What is overloading methods java

Method Overloading in Java with Examples

Method overloading in java is a feature that allows a class to have more than one method with the same name, but with different parameters.

Java supports method overloading through two mechanisms:

1. By changing the number of parameters
2. By changing the data type of parameters Overloading by changing the number of parameters A method can be overloaded by changing the number of parameters.

• What is Method overloading in java?
• Benefits of Using Method Overloading
• How to do Method Overloading?

What is Method overloading in Java?

“Method overloading is a feature of Java in which a class has more than one method of the same name and their parameters are different.”

In other words, we can say that Method overloading is a concept of Java in which we can create multiple methods of the same name in the same class, and all methods work in different ways. When more than one method of the same name is created in a Class, this type of method is called the Overloaded Method. Before moving ahead, if you wish to brush up your Java skills, you can take up a Java programming for beginners that will help you learn the foundations.

Must Learn Java Concepts

We can easily understand about method of overloading by the below example:

Suppose we have to write a method to find the square of an integer number. We can write this method as follows:

public void intSquare ( int number )

Suppose we want to find the square of 10, then to find the square of 10, we can call this method as follows:

Now, if we want to find the Square of a double type value, then we have to create another Square () method as follows:

public void doubleSquare(double number)

Similarly, if we want to find the square of long type value, then we have to create another method as follows:

public void longSquare(long number)

If we look carefully, to find the square of a number only, according to the data type of the number, we have to take three names as follows:

If it is possible that a programmer has to take only one name and the program itself decides which method to use for which type of value, then it will be easier for the programmer to get the same. There is no need to memorise the names of more than one method for type work. In Java, we can give the above three methods the same name.

If we provide only the square () name instead of giving different names to the above three methods and write the rest of the description as follows, then Java’s Compiler does not generate any error.

public void Square ( int number ) < int square = number * number; System.out.printIn(“Method with Integer Argument Called:“+square); >public void Square(double number) < double square = number * number; System.out.printIn(“Method with double Argument Called:“+square); >public void Square(long number)

If we define these three methods in a class, then these methods can be called Overloaded Methods as they have the same name. Let us develop CalculateSquare Class to understand this, which is as follows:

class CalculateSquare < public void square() < System.out.println("No Parameter Method Called"); >public int square( int number ) < int square = number * number; System.out.println("Method with Integer Argument Called:"+square); >public float square( float number ) < float square = number * number; System.out.println("Method with float Argument Called:"+square); >public static void main(String[] args) < CalculateSquare obj = new CalculateSquare(); obj.square(); obj.square(5); obj.square(2.5); >>

Note: We have not provided any argument in the ‘parenthesis’ of the square() method in our program. In this case, the Compiler Class calls the method in which no Parameter has been defined to achieve the Argument.

No Parameter Method Called

Method with Integer Argument Called: 25

Method with float Argument Called: 6.25

In this way, we can define more than one Methods of the same name in a class, which is called Method Overloading, and

The Java compiler itself performs the appropriate Method Call for an object, based on the Data Type of the Arguments of the Methods.

Benefits of using Method Overloading

• Method overloading increases the readability of the program.
• This provides flexibility to programmers so that they can call the same method for different types of data.
• This makes the code look clean.
• This reduces the execution time because the binding is done in compilation time itself.
• Method overloading minimises the complexity of the code.
• With this, we can use the code again, which saves memory.

How to do Method Overloading?

In java, we do method overloading in two ways:

1. By changing the number of parameters.
2. By changing data types.

• Change the number of arguments:

In the example below, we have two methods, the first method has two arguments, and the second method has three arguments.

class Demo < void multiply(int a, int b) < System.out.printIn("Result is"+(a*b)) ; >void multiply(int a, int b,int c) < System.out.printIn("Result is"+(a*b*c)); >public static void main(String[] args) < Demo obj = new Demo(); obj.multiply(8,5); obj.multiply(4,6,2); >>

In the example given below, we have two methods, and their data types are different.

class Sum < static int add(int a, int b) < return a+b; >static double add(double a, double b) < return a+b; >> class TestOverloading2 < public static void main(String[] args) < System.out.println(Sum.add(17,13)); System.out.println(Sum.add(10.4,10.6)); >>

Note: In this example, we are creating static methods so that we don’t need to create an instance for calling methods.

Some points to remember about method overloading:

• Method overloading cannot be done by changing the return type of methods.
• The most important rule of method overloading is that two overloaded methods must have different parameters.

Method overloading has nothing to do with return-type.

If there are two methods of the same signature within a class in the program, then Ambiguity Error comes, whether their return-type is different or not. This means that method overloading has no relation with return-type.

class Sample < int disp(int x)< return x; >double disp(int y) < return y; >public static void main(String args[]) < Sample s = new Sample(); System.out.printIn("Value of x : " + s.disp(5)); System.out.printIn("Value of y : " + s.disp(6.5)); >> 

Sample.java:6: error: method disp(int) is already defined in class Sample

In this way, we can define more than one Methods of the same name in a class called Method Overloading. The Java Compiler itself, based on the Data Type of the Arguments of the Methods, performs the appropriate method call for an object.

This brings us to the end of the blog on Method Overloading in Java. Hope this helps you to up-skill your C++ skills. To learn more about programming and other related concepts, check out the courses on Great Learning Academy.

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Defining Methods

The only required elements of a method declaration are the method’s return type, name, a pair of parentheses, () , and a body between braces, <> .

More generally, method declarations have six components, in order:

1. Modifiers—such as public , private , and others you will learn about later.
2. The return type—the data type of the value returned by the method, or void if the method does not return a value.
3. The method name—the rules for field names apply to method names as well, but the convention is a little different.
4. The parameter list in parenthesis—a comma-delimited list of input parameters, preceded by their data types, enclosed by parentheses, () . If there are no parameters, you must use empty parentheses.
5. An exception list—to be discussed later.
6. The method body, enclosed between braces—the method’s code, including the declaration of local variables, goes here.

Modifiers, return types, and parameters will be discussed later in this lesson. Exceptions are discussed in a later lesson.

Definition: Two of the components of a method declaration comprise the method signature—the method’s name and the parameter types.

The signature of the method declared above is:

calculateAnswer(double, int, double, double)

Naming a Method

Although a method name can be any legal identifier, code conventions restrict method names. By convention, method names should be a verb in lowercase or a multi-word name that begins with a verb in lowercase, followed by adjectives, nouns, etc. In multi-word names, the first letter of each of the second and following words should be capitalized. Here are some examples:

run runFast getBackground getFinalData compareTo setX isEmpty

Typically, a method has a unique name within its class. However, a method might have the same name as other methods due to method overloading.

Overloading Methods

The Java programming language supports overloading methods, and Java can distinguish between methods with different method signatures. This means that methods within a class can have the same name if they have different parameter lists (there are some qualifications to this that will be discussed in the lesson titled «Interfaces and Inheritance»).

Suppose that you have a class that can use calligraphy to draw various types of data (strings, integers, and so on) and that contains a method for drawing each data type. It is cumbersome to use a new name for each method—for example, drawString , drawInteger , drawFloat , and so on. In the Java programming language, you can use the same name for all the drawing methods but pass a different argument list to each method. Thus, the data drawing class might declare four methods named draw , each of which has a different parameter list.

public class DataArtist < . public void draw(String s) < . >public void draw(int i) < . >public void draw(double f) < . >public void draw(int i, double f) < . >>

Overloaded methods are differentiated by the number and the type of the arguments passed into the method. In the code sample, draw(String s) and draw(int i) are distinct and unique methods because they require different argument types.

You cannot declare more than one method with the same name and the same number and type of arguments, because the compiler cannot tell them apart.

The compiler does not consider return type when differentiating methods, so you cannot declare two methods with the same signature even if they have a different return type.

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