Instead of A
s and B
s, let's jump to a concrete example.
class Person {
public void greet() {
System.out.println("Hello there!");
}
}
class ComputerScientist extends Person { // Does he, really?
@Override
public void greet() {
System.out.println("Hello there! I work at the Informatics Department.");
}
public void validateAlgorithm(Algorithm a)
throws InvalidAlgorithmException {
// ...
}
}
When you have a ComputerScientist
as
ComputerScientist cs = new ComputerScientist();
You can access both greet
and validateAlgorithm
. You know (s)he is a Person
, and can greet
him/her as any other person. However, you may also treat him/her specifically as a ComputerScientist
.
When you assign this object to a variable of type Person
, all you do is saying "I don't care anymore that you are a ComputerScientist
. From now on, I will treat you just as any other Person
".
Person p = cs;
Which is equivalent to
Person p = (Person) cs;
The object referred by p
still knows how to validateAlgorithm
, and still tells you that (s)he works at the Informatics Department. However, when accessing it via p
, you are telling the compiler that you only want to greet
this Person
, nothing else.
It is called upcasting because the variable goes up in the hierarchy tree, where up means more general/abstract and down means more specific. You're generalizing a ComputerScientist
as a Person
.