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I am looking for a way to address a body of character information with two concurrent arrays in the same program unit.

For example, I want

CHARACTER(1) Array1(40960)

and

CHARACTER(4096) Array2(10)

pointing to the same body of information.

Note I have been careful in this example that the product of the dimensions and rank of the arrays are the same.

I want the solution to be allocatable, so I don't think EQUIVALENCE or COMMON would work.

Any ideas?

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2 Answers

Something like this:

use, intrinsic :: iso_c_binding
...
character, dimension(40960), target :: array1
character(4096), dimension(:), pointer :: array2
...
call c_f_pointer (c_loc(array1), array2, [10])

Now, array2 points to the same storage as array1. You can make array1 allocatable if you want - in the call to c_f_pointer, the last argument is an array constructor with the dimension information for the newly assigned pointer. Don't forget the TARGET attribute on array1.

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If, for some delightfully obscure and unlikely reason, your compiler's default character kind is not the same as its C character kind, then you can also use sequence association to accomplish the same outcome as via C pointer games. For example:

PROGRAM len_remapping
  IMPLICIT NONE
  CHARACTER, ALLOCATABLE, TARGET :: array1(:)
  CHARACTER(10), POINTER :: array2(:)
  INTEGER :: i

  ALLOCATE(array1(40))
  array1 = [(ACHAR(i+'A'-1), i = 1, 40)]

  CALL associate_the_pointer(  &
      array1, SIZE(array1) * LEN(array1),  &
      array2, LEN(array2) )

  PRINT "(*(A,:,1X))", array1
  PRINT "(*(A,:,1X))", array2
  PRINT *, LEN(array2), SIZE(array2)
CONTAINS
  SUBROUTINE associate_the_pointer(targ, elements, ptr, ptr_length)
    INTEGER, INTENT(IN) :: elements, ptr_length
    CHARACTER(ptr_length), INTENT(IN), TARGET :: targ(elements / ptr_length)
    CHARACTER(ptr_length), INTENT(OUT), POINTER :: ptr(:)
    ptr => targ
  END SUBROUTINE associate_the_pointer
END PROGRAM len_remapping

This approach has the benefit of requiring you to read some parts of the Fortran standard fifteen times over to make sure that it is conforming, and not much else.

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