Java Runtime Polymorphism

Java Runtime Polymorphism

Runtime polymorphism or Dynamic Method Dispatch is a process in which a call to an overridden method is resolved at runtime rather than compile-time.

In this process, an overridden method is called through the reference variable of a superclass. The determination of the method to be called is based on the object being referred to by the reference variable.

Let’s first understand the upcasting before Runtime Polymorphism.

Upcasting

When reference variable of Parent class refers to the object of Child class, it is known as upcasting. For example:

 

 

class A{}  

class B extends A{}  

 

A a=new B();//upcasting  

For upcasting, we can use the reference variable of class type or an interface type.


 

Example of Java Runtime Polymorphism

In this example, we are creating two classes Bike and Splendor. Splendor 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, the 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 Splendor extends Bike{  

  void run(){System.out.println(“running safely with 60km”);}  

  

  public static void main(String args[]){  

    Bike b = new Splendor();//upcasting  

    b.run();  

  }  

}  

 

Output:

running safely with 60km.

Java Runtime Polymorphism Example: Bank

Consider a scenario where Bank is a class that provides a method to get the rate of interest. However, the rate of interest may differ according to banks. For example, SBI, ICICI, and AXIS banks are providing 8.4%, 7.3%, and 9.7% rate of interest.

 

Note: This example is also given in method overriding but there was no upcasting.

 

class Bank{  

float getRateOfInterest(){return 0;}  

}  

class SBI extends Bank{  

float getRateOfInterest(){return 8.4f;}  

}  

class ICICI extends Bank{  

float getRateOfInterest(){return 7.3f;}  

}  

class AXIS extends Bank{  

float getRateOfInterest(){return 9.7f;}  

}  

class TestPolymorphism{  

public static void main(String args[]){  

Bank b;  

b=new SBI();  

System.out.println(“SBI Rate of Interest: “+b.getRateOfInterest());  

b=new ICICI();  

System.out.println(“ICICI Rate of Interest: “+b.getRateOfInterest());  

b=new AXIS();  

System.out.println(“AXIS Rate of Interest: “+b.getRateOfInterest());  

}  

}  

 

Output:

SBI Rate of Interest: 8.4
ICICI Rate of Interest: 7.3
AXIS Rate of Interest: 9.7

Java Runtime Polymorphism Example: Shape

 

class Shape{  

void draw(){System.out.println(“drawing…”);}  

}  

class Rectangle extends Shape{  

void draw(){System.out.println(“drawing rectangle…”);}  

}  

class Circle extends Shape{  

void draw(){System.out.println(“drawing circle…”);}  

}  

class Triangle extends Shape{  

void draw(){System.out.println(“drawing triangle…”);}  

}  

class TestPolymorphism2{  

public static void main(String args[]){  

Shape s;  

s=new Rectangle();  

s.draw();  

s=new Circle();  

s.draw();  

s=new Triangle();  

s.draw();  

}  

}  

 

Output:

drawing rectangle...
drawing circle...
drawing triangle...

Java Runtime Polymorphism Example: Animal

 

class Animal{  

void eat(){System.out.println(“eating…”);}  

}  

class Dog extends Animal{  

void eat(){System.out.println(“eating bread…”);}  

}  

class Cat extends Animal{  

void eat(){System.out.println(“eating rat…”);}  

}  

class Lion extends Animal{  

void eat(){System.out.println(“eating meat…”);}  

}  

class TestPolymorphism3{  

public static void main(String[] args){  

Animal a;  

a=new Dog();  

a.eat();  

a=new Cat();  

a.eat();  

a=new Lion();  

a.eat();  

}}  

 

Output:

eating bread...
eating rat...
eating meat...

Java Runtime Polymorphism with Data Member

A method is overridden, not the data members, so runtime polymorphism can’t be achieved by data members.

In the example given below, both the classes have a data member speedlimit. We are accessing the data member by the reference variable of Parent class which refers to the subclass object. Since we are accessing the data member which is not overridden, hence it will access the data member of the Parent class always.

Rule: Runtime polymorphism can’t be achieved by data members.

 

class Bike{  

 int speedlimit=90;  

}  

class Honda3 extends Bike{  

 int speedlimit=150;  

  

 public static void main(String args[]){  

  Bike obj=new Honda3();  

  System.out.println(obj.speedlimit);//90  

}  

 

Output:

90

Java Runtime Polymorphism with Multilevel Inheritance

Let’s see the simple example of Runtime Polymorphism with multilevel inheritance.

 

class Animal{  

void eat(){System.out.println(“eating”);}  

}  

class Dog extends Animal{  

void eat(){System.out.println(“eating fruits”);}  

}  

class BabyDog extends Dog{  

void eat(){System.out.println(“drinking milk”);}  

public static void main(String args[]){  

Animal a1,a2,a3;  

a1=new Animal();  

a2=new Dog();  

a3=new BabyDog();  

a1.eat();  

a2.eat();  

a3.eat();  

}  

}  

 

Output:

eating
eating fruits
drinking Milk

Try for Output

 

class Animal{  

void eat(){System.out.println(“animal is eating…”);}  

}  

class Dog extends Animal{  

void eat(){System.out.println(“dog is eating…”);}  

}  

class BabyDog1 extends Dog{  

public static void main(String args[]){  

Animal a=new BabyDog1();  

a.eat();  

}}  

 

Output:

Dog is eating

Since, BabyDog is not overriding the eat() method, so eat() method of Dog class is invoked.