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Overriding in Java
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Method Overloading in Java

Last Updated : 22 Apr, 2025
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In Java, Method Overloading allows us to define multiple methods with the same name but different parameters within a class. This difference can be in the number of parameters, the types of parameters, or the order of those parameters.

Method overloading in Java is also known as Compile-time Polymorphism, Static Polymorphism, or Early binding, because the decision about which method to call is made at compile time. When there are overloaded methods that accept both a parent type and a child type, and the provided argument could match either one, Java prefers the method that takes the more specific (child) type. This is because it offers a more better match.

Key features of Method Overloading:

  • Multiple methods can share the same name in a class when their parameter lists are different.
  • Overloading is a way to increase flexibility and improve the readability of code.
  • Overloading does not depend on the return type of the method, two methods cannot be overloaded by just changing the return type.

Now, let us go through a simple example to understand the concept better:

Example: This example demonstrates method overloading by defining multiple sum() methods with different parameter types and counts.

Java 
// Java program to demonstrate working of method // overloading in Java public class Sum {          // Overloaded sum()      // This sum takes two int parameters     public int sum(int x, int y) { return (x + y); }      // Overloaded sum()     // This sum takes three int parameters     public int sum(int x, int y, int z)     {         return (x + y + z);     }      // Overloaded sum()      // This sum takes two double parameters     public double sum(double x, double y)     {         return (x + y);     }      // Driver code     public static void main(String args[])     {         Sum s = new Sum();         System.out.println(s.sum(10, 20));         System.out.println(s.sum(10, 20, 30));         System.out.println(s.sum(10.5, 20.5));     } }

Output
30 60 31.0


Different Ways of Method Overloading in Java

The different ways of method overloading in Java are listed below:

  • Changing the Number of Parameters.
  • Changing Data Types of the Arguments.
  • Changing the Order of the Parameters of Methods

1. Changing the Number of Parameters

Method overloading can be achieved by changing the number of parameters while passing to different methods.

Example: This example demonstrates method overloading by changing the number of parameters in the multiply() method.

Java 
// Java Program to Illustrate Method Overloading // By Changing the Number of Parameters  // Importing required classes import java.io.*;  // Class 1 // Helper class class Product {          // Method 1     // Multiplying two integer values     public int multiply(int a, int b)     {         int prod = a * b;         return prod;     }      // Method 2     // Multiplying three integer values     public int multiply(int a, int b, int c)     {         int prod = a * b * c;         return prod;     } }  // Class 2 // Main class class Geeks {          // Main driver method     public static void main(String[] args)     {         // Creating object of above class inside main()         // method         Product ob = new Product();          // Calling method to Multiply 2 numbers         int prod1 = ob.multiply(1, 2);          // Printing Product of 2 numbers         System.out.println(             "Product of the two integer value: " + prod1);          // Calling method to multiply 3 numbers         int prod2 = ob.multiply(1, 2, 3);          // Printing product of 3 numbers         System.out.println(             "Product of the three integer value: " + prod2);     } }

Output
Product of the two integer value: 2 Product of the three integer value: 6


2. Changing Data Types of the Arguments

In many cases, methods can be considered Overloaded if they have the same name but have different parameter types, methods are considered to be overloaded.

Example: This example demonstrates method overloading by changing the data types of parameters in the Prod() method.

Java 
// Java Program to Illustrate Method Overloading // By Changing Data Types of the Parameters  // Importing required classes import java.io.*;  // Class 1 // Helper class class Product {          // Multiplying three integer values     public int Prod(int a, int b, int c)     {         int prod1 = a * b * c;         return prod1;     }      // Multiplying three double values.     public double Prod(double a, double b, double c)     {         double prod2 = a * b * c;         return prod2;     } }  class Geeks {     public static void main(String[] args)     {         Product obj = new Product();          int prod1 = obj.Prod(1, 2, 3);         System.out.println(             "Product of the three integer value: " + prod1);          double prod2 = obj.Prod(1.0, 2.0, 3.0);         System.out.println(             "Product of the three double value: " + prod2);     } }

Output
Product of the three integer value: 6 Product of the three double value: 6.0


3. Changing the Order of the Parameters of Methods

Method overloading can also be implemented by rearranging the parameters of two or more overloaded methods. For example, if the parameters of method 1 are (String name, int roll_no) and the other method is (int roll_no, String name) but both have the same name, then these 2 methods are considered to be overloaded with different sequences of parameters.

Example: This example demonstrates method overloading by changing the order of parameters in the StudentId() method.

Java 
// Java Program to Illustrate Method Overloading // By changing the Order of the Parameters  // Importing required classes import java.io.*;  // Class 1 // Helper class class Student {          // Method 1     public void StudentId(String name, int roll_no)     {         System.out.println("Name: " + name + " "                            + "Roll-No: " + roll_no);     }      // Method 2     public void StudentId(int roll_no, String name)     {         // Again printing name and id of person         System.out.println("Roll-No: " + roll_no + " "                            + "Name: " + name);     } }  // Class 2 // Main class class Geeks {          // Main function     public static void main(String[] args)     {         // Creating object of above class         Student obj = new Student();          // Passing name and id         // Note: Reversing order         obj.StudentId("Sweta", 1);         obj.StudentId(2, "Gudly");     } }

Output
Name: Sweta Roll-No: 1 Roll-No: 2 Name: Gudly


What if the Exact Prototype Does Not Match With Arguments?

 Priority-wise, the compiler takes these steps:

  • Type Conversion but to a higher type(in terms of range) in the same family.
  • Type conversion to the next higher family (suppose if there is no long data type available for an int data type, then it will search for the float data type).


Type Conversion in Java


Let’s take an example to clarify the concept:

Java 
// Demo Class class Demo {          public void show(int x)     {         System.out.println("In int" + x);     }     public void show(String s)     {         System.out.println("In String" + s);     }     public void show(byte b)     {         System.out.println("In byte" + b);     } }  class UseDemo {          public static void main(String[] args)     {         byte a = 25;         Demo obj = new Demo();          // it will go to         // byte argument         obj.show(a);          // String         obj.show("hello");          // Int         obj.show(250);          // Since char is         // not available, so the datatype         // higher than char in terms of         // range is int.         obj.show('A');          // String         obj.show("A");          // since float datatype         // is not available and so it's higher         // datatype, so at this step their         // will be an error.         obj.show(7.5);     } }


Output:

./UseDemo.java:46: error: no suitable method found for show(double)
        obj.show(7.5);
           ^
    method Demo.show(int) is not applicable
      (argument mismatch; possible lossy conversion from double to int)
    method Demo.show(String) is not applicable
      (argument mismatch; double cannot be converted to String)
    method Demo.show(byte) is not applicable
      (argument mismatch; possible lossy conversion from double to byte)
1 error


Advantages of Method Overloading 

The advantages of method overlaoding is listed below:

  • Method overloading improves the Readability and reusability of the program.
  • Method overloading reduces the complexity of the program.
  • Using method overloading, programmers can perform a task efficiently and effectively.
  • Using method overloading, it is possible to access methods performing related functions with slightly different arguments and types.
  • Objects of a class can also be initialized in different ways using the constructors.


Disadvantages of Method Overloading

  • Too many overloaded methods can make the code harder to read and maintain.
  • Similar method names with different parameters can confuse developers and lead to incorrect usage.
  • Improper use may lead to ambiguity in method selection, especially with type conversions.


Method Overloading vs Method Overriding

The table below demonstrates the difference between Method Overloading and Method Overriding

Feature

Method Overloading

Method Overriding

Definition

Same method name, different parameters

Same method signature, different class

Polymorphism Type

Compile-time polymorphism (Static)

Runtime polymorphism (Dynamic)

Inheritance

No inheritance involved

Involves inheritance (parent-child)




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Overriding in Java
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    Java Collections

    • Collections in Java
      Any group of individual objects that are represented as a single unit is known as a Java Collection of Objects. In Java, a separate framework named the "Collection Framework" has been defined in JDK 1.2 which holds all the Java Collection Classes and Interface in it. In Java, the Collection interfac
      15+ min read
    • Collections Class in Java
      Collections class in Java is one of the utility classes in Java Collections Framework. The java.util package contains the Collections class in Java. Java Collections class is used with the static methods that operate on the collections or return the collection. All the methods of this class throw th
      13 min read
    • Collection Interface in Java
      The Collection interface in Java is a core member of the Java Collections Framework located in the java.util package. It is one of the root interfaces of the Java Collection Hierarchy. The Collection interface is not directly implemented by any class. Instead, it is implemented indirectly through it
      6 min read
    • Java List Interface
      The List Interface in Java extends the Collection Interface and is a part of the java.util package. It is used to store the ordered collections of elements. In a Java List, we can organize and manage the data sequentially. Key Features: Maintained the order of elements in which they are added.Allows
      15+ min read
    • ArrayList in Java
      Java ArrayList is a part of the collections framework and it is a class of java.util package. It provides us with dynamic-sized arrays in Java. The main advantage of ArrayList is that, unlike normal arrays, we don't need to mention the size when creating ArrayList. It automatically adjusts its capac
      10 min read
    • Vector Class in Java
      The Vector class in Java implements a growable array of objects. Vectors were legacy classes, but now it is fully compatible with collections. It comes under java.util package and implement the List interface. Key Features of Vector: It expands as elements are added.Vector class is synchronized in n
      12 min read
    • LinkedList in Java
      Linked List is a part of the Collection framework present in java.util package. This class is an implementation of the LinkedList data structure which is a linear data structure where the elements are not stored in contiguous locations and every element is a separate object with a data part and addr
      13 min read
    • Stack Class in Java
      The Java Collection framework provides a Stack class, which implements a Stack data structure. The class is based on the basic principle of LIFO (last-in-first-out). Besides the basic push and pop operations, the class also provides three more functions, such as empty, search, and peek. The Stack cl
      12 min read
    • Set in Java
      The Set Interface is present in java.util package and extends the Collection interface. It is an unordered collection of objects in which duplicate values cannot be stored. It is an interface that implements the mathematical set. This interface adds a feature that restricts the insertion of duplicat
      14 min read
    • Java HashSet
      HashSet in Java implements the Set interface of Collections Framework. It is used to store the unique elements and it doesn't maintain any specific order of elements. Can store the Null values.Uses HashMap (implementation of hash table data structure) internally.Also implements Serializable and Clon
      12 min read
    • TreeSet in Java
      TreeSet is one of the most important implementations of the SortedSet interface in Java that uses a Tree(red - black tree) for storage. The ordering of the elements is maintained by a set using their natural ordering whether or not an explicit comparator is provided. This must be consistent with equ
      13 min read
    • Java LinkedHashSet
      LinkedHashSet in Java implements the Set interface of the Collection Framework. It combines the functionality of a HashSet with a LinkedList to maintain the insertion order of elements. Stores unique elements only.Maintains insertion order.Provides faster iteration compared to HashSet.Allows null el
      8 min read
    • Queue Interface In Java
      The Queue Interface is a part of java.util package and extends the Collection interface. It stores and processes the data in order means elements are inserted at the end and removed from the front. Key Features: Most implementations, like PriorityQueue, do not allow null elements.Implementation Clas
      12 min read
    • PriorityQueue in Java
      The PriorityQueue class in Java is part of the java.util package. It implements a priority heap-based queue that processes elements based on their priority rather than the FIFO (First-In-First-Out) concept of a Queue. Key Points: The PriorityQueue is based on the Priority Heap. The elements of the p
      9 min read
    • Deque Interface in Java
      Deque Interface present in java.util package is a subtype of the queue interface. The Deque is related to the double-ended queue that supports adding or removing elements from either end of the data structure. It can either be used as a queue(first-in-first-out/FIFO) or as a stack(last-in-first-out/
      10 min read
    • Map Interface in Java
      In Java, the Map Interface is part of the java.util package and represents a mapping between a key and a value. The Java Map interface is not a subtype of the Collections interface. So, it behaves differently from the rest of the collection types. Key Features: No Duplicates in Keys: Keys should be
      12 min read
    • HashMap in Java
      In Java, HashMap is part of the Java Collections Framework and is found in the java.util package. It provides the basic implementation of the Map interface in Java. HashMap stores data in (key, value) pairs. Each key is associated with a value, and you can access the value by using the corresponding
      15+ min read
    • Java LinkedHashMap
      LinkedHashMap in Java implements the Map interface of the Collections Framework. It stores key-value pairs while maintaining the insertion order of the entries. It maintains the order in which elements are added. Stores unique key-value pairs.Maintains insertion order.Allows one null key and multipl
      7 min read
    • Hashtable in Java
      Hashtable class, introduced as part of the Java Collections framework, implements a hash table that maps keys to values. Any non-null object can be used as a key or as a value. To successfully store and retrieve objects from a hashtable, the objects used as keys must implement the hashCode method an
      13 min read
    • Java Dictionary Class
      Dictionary class in Java is an abstract class that represents a collection of key-value pairs, where keys are unique and used to access the values. It was part of the Java Collections Framework and it was introduced in Java 1.0 but has been largely replaced by the Map interface since Java 1.2. Store
      5 min read
    • SortedSet Interface in Java with Examples
      The SortedSet interface is present in java.util package extends the Set interface present in the collection framework. It is an interface that implements the mathematical set. This interface contains the methods inherited from the Set interface and adds a feature that stores all the elements in this
      9 min read
    • Java Comparator Interface
      The Comparator interface in Java is used to sort the objects of user-defined classes. The Comparator interface is present in java.util package. This interface allows us to define custom comparison logic outside of the class for which instances we want to sort. The comparator interface is useful when
      6 min read
    • Java Comparable Interface
      The Comparable interface in Java is used to define the natural ordering of objects for a user-defined class. It is part of the java.lang package and it provides a compareTo() method to compare instances of the class. A class has to implement a Comparable interface to define its natural ordering. Exa
      4 min read
    • Java Comparable vs Comparator
      In Java, both Comparable and Comparator interfaces are used for sorting objects. The main difference between Comparable and Comparator is: Comparable: It is used to define the natural ordering of the objects within the class.Comparator: It is used to define custom sorting logic externally.Difference
      5 min read
    • Java Iterator
      An Iterator in Java is an interface used to traverse elements in a Collection sequentially. It provides methods like hasNext(), next(), and remove() to loop through collections and perform manipulation. An Iterator is a part of the Java Collection Framework, and we can use it with collections like A
      7 min read
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