! { dg-do run } use omp_lib call test_master call test_critical call test_barrier call test_atomic contains subroutine test_master logical :: i, j i = .false. j = .false. !$omp parallel num_threads (4) !$omp master i = .true. j = omp_get_thread_num () .eq. 0 !$omp endmaster !$omp end parallel if (.not. (i .or. j)) stop 1 end subroutine test_master subroutine test_critical_1 (i, j) integer :: i, j !$omp critical(critical_foo) i = i + 1 !$omp end critical (critical_foo) !$omp critical j = j + 1 !$omp end critical end subroutine test_critical_1 subroutine test_critical integer :: i, j, n n = -1 i = 0 j = 0 !$omp parallel num_threads (4) if (omp_get_thread_num () .eq. 0) n = omp_get_num_threads () call test_critical_1 (i, j) call test_critical_1 (i, j) !$omp critical j = j + 1 !$omp end critical !$omp critical (critical_foo) i = i + 1 !$omp endcritical (critical_foo) !$omp end parallel if (n .lt. 1 .or. i .ne. n * 3 .or. j .ne. n * 3) stop 2 end subroutine test_critical subroutine test_barrier integer :: i logical :: j i = 23 j = .false. !$omp parallel num_threads (4) if (omp_get_thread_num () .eq. 0) i = 5 !$omp flush (i) !$omp barrier if (i .ne. 5) then !$omp atomic j = j .or. .true. end if !$omp end parallel if (i .ne. 5 .or. j) stop 3 end subroutine test_barrier subroutine test_atomic integer :: a, b, c, d, e, f, g a = 0 b = 1 c = 0 d = 1024 e = 1024 f = -1 g = -1 !$omp parallel num_threads (8) !$omp atomic a = a + 2 + 4 !$omp atomic b = 3 * b !$omp atomic c = 8 - c !$omp atomic d = d / 2 !$omp atomic e = min (e, omp_get_thread_num ()) !$omp atomic f = max (omp_get_thread_num (), f) if (omp_get_thread_num () .eq. 0) g = omp_get_num_threads () !$omp end parallel if (g .le. 0 .or. g .gt. 8) stop 4 if (a .ne. 6 * g .or. b .ne. 3 ** g) stop 5 if (iand (g, 1) .eq. 1) then if (c .ne. 8) stop 6 else if (c .ne. 0) then stop 7 end if if (d .ne. 1024 / (2 ** g)) stop 8 if (e .ne. 0 .or. f .ne. g - 1) stop 9 end subroutine test_atomic end