📄 recv.c
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/* -*- Mode: C; c-basic-offset:4 ; -*- *//* * * (C) 2001 by Argonne National Laboratory. * See COPYRIGHT in top-level directory. */#include "mpiimpl.h"/* -- Begin Profiling Symbol Block for routine MPI_Recv */#if defined(HAVE_PRAGMA_WEAK)#pragma weak MPI_Recv = PMPI_Recv#elif defined(HAVE_PRAGMA_HP_SEC_DEF)#pragma _HP_SECONDARY_DEF PMPI_Recv MPI_Recv#elif defined(HAVE_PRAGMA_CRI_DUP)#pragma _CRI duplicate MPI_Recv as PMPI_Recv#endif/* -- End Profiling Symbol Block *//* Define MPICH_MPI_FROM_PMPI if weak symbols are not supported to build the MPI routines */#ifndef MPICH_MPI_FROM_PMPI#define MPI_Recv PMPI_Recv#endif#undef FUNCNAME#define FUNCNAME MPI_Recv/*@ MPI_Recv - Basic receiveOutput Parameters:+ buf - initial address of receive buffer (choice) - status - status object (Status) Input Parameters:+ count - maximum number of elements in receive buffer (integer) . datatype - datatype of each receive buffer element (handle) . source - rank of source (integer) . tag - message tag (integer) - comm - communicator (handle) Notes:The 'count' argument indicates the maximum length of a message; the actual number can be determined with 'MPI_Get_count'. .N fortran.N Errors.N MPI_SUCCESS.N MPI_ERR_COMM.N MPI_ERR_TYPE.N MPI_ERR_COUNT.N MPI_ERR_TAG.N MPI_ERR_RANK@*/int MPI_Recv(void *buf, int count, MPI_Datatype datatype, int source, int tag, MPI_Comm comm, MPI_Status *status){ static const char FCNAME[] = "MPI_Recv"; int mpi_errno = MPI_SUCCESS; MPID_Comm *comm_ptr = NULL; MPID_Request * request_ptr = NULL; MPID_MPI_STATE_DECL(MPID_STATE_MPI_RECV); /* Verify that MPI has been initialized */# ifdef HAVE_ERROR_CHECKING { MPID_BEGIN_ERROR_CHECKS; { MPIR_ERRTEST_INITIALIZED(mpi_errno); MPIR_ERRTEST_COMM(comm, mpi_errno); /* NOTE: MPI_STATUS_IGNORE != NULL */ MPIR_ERRTEST_ARGNULL(status, "status", mpi_errno); if (mpi_errno) { return MPIR_Err_return_comm( 0, FCNAME, mpi_errno ); } } MPID_END_ERROR_CHECKS; }# endif /* HAVE_ERROR_CHECKING */ MPID_MPI_PT2PT_FUNC_ENTER_BACK(MPID_STATE_MPI_RECV); /* Convert MPI object handles to object pointers */ MPID_Comm_get_ptr( comm, comm_ptr ); /* Validate parameters if error checking is enabled */# ifdef HAVE_ERROR_CHECKING { MPID_BEGIN_ERROR_CHECKS; { MPID_Datatype * datatype_ptr = NULL; MPID_Comm_valid_ptr( comm_ptr, mpi_errno ); if (mpi_errno) { MPID_MPI_PT2PT_FUNC_EXIT(MPID_STATE_MPI_RECV); return MPIR_Err_return_comm( comm_ptr, FCNAME, mpi_errno ); } MPIR_ERRTEST_COUNT(count, mpi_errno); MPIR_ERRTEST_DATATYPE(count, datatype, mpi_errno); MPIR_ERRTEST_RECV_RANK(comm_ptr, source, mpi_errno); MPIR_ERRTEST_RECV_TAG(tag, mpi_errno); if (mpi_errno) { MPID_MPI_PT2PT_FUNC_EXIT(MPID_STATE_MPI_RECV); return MPIR_Err_return_comm( comm_ptr, FCNAME, mpi_errno ); } MPID_Datatype_get_ptr(datatype, datatype_ptr); MPID_Datatype_valid_ptr( datatype_ptr, mpi_errno ); MPIR_ERRTEST_USERBUFFER(buf,count,datatype,mpi_errno); if (mpi_errno) { MPID_MPI_PT2PT_FUNC_EXIT(MPID_STATE_MPI_RECV); return MPIR_Err_return_comm( comm_ptr, FCNAME, mpi_errno ); } } MPID_END_ERROR_CHECKS; }# endif /* HAVE_ERROR_CHECKING */ mpi_errno = MPID_Recv(buf, count, datatype, source, tag, comm_ptr, MPID_CONTEXT_INTRA_PT2PT, status, &request_ptr); if (mpi_errno == MPI_SUCCESS) { if (request_ptr == NULL) { MPID_MPI_PT2PT_FUNC_EXIT(MPID_STATE_MPI_RECV); return MPI_SUCCESS; } else { /* If a request was returned, then we need to block until the request is complete */ MPIR_Wait(request_ptr); if (status != MPI_STATUS_IGNORE) { *status = request_ptr->status; } mpi_errno = request_ptr->status.MPI_ERROR; MPID_Request_release(request_ptr); if (mpi_errno == MPI_SUCCESS) { MPID_MPI_PT2PT_FUNC_EXIT(MPID_STATE_MPI_RECV); return MPI_SUCCESS; } } } MPID_MPI_PT2PT_FUNC_EXIT(MPID_STATE_MPI_RECV); return MPIR_Err_return_comm( comm_ptr, FCNAME, mpi_errno );}⌨️ 快捷键说明
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