NAME

       MPI_Neighbor_alltoallw  -   Like  MPI_Neighbor_alltoallv  but  it  allows  one to send and
       receive with different types to and from each neighbor.

SYNOPSIS

       int MPI_Neighbor_alltoallw(const void *sendbuf, const int sendcounts[], const MPI_Aint sdispls[], const MPI_Datatype sendtypes[], void *recvbuf, const int recvcounts[], const MPI_Aint rdispls[], const MPI_Datatype recvtypes[], MPI_Comm comm)

INPUT PARAMETERS

       sendbuf
              - starting address of the send buffer (choice)
       sendcounts
              - non-negative integer  array  (of  length  outdegree)  specifying  the  number  of
              elements to send to each neighbor
       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
              (array of integers)
       sendtypes
              -  array of datatypes (of length outdegree).  Entry j specifies the type of data to
              send to neighbor j (array of handles)
       recvcounts
              - non-negative integer array (of length indegree) specifying the number of elements
              that are received from each neighbor
       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 (array of
              integers).
       recvtypes
              -  array  of  datatypes  (of  length indegree).  Entry i specifies the type of data
              received from neighbor i (array of handles).
       comm   - communicator with topology structure (handle)

OUTPUT PARAMETERS

       recvbuf
              - starting address of the receive buffer (choice)

THREAD AND INTERRUPT SAFETY

       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.

NOTES FOR FORTRAN

       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.

ERRORS

       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  guarentee that an MPI program can continue past an
       error; however, MPI implementations will attempt to continue whenever possible.

                                            11/9/2015                   MPI_Neighbor_alltoallw(3)