A is not
final, you can make
B extends A, and have
A's. Then wherever previously you were invoking methods on an
instanceof A, you now provide an
instanceof B, and let dynamic dispatch handle the rest.
This is called polymorphism. It only works with non-
static methods having the same exact signature. You can not
Depending on why you were doing this, you should know learn the concept of interfaces and how they're used in object-oriented programming to allow precisely this kinds of flexibility and convenience.
interface List<E>, for example, and an implementation
ArrayList<E>. If you wrote an entire library that works with an
ArrayList<E>, doing all the usual
add/addAll/remove etc, and now you must use a
LinkedList<E> instead, then you'd have little choice but to go to the source code and change all the
LinkedList<E>, and hope that the change doesn't break another code which still assumed that
ArrayList<E> was used.
If instead your library works with a
List<E>, then switching to a
LinkedList<E> need to be done only wherever the objects are created. All the other code that was doing the
add/addAll/remove would've still worked just fine, since those are methods that are defined in the
interface List<E> which all implementors will have.
It's not clear from the current context, but if
B are so similar, then perhaps they belong to some type
X. If so, you should consider defining
interface X, and have
A implements X, and
B implements X.