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I've gone through most of the papers in the net, but I'm still not able to understand, why we have to use upcasting.

class Animal 
    public void callme()
        System.out.println("In callme of Animal");

class Dog extends Animal 
    public void callme()
        System.out.println("In callme of Dog");

    public void callme2()
        System.out.println("In callme2 of Dog");

public class UseAnimlas 
    public static void main (String [] args) 
        Dog d = new Dog();      
        Animal a = (Animal)d;
        ((Dog) a).callme2();

You can consider this example for upcasting. What's the use of upcasting here? Both d and a giving the same output!

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what you been upcasting? –  Ant's Mar 19 '11 at 12:25

7 Answers 7

up vote 14 down vote accepted

In most situations, the upcast is entirely unnecessary and has no effect. However, there are situations where the presence of the upcast changes the meaning of the statement / expression.

One situation where it is necessary to use upcasting in Java is when you want to force a specific method override to be used; e.g. suppose that we have overloaded methods:

public void doIt(Object o)...
public void doIt(String s)...

If I have a String and I want to call the first overload rather than the second, I have to do this:

String arg = ...

doIt((Object) arg);

A related case is:

doIt((Object) null);

where the code won't compile without the type cast. (I'm not sure if this counts as an upcast, but here it is anyway.)

A second situation involves varadic parameters:

public void doIt(Object... args)...

Object[] foo = ...

doIt(foo);  // passes foo as the argument array
doIt((Object) foo); // passes new Object[]{foo} as the argument array.

A third situation is when performing operations on primitive numeric types; e.g.

int i1 = ...
int i2 = ...
long res = i1 + i2;           // 32 bit signed arithmetic ... might overflow
long res2 = ((long) i1) + i2; // 64 bit signed arithmetic ... won't overflow
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When i post this question i have thought only on object reference casting but i never think about the example you provided.. It sounds good!! Great!! –  Mayilarun Mar 19 '11 at 12:43

What's the need to use Upcasting in java?

Not sure if you got the terminology right, but here is a quote to clarify:

Doing a cast from a derived class to a more general base class.

And here's one scenario where it actually matters:

class A {

class B extends A {

public class Test {

    static void method(A a) {
        System.out.println("Method A");

    static void method(B b) {
        System.out.println("Method B");

    public static void main(String[] args) {
        B b = new B();
        method(b);                      // "Method B"

        // upcasting a B into an A:
        method((A) b);                  // "Method A"
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more general would be Doing a cast from a subtype to a supertype. –  Paŭlo Ebermann Mar 19 '11 at 13:16

Upcasting can be necessary when you have overloaded methods and do not want to call the specialized one, like aioobe wrote. (You could have assigned to a new variable of type A instead there.)

Another example where an upcast was necessary involved the ?: operator, but I don't remember it now. And sometimes you need upcasts in the case of varargs-methods:

public void doSomething(Object...  bla) {}

If we want to pass an Object[] array as a single parameter (not its objects as individual ones), we must write either



doSomething(new Object[]{array});
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Upcasting has absolutely no meaning in your example (in fact I can't imagine any case where it has any) and should be avoided as it only confuses developers. Some IDEs (IntelliJ for sure) will issue a warning in this line and suggest removing upcasting).

EDIT: This code gives the same results because all object methods in Java are virtual, which means the target method is discovered by the actual type of the object at runtime rather than by reference type. Try making callme() static and see what happens.

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yes .. You are right, upcasting was no needed for my example. But still i'm in confuse where i have to use and what kind of scenarios?? –  Mayilarun Mar 19 '11 at 12:21
Well, as I said, I never had to use upcasting, polymorphism deals with this. Maybe sometimes for readability, but i doubt in that. See my edit about static methods thou. –  Tomasz Nurkiewicz Mar 19 '11 at 12:24
if changed the callme() method to static ... a.callme() resulting the base class.. –  Mayilarun Mar 19 '11 at 12:27
Yep, because static methods are resolved at compile time whereas normal (virtual) methods at runtime. The compiler is not able to determine real object type so it uses reference type. –  Tomasz Nurkiewicz Mar 19 '11 at 12:29
thanks.. nice explanation!! –  Mayilarun Mar 19 '11 at 12:31

Given that Java's objects methods are virtual by default, I do not see any use for upcasting at all.

Where have you seen tutorials reporting that upcasting was necessary? That is the first time I hear of it for Java. (Note that it has a meaning in C# or C++ - but it is usually a mark of bad design.)

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sorry i never mentioned upcasting was necessary!! But i have to understand why we have to use this concept?? What's the use of Upcasting concept!! –  Mayilarun Mar 19 '11 at 12:23
@Mayilarun - "sorry i never mentioned upcasting was necessary!!". Actually, you DID say that it was necessary, when you said "why we have to use upcasting" in the question. –  Stephen C Mar 19 '11 at 12:28

Some answers:

  • Upcasting happens implicitly any time you pass a specific object to a method accepting a more generic object. In your example, when you pass a Dog to a method accepting an Animal, upcasting happens although you don't do it explicitly with parentheses.
  • As mentioned by others here, in method overloading scenarios where you have general and specific methods. In your example, imagine a method accepting a Dog, and another with the same name accepting an Animal. If for some reason you need to call the general version, you need to explicitly upcast your object.
  • Explicit upcasting can be used as a form of documentation; if at some point in your code you no longer need refer to a Dog as a Dog but continue treating it as an Animal, it may be a good idea to upcast to let other developers understand what's going on.
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In this example, we are creating two classes Bike and Splendar. Splendar class extends Bike class and overrides its run() method. We are calling the run method by the reference variable of Parent class. Since it refers to the subclass object and subclass method overrides the Parent class method, subclass method is invoked at runtime.

Since method invocation is determined by the JVM not compiler, it is known as runtime polymorphism.

class Bike{  
  void run(){System.out.println("running");}  
class Splender extends Bike{  
  void run(){System.out.println("running safely with 60km");}  

  public static void main(String args[]){  
    Bike b = new Splender();//upcasting  
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