Retro68/gcc/libgomp/testsuite/libgomp.fortran/target2.f90
2018-12-28 16:30:48 +01:00

97 lines
4.7 KiB
Fortran

! { dg-do run }
! { dg-options "-ffree-line-length-160" }
module target2
contains
subroutine foo (a, b, c, d, e, f, g, n, q)
integer :: n, q
integer :: a, b(3:n), c(5:), d(2:*), e(:,:)
integer, pointer :: f, g(:)
integer :: h, i(3:n)
integer, pointer :: j, k(:)
logical :: r
allocate (j, k(4:n))
h = 14
i = 15
j = 16
k = 17
!$omp target map (to: a, b, c, d(2:n+1), e, f, g, h, i, j, k, n) map (from: r)
r = a /= 7
r = r .or. (any (b /= 8)) .or. (lbound (b, 1) /= 3) .or. (ubound (b, 1) /= n)
r = r .or. (any (c /= 9)) .or. (lbound (c, 1) /= 5) .or. (ubound (c, 1) /= n + 4)
r = r .or. (any (d(2:n+1) /= 10)) .or. (lbound (d, 1) /= 2)
r = r .or. (any (e /= 11)) .or. (lbound (e, 1) /= 1) .or. (ubound (e, 1) /= 2)
r = r .or. (lbound (e, 2) /= 1) .or. (ubound (e, 2) /= 2)
r = r .or. (f /= 12)
r = r .or. (any (g /= 13)) .or. (lbound (g, 1) /= 3) .or. (ubound (g, 1) /= n)
r = r .or. (h /= 14)
r = r .or. (any (i /= 15)) .or. (lbound (i, 1) /= 3) .or. (ubound (i, 1) /= n)
r = r .or. (j /= 16)
r = r .or. (any (k /= 17)) .or. (lbound (k, 1) /= 4) .or. (ubound (k, 1) /= n)
!$omp end target
if (r) STOP 1
!$omp target map (to: b(3:n), c(5:n+4), d(2:n+1), e(1:,:2), g(3:n), i(3:n), k(4:n), n) map (from: r)
r = (any (b /= 8)) .or. (lbound (b, 1) /= 3) .or. (ubound (b, 1) /= n)
r = r .or. (any (c /= 9)) .or. (lbound (c, 1) /= 5) .or. (ubound (c, 1) /= n + 4)
r = r .or. (any (d(2:n+1) /= 10)) .or. (lbound (d, 1) /= 2)
r = r .or. (any (e /= 11)) .or. (lbound (e, 1) /= 1) .or. (ubound (e, 1) /= 2)
r = r .or. (lbound (e, 2) /= 1) .or. (ubound (e, 2) /= 2)
r = r .or. (any (g /= 13)) .or. (lbound (g, 1) /= 3) .or. (ubound (g, 1) /= n)
r = r .or. (any (i /= 15)) .or. (lbound (i, 1) /= 3) .or. (ubound (i, 1) /= n)
r = r .or. (any (k /= 17)) .or. (lbound (k, 1) /= 4) .or. (ubound (k, 1) /= n)
!$omp end target
if (r) STOP 2
!$omp target map (to: b(5:n-2), c(7:n), d(4:n-2), e(1:,2:), g(5:n-3), i(6:n-4), k(5:n-5), n) map (from: r)
r = (any (b(5:n-2) /= 8)) .or. (lbound (b, 1) /= 3) .or. (ubound (b, 1) /= n)
r = r .or. (any (c(7:n) /= 9)) .or. (lbound (c, 1) /= 5) .or. (ubound (c, 1) /= n + 4)
r = r .or. (any (d(4:n-2) /= 10)) .or. (lbound (d, 1) /= 2)
r = r .or. (any (e(1:,2:) /= 11)) .or. (lbound (e, 1) /= 1) .or. (ubound (e, 1) /= 2)
r = r .or. (lbound (e, 2) /= 1) .or. (ubound (e, 2) /= 2)
r = r .or. (any (g(5:n-3) /= 13)) .or. (lbound (g, 1) /= 3) .or. (ubound (g, 1) /= n)
r = r .or. (any (i(6:n-4) /= 15)) .or. (lbound (i, 1) /= 3) .or. (ubound (i, 1) /= n)
r = r .or. (any (k(5:n-5) /= 17)) .or. (lbound (k, 1) /= 4) .or. (ubound (k, 1) /= n)
!$omp end target
!$omp target map (to: b(q+5:n-2+q), c(q+7:q+n), d(q+4:q+n-2), e(1:q+2,2:q+2), g(5+q:n-3+q), &
!$omp & i(6+q:n-4+q), k(5+q:n-5+q), n) map (from: r)
r = (any (b(5:n-2) /= 8)) .or. (lbound (b, 1) /= 3) .or. (ubound (b, 1) /= n)
r = r .or. (any (c(7:n) /= 9)) .or. (lbound (c, 1) /= 5) .or. (ubound (c, 1) /= n + 4)
r = r .or. (any (d(4:n-2) /= 10)) .or. (lbound (d, 1) /= 2)
r = r .or. (any (e(1:,2:) /= 11)) .or. (lbound (e, 1) /= 1) .or. (ubound (e, 1) /= 2)
r = r .or. (lbound (e, 2) /= 1) .or. (ubound (e, 2) /= 2)
r = r .or. (any (g(5:n-3) /= 13)) .or. (lbound (g, 1) /= 3) .or. (ubound (g, 1) /= n)
r = r .or. (any (i(6:n-4) /= 15)) .or. (lbound (i, 1) /= 3) .or. (ubound (i, 1) /= n)
r = r .or. (any (k(5:n-5) /= 17)) .or. (lbound (k, 1) /= 4) .or. (ubound (k, 1) /= n)
!$omp end target
if (r) STOP 3
!$omp target map (to: d(2:n+1), n)
r = a /= 7
r = r .or. (any (b /= 8)) .or. (lbound (b, 1) /= 3) .or. (ubound (b, 1) /= n)
r = r .or. (any (c /= 9)) .or. (lbound (c, 1) /= 5) .or. (ubound (c, 1) /= n + 4)
r = r .or. (any (d(2:n+1) /= 10)) .or. (lbound (d, 1) /= 2)
r = r .or. (any (e /= 11)) .or. (lbound (e, 1) /= 1) .or. (ubound (e, 1) /= 2)
r = r .or. (lbound (e, 2) /= 1) .or. (ubound (e, 2) /= 2)
r = r .or. (f /= 12)
r = r .or. (any (g /= 13)) .or. (lbound (g, 1) /= 3) .or. (ubound (g, 1) /= n)
r = r .or. (h /= 14)
r = r .or. (any (i /= 15)) .or. (lbound (i, 1) /= 3) .or. (ubound (i, 1) /= n)
r = r .or. (j /= 16)
r = r .or. (any (k /= 17)) .or. (lbound (k, 1) /= 4) .or. (ubound (k, 1) /= n)
!$omp end target
if (r) STOP 4
end subroutine foo
end module target2
use target2, only : foo
integer, parameter :: n = 15, q = 0
integer :: a, b(2:n-1), c(n), d(n), e(3:4, 3:4)
integer, pointer :: f, g(:)
allocate (f, g(3:n))
a = 7
b = 8
c = 9
d = 10
e = 11
f = 12
g = 13
call foo (a, b, c, d, e, f, g, n, q)
end