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SYNTAX
   C Syntax
          #include <mpi.h>

          int MPI_Type_indexed(int count, const int array_of_blocklengths[],
               const int array_of_displacements[], MPI_Datatype oldtype,
               MPI_Datatype *newtype)

          int MPI_Type_create_hindexed(int count,
               const int array_of_blocklengths[],
               const MPI_Aint array_of_displacements[], MPI_Datatype oldtype,
               MPI_Datatype *newtype)

   Fortran Syntax
          USE MPI
          ! or the older form: INCLUDE 'mpif.h'
          MPI_TYPE_INDEXED(COUNT, ARRAY_OF_BLOCKLENGTHS,
                       ARRAY_OF_DISPLACEMENTS, OLDTYPE, NEWTYPE, IERROR)
               INTEGER COUNT, ARRAY_OF_BLOCKLENGTHS(*)
               INTEGER ARRAY_OF_DISPLACEMENTS(*), OLDTYPE, NEWTYPE
               INTEGER IERROR

          MPI_TYPE_CREATE_HINDEXED(COUNT, ARRAY_OF_BLOCKLENGTHS,
                       ARRAY_OF_DISPLACEMENTS, OLDTYPE, NEWTYPE, IERROR)
               INTEGER COUNT, ARRAY_OF_BLOCKLENGTHS(*)
               INTEGER OLDTYPE, NEWTYPE
               INTEGER(KIND=MPI_ADDRESS_KIND) ARRAY_OF_DISPLACEMENTS(*)
               INTEGER IERROR

   Fortran 2008 Syntax
          USE mpi_f08
          MPI_Type_indexed(count, array_of_blocklengths, array_of_displacements,
                       oldtype, newtype, ierror)
               INTEGER, INTENT(IN) :: count, array_of_blocklengths(count),
               array_of_displacements(count)
               TYPE(MPI_Datatype), INTENT(IN) :: oldtype
               TYPE(MPI_Datatype), INTENT(OUT) :: newtype
               INTEGER, OPTIONAL, INTENT(OUT) :: ierror

          MPI_Type_create_hindexed(count, array_of_blocklengths,
                       array_of_displacements, oldtype, newtype, ierror)
               INTEGER, INTENT(IN) :: count, array_of_blocklengths(count)
               INTEGER(KIND=MPI_ADDRESS_KIND), INTENT(IN) ::
               array_of_displacements(count)
               TYPE(MPI_Datatype), INTENT(IN) :: oldtype
               TYPE(MPI_Datatype), INTENT(OUT) :: newtype
               INTEGER, OPTIONAL, INTENT(OUT) :: ierror


INPUT PARAMETERS
count:  Number  of  blocks — also number of entries in array_of_displacements and array_of_blocklengths
         (nonnegative integer).

       • array_of_blocklengths: Number of elements per block (array of nonnegative integers).

       • array_of_displacements:  Displacement  for  each  block,   in   multiples   of   oldtype   extent   for
         MPI_Type_indexed  and  bytes for MPI_Type_create_hindexed (array of integer for MPI_TYPE_INDEXED, array
         of MPI_Aint for MPI_TYPE_CREATE_HINDEXED).

       • oldtype: Old datatype (handle).


OUTPUT PARAMETERS
newtype: New datatype (handle).

       • ierror: Fortran only: Error status (integer).


DESCRIPTION
       The function MPI_Type_indexed allows replication of an old datatype into a sequence of blocks (each block
       is a concatenation of the old datatype), where each block can contain a different number  of  copies  and
       have a different displacement. All block displacements are multiples of the old data type’s extent.

       Example:  Let  oldtype have type map {(double, 0), (char, 8)}, with extent 16. Let B = (3, 1) and let D =
       (4, 0). A call to MPI_Type_indexed(2, B, D, oldtype, newtype) returns a datatype with type map

          {(double, 64), (char, 72), (double, 80), (char, 88),
          (double, 96), (char, 104),
          (double, 0), (char, 8)}

       That is, three copies of the old type starting at displacement 4 x 16 = 64,  and  one  copy  starting  at
       displacement 0.

       In general, assume that oldtype has type map

          {(type(0), disp(0)), ..., (type(n-1), disp(n-1))},
       with extent ex. Let B be the array_of_blocklength argument and D be
       the array_of_displacements argument. The newly created datatype has

          n x S ^count-1
              i = 0           B[i]  entries:

              {(type(0), disp(0) + D[0]* ex), ...,
              (type(n-1), disp(n-1) + D[0]* ex), ...,
              (type(0), disp(0) + (D[0] + B[0]-1)* ex), ...,
              (type(n-1), disp(n-1) + (D[0]+ B[0]-1)* ex), ...,
              (type(0), disp(0) + D[count-1]* ex), ...,
              (type(n-1), disp(n-1) + D[count-1]* ex), ...,
              (type(0), disp(0) +  (D[count-1] + B[count-1] -1)* ex), ...,
              (type(n-1), disp(n-1) + (D[count-1] + B[count-1] -1)* ex)}

       A  call  to  MPI_Type_vector(count,  blocklength,  stride,  oldtype,  newtype) is equivalent to a call to
       MPI_Type_indexed(count, B, D, oldtype, newtype) where

              D[j] = j * stride, j = 0,..., count-1

          and

              B[j] = blocklength, j = 0, .., count-1

       The function MPI_Type_create_hindexed is identical to MPI_Type_indexed, except that  block  displacements
       in array_of_displacements are specified in bytes, rather than in multiples of the oldtype extent.


ERRORS
       Almost  all  MPI  routines  return  an  error  value; C routines as the return result of the function and
       Fortran routines in the last argument.

       Before the error value is returned, the current MPI  error  handler  associated  with  the  communication
       object  (e.g.,  communicator, window, file) is called.  If no communication object is associated with the
       MPI call, then the call is considered attached to MPI_COMM_SELF and will call the  associated  MPI  error
       handler.   When   MPI_COMM_SELF   is   not  initialized  (i.e.,  before  MPI_Init/MPI_Init_thread,  after
       MPI_Finalize, or when using the Sessions Model exclusively) the error raises the initial  error  handler.
       The  initial  error handler can be changed by calling MPI_Comm_set_errhandler on MPI_COMM_SELF when using
       the World model, or the mpi_initial_errhandler CLI argument to mpiexec or info  key  to  MPI_Comm_spawn/‐
       MPI_Comm_spawn_multiple.   If no other appropriate error handler has been set, then the MPI_ERRORS_RETURN
       error handler is called for MPI I/O functions and the MPI_ERRORS_ABORT error handler is  called  for  all
       other MPI functions.

       Open MPI includes three predefined error handlers that can be used:

       • MPI_ERRORS_ARE_FATAL Causes the program to abort all connected MPI processes.

       • MPI_ERRORS_ABORT An error handler that can be invoked on a communicator, window, file, or session. When
         called  on  a  communicator,  it  acts  as if MPI_Abort was called on that communicator. If called on a
         window or file, acts as if MPI_Abort was called on a communicator containing the group of processes  in
         the corresponding window or file. If called on a session, aborts only the local process.

       • MPI_ERRORS_RETURN Returns an error code to the application.

       MPI applications can also implement their own error handlers by calling:

       • MPI_Comm_create_errhandler then MPI_Comm_set_errhandlerMPI_File_create_errhandler then MPI_File_set_errhandlerMPI_Session_create_errhandler then MPI_Session_set_errhandler or at MPI_Session_initMPI_Win_create_errhandler then MPI_Win_set_errhandler

       Note that MPI does not guarantee that an MPI program can continue past an error.

       See the MPI man page for a full list of MPI error codes.

       See the Error Handling section of the MPI-3.1 standard for more information.

       SEE ALSO:MPI_Type_hindexed


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       2003-2025, The Open MPI Community

                                                  Feb 17, 2025                               MPI_TYPE_INDEXED(3)