This is the mail archive of the
gcc-bugs@gcc.gnu.org
mailing list for the GCC project.
[Bug fortran/51284] New: [OOP] CLASS and VALUE attribute: No copy to temporary done
- From: "burnus at gcc dot gnu.org" <gcc-bugzilla at gcc dot gnu dot org>
- To: gcc-bugs at gcc dot gnu dot org
- Date: Wed, 23 Nov 2011 16:35:07 +0000
- Subject: [Bug fortran/51284] New: [OOP] CLASS and VALUE attribute: No copy to temporary done
- Auto-submitted: auto-generated
http://gcc.gnu.org/bugzilla/show_bug.cgi?id=51284
Bug #: 51284
Summary: [OOP] CLASS and VALUE attribute: No copy to temporary
done
Classification: Unclassified
Product: gcc
Version: 4.7.0
Status: UNCONFIRMED
Keywords: wrong-code
Severity: normal
Priority: P3
Component: fortran
AssignedTo: unassigned@gcc.gnu.org
ReportedBy: burnus@gcc.gnu.org
CC: janus@gcc.gnu.org
The following program fails in several ways. As written, the program fails as
"test" modifies the value of a%i - but it shouldn't:
"A present dummy argument with the VALUE attribute becomes argument associated
with a definable anonymous data object whose initial value is the value of the
actual argument." (12.5.2.3 Argument association).
If one uncomments "test2", it fails with:
Error: VALUE attribute conflicts with DIMENSION attribute at (1)
However, in Fortran 2008 this restriction is not present:
C557 An entity with the VALUE attribute shall be a dummy data object
that is not an assumed-size array or a coarray, and does not have
a coarray ultimate component.
C558 An entity with the VALUE attribute shall not have the ALLOCATABLE,
INTENT (INOUT), INTENT (OUT), POINTER, or VOLATILE attributes.
Additionally, with the current polymorphic array draft patch the
b(:)%i (in "b(:)%i = 8" and "any(b(:)%i /= 8")
causes an ICE (segfault). Doing a "do i=1,8; b(i)%i = 8; done" had a similar
problem.
Finally, I think polymorphic arrays suffer from the same issue as scalar
polymorphic arrays.
Note: A deep copy has to be done, which takes the allocatable components into
account.
module m
type t
integer :: i
end type t
contains
subroutine test(x)
class(t), VALUE :: x
x%i = 5
end subroutine test
! subroutine test2(x)
! class(t), VALUE :: x(:)
! x(:)%i = 99
! end subroutine test2
end module m
use m
class(t), allocatable :: a, b(:)
allocate ( t :: a, b(5))
a%i = 2
!b(:)%i = 8
call test(a)
!call test2(b)
if (a%i /= 2) call abort ()
!if (any(b(:)%i /= 8)) call abort ()
end