! { dg-do run } ! { dg-additional-sources allocate-1.c } ! { dg-prune-output "command-line option '-fintrinsic-modules-path=.*' is valid for Fortran but not for C" } module m use omp_lib use iso_c_binding implicit none (type, external) interface integer(c_int) function is_64bit_aligned (a) bind(C) import :: c_int type(*) :: a end end interface contains subroutine foo (x, p, q, h, fl) use omp_lib use iso_c_binding integer :: x integer, dimension(4) :: p integer, dimension(4) :: q integer (kind=omp_allocator_handle_kind) :: h integer :: fl integer :: y integer :: r, i, i1, i2, i3, i4, i5 integer :: l, l3, l4, l5, l6 integer :: n, n2, n3, n4 integer :: j2, j3, j4 integer, dimension(4) :: l2 integer, dimension(4) :: r2 integer, target :: xo integer, target :: yo integer, dimension(x) :: v integer, dimension(x) :: w type s_type integer :: a integer :: b end type type (s_type) :: s s%a = 27 s%b = 29 y = 0 r = 0 n = 8 n2 = 9 n3 = 10 n4 = 11 xo = x yo = y do i = 1, 4 r2(i) = 0; end do do i = 1, 4 p(i) = 0; end do do i = 1, 4 q(i) = 0; end do do i = 1, x w(i) = i end do !$omp parallel private (y, v) firstprivate (x) allocate (x, y, v) if (x /= 42) then stop 1 end if !$omp barrier y = 1; x = x + 1 v(1) = 7 v(42) = 8 !$omp barrier if (x /= 43 .or. y /= 1) then stop 3 end if if (v(1) /= 7 .or. v(42) /= 8) then stop 4 end if if ( (and(fl, 2) /= 0) .and. & ((is_64bit_aligned(x) == 0) .or. & (is_64bit_aligned(y) == 0) .or. & (is_64bit_aligned(v(1)) == 0))) then stop 2 end if !$omp end parallel !$omp teams !$omp parallel private (y) firstprivate (x, w) allocate (h: x, y, w) if (x /= 42 .or. w(17) /= 17 .or. w(42) /= 42) then stop 5 end if !$omp barrier y = 1; x = x + 1 w(19) = w(19) + 1 !$omp barrier if (x /= 43 .or. y /= 1 .or. w(19) /= 20) then stop 6 end if if ( (and(fl, 1) /= 0) .and. & ((is_64bit_aligned(x) == 0) .or. & (is_64bit_aligned(y) == 0) .or. & (is_64bit_aligned(w(1)) == 0))) then stop 7 end if !$omp end parallel !$omp end teams !$omp parallel do private (y) firstprivate (x) reduction(+: r) allocate (h: x, y, r, l, n) lastprivate (l) linear (n: 16) do i = 0, 63 if (x /= 42) then stop 8 end if y = 1; l = i; n = n + y + 15; r = r + i; if ( (and(fl, 1) /= 0) .and. & ((is_64bit_aligned(x) == 0) .or. & (is_64bit_aligned(y) == 0) .or. & (is_64bit_aligned(r) == 0) .or. & (is_64bit_aligned(l) == 0) .or. & (is_64bit_aligned(n) == 0))) then stop 9 end if end do !$omp end parallel do !$omp parallel !$omp do lastprivate (l2) private (i1) allocate (h: l2, l3, i1) lastprivate (conditional: l3) do i1 = 0, 63 l2(1) = i1 l2(2) = i1 + 1 l2(3) = i1 + 2 l2(4) = i1 + 3 if (i1 < 37) then l3 = i1 end if if ( (and(fl, 1) /= 0) .and. & ((is_64bit_aligned(l2(1)) == 0) .or. & (is_64bit_aligned(l3) == 0) .or. & (is_64bit_aligned(i1) == 0))) then stop 10 end if end do !$omp do collapse(2) lastprivate(l4, i2, j2) linear (n2:17) allocate (h: n2, l4, i2, j2) do i2 = 3, 4 do j2 = 17, 22, 2 n2 = n2 + 17 l4 = i2 * 31 + j2 if ( (and(fl, 1) /= 0) .and. & ((is_64bit_aligned(l4) == 0) .or. & (is_64bit_aligned(n2) == 0) .or. & (is_64bit_aligned(i2) == 0) .or. & (is_64bit_aligned(j2) == 0))) then stop 11 end if end do end do !$omp do collapse(2) lastprivate(l5, i3, j3) linear (n3:17) schedule (static, 3) allocate (n3, l5, i3, j3) do i3 = 3, 4 do j3 = 17, 22, 2 n3 = n3 + 17 l5 = i3 * 31 + j3 if ( (and(fl, 2) /= 0) .and. & ((is_64bit_aligned(l5) == 0) .or. & (is_64bit_aligned(n3) == 0) .or. & (is_64bit_aligned(i3) == 0) .or. & (is_64bit_aligned(j3) == 0))) then stop 12 end if end do end do !$omp do collapse(2) lastprivate(l6, i4, j4) linear (n4:17) schedule (dynamic) allocate (h: n4, l6, i4, j4) do i4 = 3, 4 do j4 = 17, 22,2 n4 = n4 + 17; l6 = i4 * 31 + j4; if ( (and(fl, 1) /= 0) .and. & ((is_64bit_aligned(l6) == 0) .or. & (is_64bit_aligned(n4) == 0) .or. & (is_64bit_aligned(i4) == 0) .or. & (is_64bit_aligned(j4) == 0))) then stop 13 end if end do end do !$omp do lastprivate (i5) allocate (i5) do i5 = 1, 17, 3 if ( (and(fl, 2) /= 0) .and. & (is_64bit_aligned(i5) == 0)) then stop 14 end if end do !$omp do reduction(+:p, q, r2) allocate(h: p, q, r2) do i = 0, 31 p(3) = p(3) + i; p(4) = p(4) + (2 * i) q(1) = q(1) + (3 * i) q(3) = q(3) + (4 * i) r2(1) = r2(1) + (5 * i) r2(4) = r2(4) + (6 * i) if ( (and(fl, 1) /= 0) .and. & ((is_64bit_aligned(q(1)) == 0) .or. & (is_64bit_aligned(p(1)) == 0) .or. & (is_64bit_aligned(r2(1)) == 0) )) then stop 15 end if end do !$omp task private(y) firstprivate(x) allocate(x, y) if (x /= 42) then stop 16 end if if ( (and(fl, 2) /= 0) .and. & ((is_64bit_aligned(x) == 0) .or. & (is_64bit_aligned(y) == 0) )) then stop 17 end if !$omp end task !$omp task private(y) firstprivate(x) allocate(h: x, y) if (x /= 42) then stop 16 end if if ( (and(fl, 1) /= 0) .and. & ((is_64bit_aligned(x) == 0) .or. & (is_64bit_aligned(y) == 0) )) then stop 17 end if !$omp end task !$omp task private(y) firstprivate(s) allocate(s, y) if (s%a /= 27 .or. s%b /= 29) then stop 18 end if if ( (and(fl, 2) /= 0) .and. & ((is_64bit_aligned(s%a) == 0) .or. & (is_64bit_aligned(y) == 0) )) then stop 19 end if !$omp end task !$omp task private(y) firstprivate(s) allocate(h: s, y) if (s%a /= 27 .or. s%b /= 29) then stop 18 end if if ( (and(fl, 1) /= 0) .and. & ((is_64bit_aligned(s%a) == 0) .or. & (is_64bit_aligned(y) == 0) )) then stop 19 end if !$omp end task !$omp end parallel if (r /= ((64 * 63) / 2) .or. l /= 63 .or. n /= (8 + 16 * 64)) then stop 20 end if if (l2(1) /= 63 .or. l2(2) /= 64 .or. l2(3) /= 65 .or. l2(4) /= 66 .or. l3 /= 36) then stop 21 end if if (i2 /= 5 .or. j2 /= 23 .or. n2 /= (9 + (17 * 6)) .or. l4 /= (4 * 31 + 21)) then stop 22 end if if (i3 /= 5 .or. j3 /= 23 .or. n3 /= (10 + (17 * 6)) .or. l5 /= (4 * 31 + 21)) then stop 23 end if if (i4 /= 5 .or. j4 /= 23 .or. n4 /= (11 + (17 * 6)) .or. l6 /= (4 * 31 + 21)) then stop 24 end if if (i5 /= 19) then stop 24 end if if (p(3) /= ((32 * 31) / 2) .or. p(4) /= (2 * p(3)) & .or. q(1) /= (3 * p(3)) .or. q(3) /= (4 * p(3)) & .or. r2(1) /= (5 * p(3)) .or. r2(4) /= (6 * p(3))) then stop 25 end if end subroutine end module m program main use omp_lib use m implicit none (type, external) integer, dimension(4) :: p integer, dimension(4) :: q type (omp_alloctrait) :: traits(2) integer (omp_allocator_handle_kind) :: a traits = [omp_alloctrait (omp_atk_alignment, 64), & omp_alloctrait (omp_atk_fallback, omp_atv_null_fb)] a = omp_init_allocator (omp_default_mem_space, 2, traits) if (a == omp_null_allocator) stop 1 call omp_set_default_allocator (omp_default_mem_alloc); call foo (42, p, q, a, 0); call foo (42, p, q, omp_default_mem_alloc, 0); call foo (42, p, q, a, 1); call omp_set_default_allocator (a); call foo (42, p, q, omp_null_allocator, 3); call foo (42, p, q, omp_default_mem_alloc, 2); call omp_destroy_allocator (a); end