Consider the following code
module classes Type AData end Type Type A contains procedure :: Work end type Type, extends(AData) :: BData end Type Type, extends(A) :: B contains procedure :: Work => Work2 end type contains subroutine Work(this, D) class(A) :: this class(*) :: D end subroutine subroutine Work2(this, D) class(B) :: this class(BData) :: D end subroutine end module classes
Is this valid? It is accepted by ifort and rejected by gfortran (because of the non-identical classes in the second argument of Work2).
If it is not valid, it seems clearly useful in some instances: with more arguments of different types, descendant procedures would have to have multiple nested "select type" statements to convert the arguments to the expected type. This would be horribly verbose and presumably also less efficient if it is known at compile time what types the arguments will have in the descendant classes (at the expense of losing some compile-time consistency checks). Is there a compiler option to make gfortran accept this construct, or should it be a gcc bug report/feature request?
--Edit--: To be explicit, Gfortran 4.9 trunk gives Error: Argument mismatch for the overriding procedure 'work' at (1): Type mismatch in argument 'd' (CLASS(bdata)/CLASS(*))
ifort (but not gfortran) also allows constructs such as
subroutine Work2(this, D) class(B) :: this class(*), target :: D class(BData), pointer :: B B=>D end subroutine
and thus appears to treat class(star) variables as having a "trust me, I know what type it is" tag from the developer. To me this seems very reasonable (if used sparingly), and avoids overheads in select type operations and sometimes very longwinded multiple nested select type statements. The only other valid way to do blind type casting I know is to push things though an external subroutine where there is no type checking on arguments at all (the horrible way for getting round passing aribitrary type arguments in f90).
The desire to override class(star) procedures with other types also arises in basic contexts like minimization libraries where you want to pass in a function and an arbitrary object. Here the developer and specific function implementation always know what type the object is even if the minimizer does not, and so you don't want to have to do a "select type" in your implementation of the function with a class(*) argument.