1! { dg-do run }
2
3  type dt
4    integer :: g
5    integer, allocatable :: h(:)
6  end type
7!$omp declare reduction (baz : dt : bar (omp_out, omp_in)) &
8!$omp & initializer (foo (omp_priv, omp_orig))
9  integer :: r
10  type (dt), allocatable :: a(:)
11  allocate (a(7:8))
12  a(:)%g = 0
13  a(7)%h = (/ 0, 0, 0 /)
14  r = 0
15!$omp parallel reduction(+:r) reduction (baz:a)
16  if (.not.allocated (a)) call abort
17  if (lbound (a, 1) /= 7 .or. ubound (a, 1) /= 8) call abort
18  if (.not.allocated (a(7)%h)) call abort
19  if (allocated (a(8)%h)) call abort
20  if (lbound (a(7)%h, 1) /= 1 .or. ubound (a(7)%h, 1) /= 3) call abort
21  a(:)%g = a(:)%g + 2
22  a(7)%h = a(7)%h + 3
23  r = r + 1
24!$omp end parallel
25  if (.not.allocated (a)) call abort
26  if (lbound (a, 1) /= 7 .or. ubound (a, 1) /= 8) call abort
27  if (.not.allocated (a(7)%h)) call abort
28  if (allocated (a(8)%h)) call abort
29  if (lbound (a(7)%h, 1) /= 1 .or. ubound (a(7)%h, 1) /= 3) call abort
30  if (any (a(:)%g /= 2 * r) .or. any (a(7)%h(:) /= 3 * r)) call abort
31contains
32  subroutine foo (x, y)
33    type (dt), allocatable :: x(:), y(:)
34    if (allocated (x) .neqv. allocated (y)) call abort
35    if (lbound (x, 1) /= lbound (y, 1)) call abort
36    if (ubound (x, 1) /= ubound (y, 1)) call abort
37    if (allocated (x(7)%h) .neqv. allocated (y(7)%h)) call abort
38    if (allocated (x(8)%h) .neqv. allocated (y(8)%h)) call abort
39    if (lbound (x(7)%h, 1) /= lbound (y(7)%h, 1)) call abort
40    if (ubound (x(7)%h, 1) /= ubound (y(7)%h, 1)) call abort
41    x(7)%g = 0
42    x(7)%h = 0
43    x(8)%g = 0
44  end subroutine
45  subroutine bar (x, y)
46    type (dt), allocatable :: x(:), y(:)
47    x(:)%g = x(:)%g + y(:)%g
48    x(7)%h(:) = x(7)%h(:) + y(7)%h(:)
49  end subroutine
50end
51