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My question is, "Can a select type block be used to distinguish real :: realInput from real :: realArrayInput(:)?" It's clear how select type may be used to distinguish derived types, but becomes less clear to me how (or whether) it may be used on intrinsic types.

In Mad Libs form, can the blanks be filled in below to distinguish between the inputs above:

select type (input)
    type is (real)
        print *, "I caught the realInput"
    type is (___________)
        print *, "I caught the realArrayInput"
end select

I've found some related posts that did not quite contain the answer I was hoping for:

Select Type Issues

Determining Variable Type

share|improve this question
Perhaps you can accomplish your goal by passing the variable to an elemental procedure, or by writing a generic interface for two procedures. – M. S. B. Mar 11 '14 at 7:41
up vote 3 down vote accepted

No. input is either declared as an array or a scalar, even when it is polymorphic (and even when it is unlimited polymorphic).

The recent further interoperability with C TS (which may be part of F201X) introduced the concept of assumed rank and the RANK intrinsic, which may do what you want. But there are many limitations around what can be done with assumed rank objects. And regardless of that SELECT TYPE still only works on type. The syntax of the select type construct simply doesn't permit specification of rank in the type guard statements.

Obviously depending on what it is that you actually want to do (?) ... and beyond generic interfaces mentioned by others, a way to have objects that can be either array or scalar in current Fortran (there are other possibilities) is to use derived type wrappers that are an extension of a common parent type. You then use a polymorphic object declared as the parent type (or you can use an unlimited polymorphic object) to refer to an object of the relevant derived type.

TYPE :: parent
END TYPE parent

TYPE, EXTENDS(parent) :: scalar_wrapper
  REAL :: scalar_component
END TYPE scalar_wrapper

TYPE, EXTENDS(parent) :: array_wrapper
  REAL :: array_component(10)
END TYPE array_wrapper

SUBROUTINE what_am_i(object)
  ! Note that object is scalar, but that doesn't tell us 
  ! the rank of the components of the dynamic type of object.
  CLASS(parent), INTENT(IN) :: object
  SELECT TYPE (object)
  TYPE IS (scalar_wrapper)
    PRINT "('I am a scalar with value ',G0)",  &
  TYPE IS (array_wrapper)
    PRINT "('I am an array with values ',*(G0,:,','))",  &
    PRINT "('I am not sure what I am.')"
share|improve this answer
Thanks Ian. Could you confirm that I understand your meaning? It sounds like type is (real) is valid Fortran, but that both real :: realInput and real :: realArrayInput(:) would be considered real by the select type block, i.e., both would cause the above program (which I've just edited to make this comment clear) to print "I caught the realInput." If that's not what you mean, could you please clarify? – Mackie Messer Mar 11 '14 at 14:28
Your understanding is correct. SELECT TYPE only works on type. – IanH Mar 11 '14 at 21:22

Just to combine IanH's anwser and M.S.B's comment and explain more in detail: You can not use the select type construct to distinguish between real scalars and real arrays as they only differ in their dimension, but not in their type. When you declare your variable input, you already decide 'for ever', whether it has or it has not the dimension attribute:

class(*) :: input_scalar
class(*), dimension(10) :: input_array

Whichever value the variable takes later (or to whichever object it points to, if it is a pointer), it can not represent something with a dimensionality (rank) different from the one in its declaration.

On the other hand, you could for example use the interface construct (or generic in type bound procedures) to distinguish between objects of the same type but different ranks. The example below demonstrates that for scalar and rank one integer and real arrays.

module testmod
  implicit none
  interface typetest
    module procedure typetest0, typetest1
  end interface typetest
  subroutine typetest0(object)
    class(*), intent(in) :: object
    select type(object)
    type is (real)
      print *, "real scalar"
    type is (integer)
      print *, "integer scalar"
    end select
  end subroutine typetest0

  subroutine typetest1(object)
    class(*), dimension(:), intent(in) :: object
    select type(object)
    type is (real)
      print *, "real array"
    type is (integer)
      print *, "integer array"
    end select
  end subroutine typetest1
end module testmod

program test
  use testmod
  implicit none

  integer :: ii
  integer, dimension(10) :: iarray

  call typetest(ii)      ! invokes typetest0
  call typetest(iarray)  ! invokes typetest1

end program test
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