#include #include #include #ifdef LowerUndescore #define mpi_wtime mpi_wtime_ #define mpi_send mpi_send_ #define mpi_irecv mpi_irecv_ #define mpi_wait mpi_wait_ #define mpi_alltoall mpi_alltoall_ #define mpi_alltoallv mpi_alltoallv_ #define mpi_allgather mpi_allgather_ #define mpi_allgatherv mpi_allgatherv_ #endif #ifdef LowerDoubleUndescore #define mpi_wtime mpi_wtime__ #define mpi_send mpi_send__ #define mpi_irecv mpi_irecv__ #define mpi_wait mpi_wait__ #define mpi_alltoall mpi_alltoall__ #define mpi_alltoallv mpi_alltoallv__ #define mpi_allgather mpi_allgather__ #define mpi_allgatherv mpi_allgatherv__ #endif #ifdef LowerCase #define mpi_wtime mpi_wtime #define mpi_send mpi_send #define mpi_irecv mpi_irecv #define mpi_wait mpi_wait #define mpi_alltoall mpi_alltoall #define mpi_alltoallv mpi_alltoallv #define mpi_allgather mpi_allgather #define mpi_allgatherv mpi_allgatherv #endif #ifdef UpperUndescore #define mpi_wtime MPI_WTIME_ #define mpi_send MPI_SEND_ #define mpi_irecv MPI_IRECV_ #define mpi_wait MPI_WAIT_ #define mpi_alltoall MPI_ALLTOALL_ #define mpi_alltoallv MPI_ALLTOALLV_ #define mpi_allgather MPI_ALLGATHER_ #define mpi_allgatherv MPI_ALLGATHERV_ #endif #ifdef UpperDoubleUndescore #define mpi_wtime MPI_WTIME__ #define mpi_send MPI_SEND__ #define mpi_irecv MPI_IRECV__ #define mpi_wait MPI_WAIT__ #define mpi_alltoall MPI_ALLTOALL__ #define mpi_alltoallv MPI_ALLTOALLV__ #define mpi_allgather MPI_ALLGATHER__ #define mpi_allgatherv MPI_ALLGATHERV__ #endif #ifdef UpperCase #define mpi_wtime MPI_WTIME #define mpi_send MPI_SEND #define mpi_irecv MPI_IRECV #define mpi_wait MPI_WAIT #define mpi_alltoall MPI_ALLTOALL #define mpi_alltoallv MPI_ALLTOALLV #define mpi_allgather MPI_ALLGATHER #define mpi_allgatherv MPI_ALLGATHERV #endif #define mpi_integer 1 #define mpi_double 3 #define mpi_double_complex 5 double mpi_wtime() { struct timeval tt; struct timezone tz; double temp; if (gettimeofday(&tt,&tz) != 0) { fprintf(stderr,"Fatal error for gettimeofday ??? \n"); temp=0.0; } else { temp = ((double)tt.tv_sec) + ((double)tt.tv_usec)*1.0e-6; } return(temp); } void mpi_wait() { return; } void mpi_send() { return; } void mpi_irecv() { return; } void mpi_alltoall(void* sdb, int* sdc, int* sdt, void* rvb, int* rvc, int* rvt, int* comm, int* ierr) { int i,j,k; if (*sdt == mpi_integer) { memcpy(rvb,sdb, (*sdc)*sizeof(int)); } if (*sdt == mpi_double) { memcpy(rvb,sdb, (*sdc)*sizeof(double)); } if (*sdt == mpi_double_complex) { memcpy(rvb,sdb, (*sdc)*2*sizeof(double)); } *ierr = 0; } void mpi_alltoallv(void* sdb, int* sdc, int* sdspl, int* sdt, void* rvb, int* rvc, int* rdspl, int* rvt, int* comm, int* ierr) { int i,j,k; if (*sdt == mpi_integer) { memcpy((rvb+rdspl[0]*sizeof(int)), (sdb+sdspl[0]*sizeof(int)),(*sdc)*sizeof(int)); } if (*sdt == mpi_double) { memcpy((rvb+rdspl[0]*sizeof(double)), (sdb+sdspl[0]*sizeof(double)),(*sdc)*sizeof(double)); } if (*sdt == mpi_double_complex) { memcpy((rvb+rdspl[0]*2*sizeof(double)), (sdb+sdspl[0]*2*sizeof(double)),(*sdc)*2*sizeof(double)); } *ierr = 0; } void mpi_allgather(void* sdb, int* sdc, int* sdt, void* rvb, int* rvc, int* rvt, int* comm, int* ierr) { int i,j,k; if (*sdt == mpi_integer) { memcpy(rvb,sdb, (*sdc)*sizeof(int)); } if (*sdt == mpi_double) { memcpy(rvb,sdb, (*sdc)*sizeof(double)); } if (*sdt == mpi_double_complex) { memcpy(rvb,sdb, (*sdc)*2*sizeof(double)); } *ierr = 0; } void mpi_allgatherv(void* sdb, int* sdc, int* sdt, void* rvb, int* rvc, int* rdspl, int* rvt, int* comm, int* ierr) { int i,j,k; if (*sdt == mpi_integer) { memcpy(rvb,sdb, (*sdc)*sizeof(int)); } if (*sdt == mpi_double) { memcpy(rvb,sdb, (*sdc)*sizeof(double)); } if (*sdt == mpi_double_complex) { memcpy(rvb,sdb, (*sdc)*2*sizeof(double)); } if (*sdt == mpi_integer) { memcpy((rvb+rdspl[0]*sizeof(int)), (sdb),(*sdc)*sizeof(int)); } if (*sdt == mpi_double) { memcpy((rvb+rdspl[0]*sizeof(double)), (sdb),(*sdc)*sizeof(double)); } if (*sdt == mpi_double_complex) { memcpy((rvb+rdspl[0]*2*sizeof(double)), (sdb),(*sdc)*2*sizeof(double)); } *ierr = 0; }