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openmpi/ompi/include/mpif-common.h
Rainer Keller 8d24934a80 - Add the missing parts: add MPI_REAL2 to the end of the list
of Fortran datatypes (mpif-common.h) and the list of registered
   datatypes: MOOG(REAL2).
   Configure and Compilation with ia32/gcc just finished, naturally
   without real2.

This commit was SVN r15137.
2007-06-19 20:41:28 +00:00

488 строки
20 KiB
Fortran

! -*- fortran -*-
!
! Copyright (c) 2004-2006 The Trustees of Indiana University and Indiana
! University Research and Technology
! Corporation. All rights reserved.
! Copyright (c) 2004-2005 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.
! $COPYRIGHT$
!
! 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=0)
!
! Miscellaneous constants
!
integer MPI_ANY_SOURCE, MPI_ANY_TAG
integer MPI_PROC_NULL, MPI_MAX_PROCESSOR_NAME
integer MPI_ROOT, MPI_MAX_DATAREP_STRING
integer MPI_MAX_ERROR_STRING, 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_MAX_INFO_KEY, MPI_MAX_INFO_VAL
integer MPI_MAX_PORT_NAME, MPI_MAX_OBJECT_NAME
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_SEEK_SET, MPI_SEEK_CUR, MPI_SEEK_END
integer MPI_MODE_CREATE
integer MPI_MODE_RDONLY, MPI_MODE_WRONLY, MPI_MODE_RDWR
integer MPI_MODE_DELETE_ON_CLOSE, MPI_MODE_UNIQUE_OPEN
integer MPI_MODE_EXCL, MPI_MODE_APPEND, MPI_MODE_SEQUENTIAL
integer MPI_DISPLACEMENT_CURRENT
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_MAX_PROCESSOR_NAME=255)
parameter (MPI_MAX_ERROR_STRING=255)
parameter (MPI_MAX_DATAREP_STRING=127)
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_MAX_INFO_KEY=35)
parameter (MPI_MAX_INFO_VAL=255)
parameter (MPI_MAX_PORT_NAME=35)
parameter (MPI_MAX_OBJECT_NAME=63)
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_SEEK_SET=600)
parameter (MPI_SEEK_CUR=602)
parameter (MPI_SEEK_END=604)
parameter (MPI_MODE_CREATE=1)
parameter (MPI_MODE_RDONLY=2)
parameter (MPI_MODE_WRONLY=4)
parameter (MPI_MODE_RDWR=8)
parameter (MPI_MODE_DELETE_ON_CLOSE=16)
parameter (MPI_MODE_UNIQUE_OPEN=32)
parameter (MPI_MODE_EXCL=64)
parameter (MPI_MODE_APPEND=128)
parameter (MPI_MODE_SEQUENTIAL=256)
parameter (MPI_DISPLACEMENT_CURRENT=-54278278)
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
!
! 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)
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)