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I would like to have a derived type, a, which is empty. From this derived type I would like to define further types which extend a. Suppose all of these type extensions contain some generic procedure name, value, i.e value => valuea1, value => valuea2, etc.

If I then want to pass variables of class a to some other procedure, I need to declare the relevant dummy argument of that procedure with class(a). If I do this, however, then referencing the value of the dummy argument leads to compilation failure because the class a is actually empty - only the type extensions contain the procedure.

I could presumably get around this by having some procedure called value inside the type definition of a (then overriding in the extensions). However, given that I never want to declare any object with type a, this seems messy. It it possible to get around this?

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2 Answers 2

Yes, you can declare a type bound procedure even for an abstract type. It can be a real type bound procedure, or just an abstract interface.

type, abstract :: a
  procedure :: valuea1, valuea2
  generic value :: value => valuea1, valuea2
end type

abstract interface
  ! the headers of valuea1, valuea2 here
  ! they should have a passed dummy argument class(a)
  ! and some other argument for the generic resolution
  ! for example:

  subroutine valua1(self, x)
    class(a), intent(in) :: self
    real, intent(inout) :: x
  end subroutine

  subroutine valua2(self, x)
    class(a), intent(in) :: self
    integer, intent(inout) :: x
  end subroutine

end interface

This way you cannot create variables of type(a), but you can make extended types which implement their own versions of value.

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Thanks for your answer. I'm not sure that I'm following completely though... I don't actually need the generic resolution; valuea1 and valuea2 accept the same type of arguments for the problem that I have in mind, I just want to bind to valuea1 in one type extension and valuea2 in another type extension. Is the deferred attribute relevant here? –  Ted Burgess Mar 11 '14 at 20:28
Then you just bind value to different procedures in the extended types. But then their interfaces must be consistent. –  Vladimir F Mar 11 '14 at 22:07

Similar to the answer by @VladimirF, but taking your clarification that

I don't actually need the generic resolution; valuea1 and valuea2 accept the same type of arguments for the problem that I have in mind, I just want to bind to valuea1 in one type extension and valuea2 in another type extension.

Here, then, the base (abstract) type defines a deferred type-bound procedure value() with an interface taking class(a) as the passed argument. Other arguments can be added. Each extending type defines/overrides this type-bound procedure with its own procedure.

This means than in our final subroutine call test_sub the class(a) dummy argument does have a %value().

module types

! The base type
  type, abstract :: a
     procedure(value_if), deferred :: value
  end type a

! The interface for the type-bound procedures
  abstract interface
     subroutine value_if(var)
       import a
       class(a) var
     end subroutine value_if
  end interface

! The extending types, overriding the value subroutine

  type, extends(a) :: a1
     procedure :: value => value_a1
  end type a1

  type, extends(a) :: a2
     procedure :: value => value_a2
  end type a2


  subroutine value_a1(var)
    class(a1) var
    print*, "Value of a1"
  end subroutine value_a1

  subroutine value_a2(var)
    class(a2) var
    print*, "Value of a2"
  end subroutine value_a2

end module types

program test

  use types

  type(a1) x
  type(a2) y

  call x%value
  call y%value

  call test_sub(x)
  call test_sub(y)


  subroutine test_sub(var)
    class(a) var
    call var%value  ! This is defined
  end subroutine test_sub

end program test

This produces output

Value of a1
Value of a2
Value of a1
Value of a2

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Thanks for the answer. So if I want value_a1 and value_a2 to have different numbers of dummy arguments, do I then need to overload the abstract interface? Apologies for my ignorance... As you can tell, I'm still very much in the early stages of learning about modern fortran. –  Ted Burgess Mar 11 '14 at 21:56
What I would like to do is something along the lines of what Vladimir F suggested but where the generic resolution is performed according to the class of self as opposed to the dummy argument x. It seems like this isn't possible though. –  Ted Burgess Mar 11 '14 at 22:20
This is what happens here: if you have type(a1) self then self%value() resolves to a1_value(self). [To be honest, I hadn't noticed the part about the xs of varying types.] –  francescalus Mar 11 '14 at 22:26
So the problem is the need for consistent interfaces. It seems that I could have some procedure called value which does nothing (and will never be called because I won't declare variables of type a) then to bind value in the extensions. I just hoped that there'd be some other way of doing but because having a redundant procedure seems very inelegant! Although, perhaps when overriding value in the extensions, I will encounter problems because of the interface inconsistency anyway? –  Ted Burgess Mar 11 '14 at 22:34
Ignoring type-binding for now and say you have type(a1) x and type(a2) y. The advantage of the deferred type-bound value is that for class(a) z you can do call value(z). If instead you want to choose (dynamic) between call value(x, p) and call value(y, p, q) for generic value then that advantage has gone away as you are already having to limit your class(a). [Although, see stackoverflow.com/a/21487114/3157076.] –  francescalus Mar 11 '14 at 22:48

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