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in fortran, you can pass a function/subroutine A as an argument to another function/subroutine B, but can you store A for later retrieval and use?

for example, this is allowed in C

int foo(float, char, char) { /*whatever*/};

int (*pointerToFunction)(float, char, char);
pointerToFunction = foo;

In Fortran you can pass a subroutine as an argument

subroutine foo
! whatever
end subroutine foo

subroutine bar(func)
    call func
end subroutine bar

program x

    call bar(foo)

end program

but how can you store the address of foo in a similar way to C ?

share|improve this question
Could you explain a little better what it is you want, and what are you trying to do? (expecially the latter) –  Rook Oct 7 '10 at 17:16
@Rook: store a pointer to function. In C this is trivial –  Stefano Borini Oct 8 '10 at 7:33
@Stefano - No, not that I know of. But then again, I'm not familiar with C pointers. Could you give me an example of a case why you need that? –  Rook Oct 8 '10 at 16:49
@Rook implement the strategy pattern in fortran –  Stefano Borini Oct 8 '10 at 18:11
@Stefano - Sorry, I have no idea what that means - even remotely. But I'm pretty sure it's either the wrong way to do it (using C way of thinking in fortran and vice versa is almost always the wrong way to do something), or it is something that is not normally done in fortran at all. Probably a mix of the two. –  Rook Oct 8 '10 at 21:31

1 Answer 1

up vote 4 down vote accepted

Starting from so-called "Fortran 2003" (ISO/IEC 1539-2004) procedure pointers is a part of the Fortran language. It's definitely of the major new features of Fortran language.

Usage example from Fortran Wiki.

Stefano, you mentioned strategy design pattern. In Fortran 2003 you can use pure OOP way to implement it (without procedure pointers). Offhand example:


module strategies

  implicit none


  public :: strategies_transportation_strategy, &
            strategies_by_taxi_strategy, &

  type, abstract :: strategies_transportation_strategy
    procedure(transportation_strategy_go), deferred :: go
  end type strategies_transportation_strategy

  type, extends(strategies_transportation_strategy) :: strategies_by_taxi_strategy
    procedure :: go => strategies_by_taxi_strategy_go
  end type strategies_by_taxi_strategy

  type, extends(strategies_transportation_strategy) :: strategies_by_bus_strategy
    procedure :: go => strategies_by_bus_strategy_go
  end type strategies_by_bus_strategy

  abstract interface
    subroutine transportation_strategy_go(this)
      import strategies_transportation_strategy
      class(strategies_transportation_strategy), intent(in) :: this
    end subroutine transportation_strategy_go
  end interface


    subroutine strategies_by_taxi_strategy_go(this)
      class(strategies_by_taxi_strategy), intent(in) :: this

      print *, "We are using taxi."

    end subroutine strategies_by_taxi_strategy_go

    subroutine strategies_by_bus_strategy_go(this)
      class(strategies_by_bus_strategy), intent(in) :: this

      print *, "We are using public transport."

    end subroutine strategies_by_bus_strategy_go

end module strategies


module vehicles

  use strategies

  implicit none


  public :: vehicles_vehicle, &
            vehicles_taxi, &

  type, abstract :: vehicles_vehicle
    class(strategies_transportation_strategy), allocatable :: transportation_strategy
    procedure :: set_transportation_strategy => vehicle_set_transportation_strategy
    procedure :: go => vehicle_go
  end type vehicles_vehicle

  type, extends(vehicles_vehicle) :: vehicles_taxi
    procedure :: init => taxi_init
  end type vehicles_taxi

  type, extends(vehicles_vehicle) :: vehicles_bus
    procedure :: init => bus_init
  end type vehicles_bus


    subroutine vehicle_go(this)
      class(vehicles_vehicle), intent(in) :: this

      call this%transportation_strategy%go()

    end subroutine vehicle_go

    subroutine vehicle_set_transportation_strategy(this, new_transportation_strategy)
      class(vehicles_vehicle), intent(inout) :: this
      class(strategies_transportation_strategy), intent(in) :: new_transportation_strategy

      if (allocated(this%transportation_strategy)) then
        deallocate (this%transportation_strategy)
      end if

      allocate (this%transportation_strategy, source=new_transportation_strategy)

    end subroutine vehicle_set_transportation_strategy

    subroutine taxi_init(this)
      class(vehicles_taxi), intent(out) :: this

      type(strategies_by_taxi_strategy) :: by_taxi_strategy

      call this%set_transportation_strategy(by_taxi_strategy)

    end subroutine taxi_init

    subroutine bus_init(this)
      class(vehicles_bus), intent(out) :: this

      type(strategies_by_bus_strategy) :: by_bus_strategy

      call this%set_transportation_strategy(by_bus_strategy)

    end subroutine bus_init

end module vehicles


program main

  use vehicles

  implicit none

  type(vehicles_taxi) :: taxi
  type(vehicles_bus) :: bus

  call taxi%init()
  call bus%init()

  call taxi%go()
  call bus%go()

end program main

At least works using gfortran 4.6 (20100925).

share|improve this answer
I was worried about that. Ok, I can live with it. I have the feeling that ifort supports it as well. –  Stefano Borini Oct 10 '10 at 13:11
unrelated note. Do you work at CTCC ? –  Stefano Borini Oct 10 '10 at 13:12
@Stefano: i will check ifort in the evening. And yes, I'm PhD student at University of Oslo, CTCC. However I do some mass-spectrometry and quantum chemistry calculations and nothing related to Dalton. –  Wildcat Oct 10 '10 at 13:17
ifort 11.1 20100203: vehicles.f90(48): error #5415: Feature not yet implemented: SOURCE=polymorphic_expression =( –  Wildcat Oct 10 '10 at 13:23
cool :) say hi to Trygve and Thomas :) –  Stefano Borini Oct 10 '10 at 13:26

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