The following code, combining module procedures and external procedures:
module module_dummy implicit none contains subroutine foo(a) real, intent(inout) :: a(:) call bar(a) end subroutine foo end module module_dummy program main use module_dummy implicit none integer, parameter :: nelems = 100000000 real, allocatable :: a(:) allocate( a(nelems) ) a = 0.0 call foo(a) print *, a(1:10) deallocate(a) end program main subroutine bar(a) implicit none real, intent(inout) :: a(:) a = 1.0 end subroutine bar
seems to fail either:
- with a
- printing a block of
0.000instead of a block of
on any platform I have tried so far. The problem is related to the implicit interface declaration of
bar, and in fact the issue can be solved adding in any way an explicit interface, e.g. using:
module module_dummy implicit none contains subroutine foo(a) interface subroutine bar(x) real, intent(inout) :: x(:) end subroutine bar end interface real, intent(inout) :: a(:) call bar(a) end subroutine foo end module module_dummy
bar inside a module to be used by
Anyhow I really don't understand what is the error in the first place. What I have found on the Fortran 90 standard (sec. 220.127.116.11) says that:
The type, type parameters, and shape of dummy arguments of a procedure referenced from a scoping unit where the interface of the procedure is implicit must be such that the actual arguments are consistent with the characteristics of the dummy arguments.
In this case the rule seems to be respected, as
a is always declared as
real, intent(inout) :: a(:)
So, what am I missing in the interpretation of the standard that makes the previous code wrong?