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openmpi/ompi/include/mpif-common.h
George Bosilca 5390fd6f33 Reshape the datatype engine. The basic types are built down in OPAL. MPI types are
either direct link to these basic predefined types, or a combination of them.
Anyway, the first items in the datatype list belong to OPAL, the second round
are MPI datatypes created by composing basic OPAL datatypes, and the last
batch are mapped datatype (direct correspondance between an OMPI datatype and
an OPAL one such as int -> int32_t).

Modify the op to fit this new scheme.

This commit was SVN r24247.
2011-01-13 06:08:54 +00:00

522 строки
21 KiB
Fortran

! -*- fortran -*-
!
! Copyright (c) 2004-2006 The Trustees of Indiana University and Indiana
! University Research and Technology
! Corporation. All rights reserved.
! Copyright (c) 2004-2010 The University of Tennessee and The University
! of Tennessee Research Foundation. All rights
! reserved.
! Copyright (c) 2004-2007 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 (c) 2006 Cisco Systems, Inc. All rights reserved.
! Copyright (c) 2009 Oak Ridge National Labs. All rights reserved.
! $COPYRIGHT$
!
! Additional copyrights may follow
!
! $HEADER$
!
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
! WARNING WARNING WARNING WARNING WARNING WARNING WARNING WARNING WARNING
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!
! Do ***not*** copy this file to the directory where your Fortran
! fortran application is compiled unless it is absolutely necessary! Most
! modern Fortran compilers now support the -I command line flag, which
! tells the compiler where to find .h files (specifically, this one). For
! example:
!
! shell$ mpif77 foo.f -o foo -I$OMPI_HOME/include
!
! will probably do the trick (assuming that you have set OMPI_HOME
! properly).
!
! That being said, OMPI's "mpif77" wrapper compiler should
! automatically include the -I option for you. The following command
! should be equivalent to the command listed above:
!
! shell$ mpif77 foo.f -o foo
!
! You should not copy this file to your local directory because it is
! possible that this file will be changed between versions of Open MPI.
! Indeed, this mpif.h is incompatible with the mpif.f of other
! implementations of MPI. Using this mpif.h with other implementations
! of MPI, or with other versions of Open MPI will result in undefined
! behavior (to include incorrect results, segmentation faults,
! unexplainable "hanging" in your application, etc.). Always use the
! -I command line option instead (or let mpif77 do it for you).
!
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
! WARNING WARNING WARNING WARNING WARNING WARNING WARNING WARNING WARNING
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!
! This file contains the bulk of the Open MPI Fortran interface. It
! is included as a back-end file to both mpif.h (i.e., the
! standardized MPI Fortran header file) and mpi.f90 (the MPI-2
! Fortran module source file, found in ompi/mpi/f90).
!
! This file is marginally different than mpif.h. mpif.h includes
! some "external" statements that are not suitable for use with the
! MPI-2 F90 module, and therefore cannot be included in the mpi.f90
! source file. Hence, this file is essentially everything that
! needs to be in the standardized mpif.h *except* the "external"
! statements, and is therefore suitable to be included in mpi.f90.
!
! First, however, include some output from configure.
!
include 'mpif-config.h'
!
! MPI version
!
integer MPI_VERSION, MPI_SUBVERSION
parameter (MPI_VERSION=2)
parameter (MPI_SUBVERSION=1)
!
! Miscellaneous constants
!
integer MPI_ANY_SOURCE, MPI_ANY_TAG
integer MPI_PROC_NULL
integer MPI_ROOT
integer MPI_UNDEFINED
integer MPI_CART, MPI_GRAPH, MPI_KEYVAL_INVALID
integer MPI_SOURCE, MPI_TAG, MPI_ERROR
integer MPI_TAG_UB, MPI_HOST, MPI_IO, MPI_WTIME_IS_GLOBAL
integer MPI_APPNUM, MPI_LASTUSEDCODE, MPI_UNIVERSE_SIZE
integer IMPI_CLIENT_SIZE, IMPI_CLIENT_COLOR
integer IMPI_HOST_SIZE, IMPI_HOST_COLOR
integer MPI_BSEND_OVERHEAD
integer MPI_ORDER_C, MPI_ORDER_FORTRAN
integer MPI_DISTRIBUTE_BLOCK, MPI_DISTRIBUTE_CYCLIC
integer MPI_DISTRIBUTE_NONE, MPI_DISTRIBUTE_DFLT_DARG
integer MPI_TYPECLASS_INTEGER, MPI_TYPECLASS_REAL
integer MPI_TYPECLASS_COMPLEX
integer MPI_MODE_NOCHECK, MPI_MODE_NOPRECEDE, MPI_MODE_NOPUT
integer MPI_MODE_NOSTORE, MPI_MODE_NOSUCCEED
integer MPI_LOCK_EXCLUSIVE, MPI_LOCK_SHARED
integer MPI_WIN_BASE, MPI_WIN_SIZE, MPI_WIN_DISP_UNIT
parameter (MPI_ANY_SOURCE=-1)
parameter (MPI_ANY_TAG=-1)
parameter (MPI_PROC_NULL=-2)
parameter (MPI_ROOT=-4)
parameter (MPI_UNDEFINED=-32766)
parameter (MPI_CART=1)
parameter (MPI_GRAPH=2)
parameter (MPI_KEYVAL_INVALID=-1)
parameter (MPI_SOURCE=1)
parameter (MPI_TAG=2)
parameter (MPI_ERROR=3)
parameter (MPI_TAG_UB=0)
parameter (MPI_HOST=1)
parameter (MPI_IO=2)
parameter (MPI_WTIME_IS_GLOBAL=3)
parameter (MPI_APPNUM=4)
parameter (MPI_LASTUSEDCODE=5)
parameter (MPI_UNIVERSE_SIZE=6)
parameter (MPI_WIN_BASE=7)
parameter (MPI_WIN_SIZE=8)
parameter (MPI_WIN_DISP_UNIT=9)
parameter (IMPI_CLIENT_SIZE=10)
parameter (IMPI_CLIENT_COLOR=11)
parameter (IMPI_HOST_SIZE=12)
parameter (IMPI_HOST_COLOR=13)
parameter (MPI_BSEND_OVERHEAD=128)
parameter (MPI_ORDER_C=0)
parameter (MPI_ORDER_FORTRAN=1)
parameter (MPI_DISTRIBUTE_BLOCK=0)
parameter (MPI_DISTRIBUTE_CYCLIC=1)
parameter (MPI_DISTRIBUTE_NONE=2)
parameter (MPI_DISTRIBUTE_DFLT_DARG=-1)
parameter (MPI_TYPECLASS_INTEGER=1)
parameter (MPI_TYPECLASS_REAL=2)
parameter (MPI_TYPECLASS_COMPLEX=3)
parameter (MPI_MODE_NOCHECK=1)
parameter (MPI_MODE_NOPRECEDE=2)
parameter (MPI_MODE_NOPUT=4)
parameter (MPI_MODE_NOSTORE=8)
parameter (MPI_MODE_NOSUCCEED=16)
parameter (MPI_LOCK_EXCLUSIVE=1)
parameter (MPI_LOCK_SHARED=2)
!
! MPI sentinel values
!
! Several of these types were chosen with care to match specific
! overloaded functions in the F90 bindings. They should also match
! the types of their corresponding C variables. Do not arbitrarily
! change their types without also updating the F90 bindings and
! their corresponding types in ompi/mpi/f77/constants.h and
! ompi/mpi/runtime/ompi_init.c!
!
! MPI_BOTTOM is only used where choice buffers can be used (meaning
! that we already have overloaded F90 bindings for all available
! types), so any type is fine.
integer MPI_BOTTOM
! MPI_IN_PLACE has the same rationale as MPI_BOTTOM.
integer MPI_IN_PLACE
! Making MPI_ARGV_NULL be the same type as the parameter that is
! exepected in the F90 binding for MPI_COMM_SPAWN means that we
! don't need another binding for MPI_COMM_SPAWN.
character MPI_ARGV_NULL(1)
! The array_of_argv parameter in the F90 bindings for
! MPI_COMM_SPAWN_MULTIPLE takes a variable number of dimensions
! (specified by the "count" parameter), so it's not possible to have
! a single variable match all possible values. Hence, make it an
! entirely different type (one that would never likely be used by a
! correct program, e.g., double) and have a separate F90 binding for
! matching just this type.
double precision MPI_ARGVS_NULL
! MPI_ERRCODES_IGNORE has similar rationale to MPI_ARGV_NULL. The
! F77 functions are all smart enough to check that the errcodes
! parameter is not ERRCODES_IGNORE before assigning values into it
! (hence, the fact that this is an array of only 1 element does not
! matter -- we'll never overrun it because we never assign values
! into it).
integer MPI_ERRCODES_IGNORE(1)
! MPI_STATUS_IGNORE has similar rationale to MPI_ERRCODES_IGNORE.
integer MPI_STATUS_IGNORE(MPI_STATUS_SIZE)
! MPI_STATUSES_IGNORE has similar rationale to MPI_ARGVS_NULL.
double precision MPI_STATUSES_IGNORE
common/mpi_fortran_bottom/MPI_BOTTOM
common/mpi_fortran_in_place/MPI_IN_PLACE
common/mpi_fortran_argv_null/MPI_ARGV_NULL
common/mpi_fortran_argvs_null/MPI_ARGVS_NULL
common/mpi_fortran_errcodes_ignore/MPI_ERRCODES_IGNORE
common/mpi_fortran_status_ignore/MPI_STATUS_IGNORE
common/mpi_fortran_statuses_ignore/MPI_STATUSES_IGNORE
!
! NULL "handles" (indices)
!
integer MPI_GROUP_NULL, MPI_COMM_NULL, MPI_DATATYPE_NULL
integer MPI_REQUEST_NULL, MPI_OP_NULL, MPI_ERRHANDLER_NULL
integer MPI_INFO_NULL, MPI_WIN_NULL
parameter (MPI_GROUP_NULL=0)
parameter (MPI_COMM_NULL=2)
parameter (MPI_DATATYPE_NULL=0)
parameter (MPI_REQUEST_NULL=0)
parameter (MPI_OP_NULL=0)
parameter (MPI_ERRHANDLER_NULL=0)
parameter (MPI_INFO_NULL=0)
parameter (MPI_WIN_NULL=0)
!
! MPI_Init_thread constants
!
integer MPI_THREAD_SINGLE, MPI_THREAD_FUNNELED
integer MPI_THREAD_SERIALIZED, MPI_THREAD_MULTIPLE
parameter (MPI_THREAD_SINGLE=0)
parameter (MPI_THREAD_FUNNELED=1)
parameter (MPI_THREAD_SERIALIZED=2)
parameter (MPI_THREAD_MULTIPLE=3)
!
! error classes
!
integer MPI_SUCCESS
integer MPI_ERR_BUFFER
integer MPI_ERR_COUNT
integer MPI_ERR_TYPE
integer MPI_ERR_TAG
integer MPI_ERR_COMM
integer MPI_ERR_RANK
integer MPI_ERR_REQUEST
integer MPI_ERR_ROOT
integer MPI_ERR_GROUP
integer MPI_ERR_OP
integer MPI_ERR_TOPOLOGY
integer MPI_ERR_DIMS
integer MPI_ERR_ARG
integer MPI_ERR_UNKNOWN
integer MPI_ERR_TRUNCATE
integer MPI_ERR_OTHER
integer MPI_ERR_INTERN
integer MPI_ERR_IN_STATUS
integer MPI_ERR_PENDING
integer MPI_ERR_ACCESS
integer MPI_ERR_AMODE
integer MPI_ERR_ASSERT
integer MPI_ERR_BAD_FILE
integer MPI_ERR_BASE
integer MPI_ERR_CONVERSION
integer MPI_ERR_DISP
integer MPI_ERR_DUP_DATAREP
integer MPI_ERR_FILE_EXISTS
integer MPI_ERR_FILE_IN_USE
integer MPI_ERR_FILE
integer MPI_ERR_INFO_KEY
integer MPI_ERR_INFO_NOKEY
integer MPI_ERR_INFO_VALUE
integer MPI_ERR_INFO
integer MPI_ERR_IO
integer MPI_ERR_KEYVAL
integer MPI_ERR_LOCKTYPE
integer MPI_ERR_NAME
integer MPI_ERR_NO_MEM
integer MPI_ERR_NOT_SAME
integer MPI_ERR_NO_SPACE
integer MPI_ERR_NO_SUCH_FILE
integer MPI_ERR_PORT
integer MPI_ERR_QUOTA
integer MPI_ERR_READ_ONLY
integer MPI_ERR_RMA_CONFLICT
integer MPI_ERR_RMA_SYNC
integer MPI_ERR_SERVICE
integer MPI_ERR_SIZE
integer MPI_ERR_SPAWN
integer MPI_ERR_UNSUPPORTED_DATAREP
integer MPI_ERR_UNSUPPORTED_OPERATION
integer MPI_ERR_WIN
integer MPI_ERR_SYSRESOURCE
integer MPI_ERR_LASTCODE
parameter( MPI_SUCCESS = 0)
parameter( MPI_ERR_BUFFER = 1)
parameter( MPI_ERR_COUNT = 2)
parameter( MPI_ERR_TYPE = 3)
parameter( MPI_ERR_TAG = 4)
parameter( MPI_ERR_COMM = 5)
parameter( MPI_ERR_RANK = 6)
parameter( MPI_ERR_REQUEST = 7)
parameter( MPI_ERR_ROOT = 8)
parameter( MPI_ERR_GROUP = 9)
parameter( MPI_ERR_OP = 10)
parameter( MPI_ERR_TOPOLOGY = 11)
parameter( MPI_ERR_DIMS = 12)
parameter( MPI_ERR_ARG = 13)
parameter( MPI_ERR_UNKNOWN = 14)
parameter( MPI_ERR_TRUNCATE = 15)
parameter( MPI_ERR_OTHER = 16)
parameter( MPI_ERR_INTERN = 17)
parameter( MPI_ERR_IN_STATUS = 18)
parameter( MPI_ERR_PENDING = 19)
parameter( MPI_ERR_ACCESS = 20)
parameter( MPI_ERR_AMODE = 21)
parameter( MPI_ERR_ASSERT = 22)
parameter( MPI_ERR_BAD_FILE = 23)
parameter( MPI_ERR_BASE = 24)
parameter( MPI_ERR_CONVERSION = 25)
parameter( MPI_ERR_DISP = 26)
parameter( MPI_ERR_DUP_DATAREP = 27)
parameter( MPI_ERR_FILE_EXISTS = 28)
parameter( MPI_ERR_FILE_IN_USE = 29)
parameter( MPI_ERR_FILE = 30)
parameter( MPI_ERR_INFO_KEY = 31)
parameter( MPI_ERR_INFO_NOKEY = 32)
parameter( MPI_ERR_INFO_VALUE = 33)
parameter( MPI_ERR_INFO = 34)
parameter( MPI_ERR_IO = 35)
parameter( MPI_ERR_KEYVAL = 36)
parameter( MPI_ERR_LOCKTYPE = 37)
parameter( MPI_ERR_NAME = 38)
parameter( MPI_ERR_NO_MEM = 39)
parameter( MPI_ERR_NOT_SAME = 40)
parameter( MPI_ERR_NO_SPACE = 41)
parameter( MPI_ERR_NO_SUCH_FILE = 42)
parameter( MPI_ERR_PORT = 43)
parameter( MPI_ERR_QUOTA = 44)
parameter( MPI_ERR_READ_ONLY = 45)
parameter( MPI_ERR_RMA_CONFLICT = 46)
parameter( MPI_ERR_RMA_SYNC = 47)
parameter( MPI_ERR_SERVICE = 48)
parameter( MPI_ERR_SIZE = 49)
parameter( MPI_ERR_SPAWN = 50)
parameter( MPI_ERR_UNSUPPORTED_DATAREP = 51)
parameter( MPI_ERR_UNSUPPORTED_OPERATION= 52)
parameter( MPI_ERR_WIN = 53)
parameter( MPI_ERR_SYSRESOURCE = -2)
parameter( MPI_ERR_LASTCODE = 54)
!
! comparison results
!
integer MPI_IDENT, MPI_CONGRUENT, MPI_SIMILAR, MPI_UNEQUAL
parameter (MPI_IDENT=0)
parameter (MPI_CONGRUENT=1)
parameter (MPI_SIMILAR=2)
parameter (MPI_UNEQUAL=3)
!
! datatype combiners
!
integer MPI_COMBINER_NAMED
integer MPI_COMBINER_DUP
integer MPI_COMBINER_CONTIGUOUS
integer MPI_COMBINER_VECTOR
integer MPI_COMBINER_HVECTOR_INTEGER
integer MPI_COMBINER_HVECTOR
integer MPI_COMBINER_INDEXED
integer MPI_COMBINER_HINDEXED_INTEGER
integer MPI_COMBINER_HINDEXED
integer MPI_COMBINER_INDEXED_BLOCK
integer MPI_COMBINER_STRUCT_INTEGER
integer MPI_COMBINER_STRUCT
integer MPI_COMBINER_SUBARRAY
integer MPI_COMBINER_DARRAY
integer MPI_COMBINER_F90_REAL
integer MPI_COMBINER_F90_COMPLEX
integer MPI_COMBINER_F90_INTEGER
integer MPI_COMBINER_RESIZED
parameter (MPI_COMBINER_NAMED=0)
parameter (MPI_COMBINER_DUP=1)
parameter (MPI_COMBINER_CONTIGUOUS=2)
parameter (MPI_COMBINER_VECTOR=3)
parameter (MPI_COMBINER_HVECTOR_INTEGER=4)
parameter (MPI_COMBINER_HVECTOR=5)
parameter (MPI_COMBINER_INDEXED=6)
parameter (MPI_COMBINER_HINDEXED_INTEGER=7)
parameter (MPI_COMBINER_HINDEXED=8)
parameter (MPI_COMBINER_INDEXED_BLOCK=9)
parameter (MPI_COMBINER_STRUCT_INTEGER=10)
parameter (MPI_COMBINER_STRUCT=11)
parameter (MPI_COMBINER_SUBARRAY=12)
parameter (MPI_COMBINER_DARRAY=13)
parameter (MPI_COMBINER_F90_REAL=14)
parameter (MPI_COMBINER_F90_COMPLEX=15)
parameter (MPI_COMBINER_F90_INTEGER=16)
parameter (MPI_COMBINER_RESIZED=17)
!
! lookup table indices
!
integer MPI_COMM_WORLD, MPI_COMM_SELF
integer MPI_GROUP_EMPTY
integer MPI_ERRORS_ARE_FATAL, MPI_ERRORS_RETURN
parameter (MPI_COMM_WORLD=0)
parameter (MPI_COMM_SELF=1)
parameter (MPI_GROUP_EMPTY=1)
parameter (MPI_ERRORS_ARE_FATAL=1)
parameter (MPI_ERRORS_RETURN=2)
integer MPI_BYTE, MPI_PACKED, MPI_UB, MPI_LB
integer MPI_CHARACTER, MPI_LOGICAL
integer MPI_INTEGER, MPI_INTEGER1, MPI_INTEGER2, MPI_INTEGER4
integer MPI_INTEGER8, MPI_INTEGER16
integer MPI_REAL, MPI_REAL2, MPI_REAL4, MPI_REAL8, MPI_REAL16
integer MPI_DOUBLE_PRECISION
integer MPI_COMPLEX, MPI_COMPLEX8, MPI_COMPLEX16, MPI_COMPLEX32
integer MPI_DOUBLE_COMPLEX
integer MPI_2REAL, MPI_2DOUBLE_PRECISION, MPI_2INTEGER
integer MPI_2COMPLEX, MPI_2DOUBLE_COMPLEX
! Note that MPI_LOGICALx are not defined by the MPI spec, but there are
! other MPI implementations that have them, so it's good for us to have
! as well.
integer MPI_LOGICAL1, MPI_LOGICAL2, MPI_LOGICAL4, MPI_LOGICAL8
! All other MPI types including the C and C++, as well as the
! ones defined in the MPI 2.2
integer MPI_WCHAR, MPI_CHAR
integer MPI_SIGNED_CHAR, MPI_UNSIGNED_CHAR
integer MPI_SHORT, MPI_UNSIGNED_SHORT
integer MPI_INT, MPI_UNSIGNED, MPI_LONG
integer MPI_UNSIGNED_LONG, MPI_LONG_LONG_INT
integer MPI_UNSIGNED_LONG_LONG
integer MPI_FLOAT, MPI_DOUBLE, MPI_LONG_DOUBLE
integer MPI_FLOAT_INT, MPI_DOUBLE_INT
integer MPI_LONGDBL_INT, MPI_LONG_INT
integer MPI_2INT, MPI_SHORT_INT
integer MPI_CXX_BOOL, MPI_CXX_CPLEX
integer MPI_CXX_DBLCPLEX, MPI_CXX_LDBLCPLEX
integer MPI_INT8_T, MPI_UINT8_T
integer MPI_INT16_T, MPI_UINT16_T
integer MPI_INT32_T, MPI_UINT32_T
integer MPI_INT64_T, MPI_UINT64_T
integer MPI_AINT, MPI_OFFSET
!
! Do NOT change the order of these parameters
!
parameter (MPI_BYTE = 1)
parameter (MPI_PACKED = 2)
parameter (MPI_UB = 3)
parameter (MPI_LB = 4)
parameter (MPI_CHARACTER = 5)
parameter (MPI_LOGICAL = 6)
parameter (MPI_INTEGER = 7)
parameter (MPI_INTEGER1 = 8)
parameter (MPI_INTEGER2 = 9)
parameter (MPI_INTEGER4 = 10)
parameter (MPI_INTEGER8 = 11)
parameter (MPI_INTEGER16 = 12)
parameter (MPI_REAL = 13)
parameter (MPI_REAL4 = 14)
parameter (MPI_REAL8 = 15)
parameter (MPI_REAL16 = 16)
parameter (MPI_DOUBLE_PRECISION = 17)
parameter (MPI_COMPLEX = 18)
parameter (MPI_COMPLEX8 = 19)
parameter (MPI_COMPLEX16 = 20)
parameter (MPI_COMPLEX32 = 21)
parameter (MPI_DOUBLE_COMPLEX = 22)
parameter (MPI_2REAL = 23)
parameter (MPI_2DOUBLE_PRECISION = 24)
parameter (MPI_2INTEGER = 25)
parameter (MPI_2COMPLEX = 26)
parameter (MPI_2DOUBLE_COMPLEX = 27)
parameter (MPI_REAL2 = 28)
parameter (MPI_LOGICAL1 = 29)
parameter (MPI_LOGICAL2 = 30)
parameter (MPI_LOGICAL4 = 31)
parameter (MPI_LOGICAL8 = 32)
parameter (MPI_WCHAR = 33)
parameter (MPI_CHAR = 34)
parameter (MPI_UNSIGNED_CHAR = 35)
parameter (MPI_SIGNED_CHAR = 36)
parameter (MPI_SHORT = 37)
parameter (MPI_UNSIGNED_SHORT = 38)
parameter (MPI_INT = 39)
parameter (MPI_UNSIGNED = 40)
parameter (MPI_LONG = 41)
parameter (MPI_UNSIGNED_LONG = 42)
parameter (MPI_LONG_LONG_INT = 43)
parameter (MPI_UNSIGNED_LONG_LONG = 44)
parameter (MPI_FLOAT = 45)
parameter (MPI_DOUBLE = 46)
parameter (MPI_LONG_DOUBLE = 47)
parameter (MPI_FLOAT_INT = 48)
parameter (MPI_DOUBLE_INT = 49)
parameter (MPI_LONGDBL_INT = 50)
parameter (MPI_LONG_INT = 51)
parameter (MPI_2INT = 52)
parameter (MPI_SHORT_INT = 53)
parameter (MPI_CXX_BOOL = 54)
parameter (MPI_CXX_CPLEX = 55)
parameter (MPI_CXX_DBLCPLEX = 56)
parameter (MPI_CXX_LDBLCPLEX = 57)
parameter (MPI_INT8_T = 58)
parameter (MPI_UINT8_T = 59)
parameter (MPI_INT16_T = 60)
parameter (MPI_UINT16_T = 61)
parameter (MPI_INT32_T = 62)
parameter (MPI_UINT32_T = 63)
parameter (MPI_INT64_T = 64)
parameter (MPI_UINT64_T = 65)
parameter (MPI_AINT = 66)
parameter (MPI_OFFSET = 67)
integer MPI_MAX, MPI_MIN, MPI_SUM, MPI_PROD, MPI_LAND
integer MPI_BAND, MPI_LOR, MPI_BOR, MPI_LXOR, MPI_BXOR
integer MPI_MAXLOC, MPI_MINLOC, MPI_REPLACE
parameter (MPI_MAX=1)
parameter (MPI_MIN=2)
parameter (MPI_SUM=3)
parameter (MPI_PROD=4)
parameter (MPI_LAND=5)
parameter (MPI_BAND=6)
parameter (MPI_LOR=7)
parameter (MPI_BOR=8)
parameter (MPI_LXOR=9)
parameter (MPI_BXOR=10)
parameter (MPI_MAXLOC=11)
parameter (MPI_MINLOC=12)
parameter (MPI_REPLACE=13)