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I know that when it comes to passing objects in java, the reference of object is passed as value. So what ever changes you make to that object is reflected in the original object as well. To avoid this we make use of immutability property in java.

So my question is, I have created an immutable class Employee, When I pass an object of this Employee class to some method in other class, I don't want that method to make any changes to this object. Even if it does, I don't want the changes to be affected to the original object created in the calling class.

Here is my sample code.

public final class Employee {
    int employeeId;

    public int getId() {
        return employeeId;

    public void setId(int id) {
        this.employeeId = id;


public class Worker {
    public static void process(Employee f, Employee g){
        int c = f.getId();

public class ImmutabilityTest{

    public static void main(String[] args) {
        Employee teamMember = new Employee();
        Employee teamLead = new Employee();
        System.out.println("Before process "+teamMember.getId() + " " + teamLead.getId());
        Worker.process(teamMember, teamLead);
        System.out.println("After process "+teamMember.getId() + " " + teamLead.getId());

The output will be

Before process 5 10
After process 10 5

Is there any way to avoid the change in the values of the member variables of the Employee class ? (apart from making them final)If not then how are we actually exploiting the Immutability property in java in user defined class ?

Any suggestions/opinions/pointers are appreciated ! Thanks..

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up vote 5 down vote accepted

Immutability is not a property in Java that can be applied to an Object with a single keyword, its a strategy that needs to be implemented on a case by case basis. Generally speaking, you utilize the final keyword and cloning in order to accomplish this. Note that the deeper your object nesting, the greater the level of difficulty in achieving true object immutability.

Here is a (more) immutable version of your Employee class:

public class Employee {
    final int employeeId;

    public Employee(final int id) {
        this.employeeId = id;

    public int getId() {
        return employeeId;

Note that reflection in Java makes it practically impossible to achieve true immutability, even with the use of the final instance variables and cloning.

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Thanks for the insight.. – Rakesh Mar 21 '12 at 6:16

Employee has a setter and has a non-private field, therefore it is not immutable.

Remove the setter, and make the field private, and your problem is solved.

Your other option is to pass a copy of the object (typically using a copy constructor to create it)

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even if I remove the setter, it doesn't make any difference. I can still change the value like – Rakesh Mar 21 '12 at 6:10
@Rakesh good point - i edited the answer – Bohemian Mar 21 '12 at 6:12
Thanks for the suggestions.. – Rakesh Mar 21 '12 at 6:26

Applying the final keyword to a class simply indicates that the class can not be extended (or sub-classed).

It has nothing to do with whether or not its members can be modified.

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+1: Thanks for correction, I got mixed up with String class being final and immutable !! :-) – Rakesh Mar 21 '12 at 6:24

You could change the visibility of the setId method to be package private, and make sure that Worker is in a different package to Employee.

Alternatively remove the setId method entirely.

[If the other class makes changes] I don't want the changes to be affected to the original object created in the calling class.

If you want to take that approach, then you need to create and pass a copy of the original object.

Note that unless you declare the private employeeId field to be final, you won't get the full benefit of immutability. Strictly speaking, the getId method needs to be synchronized if there is any possibility that different threads will call getId on the same Employee instance.

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Thanks for the answer – Rakesh Mar 21 '12 at 6:25

If you Don't want someone to change your properties value, you can keep them as private without setter.

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