Yes, the interface is inherited by the subclass.
It's perfectly acceptable to cast from subclass to the interface.
However, and apologies if I'm reading your question wrong, but if "and then back to its original class" means . . .
You have Interface I, class A and class B.
A implements I, and B inherits A, you possibly can, but REALLY SHOULD NOT cast from A to B.
You want to go from B to I and back to B . . . but you already have a reference to B, if B is what you pass to your function, so you don't need to cast from I to B (unless were talking about a different object, then No, don't do it)
Going from I to B is the same as going from A to B, you're trying to cast up the inheritance chain, which really is something you shouldn't do. Needing to do this is a code smell, it tells you that you should try and solve this problem in a different way (possibly by redesigning you classes (e.g. adding more properties / methods to I), or just deciding that the function will only work with the sub class - working with the subclass 'B' will give you access to all the methods of A & I).
Can you edit your question and add some sample code of what you're trying to do?
if (iobj is TSubMyObject) then
The 'If' statement in there is a bad idea, and breaks OO principals. If you need to do this then either
- The interface definition is
insufficient, you might want to add a
Type property to the interface
allowing you to (if iObj.SomeProperty
= 1) then . . .)
- The interface is simply not the
correct soluton to this problem, and
you should pass the reference as
@mghie: I agree with you, what I didn't explain very well was that SomeProperty has some data that allows the function to branch there, removing the dependancy of type checking. SomeProperty shouldn't 'simply' replace the type check (e.g. by putting the class name in a property, then checking the class name) That is indeed exactly the same problem.
There is some essential difference between Subclasses that inherit the interface. This difference should be expressed by either
- Exposing some item of data that can
then be used in the brach
if(item.Color = Red) then
item.ContrastColor := Blue;
item.ContrastColor := Red;
- Or through polymorphism e.g.
IEmployee defines a CalculatePay method, TManager and TWorker implement IEmployee, each with different logic in the CalculatePay methods.
If the intent was to do something like the first case, polymorphism could be overkill (polymorphism doesn't fix every problem).
You say "the //code here sections have little to do with the object that are passed to it . . ." I'm sorry but that statement is incorrect, if you need to Pay an Employee, you need to know their 1) EmployeeCode 2) Their Salary Details 3) Their bank details etc, if you're charging an invoice you need 1) InvoiceNumber 2) Invoice Amount 3) CustomerCode to charge to etc . . . this is an ideal place for Polymorphism.
Lets say the function taking the interface checks to see if "Accounts" needs to do something with the object (e.g. Pay the employee, charge an Invoice etc). So we might call the function AccountsCheck. Inside Accounts check you will have a peice of logic specific to each sub class (to pay an employee, to charge the invoice . . .) This is an ideal candidate for Polymorphism.
On you interface (or on another interface, or as a virtual method on the sub class) Define an "AccountsCheck" method. Then each derived class gets its own implementation of Accounts check.
The code moves out of your humungous single AccountsCheck function, and into smaller functions on each sub class. This makes the code
- More obvious in intent (each class
contains some logic for
- You're less likely to break SubClass
B's logic when fixing something in
AccountsCheck for C
- It's easier to figure out exactly
what SubClass B's AccountsCheck logic
is, you've only to check 20 lines of
code in small AccountsCheck, not 200
in the General AccountsCheck)
There are more, "good reasons" for this, aif nyone wants to edit/post comments please do so.
If you find you need to share some logic between implementations of AccountsCheck, create some utility functions, don't reimplement the same wheel in each one.
Polymorphism is the solution to your problem.