blob: 1efe2abe959b82f8dc26abbef3f6ce23db098a62 [file] [log] [blame]
! { dg-do run }
!$ use omp_lib
integer, allocatable :: a(:, :)
integer :: b(6, 3)
integer :: i, j
logical :: k, l
b(:, :) = 16
l = .false.
if (allocated (a)) call abort
!$omp parallel private (a, b) reduction (.or.:l)
l = l.or.allocated (a)
allocate (a(3, 6))
l = l.or..not.allocated (a)
l = l.or.size(a).ne.18.or.size(a,1).ne.3.or.size(a,2).ne.6
a(3, 2) = 1
b(3, 2) = 1
deallocate (a)
l = l.or.allocated (a)
!$omp end parallel
if (allocated (a).or.l) call abort
allocate (a(6, 3))
a(:, :) = 3
if (.not.allocated (a)) call abort
l = l.or.size(a).ne.18.or.size(a,1).ne.6.or.size(a,2).ne.3
if (l) call abort
!$omp parallel private (a, b) reduction (.or.:l)
l = l.or..not.allocated (a)
a(3, 2) = 1
b(3, 2) = 1
!$omp end parallel
if (l.or..not.allocated (a)) call abort
!$omp parallel firstprivate (a, b) reduction (.or.:l)
l = l.or..not.allocated (a)
l = l.or.size(a).ne.18.or.size(a,1).ne.6.or.size(a,2).ne.3
do i = 1, 6
l = l.or.(a(i, 1).ne.3).or.(a(i, 2).ne.3)
l = l.or.(a(i, 3).ne.3).or.(b(i, 1).ne.16)
l = l.or.(b(i, 2).ne.16).or.(b(i, 3).ne.16)
end do
a(:, :) = omp_get_thread_num ()
b(:, :) = omp_get_thread_num ()
!$omp end parallel
if (any (a.ne.3).or.any (b.ne.16).or.l) call abort
k = .true.
!$omp parallel do firstprivate (a, b, k) lastprivate (a, b) &
!$omp & reduction (.or.:l)
do i = 1, 36
l = l.or..not.allocated (a)
l = l.or.size(a).ne.18.or.size(a,1).ne.6.or.size(a,2).ne.3
if (k) then
do j = 1, 6
l = l.or.(a(j, 1).ne.3).or.(a(j, 2).ne.3)
l = l.or.(a(j, 3).ne.3).or.(b(j, 1).ne.16)
l = l.or.(b(j, 2).ne.16).or.(b(j, 3).ne.16)
end do
k = .false.
end if
a(:, :) = i + 2
b(:, :) = i
end do
if (any (a.ne.38).or.any (b.ne.36).or.l) call abort
deallocate (a)
if (allocated (a)) call abort
allocate (a (0:1, 0:3))
a(:, :) = 0
!$omp parallel do reduction (+:a) reduction (.or.:l) &
!$omp & num_threads(3) schedule(static)
do i = 0, 7
l = l.or..not.allocated (a)
l = l.or.size(a).ne.8.or.size(a,1).ne.2.or.size(a,2).ne.4
a(modulo (i, 2), i / 2) = a(modulo (i, 2), i / 2) + i
a(i / 4, modulo (i, 4)) = a(i / 4, modulo (i, 4)) + i
end do
if (l) call abort
do i = 0, 1
do j = 0, 3
if (a(i, j) .ne. (5*i + 3*j)) call abort
end do
end do
end