Retro68/gcc/libgomp/testsuite/libgomp.fortran/udr15.f90
2014-09-21 19:33:12 +02:00

65 lines
1.6 KiB
Fortran

! { dg-do run }
module udr15m1
integer, parameter :: a = 6
integer :: b
!$omp declare reduction (foo : integer : omp_out = omp_out + omp_in)
!$omp declare reduction (.add. : integer : &
!$omp & omp_out = omp_out .add. f3 (omp_in, -4)) &
!$omp & initializer (s1 (omp_priv, omp_orig))
interface operator (.add.)
module procedure f1
end interface
contains
integer function f1 (x, y)
integer, intent (in) :: x, y
f1 = x + y
end function f1
integer function f3 (x, y)
integer, intent (in) :: x, y
f3 = iand (x, y)
end function f3
subroutine s1 (x, y)
integer, intent (in) :: y
integer, intent (out) :: x
x = 3
end subroutine s1
end module udr15m1
module udr15m2
use udr15m1, f4 => f1, f5 => f3, s2 => s1, operator (.addtwo.) => operator (.add.)
type dt
integer :: x
end type
!$omp declare reduction (+ : dt : omp_out = f6 (omp_out + omp_in)) &
!$omp & initializer (s3 (omp_priv))
interface operator (+)
module procedure f2
end interface
contains
type(dt) function f2 (x, y)
type(dt), intent (in) :: x, y
f2%x = x%x + y%x
end function f2
type(dt) function f6 (x)
type(dt), intent (in) :: x
f6%x = x%x
end function f6
subroutine s3 (x)
type(dt), intent (out) :: x
x = dt(0)
end subroutine
end module udr15m2
use udr15m2, operator (.addthree.) => operator (.addtwo.), &
f7 => f4, f8 => f6, s4 => s3
integer :: i, j
type(dt) :: d
j = 3
d%x = 0
!$omp parallel do reduction (.addthree.: j) reduction (+ : d)
do i = 1, 100
j = j.addthree.iand (i, -4)
d = d + dt(i)
end do
if (d%x /= 5050 .or. j /= 4903) call abort
end