In this article, we are going to learn about Runtime Polymorphism in Java. “Poly” means “many”, and “morph” means “type”. So the term polymorphism indicates the same thing of different types. Here we will see how Java archives polymorphism in run time, which means, after compilation but before running of the code.
Syntax:
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@Override
the annotation may be used here to point out which method we want to override specifically.
Runtime polymorphism works in Java by method overriding. Method overriding happens when objects have the same method name and arguments and type as of their parent class but with different functionality. If a child class has that type of method in it, we call it an overridden method.
when we call an overridden method of child class through its parent type reference (this phenomenon in java is referred to as “Upcasting”), then the type of the object indicates which method or functionality will be invoked. Making of this decision happens during runtime by JVM after the compilation of code. Hence it is called as Run time polymorphism.
It is also referred to as “Dynamic method dispatch”. Reason being named so, due to the fact that the functionality of the method is dynamically decided in run time as per the object by JVM
It is also called “Late binding” because binding of method and object, which means the functionality of which object’s method will be displayed, is decided late, i.e. after compilation.
Below are some of the rules and limitations of runtime polymorphism:
We will discuss some code examples of Run time polymorphism here.
In this example, we will show how the method showcase() is displaying different messages depending on which type of object it is associated with. When it is associated with the “Parents” type, it is showing messages from a parent class. When it is associated with the “Children” type, it shows messages from the child class.
Code:
class Parents { public void showcase () { System.out.println("I am Parent"); } } class Children extends Parents { @Override public void showcase () { System.out.println("I am Children"); } } public class RunTimePolymorphism { public static void main(String args[]) { Parents superObject = new Parents(); superObject.showcase(); //method of super class or parent class is called Parents subObject = new Children(); // upcasting subObject.showcase();//method of sub class or child class is called by Parent reference, this is called "Run time Polymorphism" Children subObject2 = new Children(); subObject2.showcase(); //method of sub class or child class is called } }
Output:
Let us take an example of run time polymorphism in the case of multilevel inheritance. In this example, we have taken two levels of inheritance into account. In this example, we will show how the method sip() is displaying different messages depending on which type of object it is associated with. When it is associated with the “Human” type, it is showing messages from a parent class. When it is associated with the “Man” type, it shows messages from its child class. Again in the second level of inheritance, when associated with the “Baby” type, it shows messages from its child class of its parent, the “Man” class.
Code:
class Human{ void sip() { System.out.println("Human is sipping"); } } class Man extends Human{ void sip(){ System.out.println("Man is sipping soup"); } } class Baby extends Man{ void sip(){ System.out.println("Baby is sipping milk"); } } public class RunTimePolymorphism { public static void main(String args[]){ Human superObject=new Human(); Human subObject=new Man(); // // upcasting : first level of heritance Human babyObject=new Baby(); // // upcasting : second level of heritance superObject.sip(); subObject.sip(); //run time polymorphism happening in first level of heritance babyObject.sip(); //run time polymorphism happening in second level of heritance } }
Output:
Let us take another example of run time polymorphism in the case of multilevel inheritance. In this example, we have three levels of inheritance is taken into account. In this example, we will show how the method feature () is displaying different features depending on which type of object it is associated with. When it is associated with the “operating system” type, it is showing messages from a parent class. When it is associated with the “DOS” type, it shows messages from its child class. Again in the second level of inheritance, when associated with the “Windows” type, it shows messages from its child class of its parent, the “DOS” class. Again in the third level of inheritance, when associated with the “WindowsMobile” type, it is showing messages from its child class of its parent, the “Windows” class.
Code:
class OperatingSytem{ void feature() { System.out.println("This is Operating Sytem"); } } class DOS extends OperatingSytem{ void feature(){ System.out.println("This is DOS"); } } class Windows extends DOS{ void feature(){ System.out.println("This is Windows"); } } class WindowsMobile extends Windows{ void feature(){ System.out.println("This is Windows Mobile"); } } public class RunTimePolymorphism { public static void main(String args[]){ OperatingSytem superObject=new OperatingSytem(); OperatingSytem subObject=new DOS(); // child object type : first level of heritance OperatingSytem sub2Object=new Windows(); // child object type : second level of heritance OperatingSytem sub3Object=new WindowsMobile(); // child object type : third level of heritance superObject.feature(); subObject.feature(); //run time polymorphism happening in first level of heritance sub2Object.feature(); //run time polymorphism happening in second level of heritance sub3Object.feature(); //run time polymorphism happening in third level of heritance } }
Output:
This concludes our learning of the topic “Runtime Polymorphism in Java”. Write yourself the codes mentioned in the above examples in the java compiler and verify the output. Learning of codes will be incomplete if you will not write code by yourself.
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