Java Methods

Java Methods

A Java method is a collection of statements that are grouped together to perform an operation. When you call the System.out.println method, for example, the system actually executes several statements in order to display a message on the console.
Now you will learn how to create your own methods with or without return values, invoke a method with or without parameters, overload methods using the same names, and apply method abstraction in the program design.
Creating a Method:
The purpose of a method is to perform an operation or a task
A method is devide into two parts:
•    Method declaration/Header/prototype:

•    The method declaration includes return type.Method name and list of parameters.

Syntax: returnType methodname(list of parameters)

•    In the method declaration specifying the return type and the method name is mandatory and specifying the list of parameters are optional.
•    The return type of the method must be specified just before the method name.
•    To a method we can pass any number of parameters any type of parameters.If we specify multiple parameters separate them by a comma symbol.
•    If a method doesnot want to return any value then specify the return type has void.
2. Method definition/Body/Implementation:
•    The method definition includes the group of statements enclosed with in the {}
Syntax:   {
•    The method definition can contain any no.of stmts.
•    If the return type of the method is void then we need not specify the return .If the return stmt of the method is any other type a part from void then we must specify the return stmt in the method definition.
Syntax: return value;
Ex: return 123;
Return 12.3;
Return ‘a’;
•    We specify the return statement generally as a last statement in the method definition.
•    A method can return at most one value.

Types of Methods:
1.Method without  returntype  and  without  parameters:
Eg: class Addition {
Void add(){
int a=11;
int b=22;
int c=a+b;
System.out.println(“sum of “+a+”and”+a+”is”+c”);
Public static void main(String[]ar){
Addition abc=new Addition();
2. Method Without return Type and with parameters:
Ex: class Addition{
Void add(int x,int y){
Int z=x+y
System.out.println(“sum “+z);

} Public static void main(String[]ar){
Addition ad=new Addition();
Int a =Integer.ParseInt(ar[0]);
Int b=Integer.ParseInt(ar[1]);
The method declaration and method definition invocation must be same no.of parameters and same type of parameters.
3.Method With return type and without parameters:
Ex:class Addition{
Void add(){
int a=10;
int b=20;
int c=a+b;
return c;
Public static void main(String[]ar){
Addition abc=new Addition();
Int z=abc.add()
4.Method with return type and with parameters:
Ex:class Addition{
Double add(int x,doubley,doublez){
Double n=x+y+z;
Return n;
Public static void main(String[]ar){
Addition a=new Addition()
Double res=a.add(12,2.3,1.1);
Calling a Method:
In creating a method, you give a definition of what the method is to do. To use a method, you have to call or invoke it. There are two ways to call a method; the choice is based on whether the method returns a value or not.
When a program calls a method, program control is transferred to the called method. A called method returns control to the caller when its return statement is executed or when its method-ending closing brace is reached.
If the method returns a value, a call to the method is usually treated as a value. For example:
int larger = max(30, 40);
If the method returns void, a call to the method must be a statement. For example, the method println returns void. The following call is a statement:
System.out.println(“Welcome to Java!”);
Following is the example to demonstrate how to define a method and how to call it:
public class TestMax {
/** Main method */
public static void main(String[] args) {
int i = 5;
int j = 2;
int k = max(i, j);
System.out.println(“The maximum between ” + i +
” and ” + j + ” is ” + k);

/** Return the max between two numbers */
public static int max(int num1, int num2) {
int result;
if (num1 > num2)
result = num1;
result = num2;

return result;
This would produce the following result:
The maximum between 5 and 2 is 5
This program contains the main method and the max method. The main method is just like any other method except that it is invoked by the JVM.
The main method’s header is always the same, like the one in this example, with the modifiers public and static, return value type void, method name main, and a parameter of the String[] type. String[] indicates that the parameter is an array of String.
The void Keyword:
This section shows how to declare and invoke a void method. Following example gives a program that declares a method named printGrade and invokes it to print the grade for a given score.
public class TestVoidMethod {

public static void main(String[] args) {

public static void printGrade(double score) {
if (score >= 90.0) {
else if (score >= 80.0) {
else if (score >= 70.0) {
else if (score >= 60.0) {
else {
This would produce the following result:
Here the printGrade method is a void method. It does not return any value. A call to a void method must be a statement. So, it is invoked as a statement in line 3 in the main method. This statement is like any Java statement terminated with a semicolon.
Passing Parameters by Values:
When calling a method, you need to provide arguments, which must be given in the same order as their respective parameters in the method specification. This is known as parameter order association.
For example, the following method prints a message n times:
public static void nPrintln(String message, int n) {
for (int i = 0; i < n; i++)
Here, you can use nPrintln(“Hello”, 3) to print “Hello” three times. The nPrintln(“Hello”, 3) statement passes the actual string parameter, “Hello”, to the parameter, message; passes 3 to n; and prints “Hello” three times. However, the statement nPrintln(3, “Hello”) would be wrong.
When you invoke a method with a parameter, the value of the argument is passed to the parameter. This is referred to as pass-by-value. If the argument is a variable rather than a literal value, the value of the variable is passed to the parameter. The variable is not affected, regardless of the changes made to the parameter inside the method.
For simplicity, Java programmers often say passing an argument x to a parameter y, which actually means passing the value of x to y.
Following is a program that demonstrates the effect of passing by value. The program creates a method for swapping two variables. The swap method is invoked by passing two arguments. Interestingly, the values of the arguments are not changed after the method is invoked.
public class TestPassByValue {

public static void main(String[] args) {
int num1 = 1;
int num2 = 2;

System.out.println(“Before swap method, num1 is ” +
num1 + ” and num2 is ” + num2);

// Invoke the swap method
swap(num1, num2);
System.out.println(“After swap method, num1 is ” +
num1 + ” and num2 is ” + num2);
/** Method to swap two variables */
public static void swap(int n1, int n2) {
System.out.println(“tInside the swap method”);
System.out.println(“ttBefore swapping n1 is ” + n1
+ ” n2 is ” + n2);
// Swap n1 with n2
int temp = n1;
n1 = n2;
n2 = temp;

System.out.println(“ttAfter swapping n1 is ” + n1
+ ” n2 is ” + n2);
This would produce the following result:
Before swap method, num1 is 1 and num2 is 2
Inside the swap method
Before swapping n1 is 1 n2 is 2
After swapping n1 is 2 n2 is 1
After swap method, num1 is 1 and num2 is 2
Overloading Methods:
The max method that was used earlier works only with the int data type. But what if you need to find which of two floating-point numbers has the maximum value? The solution is to create another method with the same name but different parameters, as shown in the following code:
public static double max(double num1, double num2) {
if (num1 > num2)
return num1;
return num2;
If you call max with int parameters, the max method that expects int parameters will be invoked; if you call max with double parameters, the max method that expects double parameters will be invoked. This is referred to as method overloading; that is, two methods have the same name but different parameter lists within one class.
The Java compiler determines which method is used based on the method signature. Overloading methods can make programs clearer and more readable. Methods that perform closely related tasks should be given the same name.
Overloaded methods must have different parameter lists. You cannot overload methods based on different modifiers or return types. Sometimes there are two or more possible matches for an invocation of a method due to similar method signature, so the compiler cannot determine the most specific match. This is referred to as ambiguous invocation.
The Scope of Variables:
The scope of a variable is the part of the program where the variable can be referenced. A variable defined inside a method is referred to as a local variable.
The scope of a local variable starts from its declaration and continues to the end of the block that contains the variable. A local variable must be declared before it can be used.
A parameter is actually a local variable. The scope of a method parameter covers the entire method.
A variable declared in the initial action part of a for loop header has its scope in the entire loop. But a variable declared inside a for loop body has its scope limited in the loop body from its declaration to the end of the block that contains the variable as shown below:

You can declare a local variable with the same name multiple times in different non-nesting blocks in a method, but you cannot declare a local variable twice in nested blocks.
Using Command-Line Arguments:
Sometimes you will want to pass information into a program when you run it. This is accomplished by passing command-line arguments to main( ).
A command-line argument is the information that directly follows the program’s name on the command line when it is executed. To access the command-line arguments inside a Java program is quite easy.they are stored as strings in the String array passed to main( ).
The following program displays all of the command-line arguments that it is called with:
public class CommandLine {

public static void main(String args[]){
for(int i=0; i<args.length; i++){
System.out.println(“args[” + i + “]: ” +
Try executing this program as shown here:
java CommandLine this is a command line 200 -100
This would produce the following result:
args[0]: this
args[1]: is
args[2]: a
args[3]: command
args[4]: line
args[5]: 200
args[6]: -100
The finalize( ) Method:
It is possible to define a method that will be called just before an object’s final destruction by the garbage collector. This method is called finalize( ), and it can be used to ensure that an object terminates cleanly.
For example, you might use finalize( ) to make sure that an open file owned by that object is closed.
To add a finalizer to a class, you simply define the finalize( ) method. The Java runtime calls that method whenever it is about to recycle an object of that class.
Inside the finalize( ) method, you will specify those actions that must be performed before an object is destroyed.
The finalize( ) method has this general form:
protected void finalize( )
// finalization code here
Here, the keyword protected is a specifier that prevents access to finalize( ) by code defined outside its class.
This means that you cannot know when or even if finalize( ) will be executed. For example, if your program ends before garbage collection occurs, finalize( ) will not execute.



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