/* * Copyright (c) 2004-2007 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2005 The University of Tennessee and The University * of Tennessee Research Foundation. All rights * reserved. * Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, * University of Stuttgart. All rights reserved. * Copyright (c) 2004-2005 The Regents of the University of California. * All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "ompi_config.h" #include #include "ompi/mpi/c/bindings.h" #include "ompi/win/win.h" #include "ompi/mca/osc/osc.h" #include "ompi/op/op.h" #include "ompi/datatype/datatype.h" #include "ompi/datatype/datatype_internal.h" #if OMPI_HAVE_WEAK_SYMBOLS && OMPI_PROFILING_DEFINES #pragma weak MPI_Accumulate = PMPI_Accumulate #endif #if OMPI_PROFILING_DEFINES #include "ompi/mpi/c/profile/defines.h" #endif static const char FUNC_NAME[] = "MPI_Accumlate"; int MPI_Accumulate(void *origin_addr, int origin_count, MPI_Datatype origin_datatype, int target_rank, MPI_Aint target_disp, int target_count, MPI_Datatype target_datatype, MPI_Op op, MPI_Win win) { int rc; ompi_win_t *ompi_win = (ompi_win_t*) win; OPAL_CR_TEST_CHECKPOINT_READY(); if (MPI_PARAM_CHECK) { rc = OMPI_SUCCESS; OMPI_ERR_INIT_FINALIZE(FUNC_NAME); if (ompi_win_invalid(win)) { return OMPI_ERRHANDLER_INVOKE(MPI_COMM_WORLD, MPI_ERR_WIN, FUNC_NAME); } else if (origin_count < 0 || target_count < 0) { rc = MPI_ERR_COUNT; } else if (ompi_win_peer_invalid(win, target_rank) && (MPI_PROC_NULL != target_rank)) { rc = MPI_ERR_RANK; } else if (MPI_OP_NULL == op) { rc = MPI_ERR_OP; } else if (!ompi_op_is_intrinsic(op)) { rc = MPI_ERR_OP; } else if (!ompi_win_comm_allowed(win)) { rc = MPI_ERR_RMA_SYNC; } else if ( target_disp < 0 ) { rc = MPI_ERR_DISP; } else { OMPI_CHECK_DATATYPE_FOR_ONE_SIDED(rc, origin_datatype, origin_count); if (OMPI_SUCCESS == rc) { OMPI_CHECK_DATATYPE_FOR_ONE_SIDED(rc, target_datatype, target_count); } if (OMPI_SUCCESS == rc) { /* While technically the standard probably requires that the datatypes used with MPI_REPLACE conform to all the rules for other reduction operators, we don't require such behaivor, as checking for it is expensive here and we don't care in implementation.. */ if (op != &ompi_mpi_op_replace) { ompi_datatype_t *op_check_dt, *origin_check_dt; char *msg; if (ompi_ddt_is_predefined(origin_datatype)) { origin_check_dt = origin_datatype; } else { int i, found_index = -1, num_found = 0; uint64_t mask = 1; for (i = 0 ; i < DT_MAX_PREDEFINED ; ++i) { if (origin_datatype->bdt_used & mask) { num_found++; found_index = i; } mask *= 2; } if (found_index < 0 || num_found > 1) { /* this is an erroneous datatype. Let ompi_op_is_valid tell the user that */ OMPI_ERRHANDLER_RETURN(MPI_ERR_TYPE, win, MPI_ERR_TYPE, FUNC_NAME); } else { origin_check_dt = (ompi_datatype_t*) ompi_ddt_basicDatatypes[found_index]; } } /* ACCUMULATE, unlike REDUCE, can use with derived datatypes with predefinied operations, with some restrictions outlined in MPI-2:6.3.4. The derived datatype must be composed entirley from one predefined datatype (so you can do all the construction you want, but at the bottom, you can only use one datatype, say, MPI_INT). If the datatype at the target isn't predefined, then make sure it's composed of only one datatype, and check that datatype against ompi_op_is_valid(). */ if (ompi_ddt_is_predefined(target_datatype)) { op_check_dt = target_datatype; } else { int i, found_index = -1, num_found = 0; uint64_t mask = 1; for (i = 0 ; i < DT_MAX_PREDEFINED ; ++i) { if (target_datatype->bdt_used & mask) { num_found++; found_index = i; } mask *= 2; } if (found_index < 0 || num_found > 1) { /* this is an erroneous datatype. Let ompi_op_is_valid tell the user that */ OMPI_ERRHANDLER_RETURN(MPI_ERR_TYPE, win, MPI_ERR_TYPE, FUNC_NAME); } else { /* datatype passes muster as far as restrictions in MPI-2:6.3.4. Is the primitive ok with the op? Unfortunately have to cast away constness... */ op_check_dt = (ompi_datatype_t*) ompi_ddt_basicDatatypes[found_index]; } } /* check to make sure same primitive type */ if (op_check_dt != origin_check_dt) { OMPI_ERRHANDLER_RETURN(MPI_ERR_ARG, win, MPI_ERR_ARG, FUNC_NAME); } /* check to make sure primitive type is valid for reduction. Should do this on the target, but then can't get the errcode back for this call */ if (!ompi_op_is_valid(op, op_check_dt, &msg, FUNC_NAME)) { int ret = OMPI_ERRHANDLER_INVOKE(win, MPI_ERR_OP, msg); free(msg); return ret; } } } } OMPI_ERRHANDLER_CHECK(rc, win, rc, FUNC_NAME); /* While technically the standard probably requires that the datatypes used with MPI_REPLACE conform to all the rules for other reduction operators, we don't require such behaivor, as checking for it is expensive here and we don't care in implementation.. */ if (op != &ompi_mpi_op_replace) { ompi_datatype_t *op_check_dt; char *msg; /* ACCUMULATE, unlike REDUCE, can use with derived datatypes with predefinied operations, with some restrictions outlined in MPI-2:6.3.4. The derived datatype must be composed entirley from one predefined datatype (so you can do all the construction you want, but at the bottom, you can only use one datatype, say, MPI_INT). If the datatype at the target isn't predefined, then make sure it's composed of only one datatype, and check that datatype against ompi_op_is_valid(). */ if (ompi_ddt_is_predefined(target_datatype)) { op_check_dt = target_datatype; } else { int i, found_index = -1, num_found = 0; uint64_t mask = 1; for (i = 0 ; i < DT_MAX_PREDEFINED ; ++i) { if (target_datatype->bdt_used & mask) { num_found++; found_index = i; } mask *= 2; } if (found_index < 0 || num_found > 1) { /* this is an erroneous datatype. Let ompi_op_is_valid tell the user that */ op_check_dt = target_datatype; } else { /* datatype passes muster as far as restrictions in MPI-2:6.3.4. Is the primitive ok with the op? Unfortunately have to cast away constness... */ op_check_dt = (ompi_datatype_t*) ompi_ddt_basicDatatypes[found_index]; } } if (!ompi_op_is_valid(op, op_check_dt, &msg, FUNC_NAME)) { int ret = OMPI_ERRHANDLER_INVOKE(win, MPI_ERR_OP, msg); free(msg); return ret; } } } if (MPI_PROC_NULL == target_rank) return MPI_SUCCESS; rc = ompi_win->w_osc_module->osc_accumulate(origin_addr, origin_count, origin_datatype, target_rank, target_disp, target_count, target_datatype, op, win); OMPI_ERRHANDLER_RETURN(rc, win, rc, FUNC_NAME); }