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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [testsuite/] [gfortran.dg/] [coarray_lock_3.f90] - Rev 801
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! { dg-do compile }
! { dg-options "-fcoarray=single" }
!
!
! LOCK/LOCK_TYPE checks
!
subroutine extends()
use iso_fortran_env
type t
end type t
type, extends(t) :: t2 ! { dg-error "coarray component, parent type .t. shall also have one" }
type(lock_type), allocatable :: c(:)[:]
end type t2
end subroutine extends
module m
use iso_fortran_env
type t
type(lock_type), allocatable :: x(:)[:]
end type t
end module m
module m2
use iso_fortran_env
type t2
type(lock_type), allocatable :: x ! { dg-error "Allocatable component x at .1. of type LOCK_TYPE must have a codimension" }
end type t2
end module m2
module m3
use iso_fortran_env
type t3
type(lock_type) :: x ! OK
end type t3
end module m3
subroutine sub(x)
use iso_fortran_env
type(lock_type), intent(out) :: x[*] ! OK
end subroutine sub
subroutine sub1(x) ! { dg-error "is INTENT.OUT. and can thus not be an allocatable coarray or have coarray components" }
use iso_fortran_env
type(lock_type), allocatable, intent(out) :: x(:)[:]
end subroutine sub1
subroutine sub2(x) ! { dg-error "is INTENT.OUT. and can thus not be an allocatable coarray or have coarray components" }
use m
type(t), intent(out) :: x
end subroutine sub2
subroutine sub3(x) ! { dg-error "with coarray component shall be a nonpointer, nonallocatable scalar" }
use m
type(t), intent(inout) :: x[*]
end subroutine sub3
subroutine sub4(x)
use m3
type(t3), intent(inout) :: x[*] ! OK
end subroutine sub4
subroutine lock_test
use iso_fortran_env
type t
end type t
type(lock_type) :: lock ! { dg-error "of type LOCK_TYPE or with subcomponent of type LOCK_TYPE must be a coarray" }
end subroutine lock_test
subroutine lock_test2
use iso_fortran_env
implicit none
type t
end type t
type(t) :: x
type(lock_type), save :: lock[*],lock2(2)[*]
lock(t) ! { dg-error "Syntax error in LOCK statement" }
lock(x) ! { dg-error "must be a scalar of type LOCK_TYPE" }
lock(lock)
lock(lock2(1))
lock(lock2) ! { dg-error "must be a scalar of type LOCK_TYPE" }
lock(lock[1]) ! OK
end subroutine lock_test2
subroutine lock_test3
use iso_fortran_env
type(lock_type), save :: a[*], b[*]
a = b ! { dg-error "LOCK_TYPE in variable definition context" }
b = lock_type() ! { dg-error "LOCK_TYPE in variable definition context" }
print *, a ! { dg-error "cannot have PRIVATE components" }
end subroutine lock_test3
subroutine lock_test4
use iso_fortran_env
type(lock_type), allocatable :: A(:)[:]
logical :: ob
allocate(A(1)[*])
lock(A(1), acquired_lock=ob)
unlock(A(1))
deallocate(A)
end subroutine lock_test4
subroutine argument_check()
use iso_fortran_env
type(lock_type), SAVE :: ll[*]
call no_interface(ll) ! { dg-error "Actual argument of LOCK_TYPE or with LOCK_TYPE component at .1. requires an explicit interface" }
call test(ll) ! { dg-error "non-INTENT.INOUT. dummy .x. at .1., which is LOCK_TYPE or has a LOCK_TYPE component" }
contains
subroutine test(x)
type(lock_type), intent(in) :: x[*]
end subroutine test
end subroutine argument_check
! { dg-final { cleanup-modules "m m2 m3" } }
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