What is the difference between up-casting and down-casting with respect to class variable?
For example in the following program class Animal contains only one method
Upcasting is casting to a supertype, while downcasting is casting to a subtype. Upcasting is always allowed, but downcasting involves a type check and can throw a ClassCastException
.
In your case, a cast from a Dog
to an Animal
is an upcast, because a Dog
is-a Animal
. In general, you can upcast whenever there is an is-a relationship between two classes.
Downcasting would be something like this:
Animal animal = new Dog();
Dog castedDog = (Dog) animal;
Basically what you're doing is telling the compiler that you know what the runtime type of the object really is. The compiler will allow the conversion, but will still insert a runtime sanity check to make sure that the conversion makes sense. In this case, the cast is possible because at runtime animal
is actually a Dog
even though the static type of animal
is Animal
.
However, if you were to do this:
Animal animal = new Animal();
Dog notADog = (Dog) animal;
You'd get a ClassCastException
. The reason why is because animal
's runtime type is Animal
, and so when you tell the runtime to perform the cast it sees that animal
isn't really a Dog
and so throws a ClassCastException
.
To call a superclass's method you can do super.method()
or by performing the upcast.
To call a subclass's method you have to do a downcast. As shown above, you normally risk a ClassCastException
by doing this; however, you can use the instanceof
operator to check the runtime type of the object before performing the cast, which allows you to prevent ClassCastException
s:
Animal animal = getAnimal(); // Maybe a Dog? Maybe a Cat? Maybe an Animal?
if (animal instanceof Dog) {
// Guaranteed to succeed, barring classloader shenanigans
Dog castedDog = (Dog) animal;
}
Upcasting and downcasting are important part of Java, which allow us to build complicated programs using simple syntax, and gives us great advantages, like Polymorphism or grouping different objects. Java permits an object of a subclass type to be treated as an object of any superclass type. This is called upcasting. Upcasting is done automatically, while downcasting must be manually done by the programmer, and i'm going to give my best to explain why is that so.
Upcasting and downcasting are NOT like casting primitives from one to other, and i believe that's what causes a lot of confusion, when programmer starts to learn casting objects.
Polymorphism: All methods in java are virtual by default. That means that any method can be overridden when used in inheritance, unless that method is declared as final or static.
You can see the example below how getType();
works according to the object(Dog,Pet,Police Dog) type.
Assume you have three dogs
Dog - This is the super Class.
Pet Dog - Pet Dog extends Dog.
Police Dog - Police Dog extends Pet Dog.
public class Dog{
public String getType () {
System.out.println("NormalDog");
return "NormalDog";
}
}
/**
* Pet Dog has an extra method dogName()
*/
public class PetDog extends Dog{
public String getType () {
System.out.println("PetDog");
return "PetDog";
}
public String dogName () {
System.out.println("I don't have Name !!");
return "NO Name";
}
}
/**
* Police Dog has an extra method secretId()
*/
public class PoliceDog extends PetDog{
public String secretId() {
System.out.println("ID");
return "ID";
}
public String getType () {
System.out.println("I am a Police Dog");
return "Police Dog";
}
}
Polymorphism : All methods in java are virtual by default. That means that any method can be overridden when used in inheritance, unless that method is declared as final or static.(Explanation Belongs to Virtual Tables Concept)
Virtual Table / Dispatch Table : An object's dispatch table will contain the addresses of the object's dynamically bound methods. Method calls are performed by fetching the method's address from the object's dispatch table. The dispatch table is the same for all objects belonging to the same class, and is therefore typically shared between them.
public static void main (String[] args) {
/**
* Creating the different objects with super class Reference
*/
Dog obj1 = new Dog();
` /**
* Object of Pet Dog is created with Dog Reference since
* Upcasting is done automatically for us we don't have to worry about it
*
*/
Dog obj2 = new PetDog();
` /**
* Object of Police Dog is created with Dog Reference since
* Upcasting is done automatically for us we don't have to worry
* about it here even though we are extending PoliceDog with PetDog
* since PetDog is extending Dog Java automatically upcast for us
*/
Dog obj3 = new PoliceDog();
}
obj1.getType();
Prints Normal Dog
obj2.getType();
Prints Pet Dog
obj3.getType();
Prints Police Dog
Downcasting need to be done by the programmer manually
When you try to invoke the secretID();
method on obj3
which is PoliceDog object
but referenced to Dog
which is a super class in the hierarchy it throws error since obj3
don't have access to secretId()
method.In order to invoke that method you need to Downcast that obj3 manually to PoliceDog
( (PoliceDog)obj3).secretID();
which prints ID
In the similar way to invoke the dogName();
method in PetDog
class you need to downcast obj2
to PetDog
since obj2 is referenced to Dog
and don't have access to dogName();
method
( (PetDog)obj2).dogName();
Why is that so, that upcasting is automatical, but downcasting must be manual? Well, you see, upcasting can never fail.
But if you have a group of different Dogs and want to downcast them all to a to their types, then there's a chance, that some of these Dogs are actually of different types i.e., PetDog
, PoliceDog
, and process fails, by throwing ClassCastException
.
This is the reason you need to downcast your objects manually if you have referenced your objects to the super class type.
Note: Here by referencing means you are not changing the memory address of your ojects when you downcast it it still remains same you are just grouping them to particular type in this case
Dog
Better try this method for upcasting, it's easy to understand:
/* upcasting problem */
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)
{
Animal animal = new Animal ();
Dog dog = new Dog();
Animal ref;
ref = animal;
ref.callme();
ref = dog;
ref.callme();
}
}
1.- Upcasting.
Doing an upcasting, you define a tag of some type, that points to an object of a subtype (Type and subtype may be called class and subclass, if you feel more comfortable...).
Animal animalCat = new Cat();
What means that such tag, animalCat, will have the functionality (the methods) of type Animal only, because we've declared it as type Animal, not as type Cat.
We are allowed to do that in a "natural/implicit/automatic" way, at compile-time or at a run-time, mainly because Cat inherits some of its functionality from Animal; for example, move(). (At least, cat is an animal, isn't it?)
2.- Downcasting.
But, what would happen if we need to get the functionality of Cat, from our type Animal tag?.
As we have created the animalCat tag pointing to a Cat object, we need a way to call the Cat object methods, from our animalCat tag in a some smart pretty way.
Such procedure is what we call Downcasting, and we can do it only at the run-time.
Time for some code:
public class Animal {
public String move() {
return "Going to somewhere";
}
}
public class Cat extends Animal{
public String makeNoise() {
return "Meow!";
}
}
public class Test {
public static void main(String[] args) {
//1.- Upcasting
// __Type_____tag________object
Animal animalCat = new Cat();
//Some animal movement
System.out.println(animalCat.move());
//prints "Going to somewhere"
//2.- Downcasting
//Now you wanna make some Animal noise.
//First of all: type Animal hasn't any makeNoise() functionality.
//But Cat can do it!. I wanna be an Animal Cat now!!
//___________________Downcast__tag_____ Cat's method
String animalNoise = ( (Cat) animalCat ).makeNoise();
System.out.println(animalNoise);
//Prints "Meow!", as cats usually done.
//3.- An Animal may be a Cat, but a Dog or a Rhinoceros too.
//All of them have their own noises and own functionalities.
//Uncomment below and read the error in the console:
// __Type_____tag________object
//Cat catAnimal = new Animal();
}
}