void ompi_comm_spawn_f(char *command, char *argv, MPI_Fint *maxprocs, MPI_Fint *info, MPI_Fint *root, MPI_Fint *comm, MPI_Fint *intercomm, MPI_Fint *array_of_errcodes, MPI_Fint *ierr, int cmd_len, int string_len) { MPI_Comm c_comm, c_new_comm; MPI_Info c_info; int size, c_ierr; int *c_errs; char **c_argv; char *c_command; OMPI_ARRAY_NAME_DECL(array_of_errcodes); c_comm = PMPI_Comm_f2c(*comm); c_info = PMPI_Info_f2c(*info); PMPI_Comm_size(c_comm, &size); ompi_fortran_string_f2c(command, cmd_len, &c_command); /* It's allowed to ignore the errcodes */ if (OMPI_IS_FORTRAN_ERRCODES_IGNORE(array_of_errcodes)) { c_errs = MPI_ERRCODES_IGNORE; } else { OMPI_ARRAY_FINT_2_INT_ALLOC(array_of_errcodes, size); c_errs = OMPI_ARRAY_NAME_CONVERT(array_of_errcodes); } /* It's allowed to have no argv */ if (OMPI_IS_FORTRAN_ARGV_NULL(argv)) { c_argv = MPI_ARGV_NULL; } else { ompi_fortran_argv_blank_f2c(argv, string_len, string_len, &c_argv); } c_ierr = PMPI_Comm_spawn(c_command, c_argv, OMPI_FINT_2_INT(*maxprocs), c_info, OMPI_FINT_2_INT(*root), c_comm, &c_new_comm, c_errs); if (NULL != ierr) *ierr = OMPI_INT_2_FINT(c_ierr); if (MPI_SUCCESS == c_ierr) { *intercomm = PMPI_Comm_c2f(c_new_comm); } free(c_command); if (MPI_ARGV_NULL != c_argv && NULL != c_argv) { opal_argv_free(c_argv); } if (!OMPI_IS_FORTRAN_ERRCODES_IGNORE(array_of_errcodes)) { OMPI_ARRAY_INT_2_FINT(array_of_errcodes, size); } else { OMPI_ARRAY_FINT_2_INT_CLEANUP(array_of_errcodes); } }
/** * Measurement wrapper for MPI_Comm_c2f * @note Auto-generated by wrapgen from template: std.w * @note C interface * @note Introduced with MPI 2.0 * @ingroup cg_misc */ MPI_Fint MPI_Comm_c2f(MPI_Comm comm) { MPI_Fint return_val; if (IS_EVENT_GEN_ON_FOR(CG_MISC)) { EVENT_GEN_OFF(); esd_enter(epk_mpi_regid[EPK__MPI_COMM_C2F]); return_val = PMPI_Comm_c2f(comm); esd_exit(epk_mpi_regid[EPK__MPI_COMM_C2F]); EVENT_GEN_ON(); } else { return_val = PMPI_Comm_c2f(comm); } return return_val; }
void ompi_comm_join_f(MPI_Fint *fd, MPI_Fint *intercomm, MPI_Fint *ierr) { int c_ierr; MPI_Comm c_intercomm; c_ierr = PMPI_Comm_join(OMPI_FINT_2_INT(*fd), &c_intercomm); if (NULL != ierr) *ierr = OMPI_INT_2_FINT(c_ierr); if (MPI_SUCCESS == c_ierr) { *intercomm = PMPI_Comm_c2f(c_intercomm); } }
void ompi_comm_create_f(MPI_Fint *comm, MPI_Fint *group, MPI_Fint *newcomm, MPI_Fint *ierr) { int c_ierr; MPI_Comm c_newcomm; MPI_Comm c_comm = PMPI_Comm_f2c (*comm); MPI_Group c_group = PMPI_Group_f2c(*group); c_ierr = PMPI_Comm_create(c_comm, c_group, &c_newcomm); if (NULL != ierr) *ierr = OMPI_INT_2_FINT(c_ierr); if (MPI_SUCCESS == c_ierr) { *newcomm = PMPI_Comm_c2f (c_newcomm); } }
void ompi_comm_split_f(MPI_Fint *comm, MPI_Fint *color, MPI_Fint *key, MPI_Fint *newcomm, MPI_Fint *ierr) { int c_ierr; MPI_Comm c_newcomm; MPI_Comm c_comm = PMPI_Comm_f2c ( *comm ); c_ierr = PMPI_Comm_split(c_comm, OMPI_FINT_2_INT(*color), OMPI_FINT_2_INT(*key), &c_newcomm ); if (NULL != ierr) *ierr = OMPI_INT_2_FINT(c_ierr); if (MPI_SUCCESS == c_ierr) { *newcomm = PMPI_Comm_c2f (c_newcomm); } }
void ompi_comm_accept_f(char *port_name, MPI_Fint *info, MPI_Fint *root, MPI_Fint *comm, MPI_Fint *newcomm, MPI_Fint *ierr, int port_name_len) { int c_ierr; MPI_Comm c_comm, c_new_comm; MPI_Info c_info; char *c_port_name; c_comm = PMPI_Comm_f2c(*comm); c_info = PMPI_Info_f2c(*info); ompi_fortran_string_f2c(port_name, port_name_len, &c_port_name); c_ierr = PMPI_Comm_accept(c_port_name, c_info, OMPI_FINT_2_INT(*root), c_comm, &c_new_comm); if (NULL != ierr) *ierr = OMPI_INT_2_FINT(c_ierr); if (MPI_SUCCESS == c_ierr) { *newcomm = PMPI_Comm_c2f(c_new_comm); } free ( c_port_name ); }
MPI_Fint MPI_Comm_c2f(MPI_Comm comm){ return PMPI_Comm_c2f(comm); }
void ompi_comm_spawn_multiple_f(MPI_Fint *count, char *array_commands, char *array_argv, MPI_Fint *array_maxprocs, MPI_Fint *array_info, MPI_Fint *root, MPI_Fint *comm, MPI_Fint *intercomm, MPI_Fint *array_errcds, MPI_Fint *ierr, int cmd_string_len, int argv_string_len) { MPI_Comm c_comm, c_new_comm; MPI_Info *c_info; int size, array_size, i, c_ierr; int *c_errs; char **c_array_commands; char ***c_array_argv; OMPI_ARRAY_NAME_DECL(array_maxprocs); OMPI_ARRAY_NAME_DECL(array_errcds); c_comm = PMPI_Comm_f2c(*comm); PMPI_Comm_size(c_comm, &size); array_size = OMPI_FINT_2_INT(*count); /* It's allowed to ignore the errcodes */ if (OMPI_IS_FORTRAN_ERRCODES_IGNORE(array_errcds)) { c_errs = MPI_ERRCODES_IGNORE; } else { OMPI_ARRAY_FINT_2_INT_ALLOC(array_errcds, size); c_errs = OMPI_ARRAY_NAME_CONVERT(array_errcds); } /* It's allowed to have no argv */ if (OMPI_IS_FORTRAN_ARGVS_NULL(array_argv)) { c_array_argv = MPI_ARGVS_NULL; } else { ompi_fortran_multiple_argvs_f2c(OMPI_FINT_2_INT(*count), array_argv, argv_string_len, &c_array_argv); } OMPI_ARRAY_FINT_2_INT(array_maxprocs, array_size); ompi_fortran_argv_f2c(array_commands, cmd_string_len, cmd_string_len, &c_array_commands); c_info = (MPI_Info *) malloc (array_size * sizeof(MPI_Info)); for (i = 0; i < array_size; ++i) { c_info[i] = PMPI_Info_f2c(array_info[i]); } c_ierr = PMPI_Comm_spawn_multiple(OMPI_FINT_2_INT(*count), c_array_commands, c_array_argv, OMPI_ARRAY_NAME_CONVERT(array_maxprocs), c_info, OMPI_FINT_2_INT(*root), c_comm, &c_new_comm, c_errs); if (NULL != ierr) *ierr = OMPI_INT_2_FINT(c_ierr); if (MPI_SUCCESS == c_ierr) { *intercomm = PMPI_Comm_c2f(c_new_comm); } if (!OMPI_IS_FORTRAN_ERRCODES_IGNORE(array_errcds)) { OMPI_ARRAY_INT_2_FINT(array_errcds, size); } else { OMPI_ARRAY_FINT_2_INT_CLEANUP(array_errcds); } OMPI_ARRAY_FINT_2_INT_CLEANUP(array_maxprocs); opal_argv_free(c_array_commands); if (MPI_ARGVS_NULL != c_array_argv && NULL != c_array_argv) { for (i = 0; i < OMPI_FINT_2_INT(*count); ++i) { opal_argv_free(c_array_argv[i]); } } free(c_array_argv); }