I take an example from "Fortran 95/2003 explained" by Metcalf et al, since m own code aims for the same thing.
type, abstract :: my_numeric_type contains private procedure(op2), deferred :: add generic, public :: operator(+) => add end type abstract interface function op2(a,b) result (r) import :: my_numeric_type class(my_numeric type), intent(in) :: a,b class(my_numeric type), allocatable :: r end function op2 end interface type, extends(my_numeric_type) :: my_integer integer, private :: value contains procedure :: add => add_my_integer end type
Now, my question is how do I properly implement the
add_my_integer function. It seems like I am forced to cast the first argument as
my_integer since it is a type bound procedure, but the second one has to be
my_numeric_type to be compliant with the abstract interface. As for the result, should I allocate
my_integer? here is what I came up with so far, it does compile, but it seems weird to check for type all the time, and it causes a segmentation fault (perhaps due to some other problem with my code though).
function add_my_integer(a,b) result(r) class(my_integer), intent(in) :: a class(my_numeric_type), intent(in) :: b class(my_numeric_type), allocatable :: r allocate(my_integer :: r) select type (b) type is (my_integer) r = a+b end select end function