gcc/testsuite/gfortran.dg/coarray/image_index_2.f90 - gcc - Git at Google

 ! { dg-do run }
 !
 ! Scalar coarray
 !
 ! Run-time test for IMAGE_INDEX with cobounds only known at
 ! the compile time, suitable for any number of NUM_IMAGES()
 ! For compile-time cobounds, the -fcoarray=lib version still
 ! needs to run-time evalulation if image_index returns > 1
 ! as image_index is 0 if the index would exceed num_images().
 !
 ! Please set num_images() to >= 13, if possible.
 !
 ! PR fortran/18918
 !

 program test_image_index
 implicit none
 integer :: index1, index2, index3
 logical :: one

 integer, save :: d[-1:3, *]
 integer, save :: e[-1:-1, 3:*]

 one = num_images() == 1

 index1 = image_index(d, [-1, 1] )
 index2 = image_index(d, [0, 1] )

 if (one .and. (index1 /= 1 .or. index2 /= 0)) &
   STOP 1
 if (.not. one .and. (index1 /= 1 .or. index2 /= 2)) &
   STOP 2

 index1 = image_index(e, [-1, 3] )
 index2 = image_index(e, [-1, 4] )

 if (one .and. (index1 /= 1 .or. index2 /= 0)) &
   STOP 3
 if (.not. one .and. (index1 /= 1 .or. index2 /= 2)) &
   STOP 4

 call test(1, e, d, e)
 call test(2, e, d, e)

 contains
 subroutine test(n, a, b, c)
   integer :: n
   integer :: a[3*n:3*n, -4*n:-3*n, 88*n:*], b[-1*n:0*n,0*n:*], c[*]

   index1 = image_index(a, [3*n, -4*n, 88*n] )
   index2 = image_index(b, [-1, 0] )
   index3 = image_index(c, [1] )

   if (n == 1) then
     if (index1 /= 1 .or. index2 /= 1 .or. index3 /= 1) STOP 5
   else if (num_images() == 1) then
     if (index1 /= 1 .or. index2 /= 0 .or. index3 /= 1) STOP 6
   else
     if (index1 /= 1 .or. index2 /= 2 .or. index3 /= 1) STOP 7
   end if

   index1 = image_index(a, [3*n, -3*n, 88*n] )
   index2 = image_index(b, [0, 0] )
   index3 = image_index(c, [2] )

   if (one .and. (index1 /= 0 .or. index2 /= 0 .or. index3 /= 0)) &
     STOP 8
   if (n == 1 .and. num_images() == 2) then
     if (index1 /= 2 .or. index2 /= 2 .or. index3 /= 2) &
       STOP 9
   else if (n == 2 .and. num_images() == 2) then
     if (index1 /= 0 .or. index2 /= 0 .or. index3 /= 2) &
       STOP 10
   end if
 end subroutine test
 end program test_image_index
	! { dg-do run }
	!
	! Scalar coarray
	!
	! Run-time test for IMAGE_INDEX with cobounds only known at
	! the compile time, suitable for any number of NUM_IMAGES()
	! For compile-time cobounds, the -fcoarray=lib version still
	! needs to run-time evalulation if image_index returns > 1
	! as image_index is 0 if the index would exceed num_images().
	!
	! Please set num_images() to >= 13, if possible.
	!
	! PR fortran/18918
	!

	program test_image_index
	implicit none
	integer :: index1, index2, index3
	logical :: one

	integer, save :: d[-1:3, *]
	integer, save :: e[-1:-1, 3:*]

	one = num_images() == 1

	index1 = image_index(d, [-1, 1] )
	index2 = image_index(d, [0, 1] )

	if (one .and. (index1 /= 1 .or. index2 /= 0)) &
	STOP 1
	if (.not. one .and. (index1 /= 1 .or. index2 /= 2)) &
	STOP 2

	index1 = image_index(e, [-1, 3] )
	index2 = image_index(e, [-1, 4] )

	if (one .and. (index1 /= 1 .or. index2 /= 0)) &
	STOP 3
	if (.not. one .and. (index1 /= 1 .or. index2 /= 2)) &
	STOP 4

	call test(1, e, d, e)
	call test(2, e, d, e)

	contains
	subroutine test(n, a, b, c)
	integer :: n
	integer :: a[3n:3n, -4n:-3n, 88n:], b[-1n:0n,0n:], c[*]

	index1 = image_index(a, [3n, -4n, 88*n] )
	index2 = image_index(b, [-1, 0] )
	index3 = image_index(c, [1] )

	if (n == 1) then
	if (index1 /= 1 .or. index2 /= 1 .or. index3 /= 1) STOP 5
	else if (num_images() == 1) then
	if (index1 /= 1 .or. index2 /= 0 .or. index3 /= 1) STOP 6
	else
	if (index1 /= 1 .or. index2 /= 2 .or. index3 /= 1) STOP 7
	end if

	index1 = image_index(a, [3n, -3n, 88*n] )
	index2 = image_index(b, [0, 0] )
	index3 = image_index(c, [2] )

	if (one .and. (index1 /= 0 .or. index2 /= 0 .or. index3 /= 0)) &
	STOP 8
	if (n == 1 .and. num_images() == 2) then
	if (index1 /= 2 .or. index2 /= 2 .or. index3 /= 2) &
	STOP 9
	else if (n == 2 .and. num_images() == 2) then
	if (index1 /= 0 .or. index2 /= 0 .or. index3 /= 2) &
	STOP 10
	end if
	end subroutine test
	end program test_image_index