1
1
openmpi/ompi/mpi/f90/scripts/mpi-f90-interfaces.h.sh
Craig E Rasmussen 8646604497 Fixed to match Jeff S's changes to mpi-f90-interfaces.h.sh
This commit was SVN r9674.
2006-04-20 21:18:04 +00:00

9677 строки
218 KiB
Bash
Исполняемый файл

#! /bin/sh
#
# Copyright (c) 2004-2006 The Trustees of Indiana University and Indiana
# University Research and Technology
# Corporation. All rights reserved.
# Copyright (c) 2004-2006 The Regents of the University of California.
# All rights reserved.
# Copyright (c) 2006 Cisco Systems, Inc. All rights reserved.
# $COPYRIGHT$
#
# Additional copyrights may follow
#
# $HEADER$
#
# Do a little error checking
if test ! -f fortran_kinds.sh; then
echo "ERROR: Cannot find fortran_kinds.sh" >&2
exit 1
elif test -z fortran_kinds.sh; then
echo "ERROR: fortran_kinds.sh appears to be empty!" >&2
exit 1
fi
# Read in the KIND information
. fortran_kinds.sh
# Setup
output=1
allranks="0 $ranks"
#------------------------------------------------------------------------
# Helper functions
start() {
check_size $2
if test "$output" = "1"; then
echo "interface $1"
fi
}
end() {
if test "$output" = "1"; then
cat <<EOF
end interface $1
EOF
fi
}
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, errorcode, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: errorcode
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Abort small
output MPI_Abort
end MPI_Abort
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(origin_addr, origin_count, origin_datatype, target_rank, target_disp, &
target_count, target_datatype, op, win, ierr)
include 'mpif.h'
${type}, intent(in) :: origin_addr
integer, intent(in) :: origin_count
integer, intent(in) :: origin_datatype
integer, intent(in) :: target_rank
integer(kind=MPI_ADDRESS_KIND), intent(in) :: target_disp
integer, intent(in) :: target_count
integer, intent(in) :: target_datatype
integer, intent(in) :: op
integer, intent(in) :: win
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Accumulate medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Accumulate ${rank} CH "character${dim}"
output MPI_Accumulate ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Accumulate ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Accumulate ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Accumulate ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Accumulate
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(errorclass, ierr)
include 'mpif.h'
integer, intent(in) :: errorclass
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Add_error_class small
output MPI_Add_error_class
end MPI_Add_error_class
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(errorclass, errorcode, ierr)
include 'mpif.h'
integer, intent(in) :: errorclass
integer, intent(out) :: errorcode
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Add_error_code small
output MPI_Add_error_code
end MPI_Add_error_code
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(errorcode, string, ierr)
include 'mpif.h'
integer, intent(in) :: errorcode
character(len=*), intent(in) :: string
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Add_error_string small
output MPI_Add_error_string
end MPI_Add_error_string
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(location, address, ierr)
include 'mpif.h'
${type}, intent(in) :: location
integer, intent(out) :: address
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Address medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Address ${rank} CH "character${dim}"
output MPI_Address ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Address ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Address ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Address ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Address
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, sendcount, sendtype, recvbuf, recvcount, &
recvtype, comm, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
integer, intent(in) :: sendcount
integer, intent(in) :: sendtype
${type}, intent(out) :: recvbuf
integer, intent(in) :: recvcount
integer, intent(in) :: recvtype
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Allgather large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Allgather ${rank} CH "character${dim}"
output MPI_Allgather ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Allgather ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Allgather ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Allgather ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Allgather
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, sendcount, sendtype, recvbuf, recvcounts, &
displs, recvtype, comm, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
integer, intent(in) :: sendcount
integer, intent(in) :: sendtype
${type}, intent(out) :: recvbuf
integer, dimension(*), intent(in) :: recvcounts
integer, dimension(*), intent(in) :: displs
integer, intent(in) :: recvtype
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Allgatherv large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Allgatherv ${rank} CH "character${dim}"
output MPI_Allgatherv ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Allgatherv ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Allgatherv ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Allgatherv ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Allgatherv
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(size, info, baseptr, ierr)
include 'mpif.h'
integer(kind=MPI_ADDRESS_KIND), intent(in) :: size
integer, intent(in) :: info
integer(kind=MPI_ADDRESS_KIND), intent(out) :: baseptr
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Alloc_mem medium
output MPI_Alloc_mem
end MPI_Alloc_mem
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, recvbuf, count, datatype, op, &
comm, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
${type}, intent(out) :: recvbuf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: op
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Allreduce large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Allreduce ${rank} CH "character${dim}"
output MPI_Allreduce ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Allreduce ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Allreduce ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Allreduce ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Allreduce
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, sendcount, sendtype, recvbuf, recvcount, &
recvtype, comm, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
integer, intent(in) :: sendcount
integer, intent(in) :: sendtype
${type}, intent(out) :: recvbuf
integer, intent(in) :: recvcount
integer, intent(in) :: recvtype
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Alltoall large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Alltoall ${rank} CH "character${dim}"
output MPI_Alltoall ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Alltoall ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Alltoall ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Alltoall ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Alltoall
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, sendcounts, sdispls, sendtype, recvbuf, &
recvcounts, rdispls, recvtype, comm, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
integer, dimension(*), intent(in) :: sendcounts
integer, dimension(*), intent(in) :: sdispls
integer, intent(in) :: sendtype
${type}, intent(out) :: recvbuf
integer, dimension(*), intent(in) :: recvcounts
integer, dimension(*), intent(in) :: rdispls
integer, intent(in) :: recvtype
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Alltoallv large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Alltoallv ${rank} CH "character${dim}"
output MPI_Alltoallv ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Alltoallv ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Alltoallv ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Alltoallv ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Alltoallv
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, sendcounts, sdispls, sendtypes, recvbuf, &
recvcounts, rdispls, recvtypes, comm, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
integer, dimension(*), intent(in) :: sendcounts
integer, dimension(*), intent(in) :: sdispls
integer, dimension(*), intent(in) :: sendtypes
${type}, intent(out) :: recvbuf
integer, dimension(*), intent(in) :: recvcounts
integer, dimension(*), intent(in) :: rdispls
integer, dimension(*), intent(in) :: recvtypes
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Alltoallw large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Alltoallw ${rank} CH "character${dim}"
output MPI_Alltoallw ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Alltoallw ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Alltoallw ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Alltoallw ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Alltoallw
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, keyval, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: keyval
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Attr_delete small
output MPI_Attr_delete
end MPI_Attr_delete
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, keyval, attribute_val, flag, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: keyval
integer, intent(out) :: attribute_val
integer, intent(out) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Attr_get small
output MPI_Attr_get
end MPI_Attr_get
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, keyval, attribute_val, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: keyval
integer, intent(in) :: attribute_val
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Attr_put small
output MPI_Attr_put
end MPI_Attr_put
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Barrier small
output MPI_Barrier
end MPI_Barrier
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buffer, count, datatype, root, comm&
, ierr)
include 'mpif.h'
${type}, intent(in) :: buffer
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: root
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Bcast medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Bcast ${rank} CH "character${dim}"
output MPI_Bcast ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Bcast ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Bcast ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Bcast ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Bcast
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, dest, tag, &
comm, ierr)
include 'mpif.h'
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: dest
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Bsend medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Bsend ${rank} CH "character${dim}"
output MPI_Bsend ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Bsend ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Bsend ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Bsend ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Bsend
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, dest, tag, &
comm, request, ierr)
include 'mpif.h'
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: dest
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Bsend_init medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Bsend_init ${rank} CH "character${dim}"
output MPI_Bsend_init ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Bsend_init ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Bsend_init ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Bsend_init ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Bsend_init
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buffer, size, ierr)
include 'mpif.h'
${type}, intent(in) :: buffer
integer, intent(in) :: size
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Buffer_attach medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Buffer_attach ${rank} CH "character${dim}"
output MPI_Buffer_attach ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Buffer_attach ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Buffer_attach ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Buffer_attach ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Buffer_attach
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buffer, size, ierr)
include 'mpif.h'
${type}, intent(out) :: buffer
integer, intent(out) :: size
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Buffer_detach medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Buffer_detach ${rank} CH "character${dim}"
output MPI_Buffer_detach ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Buffer_detach ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Buffer_detach ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Buffer_detach ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Buffer_detach
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(request, ierr)
include 'mpif.h'
integer, intent(in) :: request
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Cancel small
output MPI_Cancel
end MPI_Cancel
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, rank, maxdims, coords, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: rank
integer, intent(in) :: maxdims
integer, dimension(*), intent(out) :: coords
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Cart_coords small
output MPI_Cart_coords
end MPI_Cart_coords
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(old_comm, ndims, dims, periods, reorder, &
comm_cart, ierr)
include 'mpif.h'
integer, intent(in) :: old_comm
integer, intent(in) :: ndims
integer, dimension(*), intent(in) :: dims
integer, dimension(*), intent(in) :: periods
integer, intent(in) :: reorder
integer, intent(out) :: comm_cart
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Cart_create small
output MPI_Cart_create
end MPI_Cart_create
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, maxdims, dims, periods, coords&
, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: maxdims
integer, dimension(*), intent(out) :: dims
integer, dimension(*), intent(out) :: periods
integer, dimension(*), intent(out) :: coords
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Cart_get small
output MPI_Cart_get
end MPI_Cart_get
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, ndims, dims, periods, newrank&
, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: ndims
integer, dimension(*), intent(in) :: dims
integer, dimension(*), intent(in) :: periods
integer, intent(out) :: newrank
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Cart_map small
output MPI_Cart_map
end MPI_Cart_map
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, coords, rank, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, dimension(*), intent(in) :: coords
integer, intent(out) :: rank
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Cart_rank small
output MPI_Cart_rank
end MPI_Cart_rank
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, direction, disp, rank_source, rank_dest&
, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: direction
integer, intent(in) :: disp
integer, intent(out) :: rank_source
integer, intent(out) :: rank_dest
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Cart_shift small
output MPI_Cart_shift
end MPI_Cart_shift
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, remain_dims, new_comm, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, dimension(*), intent(in) :: remain_dims
integer, intent(out) :: new_comm
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Cart_sub small
output MPI_Cart_sub
end MPI_Cart_sub
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, ndims, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(out) :: ndims
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Cartdim_get small
output MPI_Cartdim_get
end MPI_Cartdim_get
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, errorcode, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: errorcode
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_call_errhandler small
output MPI_Comm_call_errhandler
end MPI_Comm_call_errhandler
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm1, comm2, result, ierr)
include 'mpif.h'
integer, intent(in) :: comm1
integer, intent(in) :: comm2
integer, intent(out) :: result
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_compare small
output MPI_Comm_compare
end MPI_Comm_compare
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, group, newcomm, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: group
integer, intent(out) :: newcomm
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_create small
output MPI_Comm_create
end MPI_Comm_create
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(function, errhandler, ierr)
include 'mpif.h'
external :: function
integer, intent(out) :: errhandler
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_create_errhandler small
output MPI_Comm_create_errhandler
end MPI_Comm_create_errhandler
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm_copy_attr_fn, comm_delete_attr_fn, comm_keyval, extra_state, ierr)
include 'mpif.h'
external :: comm_copy_attr_fn
external :: comm_delete_attr_fn
integer, intent(out) :: comm_keyval
integer, intent(in) :: extra_state
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_create_keyval small
output MPI_Comm_create_keyval
end MPI_Comm_create_keyval
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, comm_keyval, ierr)
include 'mpif.h'
integer, intent(inout) :: comm
integer, intent(in) :: comm_keyval
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_delete_attr small
output MPI_Comm_delete_attr
end MPI_Comm_delete_attr
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, newcomm, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(out) :: newcomm
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_dup small
output MPI_Comm_dup
end MPI_Comm_dup
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, ierr)
include 'mpif.h'
integer, intent(inout) :: comm
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_free small
output MPI_Comm_free
end MPI_Comm_free
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm_keyval, ierr)
include 'mpif.h'
integer, intent(inout) :: comm_keyval
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_free_keyval small
output MPI_Comm_free_keyval
end MPI_Comm_free_keyval
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, comm_keyval, attribute_val, flag, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: comm_keyval
integer(kind=MPI_ADDRESS_KIND), intent(out) :: attribute_val
integer, intent(out) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_get_attr small
output MPI_Comm_get_attr
end MPI_Comm_get_attr
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, erhandler, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(out) :: erhandler
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_get_errhandler small
output MPI_Comm_get_errhandler
end MPI_Comm_get_errhandler
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, comm_name, resultlen, ierr)
include 'mpif.h'
integer, intent(in) :: comm
character(len=*), intent(out) :: comm_name
integer, intent(out) :: resultlen
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_get_name small
output MPI_Comm_get_name
end MPI_Comm_get_name
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, group, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(out) :: group
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_group small
output MPI_Comm_group
end MPI_Comm_group
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, rank, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(out) :: rank
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_rank small
output MPI_Comm_rank
end MPI_Comm_rank
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, group, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(out) :: group
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_remote_group small
output MPI_Comm_remote_group
end MPI_Comm_remote_group
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, size, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(out) :: size
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_remote_size small
output MPI_Comm_remote_size
end MPI_Comm_remote_size
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, comm_keyval, attribute_val, ierr)
include 'mpif.h'
integer, intent(inout) :: comm
integer, intent(in) :: comm_keyval
integer(kind=MPI_ADDRESS_KIND), intent(in) :: attribute_val
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_set_attr small
output MPI_Comm_set_attr
end MPI_Comm_set_attr
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, errhandler, ierr)
include 'mpif.h'
integer, intent(inout) :: comm
integer, intent(in) :: errhandler
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_set_errhandler small
output MPI_Comm_set_errhandler
end MPI_Comm_set_errhandler
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, comm_name, ierr)
include 'mpif.h'
integer, intent(inout) :: comm
character(len=*), intent(in) :: comm_name
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_set_name small
output MPI_Comm_set_name
end MPI_Comm_set_name
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, size, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(out) :: size
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_size small
output MPI_Comm_size
end MPI_Comm_size
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, color, key, newcomm, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: color
integer, intent(in) :: key
integer, intent(out) :: newcomm
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_split small
output MPI_Comm_split
end MPI_Comm_split
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, flag, ierr)
include 'mpif.h'
integer, intent(inout) :: comm
integer, intent(in) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_test_inter small
output MPI_Comm_test_inter
end MPI_Comm_test_inter
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(nnodes, ndims, dims, ierr)
include 'mpif.h'
integer, intent(in) :: nnodes
integer, intent(in) :: ndims
integer, dimension(*), intent(inout) :: dims
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Dims_create small
output MPI_Dims_create
end MPI_Dims_create
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(function, errhandler, ierr)
include 'mpif.h'
external :: function
integer, intent(out) :: errhandler
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Errhandler_create small
output MPI_Errhandler_create
end MPI_Errhandler_create
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(errhandler, ierr)
include 'mpif.h'
integer, intent(inout) :: errhandler
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Errhandler_free small
output MPI_Errhandler_free
end MPI_Errhandler_free
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, errhandler, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(out) :: errhandler
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Errhandler_get small
output MPI_Errhandler_get
end MPI_Errhandler_get
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, errhandler, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: errhandler
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Errhandler_set small
output MPI_Errhandler_set
end MPI_Errhandler_set
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(errorcode, errorclass, ierr)
include 'mpif.h'
integer, intent(in) :: errorcode
integer, intent(out) :: errorclass
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Error_class small
output MPI_Error_class
end MPI_Error_class
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(errorcode, string, resultlen, ierr)
include 'mpif.h'
integer, intent(in) :: errorcode
character(len=*), intent(out) :: string
integer, intent(out) :: resultlen
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Error_string small
output MPI_Error_string
end MPI_Error_string
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, recvbuf, count, datatype, op, &
comm, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
${type}, intent(out) :: recvbuf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: op
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Exscan large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Exscan ${rank} CH "character${dim}"
output MPI_Exscan ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Exscan ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Exscan ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Exscan ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Exscan
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, errorcode, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer, intent(in) :: errorcode
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_call_errhandler small
output MPI_File_call_errhandler
end MPI_File_call_errhandler
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_close small
output MPI_File_close
end MPI_File_close
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(function, errhandler, ierr)
include 'mpif.h'
external :: function
integer, intent(out) :: errhandler
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_create_errhandler small
output MPI_File_create_errhandler
end MPI_File_create_errhandler
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(filename, info, ierr)
include 'mpif.h'
character(len=*), intent(in) :: filename
integer, intent(in) :: info
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_delete small
output MPI_File_delete
end MPI_File_delete
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, amode, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer, intent(out) :: amode
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_get_amode small
output MPI_File_get_amode
end MPI_File_get_amode
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, flag, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer, intent(out) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_get_atomicity small
output MPI_File_get_atomicity
end MPI_File_get_atomicity
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, offset, disp, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer(kind=MPI_OFFSET_KIND), intent(in) :: offset
integer(kind=MPI_OFFSET_KIND), intent(out) :: disp
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_get_byte_offset small
output MPI_File_get_byte_offset
end MPI_File_get_byte_offset
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(file, errhandler, ierr)
include 'mpif.h'
integer, intent(in) :: file
integer, intent(out) :: errhandler
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_get_errhandler small
output MPI_File_get_errhandler
end MPI_File_get_errhandler
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, group, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer, intent(out) :: group
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_get_group small
output MPI_File_get_group
end MPI_File_get_group
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, info_used, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer, intent(out) :: info_used
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_get_info small
output MPI_File_get_info
end MPI_File_get_info
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, offset, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer(kind=MPI_OFFSET_KIND), intent(out) :: offset
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_get_position small
output MPI_File_get_position
end MPI_File_get_position
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, offset, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer(kind=MPI_OFFSET_KIND), intent(out) :: offset
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_get_position_shared small
output MPI_File_get_position_shared
end MPI_File_get_position_shared
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, size, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer(kind=MPI_OFFSET_KIND), intent(out) :: size
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_get_size small
output MPI_File_get_size
end MPI_File_get_size
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, datatype, extent, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer, intent(in) :: datatype
integer(kind=MPI_ADDRESS_KIND), intent(out) :: extent
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_get_type_extent small
output MPI_File_get_type_extent
end MPI_File_get_type_extent
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, disp, etype, filetype, datarep&
, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer(kind=MPI_OFFSET_KIND), intent(out) :: disp
integer, intent(out) :: etype
integer, intent(out) :: filetype
character(len=*), intent(out) :: datarep
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_get_view small
output MPI_File_get_view
end MPI_File_get_view
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, request&
, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_iread medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_iread ${rank} CH "character${dim}"
output MPI_File_iread ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_iread ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_iread ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_iread ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_iread
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, offset, buf, count, datatype, &
request, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer(kind=MPI_OFFSET_KIND), intent(in) :: offset
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_iread_at medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_iread_at ${rank} CH "character${dim}"
output MPI_File_iread_at ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_iread_at ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_iread_at ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_iread_at ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_iread_at
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, request&
, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_iread_shared medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_iread_shared ${rank} CH "character${dim}"
output MPI_File_iread_shared ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_iread_shared ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_iread_shared ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_iread_shared ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_iread_shared
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, request&
, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_iwrite medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_iwrite ${rank} CH "character${dim}"
output MPI_File_iwrite ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_iwrite ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_iwrite ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_iwrite ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_iwrite
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, offset, buf, count, datatype, &
request, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
integer(kind=MPI_OFFSET_KIND), intent(in) :: offset
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_iwrite_at medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_iwrite_at ${rank} CH "character${dim}"
output MPI_File_iwrite_at ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_iwrite_at ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_iwrite_at ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_iwrite_at ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_iwrite_at
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, request&
, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_iwrite_shared medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_iwrite_shared ${rank} CH "character${dim}"
output MPI_File_iwrite_shared ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_iwrite_shared ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_iwrite_shared ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_iwrite_shared ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_iwrite_shared
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, filename, amode, info, fh&
, ierr)
include 'mpif.h'
integer, intent(in) :: comm
character(len=*), intent(in) :: filename
integer, intent(in) :: amode
integer, intent(in) :: info
integer, intent(out) :: fh
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_open small
output MPI_File_open
end MPI_File_open
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, size, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
integer(kind=MPI_OFFSET_KIND), intent(in) :: size
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_preallocate small
output MPI_File_preallocate
end MPI_File_preallocate
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, status&
, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_read medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_read ${rank} CH "character${dim}"
output MPI_File_read ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_read ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_read ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_read ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_read
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, status&
, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_read_all medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_read_all ${rank} CH "character${dim}"
output MPI_File_read_all ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_read_all ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_read_all ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_read_all ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_read_all
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_read_all_begin medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_read_all_begin ${rank} CH "character${dim}"
output MPI_File_read_all_begin ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_read_all_begin ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_read_all_begin ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_read_all_begin ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_read_all_begin
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, status, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(out) :: buf
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_read_all_end medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_read_all_end ${rank} CH "character${dim}"
output MPI_File_read_all_end ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_read_all_end ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_read_all_end ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_read_all_end ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_read_all_end
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, offset, buf, count, datatype, &
status, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer(kind=MPI_OFFSET_KIND), intent(in) :: offset
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_read_at medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_read_at ${rank} CH "character${dim}"
output MPI_File_read_at ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_read_at ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_read_at ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_read_at ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_read_at
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, offset, buf, count, datatype, &
status, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer(kind=MPI_OFFSET_KIND), intent(in) :: offset
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_read_at_all medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_read_at_all ${rank} CH "character${dim}"
output MPI_File_read_at_all ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_read_at_all ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_read_at_all ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_read_at_all ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_read_at_all
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, offset, buf, count, datatype&
, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer(kind=MPI_OFFSET_KIND), intent(in) :: offset
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_read_at_all_begin medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_read_at_all_begin ${rank} CH "character${dim}"
output MPI_File_read_at_all_begin ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_read_at_all_begin ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_read_at_all_begin ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_read_at_all_begin ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_read_at_all_begin
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, status, ierr)
include 'mpif.h'
integer, intent(in) :: fh
${type}, intent(out) :: buf
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_read_at_all_end medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_read_at_all_end ${rank} CH "character${dim}"
output MPI_File_read_at_all_end ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_read_at_all_end ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_read_at_all_end ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_read_at_all_end ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_read_at_all_end
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, status&
, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_read_ordered medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_read_ordered ${rank} CH "character${dim}"
output MPI_File_read_ordered ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_read_ordered ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_read_ordered ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_read_ordered ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_read_ordered
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_read_ordered_begin medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_read_ordered_begin ${rank} CH "character${dim}"
output MPI_File_read_ordered_begin ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_read_ordered_begin ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_read_ordered_begin ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_read_ordered_begin ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_read_ordered_begin
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, status, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(out) :: buf
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_read_ordered_end medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_read_ordered_end ${rank} CH "character${dim}"
output MPI_File_read_ordered_end ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_read_ordered_end ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_read_ordered_end ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_read_ordered_end ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_read_ordered_end
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, status&
, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_read_shared medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_read_shared ${rank} CH "character${dim}"
output MPI_File_read_shared ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_read_shared ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_read_shared ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_read_shared ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_read_shared
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, offset, whence, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
integer(kind=MPI_OFFSET_KIND), intent(in) :: offset
integer, intent(in) :: whence
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_seek small
output MPI_File_seek
end MPI_File_seek
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, offset, whence, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
integer(kind=MPI_OFFSET_KIND), intent(in) :: offset
integer, intent(in) :: whence
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_seek_shared small
output MPI_File_seek_shared
end MPI_File_seek_shared
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, flag, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
integer, intent(in) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_set_atomicity small
output MPI_File_set_atomicity
end MPI_File_set_atomicity
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(file, errhandler, ierr)
include 'mpif.h'
integer, intent(in) :: file
integer, intent(in) :: errhandler
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_set_errhandler small
output MPI_File_set_errhandler
end MPI_File_set_errhandler
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, info, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
integer, intent(in) :: info
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_set_info small
output MPI_File_set_info
end MPI_File_set_info
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, size, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
integer(kind=MPI_OFFSET_KIND), intent(in) :: size
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_set_size small
output MPI_File_set_size
end MPI_File_set_size
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, disp, etype, filetype, datarep, &
info, ierr)
include 'mpif.h'
integer, intent(in) :: fh
integer(kind=MPI_OFFSET_KIND), intent(in) :: disp
integer, intent(in) :: etype
integer, intent(in) :: filetype
character(len=*), intent(in) :: datarep
integer, intent(in) :: info
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_set_view small
output MPI_File_set_view
end MPI_File_set_view
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fh, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_File_sync small
output MPI_File_sync
end MPI_File_sync
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, status&
, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_write medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_write ${rank} CH "character${dim}"
output MPI_File_write ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_write ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_write ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_write ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_write
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, status&
, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_write_all medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_write_all ${rank} CH "character${dim}"
output MPI_File_write_all ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_write_all ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_write_all ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_write_all ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_write_all
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_write_all_begin medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_write_all_begin ${rank} CH "character${dim}"
output MPI_File_write_all_begin ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_write_all_begin ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_write_all_begin ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_write_all_begin ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_write_all_begin
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, status, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(in) :: buf
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_write_all_end medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_write_all_end ${rank} CH "character${dim}"
output MPI_File_write_all_end ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_write_all_end ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_write_all_end ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_write_all_end ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_write_all_end
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, offset, buf, count, datatype, &
status, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
integer(kind=MPI_OFFSET_KIND), intent(in) :: offset
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_write_at medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_write_at ${rank} CH "character${dim}"
output MPI_File_write_at ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_write_at ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_write_at ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_write_at ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_write_at
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, offset, buf, count, datatype, &
status, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
integer(kind=MPI_OFFSET_KIND), intent(in) :: offset
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_write_at_all medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_write_at_all ${rank} CH "character${dim}"
output MPI_File_write_at_all ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_write_at_all ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_write_at_all ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_write_at_all ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_write_at_all
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, offset, buf, count, datatype&
, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
integer(kind=MPI_OFFSET_KIND), intent(in) :: offset
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_write_at_all_begin medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_write_at_all_begin ${rank} CH "character${dim}"
output MPI_File_write_at_all_begin ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_write_at_all_begin ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_write_at_all_begin ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_write_at_all_begin ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_write_at_all_begin
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, status, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(in) :: buf
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_write_at_all_end medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_write_at_all_end ${rank} CH "character${dim}"
output MPI_File_write_at_all_end ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_write_at_all_end ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_write_at_all_end ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_write_at_all_end ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_write_at_all_end
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, status&
, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_write_ordered medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_write_ordered ${rank} CH "character${dim}"
output MPI_File_write_ordered ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_write_ordered ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_write_ordered ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_write_ordered ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_write_ordered
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_write_ordered_begin medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_write_ordered_begin ${rank} CH "character${dim}"
output MPI_File_write_ordered_begin ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_write_ordered_begin ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_write_ordered_begin ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_write_ordered_begin ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_write_ordered_begin
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, status, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(in) :: buf
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_write_ordered_end medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_write_ordered_end ${rank} CH "character${dim}"
output MPI_File_write_ordered_end ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_write_ordered_end ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_write_ordered_end ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_write_ordered_end ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_write_ordered_end
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(fh, buf, count, datatype, status&
, ierr)
include 'mpif.h'
integer, intent(inout) :: fh
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, dimension(MPI_STATUS_SIZE), intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_File_write_shared medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_File_write_shared ${rank} CH "character${dim}"
output MPI_File_write_shared ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_File_write_shared ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_File_write_shared ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_File_write_shared ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_File_write_shared
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(ierr)
include 'mpif.h'
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Finalize small
output MPI_Finalize
end MPI_Finalize
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(flag, ierr)
include 'mpif.h'
integer, intent(out) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Finalized small
output MPI_Finalized
end MPI_Finalized
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(base, ierr)
include 'mpif.h'
${type}, intent(in) :: base
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Free_mem medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Free_mem ${rank} CH "character${dim}"
output MPI_Free_mem ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Free_mem ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Free_mem ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Free_mem ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Free_mem
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, sendcount, sendtype, recvbuf, recvcount, &
recvtype, root, comm, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
integer, intent(in) :: sendcount
integer, intent(in) :: sendtype
${type}, intent(out) :: recvbuf
integer, intent(in) :: recvcount
integer, intent(in) :: recvtype
integer, intent(in) :: root
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Gather large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Gather ${rank} CH "character${dim}"
output MPI_Gather ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Gather ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Gather ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Gather ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Gather
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, sendcount, sendtype, recvbuf, recvcounts, &
displs, recvtype, root, comm, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
integer, intent(in) :: sendcount
integer, intent(in) :: sendtype
${type}, intent(out) :: recvbuf
integer, dimension(*), intent(in) :: recvcounts
integer, dimension(*), intent(in) :: displs
integer, intent(in) :: recvtype
integer, intent(in) :: root
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Gatherv large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Gatherv ${rank} CH "character${dim}"
output MPI_Gatherv ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Gatherv ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Gatherv ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Gatherv ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Gatherv
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(origin_addr, origin_count, origin_datatype, target_rank, target_disp, &
target_count, target_datatype, win, ierr)
include 'mpif.h'
${type}, intent(in) :: origin_addr
integer, intent(in) :: origin_count
integer, intent(in) :: origin_datatype
integer, intent(in) :: target_rank
integer(kind=MPI_ADDRESS_KIND), intent(in) :: target_disp
integer, intent(in) :: target_count
integer, intent(in) :: target_datatype
integer, intent(in) :: win
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Get medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Get ${rank} CH "character${dim}"
output MPI_Get ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Get ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Get ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Get ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Get
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(location, address, ierr)
include 'mpif.h'
${type}, intent(in) :: location
integer(kind=MPI_ADDRESS_KIND), intent(out) :: address
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Get_address medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Get_address ${rank} CH "character${dim}"
output MPI_Get_address ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Get_address ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Get_address ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Get_address ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Get_address
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(status, datatype, count, ierr)
include 'mpif.h'
integer, dimension(MPI_STATUS_SIZE), intent(in) :: status
integer, intent(in) :: datatype
integer, intent(out) :: count
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Get_count small
output MPI_Get_count
end MPI_Get_count
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(status, datatype, count, ierr)
include 'mpif.h'
integer, dimension(MPI_STATUS_SIZE), intent(in) :: status
integer, intent(in) :: datatype
integer, intent(out) :: count
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Get_elements small
output MPI_Get_elements
end MPI_Get_elements
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(name, resultlen, ierr)
include 'mpif.h'
character(len=*), intent(out) :: name
integer, intent(out) :: resultlen
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Get_processor_name small
output MPI_Get_processor_name
end MPI_Get_processor_name
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(version, subversion, ierr)
include 'mpif.h'
integer, intent(out) :: version
integer, intent(out) :: subversion
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Get_version small
output MPI_Get_version
end MPI_Get_version
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm_old, nnodes, index, edges, reorder, &
comm_graph, ierr)
include 'mpif.h'
integer, intent(in) :: comm_old
integer, intent(in) :: nnodes
integer, dimension(*), intent(in) :: index
integer, dimension(*), intent(in) :: edges
integer, intent(in) :: reorder
integer, intent(out) :: comm_graph
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Graph_create small
output MPI_Graph_create
end MPI_Graph_create
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, maxindex, maxedges, index, edges&
, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: maxindex
integer, intent(in) :: maxedges
integer, dimension(*), intent(out) :: index
integer, dimension(*), intent(out) :: edges
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Graph_get small
output MPI_Graph_get
end MPI_Graph_get
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, nnodes, index, edges, newrank&
, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: nnodes
integer, dimension(*), intent(in) :: index
integer, dimension(*), intent(in) :: edges
integer, intent(out) :: newrank
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Graph_map small
output MPI_Graph_map
end MPI_Graph_map
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, rank, maxneighbors, neighbors, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: rank
integer, intent(in) :: maxneighbors
integer, dimension(*), intent(out) :: neighbors
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Graph_neighbors small
output MPI_Graph_neighbors
end MPI_Graph_neighbors
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, rank, nneighbors, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(in) :: rank
integer, intent(out) :: nneighbors
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Graph_neighbors_count small
output MPI_Graph_neighbors_count
end MPI_Graph_neighbors_count
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, nnodes, nedges, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(out) :: nnodes
integer, intent(out) :: nedges
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Graphdims_get small
output MPI_Graphdims_get
end MPI_Graphdims_get
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(request, ierr)
include 'mpif.h'
integer, intent(inout) :: request
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Grequest_complete small
output MPI_Grequest_complete
end MPI_Grequest_complete
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(query_fn, free_fn, cancel_fn, extra_state, request&
, ierr)
include 'mpif.h'
external :: query_fn
external :: free_fn
external :: cancel_fn
integer, intent(in) :: extra_state
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Grequest_start small
output MPI_Grequest_start
end MPI_Grequest_start
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(group1, group2, result, ierr)
include 'mpif.h'
integer, intent(in) :: group1
integer, intent(in) :: group2
integer, intent(out) :: result
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Group_compare small
output MPI_Group_compare
end MPI_Group_compare
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(group1, group2, newgroup, ierr)
include 'mpif.h'
integer, intent(in) :: group1
integer, intent(in) :: group2
integer, intent(out) :: newgroup
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Group_difference small
output MPI_Group_difference
end MPI_Group_difference
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(group, n, ranks, newgroup, ierr)
include 'mpif.h'
integer, intent(in) :: group
integer, intent(in) :: n
integer, dimension(*), intent(in) :: ranks
integer, intent(out) :: newgroup
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Group_excl small
output MPI_Group_excl
end MPI_Group_excl
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(group, ierr)
include 'mpif.h'
integer, intent(inout) :: group
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Group_free small
output MPI_Group_free
end MPI_Group_free
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(group, n, ranks, newgroup, ierr)
include 'mpif.h'
integer, intent(in) :: group
integer, intent(in) :: n
integer, dimension(*), intent(in) :: ranks
integer, intent(out) :: newgroup
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Group_incl small
output MPI_Group_incl
end MPI_Group_incl
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(group1, group2, newgroup, ierr)
include 'mpif.h'
integer, intent(in) :: group1
integer, intent(in) :: group2
integer, intent(out) :: newgroup
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Group_intersection small
output MPI_Group_intersection
end MPI_Group_intersection
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(group, n, ranges, newgroup, ierr)
include 'mpif.h'
integer, intent(in) :: group
integer, intent(in) :: n
integer, dimension(3, *), intent(in) :: ranges
integer, intent(out) :: newgroup
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Group_range_excl small
output MPI_Group_range_excl
end MPI_Group_range_excl
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(group, n, ranges, newgroup, ierr)
include 'mpif.h'
integer, intent(in) :: group
integer, intent(in) :: n
integer, dimension(3, *), intent(in) :: ranges
integer, intent(out) :: newgroup
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Group_range_incl small
output MPI_Group_range_incl
end MPI_Group_range_incl
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(group, rank, ierr)
include 'mpif.h'
integer, intent(in) :: group
integer, intent(out) :: rank
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Group_rank small
output MPI_Group_rank
end MPI_Group_rank
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(group, size, ierr)
include 'mpif.h'
integer, intent(in) :: group
integer, intent(out) :: size
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Group_size small
output MPI_Group_size
end MPI_Group_size
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(group1, n, ranks1, group2, ranks2&
, ierr)
include 'mpif.h'
integer, intent(in) :: group1
integer, intent(in) :: n
integer, dimension(*), intent(in) :: ranks1
integer, intent(in) :: group2
integer, dimension(*), intent(out) :: ranks2
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Group_translate_ranks small
output MPI_Group_translate_ranks
end MPI_Group_translate_ranks
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(group1, group2, newgroup, ierr)
include 'mpif.h'
integer, intent(in) :: group1
integer, intent(in) :: group2
integer, intent(out) :: newgroup
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Group_union small
output MPI_Group_union
end MPI_Group_union
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, dest, tag, &
comm, request, ierr)
include 'mpif.h'
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: dest
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Ibsend medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Ibsend ${rank} CH "character${dim}"
output MPI_Ibsend ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Ibsend ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Ibsend ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Ibsend ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Ibsend
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(info, ierr)
include 'mpif.h'
integer, intent(out) :: info
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Info_create small
output MPI_Info_create
end MPI_Info_create
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(info, key, ierr)
include 'mpif.h'
integer, intent(out) :: info
character(len=*), intent(in) :: key
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Info_delete small
output MPI_Info_delete
end MPI_Info_delete
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(info, newinfo, ierr)
include 'mpif.h'
integer, intent(in) :: info
integer, intent(out) :: newinfo
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Info_dup small
output MPI_Info_dup
end MPI_Info_dup
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(info, ierr)
include 'mpif.h'
integer, intent(inout) :: info
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Info_free small
output MPI_Info_free
end MPI_Info_free
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(info, key, valuelen, value, flag&
, ierr)
include 'mpif.h'
integer, intent(in) :: info
character(len=*), intent(in) :: key
integer, intent(in) :: valuelen
character(len=*), intent(out) :: value
integer, intent(out) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Info_get small
output MPI_Info_get
end MPI_Info_get
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(info, nkeys, ierr)
include 'mpif.h'
integer, intent(in) :: info
integer, intent(out) :: nkeys
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Info_get_nkeys small
output MPI_Info_get_nkeys
end MPI_Info_get_nkeys
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(info, n, key, ierr)
include 'mpif.h'
integer, intent(in) :: info
integer, intent(in) :: n
character(len=*), intent(out) :: key
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Info_get_nthkey small
output MPI_Info_get_nthkey
end MPI_Info_get_nthkey
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(info, key, valuelen, flag, ierr)
include 'mpif.h'
integer, intent(in) :: info
character(len=*), intent(in) :: key
integer, intent(out) :: valuelen
integer, intent(out) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Info_get_valuelen small
output MPI_Info_get_valuelen
end MPI_Info_get_valuelen
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(info, key, value, ierr)
include 'mpif.h'
integer, intent(inout) :: info
character(len=*), intent(in) :: key
character(len=*), intent(in) :: value
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Info_set small
output MPI_Info_set
end MPI_Info_set
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(ierr)
include 'mpif.h'
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Init small
output MPI_Init
end MPI_Init
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(required, provided, ierr)
include 'mpif.h'
integer, intent(in) :: required
integer, intent(out) :: provided
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Init_thread small
output MPI_Init_thread
end MPI_Init_thread
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(flag, ierr)
include 'mpif.h'
integer, intent(out) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Initialized small
output MPI_Initialized
end MPI_Initialized
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(local_comm, local_leader, bridge_comm, remote_leader, tag, &
newintercomm, ierr)
include 'mpif.h'
integer, intent(in) :: local_comm
integer, intent(in) :: local_leader
integer, intent(in) :: bridge_comm
integer, intent(in) :: remote_leader
integer, intent(in) :: tag
integer, intent(out) :: newintercomm
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Intercomm_create small
output MPI_Intercomm_create
end MPI_Intercomm_create
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(intercomm, high, newintercomm, ierr)
include 'mpif.h'
integer, intent(in) :: intercomm
integer, intent(in) :: high
integer, intent(out) :: newintercomm
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Intercomm_merge small
output MPI_Intercomm_merge
end MPI_Intercomm_merge
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(source, tag, comm, flag, status&
, ierr)
include 'mpif.h'
integer, intent(in) :: source
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: flag
integer, dimension(MPI_STATUS_SIZE), intent(inout) :: status
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Iprobe small
output MPI_Iprobe
end MPI_Iprobe
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, source, tag, &
comm, request, ierr)
include 'mpif.h'
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: source
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Irecv medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Irecv ${rank} CH "character${dim}"
output MPI_Irecv ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Irecv ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Irecv ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Irecv ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Irecv
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, dest, tag, &
comm, request, ierr)
include 'mpif.h'
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: dest
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Irsend medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Irsend ${rank} CH "character${dim}"
output MPI_Irsend ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Irsend ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Irsend ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Irsend ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Irsend
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(flag, ierr)
include 'mpif.h'
integer, intent(out) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Is_thread_main small
output MPI_Is_thread_main
end MPI_Is_thread_main
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, dest, tag, &
comm, request, ierr)
include 'mpif.h'
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: dest
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Isend medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Isend ${rank} CH "character${dim}"
output MPI_Isend ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Isend ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Isend ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Isend ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Isend
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, dest, tag, &
comm, request, ierr)
include 'mpif.h'
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: dest
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Issend medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Issend ${rank} CH "character${dim}"
output MPI_Issend ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Issend ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Issend ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Issend ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Issend
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(copy_fn, delete_fn, keyval, extra_state, ierr)
include 'mpif.h'
external :: copy_fn
external :: delete_fn
integer, intent(out) :: keyval
integer, intent(in) :: extra_state
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Keyval_create small
output MPI_Keyval_create
end MPI_Keyval_create
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(keyval, ierr)
include 'mpif.h'
integer, intent(inout) :: keyval
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Keyval_free small
output MPI_Keyval_free
end MPI_Keyval_free
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(function, commute, op, ierr)
include 'mpif.h'
external :: function
integer, intent(in) :: commute
integer, intent(out) :: op
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Op_create small
output MPI_Op_create
end MPI_Op_create
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(op, ierr)
include 'mpif.h'
integer, intent(inout) :: op
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Op_free small
output MPI_Op_free
end MPI_Op_free
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(inbuf, incount, datatype, outbuf, outsize, &
position, comm, ierr)
include 'mpif.h'
${type}, intent(in) :: inbuf
integer, intent(in) :: incount
integer, intent(in) :: datatype
${type}, intent(out) :: outbuf
integer, intent(out) :: outsize
integer, intent(inout) :: position
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Pack large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Pack ${rank} CH "character${dim}"
output MPI_Pack ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Pack ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Pack ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Pack ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Pack
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(datarep, inbuf, incount, datatype, outbuf, &
outsize, position, ierr)
include 'mpif.h'
character(len=*), intent(in) :: datarep
${type}, intent(in) :: inbuf
integer, intent(in) :: incount
integer, intent(in) :: datatype
${type}, intent(out) :: outbuf
integer(kind=MPI_ADDRESS_KIND), intent(in) :: outsize
integer(kind=MPI_ADDRESS_KIND), intent(inout) :: position
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Pack_external large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Pack_external ${rank} CH "character${dim}"
output MPI_Pack_external ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Pack_external ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Pack_external ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Pack_external ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Pack_external
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(datarep, incount, datatype, size, ierr)
include 'mpif.h'
character(len=*), intent(in) :: datarep
integer, intent(in) :: incount
integer, intent(in) :: datatype
integer(kind=MPI_ADDRESS_KIND), intent(out) :: size
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Pack_external_size small
output MPI_Pack_external_size
end MPI_Pack_external_size
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(incount, datatype, comm, size, ierr)
include 'mpif.h'
integer, intent(in) :: incount
integer, intent(in) :: datatype
integer, intent(in) :: comm
integer, intent(out) :: size
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Pack_size small
output MPI_Pack_size
end MPI_Pack_size
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(level)
include 'mpif.h'
integer, intent(in) :: level
end subroutine ${procedure}
EOF
}
start MPI_Pcontrol small
output MPI_Pcontrol
end MPI_Pcontrol
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(source, tag, comm, status, ierr)
include 'mpif.h'
integer, intent(in) :: source
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, dimension(MPI_STATUS_SIZE), intent(inout) :: status
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Probe small
output MPI_Probe
end MPI_Probe
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(origin_addr, origin_count, origin_datatype, target_rank, target_disp, &
target_count, target_datatype, win, ierr)
include 'mpif.h'
${type}, intent(in) :: origin_addr
integer, intent(in) :: origin_count
integer, intent(in) :: origin_datatype
integer, intent(in) :: target_rank
integer(kind=MPI_ADDRESS_KIND), intent(in) :: target_disp
integer, intent(in) :: target_count
integer, intent(in) :: target_datatype
integer, intent(in) :: win
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Put medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Put ${rank} CH "character${dim}"
output MPI_Put ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Put ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Put ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Put ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Put
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(provided, ierr)
include 'mpif.h'
integer, intent(out) :: provided
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Query_thread small
output MPI_Query_thread
end MPI_Query_thread
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, source, tag, &
comm, status, ierr)
include 'mpif.h'
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: source
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, dimension(MPI_STATUS_SIZE), intent(inout) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Recv medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Recv ${rank} CH "character${dim}"
output MPI_Recv ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Recv ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Recv ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Recv ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Recv
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, source, tag, &
comm, request, ierr)
include 'mpif.h'
${type}, intent(out) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: source
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Recv_init medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Recv_init ${rank} CH "character${dim}"
output MPI_Recv_init ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Recv_init ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Recv_init ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Recv_init ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Recv_init
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, recvbuf, count, datatype, op, &
root, comm, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
${type}, intent(out) :: recvbuf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: op
integer, intent(in) :: root
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Reduce large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Reduce ${rank} CH "character${dim}"
output MPI_Reduce ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Reduce ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Reduce ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Reduce ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Reduce
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, recvbuf, recvcounts, datatype, op, &
comm, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
${type}, intent(out) :: recvbuf
integer, intent(in) :: recvcounts
integer, intent(in) :: datatype
integer, intent(in) :: op
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Reduce_scatter large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Reduce_scatter ${rank} CH "character${dim}"
output MPI_Reduce_scatter ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Reduce_scatter ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Reduce_scatter ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Reduce_scatter ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Reduce_scatter
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(datarep, read_conversion_fn, write_conversion_fn, dtype_file_extent_fn, extra_state&
, ierr)
include 'mpif.h'
character(len=*), intent(in) :: datarep
external :: read_conversion_fn
external :: write_conversion_fn
external :: dtype_file_extent_fn
integer, intent(in) :: extra_state
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Register_datarep small
output MPI_Register_datarep
end MPI_Register_datarep
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(request, ierr)
include 'mpif.h'
integer, intent(inout) :: request
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Request_free small
output MPI_Request_free
end MPI_Request_free
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(request, flag, status, ierr)
include 'mpif.h'
integer, intent(in) :: request
integer, intent(out) :: flag
integer, dimension(MPI_STATUS_SIZE), intent(inout) :: status
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Request_get_status small
output MPI_Request_get_status
end MPI_Request_get_status
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(ibuf, count, datatype, dest, tag, &
comm, ierr)
include 'mpif.h'
${type}, intent(in) :: ibuf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: dest
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Rsend medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Rsend ${rank} CH "character${dim}"
output MPI_Rsend ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Rsend ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Rsend ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Rsend ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Rsend
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, dest, tag, &
comm, request, ierr)
include 'mpif.h'
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: dest
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Rsend_init medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Rsend_init ${rank} CH "character${dim}"
output MPI_Rsend_init ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Rsend_init ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Rsend_init ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Rsend_init ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Rsend_init
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, recvbuf, count, datatype, op, &
comm, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
${type}, intent(out) :: recvbuf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: op
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Scan large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Scan ${rank} CH "character${dim}"
output MPI_Scan ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Scan ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Scan ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Scan ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Scan
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, sendcount, sendtype, recvbuf, recvcount, &
recvtype, root, comm, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
integer, intent(in) :: sendcount
integer, intent(in) :: sendtype
${type}, intent(out) :: recvbuf
integer, intent(in) :: recvcount
integer, intent(in) :: recvtype
integer, intent(in) :: root
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Scatter large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Scatter ${rank} CH "character${dim}"
output MPI_Scatter ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Scatter ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Scatter ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Scatter ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Scatter
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, sendcounts, displs, sendtype, recvbuf, &
recvcount, recvtype, root, comm, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
integer, intent(in) :: sendcounts
integer, intent(in) :: displs
integer, intent(in) :: sendtype
${type}, intent(out) :: recvbuf
integer, intent(in) :: recvcount
integer, intent(in) :: recvtype
integer, intent(in) :: root
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Scatterv large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Scatterv ${rank} CH "character${dim}"
output MPI_Scatterv ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Scatterv ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Scatterv ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Scatterv ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Scatterv
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, dest, tag, &
comm, ierr)
include 'mpif.h'
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: dest
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Send medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Send ${rank} CH "character${dim}"
output MPI_Send ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Send ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Send ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Send ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Send
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, dest, tag, &
comm, request, ierr)
include 'mpif.h'
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: dest
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Send_init medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Send_init ${rank} CH "character${dim}"
output MPI_Send_init ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Send_init ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Send_init ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Send_init ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Send_init
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(sendbuf, sendcount, sendtype, dest, sendtag, &
recvbuf, recvcount, recvtype, source, recvtag, comm, status, ierr)
include 'mpif.h'
${type}, intent(in) :: sendbuf
integer, intent(in) :: sendcount
integer, intent(in) :: sendtype
integer, intent(in) :: dest
integer, intent(in) :: sendtag
${type}, intent(out) :: recvbuf
integer, intent(in) :: recvcount
integer, intent(in) :: recvtype
integer, intent(in) :: source
integer, intent(in) :: recvtag
integer, intent(in) :: comm
integer, dimension(MPI_STATUS_SIZE), intent(inout) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Sendrecv large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Sendrecv ${rank} CH "character${dim}"
output MPI_Sendrecv ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Sendrecv ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Sendrecv ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Sendrecv ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Sendrecv
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, dest, sendtag, &
source, recvtag, comm, status, ierr)
include 'mpif.h'
${type}, intent(inout) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: dest
integer, intent(in) :: sendtag
integer, intent(in) :: source
integer, intent(in) :: recvtag
integer, intent(in) :: comm
integer, dimension(MPI_STATUS_SIZE), intent(inout) :: status
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Sendrecv_replace medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Sendrecv_replace ${rank} CH "character${dim}"
output MPI_Sendrecv_replace ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Sendrecv_replace ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Sendrecv_replace ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Sendrecv_replace ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Sendrecv_replace
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(x, size, ierr)
include 'mpif.h'
${type}, intent(in) :: x
integer, intent(out) :: size
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_SIZEOF trivial
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_SIZEOF ${rank} CH "character${dim}"
output MPI_SIZEOF ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_SIZEOF ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_SIZEOF ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_SIZEOF ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_SIZEOF
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, dest, tag, &
comm, ierr)
include 'mpif.h'
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: dest
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Ssend medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Ssend ${rank} CH "character${dim}"
output MPI_Ssend ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Ssend ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Ssend ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Ssend ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Ssend
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(buf, count, datatype, dest, tag, &
comm, request, ierr)
include 'mpif.h'
${type}, intent(in) :: buf
integer, intent(in) :: count
integer, intent(in) :: datatype
integer, intent(in) :: dest
integer, intent(in) :: tag
integer, intent(in) :: comm
integer, intent(out) :: request
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Ssend_init medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Ssend_init ${rank} CH "character${dim}"
output MPI_Ssend_init ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Ssend_init ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Ssend_init ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Ssend_init ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Ssend_init
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(request, ierr)
include 'mpif.h'
integer, intent(inout) :: request
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Start small
output MPI_Start
end MPI_Start
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, array_of_requests, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, dimension(*), intent(inout) :: array_of_requests
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Startall small
output MPI_Startall
end MPI_Startall
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(status, flag, ierr)
include 'mpif.h'
integer, dimension(MPI_STATUS_SIZE), intent(inout) :: status
integer, intent(in) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Status_set_cancelled small
output MPI_Status_set_cancelled
end MPI_Status_set_cancelled
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(status, datatype, count, ierr)
include 'mpif.h'
integer, dimension(MPI_STATUS_SIZE), intent(inout) :: status
integer, intent(in) :: datatype
integer, intent(in) :: count
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Status_set_elements small
output MPI_Status_set_elements
end MPI_Status_set_elements
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(request, flag, status, ierr)
include 'mpif.h'
integer, intent(inout) :: request
integer, intent(out) :: flag
integer, dimension(MPI_STATUS_SIZE), intent(inout) :: status
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Test small
output MPI_Test
end MPI_Test
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(status, flag, ierr)
include 'mpif.h'
integer, dimension(MPI_STATUS_SIZE), intent(in) :: status
integer, intent(out) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Test_cancelled small
output MPI_Test_cancelled
end MPI_Test_cancelled
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, array_of_requests, flag, array_of_statuses, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, dimension(count), intent(inout) :: array_of_requests
integer, intent(out) :: flag
integer, dimension(count, MPI_STATUS_SIZE), intent(inout) :: array_of_statuses
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Testall small
output MPI_Testall
end MPI_Testall
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, array_of_requests, index, flag, status&
, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, dimension(count), intent(inout) :: array_of_requests
integer, intent(out) :: index
integer, intent(out) :: flag
integer, dimension(MPI_STATUS_SIZE), intent(inout) :: status
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Testany small
output MPI_Testany
end MPI_Testany
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(incount, array_of_requests, outcount, array_of_indices, array_of_statuses&
, ierr)
include 'mpif.h'
integer, intent(in) :: incount
integer, dimension(incount), intent(inout) :: array_of_requests
integer, intent(out) :: outcount
integer, dimension(*), intent(out) :: array_of_indices
integer, dimension(incount, MPI_STATUS_SIZE), intent(inout) :: array_of_statuses
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Testsome small
output MPI_Testsome
end MPI_Testsome
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, status, ierr)
include 'mpif.h'
integer, intent(in) :: comm
integer, intent(out) :: status
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Topo_test small
output MPI_Topo_test
end MPI_Topo_test
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type, ierr)
include 'mpif.h'
integer, intent(inout) :: type
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_commit small
output MPI_Type_commit
end MPI_Type_commit
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, oldtype, newtype, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, intent(in) :: oldtype
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_contiguous small
output MPI_Type_contiguous
end MPI_Type_contiguous
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(size, rank, ndims, gsize_array, distrib_array, &
darg_array, psize_array, order, oldtype, newtype, ierr)
include 'mpif.h'
integer, intent(in) :: size
integer, intent(in) :: rank
integer, intent(in) :: ndims
integer, dimension(*), intent(in) :: gsize_array
integer, dimension(*), intent(in) :: distrib_array
integer, dimension(*), intent(in) :: darg_array
integer, dimension(*), intent(in) :: psize_array
integer, intent(in) :: order
integer, intent(in) :: oldtype
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_create_darray small
output MPI_Type_create_darray
end MPI_Type_create_darray
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(p, r, newtype, ierr)
include 'mpif.h'
integer, intent(in) :: p
integer, intent(in) :: r
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_create_f90_complex small
output MPI_Type_create_f90_complex
end MPI_Type_create_f90_complex
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(r, newtype, ierr)
include 'mpif.h'
integer, intent(in) :: r
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_create_f90_integer small
output MPI_Type_create_f90_integer
end MPI_Type_create_f90_integer
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(p, r, newtype, ierr)
include 'mpif.h'
integer, intent(in) :: p
integer, intent(in) :: r
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_create_f90_real small
output MPI_Type_create_f90_real
end MPI_Type_create_f90_real
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, array_of_blocklengths, array_of_displacements, oldtype, newtype&
, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, dimension(*), intent(in) :: array_of_blocklengths
integer(kind=MPI_ADDRESS_KIND), dimension(*), intent(in) :: array_of_displacements
integer, intent(in) :: oldtype
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_create_hindexed small
output MPI_Type_create_hindexed
end MPI_Type_create_hindexed
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, blocklength, stride, oldtype, newtype&
, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, intent(in) :: blocklength
integer(kind=MPI_ADDRESS_KIND), intent(in) :: stride
integer, intent(in) :: oldtype
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_create_hvector small
output MPI_Type_create_hvector
end MPI_Type_create_hvector
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, blocklength, array_of_displacements, oldtype, newtype&
, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, intent(in) :: blocklength
integer, dimension(*), intent(in) :: array_of_displacements
integer, intent(in) :: oldtype
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_create_indexed_block small
output MPI_Type_create_indexed_block
end MPI_Type_create_indexed_block
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type_copy_attr_fn, type_delete_attr_fn, type_keyval, extra_state, ierr)
include 'mpif.h'
external :: type_copy_attr_fn
external :: type_delete_attr_fn
integer, intent(out) :: type_keyval
integer, intent(in) :: extra_state
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_create_keyval small
output MPI_Type_create_keyval
end MPI_Type_create_keyval
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(oldtype, lb, extent, newtype, ierr)
include 'mpif.h'
integer, intent(in) :: oldtype
integer(kind=MPI_ADDRESS_KIND), intent(in) :: lb
integer(kind=MPI_ADDRESS_KIND), intent(in) :: extent
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_create_resized small
output MPI_Type_create_resized
end MPI_Type_create_resized
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, array_of_block_lengths, array_of_displacements, array_of_types, newtype&
, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, dimension(*), intent(in) :: array_of_block_lengths
integer(kind=MPI_ADDRESS_KIND), dimension(*), intent(in) :: array_of_displacements
integer, dimension(*), intent(in) :: array_of_types
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_create_struct small
output MPI_Type_create_struct
end MPI_Type_create_struct
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(ndims, size_array, subsize_array, start_array, order, &
oldtype, newtype, ierr)
include 'mpif.h'
integer, intent(in) :: ndims
integer, dimension(*), intent(in) :: size_array
integer, dimension(*), intent(in) :: subsize_array
integer, dimension(*), intent(in) :: start_array
integer, intent(in) :: order
integer, intent(in) :: oldtype
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_create_subarray small
output MPI_Type_create_subarray
end MPI_Type_create_subarray
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type, type_keyval, ierr)
include 'mpif.h'
integer, intent(inout) :: type
integer, intent(in) :: type_keyval
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_delete_attr small
output MPI_Type_delete_attr
end MPI_Type_delete_attr
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type, newtype, ierr)
include 'mpif.h'
integer, intent(in) :: type
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_dup small
output MPI_Type_dup
end MPI_Type_dup
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type, extent, ierr)
include 'mpif.h'
integer, intent(in) :: type
integer, intent(out) :: extent
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_extent small
output MPI_Type_extent
end MPI_Type_extent
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type, ierr)
include 'mpif.h'
integer, intent(inout) :: type
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_free small
output MPI_Type_free
end MPI_Type_free
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type_keyval, ierr)
include 'mpif.h'
integer, intent(inout) :: type_keyval
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_free_keyval small
output MPI_Type_free_keyval
end MPI_Type_free_keyval
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type, type_keyval, attribute_val, flag, ierr)
include 'mpif.h'
integer, intent(in) :: type
integer, intent(in) :: type_keyval
integer(kind=MPI_ADDRESS_KIND), intent(out) :: attribute_val
integer, intent(out) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_get_attr small
output MPI_Type_get_attr
end MPI_Type_get_attr
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(mtype, max_integers, max_addresses, max_datatypes, array_of_integers, &
array_of_addresses, array_of_datatypes, ierr)
include 'mpif.h'
integer, intent(in) :: mtype
integer, intent(in) :: max_integers
integer, intent(in) :: max_addresses
integer, intent(in) :: max_datatypes
integer, dimension(*), intent(out) :: array_of_integers
integer(kind=MPI_ADDRESS_KIND), dimension(*), intent(out) :: array_of_addresses
integer, dimension(*), intent(out) :: array_of_datatypes
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_get_contents small
output MPI_Type_get_contents
end MPI_Type_get_contents
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type, num_integers, num_addresses, num_datatypes, combiner&
, ierr)
include 'mpif.h'
integer, intent(in) :: type
integer, intent(out) :: num_integers
integer, intent(out) :: num_addresses
integer, intent(out) :: num_datatypes
integer, intent(out) :: combiner
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_get_envelope small
output MPI_Type_get_envelope
end MPI_Type_get_envelope
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type, lb, extent, ierr)
include 'mpif.h'
integer, intent(in) :: type
integer(kind=MPI_ADDRESS_KIND), intent(out) :: lb
integer(kind=MPI_ADDRESS_KIND), intent(out) :: extent
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_get_extent small
output MPI_Type_get_extent
end MPI_Type_get_extent
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type, type_name, resultlen, ierr)
include 'mpif.h'
integer, intent(in) :: type
character(len=*), intent(out) :: type_name
integer, intent(out) :: resultlen
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_get_name small
output MPI_Type_get_name
end MPI_Type_get_name
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(datatype, true_lb, true_extent, ierr)
include 'mpif.h'
integer, intent(in) :: datatype
integer(kind=MPI_ADDRESS_KIND), intent(out) :: true_lb
integer(kind=MPI_ADDRESS_KIND), intent(out) :: true_extent
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_get_true_extent small
output MPI_Type_get_true_extent
end MPI_Type_get_true_extent
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, array_of_blocklengths, array_of_displacements, oldtype, newtype&
, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, dimension(*), intent(in) :: array_of_blocklengths
integer, dimension(*), intent(in) :: array_of_displacements
integer, intent(in) :: oldtype
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_hindexed small
output MPI_Type_hindexed
end MPI_Type_hindexed
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, blocklength, stride, oldtype, newtype&
, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, intent(in) :: blocklength
integer, intent(in) :: stride
integer, intent(in) :: oldtype
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_hvector small
output MPI_Type_hvector
end MPI_Type_hvector
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, array_of_blocklengths, array_of_displacements, oldtype, newtype&
, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, dimension(*), intent(in) :: array_of_blocklengths
integer, dimension(*), intent(in) :: array_of_displacements
integer, intent(in) :: oldtype
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_indexed small
output MPI_Type_indexed
end MPI_Type_indexed
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type, lb, ierr)
include 'mpif.h'
integer, intent(in) :: type
integer, intent(out) :: lb
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_lb small
output MPI_Type_lb
end MPI_Type_lb
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(typeclass, size, type, ierr)
include 'mpif.h'
integer, intent(in) :: typeclass
integer, intent(in) :: size
integer, intent(out) :: type
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_match_size small
output MPI_Type_match_size
end MPI_Type_match_size
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type, type_keyval, attr_val, ierr)
include 'mpif.h'
integer, intent(inout) :: type
integer, intent(in) :: type_keyval
integer(kind=MPI_ADDRESS_KIND), intent(in) :: attr_val
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_set_attr small
output MPI_Type_set_attr
end MPI_Type_set_attr
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type, type_name, ierr)
include 'mpif.h'
integer, intent(inout) :: type
character(len=*), intent(in) :: type_name
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_set_name small
output MPI_Type_set_name
end MPI_Type_set_name
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(type, size, ierr)
include 'mpif.h'
integer, intent(in) :: type
integer, intent(out) :: size
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_size small
output MPI_Type_size
end MPI_Type_size
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, array_of_blocklengths, array_of_displacements, array_of_types, newtype&
, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, dimension(*), intent(in) :: array_of_blocklengths
integer, dimension(*), intent(in) :: array_of_displacements
integer, dimension(*), intent(in) :: array_of_types
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_struct small
output MPI_Type_struct
end MPI_Type_struct
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(mtype, ub, ierr)
include 'mpif.h'
integer, intent(in) :: mtype
integer, intent(out) :: ub
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_ub small
output MPI_Type_ub
end MPI_Type_ub
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, blocklength, stride, oldtype, newtype&
, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, intent(in) :: blocklength
integer, intent(in) :: stride
integer, intent(in) :: oldtype
integer, intent(out) :: newtype
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Type_vector small
output MPI_Type_vector
end MPI_Type_vector
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(inbuf, insize, position, outbuf, outcount, &
datatype, comm, ierr)
include 'mpif.h'
${type}, intent(in) :: inbuf
integer, intent(in) :: insize
integer, intent(inout) :: position
${type}, intent(out) :: outbuf
integer, intent(in) :: outcount
integer, intent(in) :: datatype
integer, intent(in) :: comm
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Unpack large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Unpack ${rank} CH "character${dim}"
output MPI_Unpack ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Unpack ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Unpack ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Unpack ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Unpack
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(datarep, inbuf, insize, position, outbuf, &
outcount, datatype, ierr)
include 'mpif.h'
character(len=*), intent(in) :: datarep
${type}, intent(in) :: inbuf
integer(kind=MPI_ADDRESS_KIND), intent(in) :: insize
integer(kind=MPI_ADDRESS_KIND), intent(inout) :: position
${type}, intent(out) :: outbuf
integer, intent(in) :: outcount
integer, intent(in) :: datatype
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Unpack_external large
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Unpack_external ${rank} CH "character${dim}"
output MPI_Unpack_external ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Unpack_external ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Unpack_external ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Unpack_external ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Unpack_external
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(request, status, ierr)
include 'mpif.h'
integer, intent(inout) :: request
integer, dimension(MPI_STATUS_SIZE), intent(inout) :: status
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Wait small
output MPI_Wait
end MPI_Wait
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, array_of_requests, array_of_statuses, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, dimension(count), intent(inout) :: array_of_requests
integer, dimension(count, MPI_STATUS_SIZE), intent(inout) :: array_of_statuses
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Waitall small
output MPI_Waitall
end MPI_Waitall
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, array_of_requests, index, status, ierr)
include 'mpif.h'
integer, intent(in) :: count
integer, dimension(count), intent(inout) :: array_of_requests
integer, intent(out) :: index
integer, dimension(MPI_STATUS_SIZE), intent(inout) :: status
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Waitany small
output MPI_Waitany
end MPI_Waitany
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(incount, array_of_requests, outcount, array_of_indices, array_of_statuses&
, ierr)
include 'mpif.h'
integer, intent(in) :: incount
integer, dimension(incount), intent(inout) :: array_of_requests
integer, intent(out) :: outcount
integer, dimension(*), intent(out) :: array_of_indices
integer, dimension(incount, MPI_STATUS_SIZE), intent(inout) :: array_of_statuses
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Waitsome small
output MPI_Waitsome
end MPI_Waitsome
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win, errorcode, ierr)
include 'mpif.h'
integer, intent(in) :: win
integer, intent(in) :: errorcode
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_call_errhandler small
output MPI_Win_call_errhandler
end MPI_Win_call_errhandler
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win, ierr)
include 'mpif.h'
integer, intent(in) :: win
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_complete small
output MPI_Win_complete
end MPI_Win_complete
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
rank=$2
type=$4
proc="$1$2D$3"
cat <<EOF
subroutine ${proc}(base, size, disp_unit, info, comm, &
win, ierr)
include 'mpif.h'
${type}, intent(in) :: base
integer(kind=MPI_ADDRESS_KIND), intent(in) :: size
integer, intent(in) :: disp_unit
integer, intent(in) :: info
integer, intent(in) :: comm
integer, intent(in) :: win
integer, intent(out) :: ierr
end subroutine ${proc}
EOF
}
start MPI_Win_create medium
for rank in $allranks
do
case "$rank" in 0) dim='' ; esac
case "$rank" in 1) dim=', dimension(:)' ; esac
case "$rank" in 2) dim=', dimension(:,:)' ; esac
case "$rank" in 3) dim=', dimension(:,:,:)' ; esac
case "$rank" in 4) dim=', dimension(:,:,:,:)' ; esac
case "$rank" in 5) dim=', dimension(:,:,:,:,:)' ; esac
case "$rank" in 6) dim=', dimension(:,:,:,:,:,:)' ; esac
case "$rank" in 7) dim=', dimension(:,:,:,:,:,:,:)' ; esac
output MPI_Win_create ${rank} CH "character${dim}"
output MPI_Win_create ${rank} L "logical${dim}"
for kind in $ikinds
do
output MPI_Win_create ${rank} I${kind} "integer*${kind}${dim}"
done
for kind in $rkinds
do
output MPI_Win_create ${rank} R${kind} "real*${kind}${dim}"
done
for kind in $ckinds
do
output MPI_Win_create ${rank} C${kind} "complex*${kind}${dim}"
done
done
end MPI_Win_create
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(function, errhandler, ierr)
include 'mpif.h'
external :: function
integer, intent(out) :: errhandler
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_create_errhandler small
output MPI_Win_create_errhandler
end MPI_Win_create_errhandler
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win_copy_attr_fn, win_delete_attr_fn, win_keyval, extra_state, ierr)
include 'mpif.h'
external :: win_copy_attr_fn
external :: win_delete_attr_fn
integer, intent(out) :: win_keyval
integer, intent(in) :: extra_state
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_create_keyval small
output MPI_Win_create_keyval
end MPI_Win_create_keyval
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win, win_keyval, ierr)
include 'mpif.h'
integer, intent(inout) :: win
integer, intent(in) :: win_keyval
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_delete_attr small
output MPI_Win_delete_attr
end MPI_Win_delete_attr
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(assert, win, ierr)
include 'mpif.h'
integer, intent(in) :: assert
integer, intent(in) :: win
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_fence small
output MPI_Win_fence
end MPI_Win_fence
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win, ierr)
include 'mpif.h'
integer, intent(inout) :: win
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_free small
output MPI_Win_free
end MPI_Win_free
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win_keyval, ierr)
include 'mpif.h'
integer, intent(inout) :: win_keyval
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_free_keyval small
output MPI_Win_free_keyval
end MPI_Win_free_keyval
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win, win_keyval, attribute_val, flag, ierr)
include 'mpif.h'
integer, intent(in) :: win
integer, intent(in) :: win_keyval
integer(kind=MPI_ADDRESS_KIND), intent(out) :: attribute_val
integer, intent(out) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_get_attr small
output MPI_Win_get_attr
end MPI_Win_get_attr
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win, errhandler, ierr)
include 'mpif.h'
integer, intent(in) :: win
integer, intent(out) :: errhandler
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_get_errhandler small
output MPI_Win_get_errhandler
end MPI_Win_get_errhandler
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win, group, ierr)
include 'mpif.h'
integer, intent(in) :: win
integer, intent(out) :: group
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_get_group small
output MPI_Win_get_group
end MPI_Win_get_group
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win, win_name, resultlen, ierr)
include 'mpif.h'
integer, intent(in) :: win
character(len=*), intent(out) :: win_name
integer, intent(out) :: resultlen
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_get_name small
output MPI_Win_get_name
end MPI_Win_get_name
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(lock_type, rank, assert, win, ierr)
include 'mpif.h'
integer, intent(in) :: lock_type
integer, intent(in) :: rank
integer, intent(in) :: assert
integer, intent(in) :: win
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_lock small
output MPI_Win_lock
end MPI_Win_lock
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(group, assert, win, ierr)
include 'mpif.h'
integer, intent(in) :: group
integer, intent(in) :: assert
integer, intent(in) :: win
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_post small
output MPI_Win_post
end MPI_Win_post
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win, win_keyval, attribute_val, ierr)
include 'mpif.h'
integer, intent(inout) :: win
integer, intent(in) :: win_keyval
integer(kind=MPI_ADDRESS_KIND), intent(in) :: attribute_val
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_set_attr small
output MPI_Win_set_attr
end MPI_Win_set_attr
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win, errhandler, ierr)
include 'mpif.h'
integer, intent(inout) :: win
integer, intent(in) :: errhandler
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_set_errhandler small
output MPI_Win_set_errhandler
end MPI_Win_set_errhandler
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win, win_name, ierr)
include 'mpif.h'
integer, intent(inout) :: win
character(len=*), intent(in) :: win_name
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_set_name small
output MPI_Win_set_name
end MPI_Win_set_name
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(group, assert, win, ierr)
include 'mpif.h'
integer, intent(in) :: group
integer, intent(in) :: assert
integer, intent(in) :: win
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_start small
output MPI_Win_start
end MPI_Win_start
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win, flag, ierr)
include 'mpif.h'
integer, intent(in) :: win
integer, intent(out) :: flag
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_test small
output MPI_Win_test
end MPI_Win_test
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(rank, win, ierr)
include 'mpif.h'
integer, intent(in) :: rank
integer, intent(in) :: win
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_unlock small
output MPI_Win_unlock
end MPI_Win_unlock
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(win, ierr)
include 'mpif.h'
integer, intent(in) :: win
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Win_wait small
output MPI_Win_wait
end MPI_Win_wait
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(port_name, ierr)
include 'mpif.h'
character(len=*), intent(in) :: port_name
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Close_port small
output MPI_Close_port
end MPI_Close_port
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(service_name, info, port_name, ierr)
include 'mpif.h'
character(len=*), intent(in) :: service_name
integer, intent(in) :: info
character(len=*), intent(out) :: port_name
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Lookup_name small
output MPI_Lookup_name
end MPI_Lookup_name
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(info, port_name, ierr)
include 'mpif.h'
integer, intent(in) :: info
character(len=*), intent(out) :: port_name
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Open_port small
output MPI_Open_port
end MPI_Open_port
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(service_name, info, port_name, ierr)
include 'mpif.h'
character(len=*), intent(in) :: service_name
integer, intent(in) :: info
character(len=*), intent(in) :: port_name
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Publish_name small
output MPI_Publish_name
end MPI_Publish_name
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(service_name, info, port_name, ierr)
include 'mpif.h'
character(len=*), intent(in) :: service_name
integer, intent(in) :: info
character(len=*), intent(in) :: port_name
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Unpublish_name small
output MPI_Unpublish_name
end MPI_Unpublish_name
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(comm, ierr)
include 'mpif.h'
integer, intent(inout) :: comm
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_disconnect small
output MPI_Comm_disconnect
end MPI_Comm_disconnect
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(parent, ierr)
include 'mpif.h'
integer, intent(out) :: parent
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_get_parent small
output MPI_Comm_get_parent
end MPI_Comm_get_parent
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(fd, intercomm, ierr)
include 'mpif.h'
integer, intent(in) :: fd
integer, intent(out) :: intercomm
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_join small
output MPI_Comm_join
end MPI_Comm_join
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(port_name, info, root, comm, newcomm&
, ierr)
include 'mpif.h'
character(len=*), intent(in) :: port_name
integer, intent(in) :: info
integer, intent(in) :: root
integer, intent(in) :: comm
integer, intent(out) :: newcomm
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_accept small
output MPI_Comm_accept
end MPI_Comm_accept
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(port_name, info, root, comm, newcomm&
, ierr)
include 'mpif.h'
character(len=*), intent(in) :: port_name
integer, intent(in) :: info
integer, intent(in) :: root
integer, intent(in) :: comm
integer, intent(out) :: newcomm
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_connect small
output MPI_Comm_connect
end MPI_Comm_connect
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(command, argv, maxprocs, info, root, &
comm, intercomm, array_of_errcodes, ierr)
include 'mpif.h'
character(len=*), intent(in) :: command
character(len=*), dimension(*), intent(in) :: argv
integer, intent(in) :: maxprocs
integer, intent(in) :: info
integer, intent(in) :: root
integer, intent(in) :: comm
integer, intent(out) :: intercomm
integer, dimension(*), intent(out) :: array_of_errcodes
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_spawn small
output MPI_Comm_spawn
end MPI_Comm_spawn
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, array_of_commands, array_of_argv, array_of_maxprocs, array_of_info, &
root, comm, intercomm, array_of_errcodes, ierr)
include 'mpif.h'
integer, intent(in) :: count
character(len=*), dimension(*), intent(in) :: array_of_commands
character(len=*), dimension(count,*), intent(in) :: array_of_argv
integer, dimension(*), intent(in) :: array_of_maxprocs
integer, dimension(*), intent(in) :: array_of_info
integer, intent(in) :: root
integer, intent(in) :: comm
integer, intent(out) :: intercomm
integer, dimension(*), intent(out) :: array_of_errcodes
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_spawn_multiple small
output MPI_Comm_spawn_multipleN
end MPI_Comm_spawn_multiple
#------------------------------------------------------------------------
output() {
if test "$output" = "0"; then
return 0
fi
procedure=$1
cat <<EOF
subroutine ${procedure}(count, array_of_commands, array_of_argv, array_of_maxprocs, array_of_info, &
root, comm, intercomm, array_of_errcodes, ierr)
include 'mpif.h'
integer, intent(in) :: count
character(len=*), dimension(*), intent(in) :: array_of_commands
integer, intent(in) :: array_of_argv
integer, dimension(*), intent(in) :: array_of_maxprocs
integer, dimension(*), intent(in) :: array_of_info
integer, intent(in) :: root
integer, intent(in) :: comm
integer, intent(out) :: intercomm
integer, dimension(*), intent(out) :: array_of_errcodes
integer, intent(out) :: ierr
end subroutine ${procedure}
EOF
}
start MPI_Comm_spawn_multiple small
output MPI_Comm_spawn_multipleAN
end MPI_Comm_spawn_multiple