101 lines
2.6 KiB
Fortran
101 lines
2.6 KiB
Fortran
! { dg-do run }
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! { dg-options "-fcoarray=single" }
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!
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! Run-time test for IMAGE_INDEX with cobounds only known at
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! the compile time, suitable for any number of NUM_IMAGES()
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! For compile-time cobounds, the -fcoarray=lib version still
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! needs to run-time evalulation if image_index returns > 1
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! as image_index is 0 if the index would exceed num_images().
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!
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! Please set num_images() to >= 13, if possible.
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!
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! PR fortran/18918
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!
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program test_image_index
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implicit none
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integer :: index1, index2, index3
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logical :: one
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integer, allocatable :: a(:)[:,:,:], b(:)[:,:], c(:,:)[:]
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integer, save :: d(2)[-1:3, *]
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integer, save :: e(2)[-1:-1, 3:*]
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one = num_images() == 1
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allocate(a(1)[3:3, -4:-3, 88:*])
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allocate(b(2)[-1:0,0:*])
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allocate(c(3,3)[*])
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index1 = image_index(a, [3, -4, 88] )
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index2 = image_index(b, [-1, 0] )
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index3 = image_index(c, [1] )
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if (index1 /= 1 .or. index2 /= 1 .or. index3 /= 1) STOP 1
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index1 = image_index(a, [3, -3, 88] )
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index2 = image_index(b, [0, 0] )
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index3 = image_index(c, [2] )
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if (one .and. (index1 /= 0 .or. index2 /= 0 .or. index3 /= 0)) &
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STOP 2
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if (.not. one .and. (index1 /= 2 .or. index2 /= 2 .or. index3 /= 2)) &
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STOP 3
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index1 = image_index(d, [-1, 1] )
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index2 = image_index(d, [0, 1] )
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if (one .and. (index1 /= 1 .or. index2 /= 0)) &
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STOP 4
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if (.not. one .and. (index1 /= 1 .or. index2 /= 2)) &
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STOP 5
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index1 = image_index(e, [-1, 3] )
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index2 = image_index(e, [-1, 4] )
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if (one .and. (index1 /= 1 .or. index2 /= 0)) &
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STOP 6
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if (.not. one .and. (index1 /= 1 .or. index2 /= 2)) &
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STOP 7
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call test(1, a,b,c)
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! The following test is in honour of the F2008 standard:
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deallocate(a)
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allocate(a (10) [10, 0:9, 0:*])
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index1 = image_index(a, [1, 0, 0] )
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index2 = image_index(a, [3, 1, 2] ) ! = 213, yeah!
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index3 = image_index(a, [3, 1, 0] ) ! = 13
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if (num_images() < 13 .and. (index1 /= 1 .or. index2 /= 0 .or. index3 /= 0)) &
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STOP 8
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if (num_images() >= 213 .and. (index1 /= 1 .or. index2 /= 213 .or. index3 /= 13)) &
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STOP 9
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if (num_images() >= 13 .and. (index1 /= 1 .or. index2 /= 0 .or. index3 /= 13)) &
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STOP 10
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contains
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subroutine test(n, a, b, c)
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integer :: n
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integer :: a(1)[3*n:3*n, -4*n:-3*n, 88*n:*], b(2)[-1*n:0*n,0*n:*], c(3*n,3*n)[*]
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index1 = image_index(a, [3, -4, 88] )
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index2 = image_index(b, [-1, 0] )
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index3 = image_index(c, [1] )
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if (index1 /= 1 .or. index2 /= 1 .or. index3 /= 1) STOP 11
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index1 = image_index(a, [3, -3, 88] )
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index2 = image_index(b, [0, 0] )
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index3 = image_index(c, [2] )
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if (one .and. (index1 /= 0 .or. index2 /= 0 .or. index3 /= 0)) &
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STOP 12
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if (.not. one .and. (index1 /= 2 .or. index2 /= 2 .or. index3 /= 2)) &
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STOP 13
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end subroutine test
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end program test_image_index
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