert_is_zero( np*(2*np*(np-1)+4*i+1) - u[2*i] ),
                    assert_is_zero( np*(2*np*(np-1)+4*i+1) - u[2*i+1]  );
  free(u);

  u = malloc(np*2*3*sizeof(real));
  for(i=0;i<np;++i)
    u[3*(2*i  )+0] = (real)( 3*(2*np*id + 2*i  ) + 0 ),
    u[3*(2*i  )+1] = (real)( 3*(2*np*id + 2*i  ) + 1 ),
    u[3*(2*i  )+2] = (real)( 3*(2*np*id + 2*i  ) + 2 ),
    u[3*(2*i+1)+0] = (real)( 3*(2*np*id + 2*i+1) + 0 ),
    u[3*(2*i+1)+1] = (real)( 3*(2*np*id + 2*i+1) + 1 ),
    u[3*(2*i+1)+2] = (real)( 3*(2*np*id + 2*i+1) + 2 );
  /*for(i=0;i<np;++i) {
    int j;
    printf("%d: ( ", id);
    for(j=3*(2*i);j<=3*(2*i+1)+2;++j) printf("%g ",u[j]);
    printf(")\n");
  }*/
  i=1, maxv=3, fgs_op_vec(&handle,u,&maxv,&datatype,&i,&transpose);
  /*for(i=0;i<np;++i) {
    int j;
    printf("%d: ( ", id);
    for(j=3*(2*i);j<=3*(2*i+1)+2;++j) printf("%g ",u[j]);
    printf(")\n");
  }*/
  for(i=0;i<np;++i)
    assert_is_zero( np*(6*np*(np-1)+12*i+3+2*0) - u[3*(2*i  )+0] ),
    assert_is_zero( np*(6*np*(np-1)+12*i+3+2*1) - u[3*(2*i  )+1] ),
    assert_is_zero( np*(6*np*(np-1)+12*i+3+2*2) - u[3*(2*i  )+2] ),
    assert_is_zero( np*(6*np*(np-1)+12*i+3+2*0) - u[3*(2*i+1)+0] ),
    assert_is_zero( np*(6*np*(np-1)+12*i+3+2*1) - u[3*(2*i+1)+1] ),
    assert_is_zero( np*(6*np*(np-1)+12*i+3+2*2) - u[3*(2*i+1)+2] );
  free(u);

  u = malloc(np*2*3*sizeof(real));
  for(i=0;i<np;++i)
    u[2*np*0+(2*i  )] = (real)( 3*(2*np*id + 2*i  ) + 0 ),
    u[2*np*1+(2*i  )] = (real)( 3*(2*np*id + 2*i  ) + 1 ),
    u[2*np*2+(2*i  )] = (real)( 3*(2*np*id + 2*i  ) + 2 ),
    u[2*np*0+(2*i+1)] = (real)( 3*(2*np*id + 2*i+1) + 0 ),
    u[2*np*1+(2*i+1)] = (real)( 3*(2*np*id + 2*i+1) + 1 ),
    u[2*np*2+(2*i+1)] = (real)( 3*(2*np*id + 2*i+1) + 2 );
  i=1, maxv=3, fgs_op_many(&handle,u,u+2*np,u+4*np,0,0,0,&maxv,
                           &datatype,&i,&transpose);
  for(i=0;i<np;++i)
    assert_is_zero( np*(6*np*(np-1)+12*i+3+2*0) - u[2*np*0+(2*i  )] ),
    assert_is_zero( np*(6*np*(np-1)+12*i+3+2*1) - u[2*np*1+(2*i  )] ),
    assert_is_zero( np*(6*np*(np-1)+12*i+3+2*2) - u[2*np*2+(2*i  )] ),
    assert_is_zero( np*(6*np*(np-1)+12*i+3+2*0) - u[2*np*0+(2*i+1)] ),
    assert_is_zero( np*(6*np*(np-1)+12*i+3+2*1) - u[2*np*1+(2*i+1)] ),
    assert_is_zero( np*(6*np*(np-1)+12*i+3+2*2) - u[2*np*2+(2*i+1)] );
  free(u);
  
  fgs_free(&handle);
  printf("test on node %d/%d succeeded\n", (int)id+1, (int)np);
#ifdef MPI  
  MPI_Comm_free(&comm);
  MPI_Finalize();
#endif
  return 0;
}
开发者ID:ANL-CESAR,项目名称:nekbone,代码行数:92,代码来源:gs_test_old.c


示例6: MPI_Finalize


//.........这里部分代码省略.........
      } else {
        ierr = PetscPrintf(PETSC_COMM_WORLD,"There are %D unused database options. They are:\n",nopt);CHKERRQ(ierr);
      }
    }
#if defined(PETSC_USE_DEBUG)
    if (nopt && !flg3 && !flg1) {
      ierr = PetscPrintf(PETSC_COMM_WORLD,"WARNING! There are options you set that were not used!\n");CHKERRQ(ierr);
      ierr = PetscPrintf(PETSC_COMM_WORLD,"WARNING! could be spelling mistake, etc!\n");CHKERRQ(ierr);
      ierr = PetscOptionsLeft();CHKERRQ(ierr);
    } else if (nopt && flg3) {
#else
    if (nopt && flg3) {
#endif
      ierr = PetscOptionsLeft();CHKERRQ(ierr);
    }
  }

  {
    PetscThreadComm tcomm_world;
    ierr = PetscGetThreadCommWorld(&tcomm_world);CHKERRQ(ierr);
    /* Free global thread communicator */
    ierr = PetscThreadCommDestroy(&tcomm_world);CHKERRQ(ierr);
  }

  /*
       List all objects the user may have forgot to free
  */
  ierr = PetscOptionsHasName(NULL,"-objects_dump",&flg1);CHKERRQ(ierr);
  if (flg1) {
    MPI_Comm local_comm;
    char     string[64];

    ierr = PetscOptionsGetString(NULL,"-objects_dump",string,64,NULL);CHKERRQ(ierr);
    ierr = MPI_Comm_dup(MPI_COMM_WORLD,&local_comm);CHKERRQ(ierr);
    ierr = PetscSequentialPhaseBegin_Private(local_comm,1);CHKERRQ(ierr);
    ierr = PetscObjectsDump(stdout,(string[0] == 'a') ? PETSC_TRUE : PETSC_FALSE);CHKERRQ(ierr);
    ierr = PetscSequentialPhaseEnd_Private(local_comm,1);CHKERRQ(ierr);
    ierr = MPI_Comm_free(&local_comm);CHKERRQ(ierr);
  }
  PetscObjectsCounts    = 0;
  PetscObjectsMaxCounts = 0;

  ierr = PetscFree(PetscObjects);CHKERRQ(ierr);

#if defined(PETSC_USE_LOG)
  ierr = PetscLogDestroy();CHKERRQ(ierr);
#endif

  /*
     Destroy any packages that registered a finalize
  */
  ierr = PetscRegisterFinalizeAll();CHKERRQ(ierr);

  /*
     Destroy all the function registration lists created
  */
  ierr = PetscFinalize_DynamicLibraries();CHKERRQ(ierr);

  /*
     Print PetscFunctionLists that have not been properly freed

  ierr = PetscFunctionListPrintAll();CHKERRQ(ierr);
  */

  if (petsc_history) {
    ierr = PetscCloseHistoryFile(&petsc_history);CHKERRQ(ierr);
开发者ID:feelpp,项目名称:debian-petsc,代码行数:67,代码来源:pinit.c


示例7: main

int main( int argc, char **argv )
{
  int size, rank, key, his_key, lrank, result;
  MPI_Comm myComm;
  MPI_Comm myFirstComm;
  MPI_Comm mySecondComm;
  int errors = 0, sum_errors;
  MPI_Status status;
  
  /* Initialization */
  MPI_Init ( &argc, &argv );
  MPI_Comm_rank ( MPI_COMM_WORLD, &rank);
  if (verbose) printf("[%d] MPI_Init complete!\n",rank);fflush(stdout);
  MPI_Comm_size ( MPI_COMM_WORLD, &size);

  /* Only works for 2 or more processes */
  if (size >= 2) {
    MPI_Comm merge1, merge2, merge3, merge4;

    /* Generate membership key in the range [0,1] */
    key = rank % 2;
    
    MPI_Comm_split ( MPI_COMM_WORLD, key, rank, &myComm );
    /* This creates an intercomm that is the size of comm world 
       but has processes grouped by even and odd */
    MPI_Intercomm_create (myComm, 0, MPI_COMM_WORLD, (key+1)%2, 1, 
                          &myFirstComm );
    /* Dup an intercomm */
    MPI_Comm_dup ( myFirstComm, &mySecondComm );
    MPI_Comm_rank( mySecondComm, &lrank );
    his_key = -1;

	if (verbose) printf("[%d] Communicators created!\n",rank);fflush(stdout);
    
    /* Leaders communicate with each other */
    if (lrank == 0) {
      MPI_Sendrecv (&key,     1, MPI_INT, 0, 0,
                    &his_key, 1, MPI_INT, 0, 0, mySecondComm, &status);
      if (key != (his_key+1)%2) {
	  printf( "Received %d but expected %d\n", his_key, (his_key+1)%2 );
	  errors++;
      }
    }
    if (verbose) printf("[%d] MPI_Sendrecv completed!\n",rank);fflush(stdout);
    if (errors)
      printf("[%d] Failed!\n",rank);

	
    if (verbose) printf( "About to merge intercommunicators\n" );fflush(stdout);
    MPI_Intercomm_merge ( mySecondComm, key, &merge1 );
	if (verbose) printf( "merge1 done\n" );fflush(stdout);
    MPI_Intercomm_merge ( mySecondComm, (key+1)%2, &merge2 );
	if (verbose) printf( "merge2 done\n" );fflush(stdout);
    MPI_Intercomm_merge ( mySecondComm, 0, &merge3 );
	if (verbose) printf( "merge3 done\n" );fflush(stdout);
    MPI_Intercomm_merge ( mySecondComm, 1, &merge4 );
	if (verbose) printf( "merge4 done\n" );fflush(stdout);

	if (verbose) printf("[%d] MPI_Intercomm_merge completed!\n",rank);fflush(stdout);

    /* We should check that these are correct!  An easy test is that
       the merged comms are all MPI_SIMILAR (unless 2 processes used, 
       in which case MPI_CONGRUENT is ok */
    MPI_Comm_compare( merge1, MPI_COMM_WORLD, &result );
    if ((size > 2 && result != MPI_SIMILAR) ||
	(size == 2 && result != MPI_CONGRUENT)) {
	errors ++;
	printf( "merge1 is not the same size as comm world\n" );
    }
    /* merge 2 isn't ordered the same way as the others, even for 2 processes */
    MPI_Comm_compare( merge2, MPI_COMM_WORLD, &result );
    if (result != MPI_SIMILAR) {
	errors ++;
	printf( "merge2 is not the same size as comm world\n" );
    }
    MPI_Comm_compare( merge3, MPI_COMM_WORLD, &result );
    if ((size > 2 && result != MPI_SIMILAR) ||
	(size == 2 && result != MPI_CONGRUENT)) {
	errors ++;
	printf( "merge3 is not the same size as comm world\n" );
    }
    MPI_Comm_compare( merge4, MPI_COMM_WORLD, &result );
    if ((size > 2 && result != MPI_SIMILAR) ||
	(size == 2 && result != MPI_CONGRUENT)) {
	errors ++;
	printf( "merge4 is not the same size as comm world\n" );
    }

	if (verbose) printf("[%d] MPI_Comm_compare completed!\n",rank);fflush(stdout);

    /* Free communicators */
    if (verbose) printf( "About to free communicators\n" );
    MPI_Comm_free( &myComm );
    MPI_Comm_free( &myFirstComm );
    MPI_Comm_free( &mySecondComm );
    MPI_Comm_free( &merge1 );
    MPI_Comm_free( &merge2 );
    MPI_Comm_free( &merge3 );
    MPI_Comm_free( &merge4 );

//.........这里部分代码省略.........
开发者ID:carsten-clauss,项目名称:MP-MPICH,代码行数:101,代码来源:ictest.c


示例8: MTestGetIntercomm


//.........这里部分代码省略.........
	    break;

	case 3:
	    /* Split comm world in half, then dup */
	    merr = MPI_Comm_rank( MPI_COMM_WORLD, &rank );
	    if (merr) MTestPrintError( merr );
	    merr = MPI_Comm_size( MPI_COMM_WORLD, &size );
	    if (merr) MTestPrintError( merr );
	    if (size > 1) {
		merr = MPI_Comm_split( MPI_COMM_WORLD, (rank < size/2), rank, 
				       &mcomm );
		if (merr) MTestPrintError( merr );
		if (rank == 0) {
		    rleader = size/2;
		}
		else if (rank == size/2) {
		    rleader = 0;
		}
		else {
		    /* Remote leader is signficant only for the processes
		       designated local leaders */
		    rleader = -1;
		}
		*isLeftGroup = rank < size/2;
		merr = MPI_Intercomm_create( mcomm, 0, MPI_COMM_WORLD, rleader,
					     12345, comm );
		if (merr) MTestPrintError( merr );
                /* avoid leaking after assignment below */
		merr = MPI_Comm_free( &mcomm );
		if (merr) MTestPrintError( merr );

		/* now dup, some bugs only occur for dup's of intercomms */
		mcomm = *comm;
		merr = MPI_Comm_dup(mcomm, comm);
		if (merr) MTestPrintError( merr );
		interCommName = "Intercomm by splitting MPI_COMM_WORLD then dup'ing";
	    }
	    else 
		*comm = MPI_COMM_NULL;
	    break;

	case 4:
	    /* Split comm world in half, form intercomm, then split that intercomm */
	    merr = MPI_Comm_rank( MPI_COMM_WORLD, &rank );
	    if (merr) MTestPrintError( merr );
	    merr = MPI_Comm_size( MPI_COMM_WORLD, &size );
	    if (merr) MTestPrintError( merr );
	    if (size > 1) {
		merr = MPI_Comm_split( MPI_COMM_WORLD, (rank < size/2), rank, 
				       &mcomm );
		if (merr) MTestPrintError( merr );
		if (rank == 0) {
		    rleader = size/2;
		}
		else if (rank == size/2) {
		    rleader = 0;
		}
		else {
		    /* Remote leader is signficant only for the processes
		       designated local leaders */
		    rleader = -1;
		}
		*isLeftGroup = rank < size/2;
		merr = MPI_Intercomm_create( mcomm, 0, MPI_COMM_WORLD, rleader,
					     12345, comm );
		if (merr) MTestPrintError( merr );
开发者ID:FlorianPO,项目名称:simgrid,代码行数:67,代码来源:mtest.c


示例9: MTestGetIntracommGeneral

/* 
 * Get an intracommunicator with at least min_size members.  If "allowSmaller"
 * is true, allow the communicator to be smaller than MPI_COMM_WORLD and
 * for this routine to return MPI_COMM_NULL for some values.  Returns 0 if
 * no more communicators are available.
 */
int MTestGetIntracommGeneral( MPI_Comm *comm, int min_size, int allowSmaller )
{
    int size, rank, merr;
    int done2, done=0;
    int isBasic = 0;

    /* The while loop allows us to skip communicators that are too small.
       MPI_COMM_NULL is always considered large enough */
    while (!done) {
	isBasic = 0;
	intraCommName = "";
	switch (intraCommIdx) {
	case 0:
	    *comm = MPI_COMM_WORLD;
	    isBasic = 1;
	    intraCommName = "MPI_COMM_WORLD";
	    break;
	case 1:
	    /* dup of world */
	    merr = MPI_Comm_dup(MPI_COMM_WORLD, comm );
	    if (merr) MTestPrintError( merr );
	    intraCommName = "Dup of MPI_COMM_WORLD";
	    break;
	case 2:
	    /* reverse ranks */
	    merr = MPI_Comm_size( MPI_COMM_WORLD, &size );
	    if (merr) MTestPrintError( merr );
	    merr = MPI_Comm_rank( MPI_COMM_WORLD, &rank );
	    if (merr) MTestPrintError( merr );
	    merr = MPI_Comm_split( MPI_COMM_WORLD, 0, size-rank, comm );
	    if (merr) MTestPrintError( merr );
	    intraCommName = "Rank reverse of MPI_COMM_WORLD";
	    break;
	case 3:
	    /* subset of world, with reversed ranks */
	    merr = MPI_Comm_size( MPI_COMM_WORLD, &size );
	    if (merr) MTestPrintError( merr );
	    merr = MPI_Comm_rank( MPI_COMM_WORLD, &rank );
	    if (merr) MTestPrintError( merr );
	    merr = MPI_Comm_split( MPI_COMM_WORLD, ((rank < size/2) ? 1 : MPI_UNDEFINED),
				   size-rank, comm );
	    if (merr) MTestPrintError( merr );
	    intraCommName = "Rank reverse of half of MPI_COMM_WORLD";
	    break;
	case 4:
	    *comm = MPI_COMM_SELF;
	    isBasic = 1;
	    intraCommName = "MPI_COMM_SELF";
	    break;

	    /* These next cases are communicators that include some
	       but not all of the processes */
	case 5:
	case 6:
	case 7:
	case 8:
	{
	    int newsize;
	    merr = MPI_Comm_size( MPI_COMM_WORLD, &size );
	    if (merr) MTestPrintError( merr );
	    newsize = size - (intraCommIdx - 4);
	    
	    if (allowSmaller && newsize >= min_size) {
		merr = MPI_Comm_rank( MPI_COMM_WORLD, &rank );
		if (merr) MTestPrintError( merr );
		merr = MPI_Comm_split( MPI_COMM_WORLD, rank < newsize, rank, 
				       comm );
		if (merr) MTestPrintError( merr );
		if (rank >= newsize) {
		    merr = MPI_Comm_free( comm );
		    if (merr) MTestPrintError( merr );
		    *comm = MPI_COMM_NULL;
		}
		else {
		    intraCommName = "Split of WORLD";
		}
	    }
	    else {
		/* Act like default */
		*comm = MPI_COMM_NULL;
		intraCommIdx = -1;
	    }
	}
	break;
	    
	    /* Other ideas: dup of self, cart comm, graph comm */
	default:
	    *comm = MPI_COMM_NULL;
	    intraCommIdx = -1;
	    break;
	}

	if (*comm != MPI_COMM_NULL) {
	    merr = MPI_Comm_size( *comm, &size );
//.........这里部分代码省略.........
开发者ID:FlorianPO,项目名称:simgrid,代码行数:101,代码来源:mtest.c


示例10: main

int main(int argc, char **argv)
{
    int i;
    char *env = NULL;
    simulation_data sim;
    simulation_data_ctor(&sim);

#ifdef PARALLEL
    /* Initialize MPI */
    MPI_Init(&argc, &argv);

    /* Create a new communicator. */
    if (MPI_Comm_dup(MPI_COMM_WORLD, &sim.par_comm) != MPI_SUCCESS)
        sim.par_comm = MPI_COMM_WORLD;

    MPI_Comm_rank (sim.par_comm, &sim.par_rank);
    MPI_Comm_size (sim.par_comm, &sim.par_size);
#endif

    /* Process command line arguments. */
    SimulationArguments(argc, argv);
    for(i = 1; i < argc; ++i)
    {
        if(strcmp(argv[i], "-nobounds") == 0)
            sim.doDomainBoundaries = 0;
    }

#ifdef PARALLEL
    /* Install callback functions for global communication. */
    VisItSetBroadcastIntFunction2(visit_broadcast_int_callback, (void*)&sim);
    VisItSetBroadcastStringFunction2(visit_broadcast_string_callback, (void*)&sim);

    /* Tell libsim whether the simulation is parallel. */
    VisItSetParallel(sim.par_size > 1);
    VisItSetParallelRank(sim.par_rank);

    /* Tell libsim which communicator to use. You must pass the address of
     * an MPI_Comm object.
     */
    VisItSetMPICommunicator((void *)&sim.par_comm);
#endif

    /* Only read the environment on rank 0. This could happen before MPI_Init if
     * we are using an MPI that does not like to let us spawn processes but we
     * would not know our processor rank.
     */
    if(sim.par_rank == 0)
        env = VisItGetEnvironment();

    /* Pass the environment to all other processors collectively. */
    VisItSetupEnvironment2(env);
    if(env != NULL)
        free(env);

    /* Write out .sim file that VisIt uses to connect. Only do it
     * on processor 0.
     */
    /* CHANGE 3 */
    if(sim.par_rank == 0)
    {
        /* Write out .sim file that VisIt uses to connect. */
        VisItInitializeSocketAndDumpSimFile(
#ifdef PARALLEL
            "domainbounds_par",
#else
            "domainbounds",
#endif
            "Demonstrates domain boundaries",
            "/path/to/where/sim/was/started",
            NULL, NULL, SimulationFilename());
    }

    simulation_data_create_domains(&sim);

    /* Call the main loop. */
    mainloop(&sim);

    simulation_data_dtor(&sim);
#ifdef PARALLEL
    MPI_Finalize();
#endif

    return 0;
}
开发者ID:ahota,项目名称:visit_intel,代码行数:84,代码来源:domainbounds.c


示例11: test_idup

MTEST_THREAD_RETURN_TYPE test_idup(void *arg)
{
    int i;
    int size, rank;
    int ranges[1][3];
    int rleader, isLeft;
    int *excl = NULL;
    int tid = *(int *) arg;

    MPI_Group ingroup, high_group, even_group;
    MPI_Comm local_comm, inter_comm;
    MPI_Comm idupcomms[NUM_IDUPS];
    MPI_Request reqs[NUM_IDUPS];

    MPI_Comm outcomm;
    MPI_Comm incomm = comms[tid];

    MPI_Comm_size(incomm, &size);
    MPI_Comm_rank(incomm, &rank);
    MPI_Comm_group(incomm, &ingroup);

    /* Idup incomm multiple times */
    for (i = 0; i < NUM_IDUPS; i++) {
        MPI_Comm_idup(incomm, &idupcomms[i], &reqs[i]);
    }

    /* Overlap pending idups with various comm generation functions */
    /* Comm_dup */
    MPI_Comm_dup(incomm, &outcomm);
    errs[tid] += MTestTestComm(outcomm);
    MTestFreeComm(&outcomm);

    /* Comm_split */
    MPI_Comm_split(incomm, rank % 2, size - rank, &outcomm);
    errs[tid] += MTestTestComm(outcomm);
    MTestFreeComm(&outcomm);

    /* Comm_create, high half of incomm */
    ranges[0][0] = size / 2;
    ranges[0][1] = size - 1;
    ranges[0][2] = 1;
    MPI_Group_range_incl(ingroup, 1, ranges, &high_group);
    MPI_Comm_create(incomm, high_group, &outcomm);
    MPI_Group_free(&high_group);
    errs[tid] += MTestTestComm(outcomm);
    MTestFreeComm(&outcomm);

    /* Comm_create_group, even ranks of incomm */
    /* exclude the odd ranks */
    excl = malloc((size / 2) * sizeof(int));
    for (i = 0; i < size / 2; i++)
        excl[i] = (2 * i) + 1;

    MPI_Group_excl(ingroup, size / 2, excl, &even_group);
    free(excl);

    if (rank % 2 == 0) {
        MPI_Comm_create_group(incomm, even_group, 0, &outcomm);
    }
    else {
        outcomm = MPI_COMM_NULL;
    }
    MPI_Group_free(&even_group);
    errs[tid] += MTestTestComm(outcomm);
    MTestFreeComm(&outcomm);

    /* Intercomm_create & Intercomm_merge */
    MPI_Comm_split(incomm, (rank < size / 2), rank, &local_comm);
    if (rank == 0) {
        rleader = size / 2;
    }
    else if (rank == size / 2) {
        rleader = 0;
    }
    else {
        rleader = -1;
    }
    isLeft = rank < size / 2;

    MPI_Intercomm_create(local_comm, 0, incomm, rleader, 99, &inter_comm);
    MPI_Intercomm_merge(inter_comm, isLeft, &outcomm);
    MPI_Comm_free(&local_comm);

    errs[tid] += MTestTestComm(inter_comm);
    MTestFreeComm(&inter_comm);
    errs[tid] += MTestTestComm(outcomm);
    MTestFreeComm(&outcomm);

    MPI_Waitall(NUM_IDUPS, reqs, MPI_STATUSES_IGNORE);
    for (i = 0; i < NUM_IDUPS; i++) {
        errs[tid] += MTestTestComm(idupcomms[i]);
        MPI_Comm_free(&idupcomms[i]);
    }
    MPI_Group_free(&ingroup);
    return NULL;
}
开发者ID:Niharikareddy,项目名称:mpich,代码行数:96,代码来源:idup_comm_gen.c


示例12: main

int
main (int argc, char **argv)
{
  int nprocs = -1;
  int rank = -1;
  int i, j;
  int *granks;
  char processor_name[128];
  int namelen = 128;
  int buf[buf_size];
  MPI_Status status;
  MPI_Comm temp;
  MPI_Comm intercomm = MPI_COMM_NULL;
  MPI_Comm dcomms[DCOMM_CALL_COUNT];
  MPI_Group world_group, dgroup;
  int intersize, dnprocs[DCOMM_CALL_COUNT], drank[DCOMM_CALL_COUNT];
  int dims[TWOD], periods[TWOD], remain_dims[TWOD];
  int graph_index[] = { 2, 3, 4, 6 };
  int graph_edges[] = { 1, 3, 0, 3, 0, 2 };

  /* init */
  MPI_Init (&argc, &argv);
  MPI_Comm_size (MPI_COMM_WORLD, &nprocs);
  MPI_Comm_rank (MPI_COMM_WORLD, &rank);
  MPI_Get_processor_name (processor_name, &namelen);
  printf ("(%d) is alive on %s\n", rank, processor_name);
  fflush (stdout);

  MPI_Barrier (MPI_COMM_WORLD);

  /* probably want number to be higher... */
  if (nprocs < 4) {
      printf ("not enough tasks\n");
  }
  else {
    if (DCOMM_CALL_COUNT > 0) {
#ifdef RUN_COMM_DUP
      /* create all of the derived communicators... */
      /* simplest is created by MPI_Comm_dup... */
      MPI_Comm_dup (MPI_COMM_WORLD, &dcomms[0]);
#else
      dcomms[0] = MPI_COMM_NULL;
#endif
    }

    if (DCOMM_CALL_COUNT > 1) {
#ifdef RUN_COMM_CREATE
      /* use subset of MPI_COMM_WORLD group for MPI_Comm_create... */
      MPI_Comm_group (MPI_COMM_WORLD, &world_group);
      granks = (int *) malloc (sizeof(int) * (nprocs/2));
      for (i = 0; i < nprocs/2; i++)
	granks [i] = 2 * i;
      MPI_Group_incl (world_group, nprocs/2, granks, &dgroup);
      MPI_Comm_create (MPI_COMM_WORLD, dgroup, &dcomms[1]);
      MPI_Group_free (&world_group);
      MPI_Group_free (&dgroup);
      free (granks);
#else
      dcomms[1] = MPI_COMM_NULL;
#endif
    }

    if (DCOMM_CALL_COUNT > 2) {
#ifdef RUN_COMM_SPLIT
      /* split into thirds with inverted ranks... */
      MPI_Comm_split (MPI_COMM_WORLD, rank % 3, nprocs - rank, &dcomms[2]);
#else
      dcomms[2] = MPI_COMM_NULL;
#endif
    }

#ifdef RUN_INTERCOMM_CREATE
    if ((DCOMM_CALL_COUNT < 2) || (dcomms[2] == MPI_COMM_NULL)) {
      MPI_Comm_split (MPI_COMM_WORLD, rank % 3, nprocs - rank, &temp);
    }
    else {
      temp = dcomms[2];
    }
    if (rank % 3) {
      MPI_Intercomm_create (temp, 0, MPI_COMM_WORLD,
			    (((nprocs % 3) == 2) && ((rank % 3) == 2)) ?
			    nprocs - 1 : nprocs - (rank % 3) - (nprocs % 3),
			    INTERCOMM_CREATE_TAG, &intercomm);
    }
    if ((DCOMM_CALL_COUNT < 2) || (dcomms[2] == MPI_COMM_NULL)) {
      MPI_Comm_free (&temp);
    }
#endif

    if (DCOMM_CALL_COUNT > 3) {
#ifdef RUN_CART_CREATE
      /* create a 2 X nprocs/2 torus topology, allow reordering */
      dims[0] = 2;
      dims[1] = nprocs/2;
      periods[0] = periods[1] = 1;
      MPI_Cart_create (MPI_COMM_WORLD, TWOD, dims, periods, 1, &dcomms[3]);
#else
      dcomms[3] = MPI_COMM_NULL;
#endif
    }
//.........这里部分代码省略.........
开发者ID:simgrid,项目名称:simgrid,代码行数:101,代码来源:no-error-derived-comms.c


示例13: main

int main( int argc, char* argv[] ) {
	MPI_Comm CommWorld;
	int rank;
	int numProcessors;
	int procToWatch;
	Dictionary* dictionary;
	AbstractContext* abstractContext;
	
	/* Initialise MPI, get world info */
	MPI_Init( &argc, &argv );
	MPI_Comm_dup( MPI_COMM_WORLD, &CommWorld );
	MPI_Comm_size( CommWorld, &numProcessors );
	MPI_Comm_rank( CommWorld, &rank );
	
	BaseFoundation_Init( &argc, &argv );
	BaseIO_Init( &argc, &argv );
	BaseContainer_Init( &argc, &argv );
	BaseAutomation_Init( &argc, &argv );
	BaseExtensibility_Init( &argc, &argv );
	BaseContext_Init( &argc, &argv );
	stream = Journal_Register (Info_Type, "myStream");

	/* Redirect the error stream to stdout, so we can check warnings
	appear correctly */
	Stream_SetFileBranch( Journal_GetTypedStream( ErrorStream_Type ), stJournal->stdOut );

	if( argc >= 2 ) {
		procToWatch = atoi( argv[1] );
	}
	else {
		procToWatch = 0;
	}
	if( rank == procToWatch ) Journal_Printf( (void*) stream, "Watching rank: %i\n", rank );

	/* Read input */
	dictionary = Dictionary_New();
	dictionary->add( dictionary, "rank", Dictionary_Entry_Value_FromUnsignedInt( rank ) );
	dictionary->add( dictionary, "numProcessors", Dictionary_Entry_Value_FromUnsignedInt( numProcessors ) );
	
	/* Build the context */
	abstractContext = _AbstractContext_New( 
		sizeof(AbstractContext), 
		"TestContext", 
		MyDelete, 
		MyPrint, 
		NULL,
		NULL, 
		NULL, 
		_AbstractContext_Build, 
		_AbstractContext_Initialise, 
		_AbstractContext_Execute, 
		_AbstractContext_Destroy, 
		"context", 
		True, 
		MySetDt, 
		0, 
		10, 
		CommWorld, 
		dictionary );

	/* add hooks to existing entry points */
	ContextEP_Append( abstractContext, AbstractContext_EP_Dt, MyDt );

	if( rank == procToWatch ) {
		Stream* stream = Journal_Register( InfoStream_Type, AbstractContext_Type );
		Stg_Component_Build( abstractContext, 0 /* dummy */, False );
		Stg_Component_Initialise( abstractContext, 0 /* dummy */, False );
		Context_PrintConcise( abstractContext, stream );
		Stg_Component_Execute( abstractContext, 0 /* dummy */, False );
		Stg_Component_Destroy( abstractContext, 0 /* dummy */, False );
	}
	
	/* Stg_Class_Delete stuff */
	Stg_Class_Delete( abstractContext );
	Stg_Class_Delete( dictionary );
	
	BaseContext_Finalise();
	BaseExtensibility_Finalise();
	BaseAutomation_Finalise();
	BaseContainer_Finalise();
	BaseIO_Finalise();
	BaseFoundation_Finalise();
	
	/* Close off MPI */
	MPI_Finalize();
	
	return 0; /* success */
}
开发者ID:bmi-forum,项目名称:bmi-pyre,代码行数:88,代码来源:testAbstractContext-noOptionsDefined.c


示例14: main

int main(int argc, char *argv[])
{
    int errs = 0;
    int attrval;
    int i, key[32], keyval, saveKeyval;
    MPI_Comm comm, dupcomm;
    MTest_Init(&argc, &argv);

    while (MTestGetIntracomm(&comm, 1)) {
        if (comm == MPI_COMM_NULL)
            continue;

        MPI_Comm_create_keyval(copy_fn, delete_fn, &keyval, (void *) 0);
        saveKeyval = keyval;    /* in case we need to free explicitly */
        attrval = 1;
        MPI_Comm_set_attr(comm, keyval, (void *) &attrval);
        /* See MPI-1, 5.7.1.  Freeing the keyval does not remove it if it
         * is in use in an attribute */
        MPI_Comm_free_keyval(&keyval);

        /* We create some dummy keyvals here in case the same keyval
         * is reused */
        for (i = 0; i < 32; i++) {
            MPI_Comm_create_keyval(MPI_NULL_COPY_FN, MPI_NULL_DELETE_FN, &key[i], (void *) 0);
        }

        MPI_Comm_dup(comm, &dupcomm);
        /* Check that the attribute was copied */
        if (attrval != 2) {
            errs++;
            printf("Attribute not incremented when comm dup'ed (%s)\n", MTestGetIntracommName());
        }
        MPI_Comm_free(&dupcomm);
        if (attrval != 1) {
            errs++;
            printf("Attribute not decremented when dupcomm %s freed\n", MTestGetIntracommName());
        }
        /* Check that the attribute was freed in the dupcomm */

        if (comm != MPI_COMM_WORLD && comm != MPI_COMM_SELF) {
            MPI_Comm_free(&comm);
            /* Check that the original attribute was freed */
            if (attrval != 0) {
                errs++;
                printf("Attribute not decremented when comm %s freed\n", MTestGetIntracommName());
            }
        }
        else {
            /* Explicitly delete the attributes from world and self */
            MPI_Comm_delete_attr(comm, saveKeyval);
        }
        /* Free those other keyvals */
        for (i = 0; i < 32; i++) {
            MPI_Comm_free_keyval(&key[i]);
        }
    }
    MTest_Finalize(errs);
    MPI_Finalize();

    /* The attributes on comm self and world were deleted by finalize
     * (see separate test) */

    return 0;

}
开发者ID:NexMirror,项目名称:MPICH,代码行数:65,代码来源:fkeyvalcomm.c


示例15: main

int main( int argc, char* argv[] ) {
	MPI_Comm		CommWorld;
	int			rank;
	int			numProcessors;
	int			procToWatch;
	Dictionary*		dictionary;
	Snac_Context*		snacContext;
	Tetrahedra_Index	tetraIndex;
	Element_Index		elementIndex;
	double			minLengthScale;
	
	/* Initialise MPI, get world info */
	MPI_Init( &argc, &argv );
	Snac_Init( &argc, &argv );
	MPI_Comm_dup( MPI_COMM_WORLD, &CommWorld );
	MPI_Comm_size( CommWorld, &numProcessors );
	MPI_Comm_rank( CommWorld, &rank );
	if( argc >= 2 ) {
		procToWatch = atoi( argv[1] );
	}
	else {
		procToWatch = 0;
	}
	if( rank == procToWatch ) printf( "Watching rank: %i\n", rank );
	
	/* Read input */
	dictionary = Dictionary_New();
	dictionary->add( dictionary, "rank", Dictionary_Entry_Value_FromUnsignedInt( rank ) );
	dictionary->add( dictionary, "numProcessors", Dictionary_Entry_Value_FromUnsignedInt( numProcessors ) );
	dictionary->add( dictionary, "meshSizeI", Dictionary_Entry_Value_FromUnsignedInt( 4 ) );
	dictionary->add( dictionary, "meshSizeJ", Dictionary_Entry_Value_FromUnsignedInt( 4 ) );
	dictionary->add( dictionary, "meshSizeK", Dictionary_Entry_Value_FromUnsignedInt( 4 ) );
	dictionary->add( dictionary, "minX", Dictionary_Entry_Value_FromDouble( 0.0f ) );
	dictionary->add( dictionary, "minY", Dictionary_Entry_Value_FromDouble( -300.0f ) );
	dictionary->add( dictionary, "minZ", Dictionary_Entry_Value_FromDouble( 0.0f ) );
	dictionary->add( dictionary, "maxX", Dictionary_Entry_Value_FromDouble( 300.0f ) );
	dictionary->add( dictionary, "maxY", Dictionary_Entry_Value_FromDouble( 0.0f ) );
	dictionary->add( dictionary, "maxZ", Dictionary_Entry_Value_FromDouble( 300.0f ) );

	/* Build the context */
	snacContext = Snac_Context_New( 0.0f, 10.0f, sizeof(Snac_Node), sizeof(Snac_Element), CommWorld, dictionary );
	
	/* Construction phase -----------------------------------------------------------------------------------------------*/
	Stg_Component_Construct( snacContext, 0 /* dummy */, &snacContext, True );
	
	/* Building phase ---------------------------------------------------------------------------------------------------*/
	Stg_Component_Build( snacContext, 0 /* dummy */, False );
	
	/* Initialisaton phase ----------------------------------------------------------------------------------------------*/
	Stg_Component_Initialise( snacContext, 0 /* dummy */, False );

	/* Work out the first element's tetrahedra values, and print them. */
	printf( "Element: 0, Coords: (%g %g %g), (%g %g %g), (%g %g %g), (%g %g %g), (%g %g %g) (%g %g %g) (%g %g %g) (%g %g %g)\n",
		Snac_Element_NodeCoord( snacContext, 0, 0 )[0],
		Snac_Element_NodeCoord( snacContext, 0, 0 )[1],
		Snac_Element_NodeCoord( snacContext, 0, 0 )[2],
		Snac_Element_NodeCoord( snacContext, 0, 1 )[0],
		Snac_Element_NodeCoord( snacContext, 0, 1 )[1],
		Snac_Element_NodeCoord( snacContext, 0, 1 )[2],
		Snac_Element_NodeCoord( snacContext, 0, 3 )[0],
		Snac_Element_NodeCoord( snacContext, 0, 3 )[1],
		Snac_Element_NodeCoord( snacContext, 0, 3 )[2],
		Snac_Element_NodeCoord( snacContext, 0, 2 )[0],
		Snac_Element_NodeCoord( snacContext, 0, 2 )[1],
		Snac_Element_NodeCoord( snacContext, 0, 2 )[2],
		Snac_Element_NodeCoord( snacContext, 0, 4 )[0],
		Snac_Element_NodeCoord( snacContext, 0, 4 )[1],
		Snac_Element_NodeCoord( snacContext, 0, 4 )[2],
		Snac_Element_NodeCoord( snacContext, 0, 5 )[0],
		Snac_Element_NodeCoord( snacContext, 0, 5 )[1],
		Snac_Element_NodeCoord( snacContext,  

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C++ MPI_Comm_f2c函数代码示例发布时间:2022-05-30
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