Just try this:
program foo
implicit none
include 'mpif.h'
type bartype
real(8) :: x
integer :: i
end type bartype
integer :: mpi_bar_type
integer :: &
count=4, &
blocklengths(4)=(/1,1,1,1/), &
types(4)=(/MPI_LB,mpi_double_precision, &
mpi_integer,MPI_UB/)
integer(kind=mpi_address_kind) :: displs(4)
type(bartype) :: bararray(4)
integer :: rank, ierr, i, test(4)
call mpi_init(ierr)
call mpi_comm_rank(mpi_comm_world, rank, ierr)
call mpi_get_address(bararray(1), displs(1))
call mpi_get_address(bararray(1)%x, displs(2))
call mpi_get_address(bararray(1)%i, displs(3))
call mpi_get_address(bararray(2), displs(4))
do i=4,1,-1
displs(i)=displs(i)-displs(1)
enddo
call mpi_type_create_struct(4,blocklengths,displs,types,mpi_bar_type,ierr)
call mpi_type_commit(mpi_bar_type,ierr)
bararray(:)%x=rank
bararray(:)%i=rank
test(:)=rank
print *, "before", bararray
call mpi_bcast(test, 4, mpi_integer, 0, mpi_comm_world,ierr)
call mpi_bcast(bararray, 4, mpi_bar_type, 0, mpi_comm_world,ierr)
print *, "after", bararray
call mpi_finalize(ierr)
end program foo
Note the use of MPI_LB
and MPI_UB
as additional fictitious members of the structure. This is to ensure that the extents of the type is right.
I'm not entirely sure this is the recommended way for doing that according to the standard, but it has always worked for me.
For what I know, the standard says to add a bind(C)
and a sequence
to your type definition, but even though, I'm not sure not setting the upper bound of the type would work since you will have alignment issue I suspect.
EDIT: after the various remarks about MPI_LB and MPI_UB which are indeed deprecated, and a careful re-reading of the standard, I guess the following works and should be compliant.
program foo
implicit none
include 'mpif.h'
type bartype
real(8) :: x
integer :: i
end type bartype
integer :: tmp_type, bar_type
integer :: &
count=4, &
blocklengths(2)=(/1,1/), &
types(2)=(/mpi_double_precision, &
mpi_integer/)
integer(kind=mpi_address_kind) :: displs(2), lb, extent
type(bartype) :: bararray(4)
integer :: rank, ierr, i, test(4)
call mpi_init(ierr)
call mpi_comm_rank(mpi_comm_world, rank, ierr)
call mpi_get_address(bararray(1)%x, displs(1))
call mpi_get_address(bararray(1)%i, displs(2))
call mpi_get_address(bararray(1), lb)
call mpi_get_address(bararray(2), extent)
do i=1,2
displs(i)=displs(i)-lb
enddo
extent=extent-lb
lb=0
call mpi_type_create_struct(2,blocklengths,displs,types,tmp_type,ierr)
call mpi_type_commit(tmp_type,ierr)
call mpi_type_create_resized(tmp_type,lb,extent,bar_type,ierr)
call mpi_type_free(tmp_type,ierr)
call mpi_type_commit(bar_type,ierr)
bararray(:)%x=rank
bararray(:)%i=rank
test(:)=rank
print *, "before", bararray
call mpi_bcast(test, 4, mpi_integer, 0, mpi_comm_world,ierr)
call mpi_bcast(bararray, 4, bar_type, 0, mpi_comm_world,ierr)
print *, "after", bararray
call mpi_type_free(bar_type,ierr)
call mpi_finalize(ierr)
end program foo
implicit none
; (2)use mpi
rather thaninclude mpif.h
. Once (1) and (2) are done, you'll notice (3) you don't have a type defined for mpi_cadna_double_st (should be integer) and (4) the kind is wrong for displs (you should useinteger(kind=mpi_address_kind)
. That should do it.addr0
also needs to beinteger(kind=mpi_address_kind
); if youprint *, displs
before the type create you'll notice that the values are nonsense, which can easily lead to the segfault since they describe memory access. I'm actually surprised gfortran isn't throwing up a warning there.