1! { dg-do run } 2!$ use omp_lib 3 4 integer, allocatable :: a(:, :) 5 integer :: b(6, 3) 6 integer :: i, j 7 logical :: k, l 8 b(:, :) = 16 9 l = .false. 10 if (allocated (a)) STOP 1 11!$omp parallel private (a, b) reduction (.or.:l) 12 l = l.or.allocated (a) 13 allocate (a(3, 6)) 14 l = l.or..not.allocated (a) 15 l = l.or.size(a).ne.18.or.size(a,1).ne.3.or.size(a,2).ne.6 16 a(3, 2) = 1 17 b(3, 2) = 1 18 deallocate (a) 19 l = l.or.allocated (a) 20!$omp end parallel 21 if (allocated (a).or.l) STOP 2 22 allocate (a(6, 3)) 23 a(:, :) = 3 24 if (.not.allocated (a)) STOP 3 25 l = l.or.size(a).ne.18.or.size(a,1).ne.6.or.size(a,2).ne.3 26 if (l) STOP 4 27!$omp parallel private (a, b) reduction (.or.:l) 28 l = l.or..not.allocated (a) 29 a(3, 2) = 1 30 b(3, 2) = 1 31!$omp end parallel 32 if (l.or..not.allocated (a)) STOP 5 33!$omp parallel firstprivate (a, b) reduction (.or.:l) 34 l = l.or..not.allocated (a) 35 l = l.or.size(a).ne.18.or.size(a,1).ne.6.or.size(a,2).ne.3 36 do i = 1, 6 37 l = l.or.(a(i, 1).ne.3).or.(a(i, 2).ne.3) 38 l = l.or.(a(i, 3).ne.3).or.(b(i, 1).ne.16) 39 l = l.or.(b(i, 2).ne.16).or.(b(i, 3).ne.16) 40 end do 41 a(:, :) = omp_get_thread_num () 42 b(:, :) = omp_get_thread_num () 43!$omp end parallel 44 if (any (a.ne.3).or.any (b.ne.16).or.l) STOP 6 45 k = .true. 46!$omp parallel do firstprivate (a, b, k) lastprivate (a, b) & 47!$omp & reduction (.or.:l) 48 do i = 1, 36 49 l = l.or..not.allocated (a) 50 l = l.or.size(a).ne.18.or.size(a,1).ne.6.or.size(a,2).ne.3 51 if (k) then 52 do j = 1, 6 53 l = l.or.(a(j, 1).ne.3).or.(a(j, 2).ne.3) 54 l = l.or.(a(j, 3).ne.3).or.(b(j, 1).ne.16) 55 l = l.or.(b(j, 2).ne.16).or.(b(j, 3).ne.16) 56 end do 57 k = .false. 58 end if 59 a(:, :) = i + 2 60 b(:, :) = i 61 end do 62 if (any (a.ne.38).or.any (b.ne.36).or.l) STOP 7 63 deallocate (a) 64 if (allocated (a)) STOP 8 65 allocate (a (0:1, 0:3)) 66 a(:, :) = 0 67!$omp parallel do reduction (+:a) reduction (.or.:l) & 68!$omp & num_threads(3) schedule(static) 69 do i = 0, 7 70 l = l.or..not.allocated (a) 71 l = l.or.size(a).ne.8.or.size(a,1).ne.2.or.size(a,2).ne.4 72 a(modulo (i, 2), i / 2) = a(modulo (i, 2), i / 2) + i 73 a(i / 4, modulo (i, 4)) = a(i / 4, modulo (i, 4)) + i 74 end do 75 if (l) STOP 9 76 do i = 0, 1 77 do j = 0, 3 78 if (a(i, j) .ne. (5*i + 3*j)) STOP 10 79 end do 80 end do 81end 82