MPI_Neighbor_alltoallw_init_c - Create a persistent request for
neighbor_alltoallw.
int MPI_Neighbor_alltoallw_init_c(const void *sendbuf, const MPI_Count sendcounts[],
const MPI_Aint sdispls[], const MPI_Datatype sendtypes[],
void *recvbuf, const MPI_Count recvcounts[],
const MPI_Aint rdispls[], const MPI_Datatype recvtypes[],
MPI_Comm comm, MPI_Info info, MPI_Request *request)
- sendbuf
- - starting address of send buffer (choice) (choice)
- sendcounts
- - non-negative integer array (of length outdegree) specifying the number
of elements to send to each neighbor (non-negative integer) (non-negative
integer)
- sdispls
- - integer array (of length outdegree). Entry j specifies the displacement
in bytes (relative to sendbuf) from which to take the outgoing data
destined for neighbor j (integer) (integer)
- sendtypes
- - array of datatypes (of length outdegree). Entry j specifies the type of
data to send to neighbor j (handle) (handle)
- recvcounts
- - non-negative integer array (of length indegree) specifying the number of
elements that are received from each neighbor (non-negative integer)
(non-negative integer)
- rdispls
- - integer array (of length indegree). Entry i specifies the displacement
in bytes (relative to recvbuf) at which to place the incoming data from
neighbor i (integer) (integer)
- recvtypes
- - array of datatypes (of length indegree). Entry i specifies the type of
data received from neighbor i (handle) (handle)
- comm
- - communicator with topology structure (handle) (handle)
- info
- - info argument (handle) (handle)
- recvbuf
- - starting address of receive buffer (choice) (choice)
- request
- - communication request (handle) (handle)
This routine is thread-safe. This means that this routine may be
safely used by multiple threads without the need for any user-provided
thread locks. However, the routine is not interrupt safe. Typically, this is
due to the use of memory allocation routines such as malloc or other
non-MPICH runtime routines that are themselves not interrupt-safe.
All MPI routines in Fortran (except for MPI_WTIME and
MPI_WTICK ) have an additional argument ierr at the end of the
argument list. ierr is an integer and has the same meaning as the
return value of the routine in C. In Fortran, MPI routines are subroutines,
and are invoked with the call statement.
All MPI objects (e.g., MPI_Datatype , MPI_Comm ) are
of type INTEGER in Fortran.
All MPI routines (except MPI_Wtime and MPI_Wtick )
return an error value; C routines as the value of the function and Fortran
routines in the last argument. Before the value is returned, the current MPI
error handler is called. By default, this error handler aborts the MPI job.
The error handler may be changed with MPI_Comm_set_errhandler (for
communicators), MPI_File_set_errhandler (for files), and
MPI_Win_set_errhandler (for RMA windows). The MPI-1 routine
MPI_Errhandler_set may be used but its use is deprecated. The
predefined error handler MPI_ERRORS_RETURN may be used to cause error
values to be returned. Note that MPI does not guarantee that an MPI
program can continue past an error; however, MPI implementations will
attempt to continue whenever possible.
- MPI_SUCCESS
- - No error; MPI routine completed successfully.
- MPI_ERR_ARG
- - Invalid argument. Some argument is invalid and is not identified by a
specific error class (e.g., MPI_ERR_RANK ).
- MPI_ERR_BUFFER
- - Invalid buffer pointer. Usually a null buffer where one is not
valid.
- MPI_ERR_COMM
- - Invalid communicator. A common error is to use a null communicator in a
call (not even allowed in MPI_Comm_rank ).
- MPI_ERR_COUNT
- - Invalid count argument. Count arguments must be non-negative; a count of
zero is often valid.
- MPI_ERR_INFO
- - Invalid Info
- MPI_ERR_TYPE
- - Invalid datatype argument. Additionally, this error can occur if an
uncommitted MPI_Datatype (see MPI_Type_commit ) is used in a
communication call.
- MPI_ERR_OTHER
- - Other error; use MPI_Error_string to get more information about
this error code.