! { dg-do run } !$ use omp_lib integer :: i, ia (6), n, cnt real :: r, ra (4) double precision :: d, da (5) complex :: c, ca (3) logical :: v i = 1 ia = 2 r = 3 ra = 4 d = 5.5 da = 6.5 c = cmplx (7.5, 1.5) ca = cmplx (8.5, -3.0) v = .false. cnt = -1 !$omp parallel num_threads (3) private (n) reduction (.or.:v) & !$omp & reduction (+:i, ia, r, ra, d, da, c, ca) !$ if (i .ne. 0 .or. any (ia .ne. 0)) v = .true. !$ if (r .ne. 0 .or. any (ra .ne. 0)) v = .true. !$ if (d .ne. 0 .or. any (da .ne. 0)) v = .true. !$ if (c .ne. cmplx (0) .or. any (ca .ne. cmplx (0))) v = .true. n = omp_get_thread_num () if (n .eq. 0) then cnt = omp_get_num_threads () i = 4 ia(3:5) = -2 r = 5 ra(1:2) = 6.5 d = -2.5 da(2:4) = 8.5 c = cmplx (2.5, -3.5) ca(1) = cmplx (4.5, 5) else if (n .eq. 1) then i = 2 ia(4:6) = 5 r = 1 ra(2:4) = -1.5 d = 8.5 da(1:3) = 2.5 c = cmplx (0.5, -3) ca(2:3) = cmplx (-1, 6) else i = 1 ia = 1 r = -1 ra = -1 d = 1 da = -1 c = 1 ca = cmplx (-1, 0) end if !$omp end parallel if (v) call abort if (cnt .eq. 3) then if (i .ne. 8 .or. any (ia .ne. (/3, 3, 1, 6, 6, 8/))) call abort if (r .ne. 8 .or. any (ra .ne. (/9.5, 8.0, 1.5, 1.5/))) call abort if (d .ne. 12.5 .or. any (da .ne. (/8.0, 16.5, 16.5, 14.0, 5.5/))) call abort if (c .ne. cmplx (11.5, -5)) call abort if (ca(1) .ne. cmplx (12, 2)) call abort if (ca(2) .ne. cmplx (6.5, 3) .or. ca(2) .ne. ca(3)) call abort end if i = 1 ia = 2 r = 3 ra = 4 d = 5.5 da = 6.5 c = cmplx (7.5, 1.5) ca = cmplx (8.5, -3.0) v = .false. cnt = -1 !$omp parallel num_threads (3) private (n) reduction (.or.:v) & !$omp & reduction (-:i, ia, r, ra, d, da, c, ca) !$ if (i .ne. 0 .or. any (ia .ne. 0)) v = .true. !$ if (r .ne. 0 .or. any (ra .ne. 0)) v = .true. !$ if (d .ne. 0 .or. any (da .ne. 0)) v = .true. !$ if (c .ne. cmplx (0) .or. any (ca .ne. cmplx (0))) v = .true. n = omp_get_thread_num () if (n .eq. 0) then cnt = omp_get_num_threads () i = 4 ia(3:5) = -2 r = 5 ra(1:2) = 6.5 d = -2.5 da(2:4) = 8.5 c = cmplx (2.5, -3.5) ca(1) = cmplx (4.5, 5) else if (n .eq. 1) then i = 2 ia(4:6) = 5 r = 1 ra(2:4) = -1.5 d = 8.5 da(1:3) = 2.5 c = cmplx (0.5, -3) ca(2:3) = cmplx (-1, 6) else i = 1 ia = 1 r = -1 ra = -1 d = 1 da = -1 c = 1 ca = cmplx (-1, 0) end if !$omp end parallel if (v) call abort if (cnt .eq. 3) then if (i .ne. 8 .or. any (ia .ne. (/3, 3, 1, 6, 6, 8/))) call abort if (r .ne. 8 .or. any (ra .ne. (/9.5, 8.0, 1.5, 1.5/))) call abort if (d .ne. 12.5 .or. any (da .ne. (/8.0, 16.5, 16.5, 14.0, 5.5/))) call abort if (c .ne. cmplx (11.5, -5)) call abort if (ca(1) .ne. cmplx (12, 2)) call abort if (ca(2) .ne. cmplx (6.5, 3) .or. ca(2) .ne. ca(3)) call abort end if i = 1 ia = 2 r = 4 ra = 8 d = 16 da = 32 c = 2 ca = cmplx (0, 2) v = .false. cnt = -1 !$omp parallel num_threads (3) private (n) reduction (.or.:v) & !$omp & reduction (*:i, ia, r, ra, d, da, c, ca) !$ if (i .ne. 1 .or. any (ia .ne. 1)) v = .true. !$ if (r .ne. 1 .or. any (ra .ne. 1)) v = .true. !$ if (d .ne. 1 .or. any (da .ne. 1)) v = .true. !$ if (c .ne. cmplx (1) .or. any (ca .ne. cmplx (1))) v = .true. n = omp_get_thread_num () if (n .eq. 0) then cnt = omp_get_num_threads () i = 3 ia(3:5) = 2 r = 0.5 ra(1:2) = 2 d = -1 da(2:4) = -2 c = 2.5 ca(1) = cmplx (-5, 0) else if (n .eq. 1) then i = 2 ia(4:6) = -2 r = 8 ra(2:4) = -0.5 da(1:3) = -1 c = -3 ca(2:3) = cmplx (0, -1) else ia = 2 r = 0.5 ra = 0.25 d = 2.5 da = -1 c = cmplx (0, -1) ca = cmplx (-1, 0) end if !$omp end parallel if (v) call abort if (cnt .eq. 3) then if (i .ne. 6 .or. any (ia .ne. (/4, 4, 8, -16, -16, -8/))) call abort if (r .ne. 8 .or. any (ra .ne. (/4., -2., -1., -1./))) call abort if (d .ne. -40 .or. any (da .ne. (/32., -64., -64., 64., -32./))) call abort if (c .ne. cmplx (0, 15)) call abort if (ca(1) .ne. cmplx (0, 10)) call abort if (ca(2) .ne. cmplx (-2, 0) .or. ca(2) .ne. ca(3)) call abort end if end