! { dg-do run } module udr9m1 integer, parameter :: a = 6 integer :: b !$omp declare reduction (foo : integer : combiner1 (omp_out, omp_in)) & !$omp & initializer (initializer1 (omp_priv, omp_orig)) !$omp declare reduction (.add. : integer : & !$omp & combiner1 (omp_out, omp_in)) & !$omp & initializer (initializer1 (omp_priv, omp_orig)) interface operator (.add.) module procedure f1 end interface contains integer function f1 (x, y) integer, intent (in) :: x, y f1 = x + y end function f1 elemental subroutine combiner1 (x, y) integer, intent (inout) :: x integer, intent (in) :: y x = x + iand (y, -4) end subroutine subroutine initializer1 (x, y) integer :: x, y if (y .ne. 3) STOP 1 x = y end subroutine end module udr9m1 module udr9m2 use udr9m1 type dt integer :: x end type !$omp declare reduction (+ : dt : combiner2 (omp_in, omp_out)) & !$omp & initializer (initializer2 (omp_priv)) interface operator (+) module procedure f2 end interface contains type(dt) function f2 (x, y) type(dt), intent (in) :: x, y f2%x = x%x + y%x end function f2 subroutine combiner2 (x, y) type(dt) :: x, y y = y + x end subroutine combiner2 subroutine initializer2 (x) type(dt), intent(out) :: x x%x = 0 end subroutine initializer2 end module udr9m2 use udr9m2 integer :: i, j type(dt) :: d j = 3 d%x = 0 !$omp parallel do reduction (.add.: j) reduction (+ : d) do i = 1, 100 j = j.add.iand (i, -4) d = d + dt(i) end do if (d%x /= 5050 .or. j /= 4903) STOP 2 end