Methods

The member methods are mostly designed inside the class to access the instance variable.

Syntax:

return_type method_name([arguments])

{

………………………..

body of the method

………………………..

[return expression;]

}

Return type:

Specifies the type of value returned by the method. If the method does not return any value specify the return type as void, which means nothing.

Arguments:

If the method returns a value, you need to use this clause for returning the value, expression can be variable or a mathematical expression.

Accessing methods: object_name.method([values]);

Methods without return_type and without arguments:

Example:

class Box{

double width;

double height;

double depth;

void input()

{

width=6;

height=5;

depth=7;

}

void compute()

{

double vol=width*height*depth;

System.out.println(“The volume of the box is : “+vol);

}

}class App15{

public static void main(String yck[])

{

Box b=new Box();

b.input();

b.compute();

}

output:

\>javac App15.java

\>java App15

The volume of the box is : 210.0

Methods with return_type and without arguments:

Example:

class Box{

double width;

double height;

double depth;

void input()

{

width=6;

height=5;

depth=7;

}

double compute()

{

double vol=width*height*depth;

return vol;

}

}class App16{

public static void main(String yck[])

{

Box b=new Box();

b.input();

double volume=b.compute();

System.out.println(“The volume of the box is : “+volume);

}

output:

\>javac App16.java

\>java App16

The volume of the box is : 210.0

Methods without return_type and with arguments:

Example:

class Box{

double width;

double height;

double depth;

void input(double w,double h,double d)

{

width=w;

height=h;

depth=d;

}

double compute()

{

double vol=width*height*depth;

return vol;

}

}class App17{

public static void main(String yck[])

{

Box b=new Box();

b.input(10,20,30);

double volume=b.compute();

System.out.println(“The volume of the box is : “+volume);

}

output:

\>javac App17.java

\>java App17

The volume of the box is : 6000.0

Overloading methods:

A class can have any number of methods with the same name but different formats. This is commonly referred as method overloading. This concept depicts, POLYMORPHISM.

Example:

class Box{

double width;

double height;

double depth;

void input()

{

width=10;

height=20;

depth=30;

}

void input(double l)

{

width=height=depth=l;

}

void input(double w,double h,double d)

{

width=w;

height=h;

depth=d;

}

void compute()

{

double vol=width*height*depth;

System.out.println(“The volume of the box is : “+vol);

}

}class App18{

public static void main(String yck[])

{

Box b1=new Box();

b1.input();

b1.compute();

Box b2=new Box();

b2.input(10);

b2.compute();

Box b3=new Box();

b3.input(5,6,7);

b3.compute();

}

output:

\>javac App18.java

\>java App18

The volume of the box is : 6000.0

The volume of the box is : 1000.0

The volume of the box is : 210.0

Methods with objects as arguments:

Example:

class Box{

double width;

double height;

double depth;

void input()

{

width=10;

height=20;

depth=30;

}

void input(Box ob)

{

width=ob.width;

height=ob.height;

depth=ob.depth;

}

void compute()

{

double vol=width*height*depth;

System.out.println(“The volume of the box is : “+vol);

}

}class App19{

public static void main(String yck[])

{

Box b1=new Box();

b1.input();

b1.compute();

Box b2=new Box();

b2.input(b1);

b2.compute();

}

output:

\>javac App19.java

\>java App19

The volume of the box is : 6000.0

Nesting of member method:

Example:

class Box{

double width;

double height;

double depth;

void input()

{

width=10;

height=20;

depth=30;

}

void compute()

{

input();

double vol=width*height*depth;

System.out.println(“The volume of the box is : “+vol);

}

}class App20{

public static void main(String yck[])

{

Box b1=new Box();

b1.compute();

}

output:

\>javac App20.java

\>java App20

The volume of the box is : 6000.0

Methods in Java Programming Language

Methods

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