view libgomp/testsuite/libgomp.fortran/vla8.f90 @ 63:b7f97abdc517 gcc-4.6-20100522

update gcc from gcc-4.5.0 to gcc-4.6
author ryoma <e075725@ie.u-ryukyu.ac.jp>
date Mon, 24 May 2010 12:47:05 +0900
parents
children f6334be47118
line wrap: on
line source

! { dg-do run }

  call test
contains
  subroutine check (x, y, l)
    integer :: x, y
    logical :: l
    l = l .or. x .ne. y
  end subroutine check

  subroutine foo (c, d, e, f, g, h, i, j, k, n)
    use omp_lib
    integer :: n
    character (len = *) :: c
    character (len = n) :: d
    integer, dimension (2, 3:5, n) :: e
    integer, dimension (2, 3:n, n) :: f
    character (len = *), dimension (5, 3:n) :: g
    character (len = n), dimension (5, 3:n) :: h
    real, dimension (:, :, :) :: i
    double precision, dimension (3:, 5:, 7:) :: j
    integer, dimension (:, :, :) :: k
    logical :: l
    integer :: p, q, r
    character (len = n) :: s
    integer, dimension (2, 3:5, n) :: t
    integer, dimension (2, 3:n, n) :: u
    character (len = n), dimension (5, 3:n) :: v
    character (len = 2 * n + 24) :: w
    integer :: x, z
    character (len = 1) :: y
    l = .false.
!$omp parallel default (none) private (c, d, e, f, g, h, i, j, k) &
!$omp & private (s, t, u, v) reduction (.or.:l) num_threads (6) &
!$omp private (p, q, r, w, x, y) shared (z)
    x = omp_get_thread_num ()
    w = ''
    if (x .eq. 0) w = 'thread0thr_number_0THREAD0THR_NUMBER_0'
    if (x .eq. 1) w = 'thread1thr_number_1THREAD1THR_NUMBER_1'
    if (x .eq. 2) w = 'thread2thr_number_2THREAD2THR_NUMBER_2'
    if (x .eq. 3) w = 'thread3thr_number_3THREAD3THR_NUMBER_3'
    if (x .eq. 4) w = 'thread4thr_number_4THREAD4THR_NUMBER_4'
    if (x .eq. 5) w = 'thread5thr_number_5THREAD5THR_NUMBER_5'
    c = w(8:19)
    d = w(1:7)
    forall (p = 1:2, q = 3:5, r = 1:7) e(p, q, r) = 5 * x + p + q + 2 * r
    forall (p = 1:2, q = 3:7, r = 1:7) f(p, q, r) = 25 * x + p + q + 2 * r
    forall (p = 1:5, q = 3:7, p + q .le. 8) g(p, q) = w(8:19)
    forall (p = 1:5, q = 3:7, p + q .gt. 8) g(p, q) = w(27:38)
    forall (p = 1:5, q = 3:7, p + q .le. 8) h(p, q) = w(1:7)
    forall (p = 1:5, q = 3:7, p + q .gt. 8) h(p, q) = w(20:26)
    forall (p = 3:5, q = 2:6, r = 1:7) i(p - 2, q - 1, r) = (7.5 + x) * p * q * r
    forall (p = 3:5, q = 2:6, r = 1:7) j(p, q + 3, r + 6) = (9.5 + x) * p * q * r
    forall (p = 1:5, q = 7:7, r = 4:6) k(p, q - 6, r - 3) = 19 + x + p + q + 3 * r
    s = w(20:26)
    forall (p = 1:2, q = 3:5, r = 1:7) t(p, q, r) = -10 + x + p - q + 2 * r
    forall (p = 1:2, q = 3:7, r = 1:7) u(p, q, r) = 30 - x - p + q - 2 * r
    forall (p = 1:5, q = 3:7, p + q .le. 8) v(p, q) = w(1:7)
    forall (p = 1:5, q = 3:7, p + q .gt. 8) v(p, q) = w(20:26)
!$omp barrier
    y = ''
    if (x .eq. 0) y = '0'
    if (x .eq. 1) y = '1'
    if (x .eq. 2) y = '2'
    if (x .eq. 3) y = '3'
    if (x .eq. 4) y = '4'
    if (x .eq. 5) y = '5'
    l = l .or. w(7:7) .ne. y
    l = l .or. w(19:19) .ne. y
    l = l .or. w(26:26) .ne. y
    l = l .or. w(38:38) .ne. y
    l = l .or. c .ne. w(8:19)
    l = l .or. d .ne. w(1:7)
    l = l .or. s .ne. w(20:26)
    do 103, p = 1, 2
      do 103, q = 3, 7
	do 103, r = 1, 7
	  if (q .lt. 6) l = l .or. e(p, q, r) .ne. 5 * x + p + q + 2 * r
	  l = l .or. f(p, q, r) .ne. 25 * x + p + q + 2 * r
	  if (r .lt. 6 .and. q + r .le. 8) l = l .or. g(r, q) .ne. w(8:19)
	  if (r .lt. 6 .and. q + r .gt. 8) l = l .or. g(r, q) .ne. w(27:38)
	  if (r .lt. 6 .and. q + r .le. 8) l = l .or. h(r, q) .ne. w(1:7)
	  if (r .lt. 6 .and. q + r .gt. 8) l = l .or. h(r, q) .ne. w(20:26)
	  if (q .lt. 6) l = l .or. t(p, q, r) .ne. -10 + x + p - q + 2 * r
	  l = l .or. u(p, q, r) .ne. 30 - x - p + q - 2 * r
	  if (r .lt. 6 .and. q + r .le. 8) l = l .or. v(r, q) .ne. w(1:7)
	  if (r .lt. 6 .and. q + r .gt. 8) l = l .or. v(r, q) .ne. w(20:26)
103 continue
    do 104, p = 3, 5
      do 104, q = 2, 6
	do 104, r = 1, 7
	  l = l .or. i(p - 2, q - 1, r) .ne. (7.5 + x) * p * q * r
	  l = l .or. j(p, q + 3, r + 6) .ne. (9.5 + x) * p * q * r
104 continue
    do 105, p = 1, 5
      do 105, q = 4, 6
	l = l .or. k(p, 1, q - 3) .ne. 19 + x + p + 7 + 3 * q
105 continue
    call check (size (e, 1), 2, l)
    call check (size (e, 2), 3, l)
    call check (size (e, 3), 7, l)
    call check (size (e), 42, l)
    call check (size (f, 1), 2, l)
    call check (size (f, 2), 5, l)
    call check (size (f, 3), 7, l)
    call check (size (f), 70, l)
    call check (size (g, 1), 5, l)
    call check (size (g, 2), 5, l)
    call check (size (g), 25, l)
    call check (size (h, 1), 5, l)
    call check (size (h, 2), 5, l)
    call check (size (h), 25, l)
    call check (size (i, 1), 3, l)
    call check (size (i, 2), 5, l)
    call check (size (i, 3), 7, l)
    call check (size (i), 105, l)
    call check (size (j, 1), 4, l)
    call check (size (j, 2), 5, l)
    call check (size (j, 3), 7, l)
    call check (size (j), 140, l)
    call check (size (k, 1), 5, l)
    call check (size (k, 2), 1, l)
    call check (size (k, 3), 3, l)
    call check (size (k), 15, l)
!$omp single
    z = omp_get_thread_num ()
!$omp end single copyprivate (c, d, e, f, g, h, i, j, k, s, t, u, v)
    w = ''
    x = z
    if (x .eq. 0) w = 'thread0thr_number_0THREAD0THR_NUMBER_0'
    if (x .eq. 1) w = 'thread1thr_number_1THREAD1THR_NUMBER_1'
    if (x .eq. 2) w = 'thread2thr_number_2THREAD2THR_NUMBER_2'
    if (x .eq. 3) w = 'thread3thr_number_3THREAD3THR_NUMBER_3'
    if (x .eq. 4) w = 'thread4thr_number_4THREAD4THR_NUMBER_4'
    if (x .eq. 5) w = 'thread5thr_number_5THREAD5THR_NUMBER_5'
    y = ''
    if (x .eq. 0) y = '0'
    if (x .eq. 1) y = '1'
    if (x .eq. 2) y = '2'
    if (x .eq. 3) y = '3'
    if (x .eq. 4) y = '4'
    if (x .eq. 5) y = '5'
    l = l .or. w(7:7) .ne. y
    l = l .or. w(19:19) .ne. y
    l = l .or. w(26:26) .ne. y
    l = l .or. w(38:38) .ne. y
    l = l .or. c .ne. w(8:19)
    l = l .or. d .ne. w(1:7)
    l = l .or. s .ne. w(20:26)
    do 113, p = 1, 2
      do 113, q = 3, 7
	do 113, r = 1, 7
	  if (q .lt. 6) l = l .or. e(p, q, r) .ne. 5 * x + p + q + 2 * r
	  l = l .or. f(p, q, r) .ne. 25 * x + p + q + 2 * r
	  if (r .lt. 6 .and. q + r .le. 8) l = l .or. g(r, q) .ne. w(8:19)
	  if (r .lt. 6 .and. q + r .gt. 8) l = l .or. g(r, q) .ne. w(27:38)
	  if (r .lt. 6 .and. q + r .le. 8) l = l .or. h(r, q) .ne. w(1:7)
	  if (r .lt. 6 .and. q + r .gt. 8) l = l .or. h(r, q) .ne. w(20:26)
	  if (q .lt. 6) l = l .or. t(p, q, r) .ne. -10 + x + p - q + 2 * r
	  l = l .or. u(p, q, r) .ne. 30 - x - p + q - 2 * r
	  if (r .lt. 6 .and. q + r .le. 8) l = l .or. v(r, q) .ne. w(1:7)
	  if (r .lt. 6 .and. q + r .gt. 8) l = l .or. v(r, q) .ne. w(20:26)
113 continue
    do 114, p = 3, 5
      do 114, q = 2, 6
	do 114, r = 1, 7
	  l = l .or. i(p - 2, q - 1, r) .ne. (7.5 + x) * p * q * r
	  l = l .or. j(p, q + 3, r + 6) .ne. (9.5 + x) * p * q * r
114 continue
    do 115, p = 1, 5
      do 115, q = 4, 6
	l = l .or. k(p, 1, q - 3) .ne. 19 + x + p + 7 + 3 * q
115 continue
    x = omp_get_thread_num ()
    w = ''
    if (x .eq. 0) w = 'thread0thr_number_0THREAD0THR_NUMBER_0'
    if (x .eq. 1) w = 'thread1thr_number_1THREAD1THR_NUMBER_1'
    if (x .eq. 2) w = 'thread2thr_number_2THREAD2THR_NUMBER_2'
    if (x .eq. 3) w = 'thread3thr_number_3THREAD3THR_NUMBER_3'
    if (x .eq. 4) w = 'thread4thr_number_4THREAD4THR_NUMBER_4'
    if (x .eq. 5) w = 'thread5thr_number_5THREAD5THR_NUMBER_5'
    c = w(8:19)
    d = w(1:7)
    forall (p = 1:2, q = 3:5, r = 1:7) e(p, q, r) = 5 * x + p + q + 2 * r
    forall (p = 1:2, q = 3:7, r = 1:7) f(p, q, r) = 25 * x + p + q + 2 * r
    forall (p = 1:5, q = 3:7, p + q .le. 8) g(p, q) = w(8:19)
    forall (p = 1:5, q = 3:7, p + q .gt. 8) g(p, q) = w(27:38)
    forall (p = 1:5, q = 3:7, p + q .le. 8) h(p, q) = w(1:7)
    forall (p = 1:5, q = 3:7, p + q .gt. 8) h(p, q) = w(20:26)
    forall (p = 3:5, q = 2:6, r = 1:7) i(p - 2, q - 1, r) = (7.5 + x) * p * q * r
    forall (p = 3:5, q = 2:6, r = 1:7) j(p, q + 3, r + 6) = (9.5 + x) * p * q * r
    forall (p = 1:5, q = 7:7, r = 4:6) k(p, q - 6, r - 3) = 19 + x + p + q + 3 * r
    s = w(20:26)
    forall (p = 1:2, q = 3:5, r = 1:7) t(p, q, r) = -10 + x + p - q + 2 * r
    forall (p = 1:2, q = 3:7, r = 1:7) u(p, q, r) = 30 - x - p + q - 2 * r
    forall (p = 1:5, q = 3:7, p + q .le. 8) v(p, q) = w(1:7)
    forall (p = 1:5, q = 3:7, p + q .gt. 8) v(p, q) = w(20:26)
!$omp barrier
    y = ''
    if (x .eq. 0) y = '0'
    if (x .eq. 1) y = '1'
    if (x .eq. 2) y = '2'
    if (x .eq. 3) y = '3'
    if (x .eq. 4) y = '4'
    if (x .eq. 5) y = '5'
    l = l .or. w(7:7) .ne. y
    l = l .or. w(19:19) .ne. y
    l = l .or. w(26:26) .ne. y
    l = l .or. w(38:38) .ne. y
    l = l .or. c .ne. w(8:19)
    l = l .or. d .ne. w(1:7)
    l = l .or. s .ne. w(20:26)
    do 123, p = 1, 2
      do 123, q = 3, 7
	do 123, r = 1, 7
	  if (q .lt. 6) l = l .or. e(p, q, r) .ne. 5 * x + p + q + 2 * r
	  l = l .or. f(p, q, r) .ne. 25 * x + p + q + 2 * r
	  if (r .lt. 6 .and. q + r .le. 8) l = l .or. g(r, q) .ne. w(8:19)
	  if (r .lt. 6 .and. q + r .gt. 8) l = l .or. g(r, q) .ne. w(27:38)
	  if (r .lt. 6 .and. q + r .le. 8) l = l .or. h(r, q) .ne. w(1:7)
	  if (r .lt. 6 .and. q + r .gt. 8) l = l .or. h(r, q) .ne. w(20:26)
	  if (q .lt. 6) l = l .or. t(p, q, r) .ne. -10 + x + p - q + 2 * r
	  l = l .or. u(p, q, r) .ne. 30 - x - p + q - 2 * r
	  if (r .lt. 6 .and. q + r .le. 8) l = l .or. v(r, q) .ne. w(1:7)
	  if (r .lt. 6 .and. q + r .gt. 8) l = l .or. v(r, q) .ne. w(20:26)
123 continue
    do 124, p = 3, 5
      do 124, q = 2, 6
	do 124, r = 1, 7
	  l = l .or. i(p - 2, q - 1, r) .ne. (7.5 + x) * p * q * r
	  l = l .or. j(p, q + 3, r + 6) .ne. (9.5 + x) * p * q * r
124 continue
    do 125, p = 1, 5
      do 125, q = 4, 6
	l = l .or. k(p, 1, q - 3) .ne. 19 + x + p + 7 + 3 * q
125 continue
!$omp end parallel
    if (l) call abort
  end subroutine foo

  subroutine test
    character (len = 12) :: c
    character (len = 7) :: d
    integer, dimension (2, 3:5, 7) :: e
    integer, dimension (2, 3:7, 7) :: f
    character (len = 12), dimension (5, 3:7) :: g
    character (len = 7), dimension (5, 3:7) :: h
    real, dimension (3:5, 2:6, 1:7) :: i
    double precision, dimension (3:6, 2:6, 1:7) :: j
    integer, dimension (1:5, 7:7, 4:6) :: k
    integer :: p, q, r
    call foo (c, d, e, f, g, h, i, j, k, 7)
  end subroutine test
end