! { dg-do run } module m interface operator(.add.) module procedure do_add end interface type dt real :: r = 0.0 end type contains function do_add(x, y) type (dt), intent (in) :: x, y type (dt) :: do_add do_add%r = x%r + y%r end function subroutine dp_add(x, y) double precision :: x, y x = x + y end subroutine subroutine dp_init(x) double precision :: x x = 0.0 end subroutine end module program udr5 use m, only : operator(.add.), dt, dp_add, dp_init type(dt) :: xdt, one real :: r integer (kind = 4) :: i4 integer (kind = 8) :: i8 real (kind = 4) :: r4 double precision :: dp !$omp declare reduction(.add.:dt:omp_out=omp_out.add.omp_in) !$omp declare reduction(foo:integer(4),integer(kind=8),real (kind = 4) & !$omp & :omp_out = omp_out + omp_in) initializer (omp_priv = 0) !$omp declare reduction(foo:double precision:dp_add (omp_out, omp_in)) & !$omp & initializer (dp_init (omp_priv)) one%r = 1.0 r = 0.0 i4 = 0 i8 = 0 r4 = 0.0 call dp_init (dp) !$omp parallel reduction(.add.: xdt) reduction(+: r) & !$omp & reduction(foo: i4, i8, r4, dp) xdt = xdt.add.one r = r + 1.0 i4 = i4 + 1 i8 = i8 + 1 r4 = r4 + 1.0 call dp_add (dp, 1.0d0) !$omp end parallel if (xdt%r .ne. r) stop 1 if (i4.ne.r.or.i8.ne.r.or.r4.ne.r.or.dp.ne.r) stop 2 end program udr5