Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Must immutable objects have all properties be final?

According to me not. But I don't know, whether I am right.

share|improve this question
Well final just makes so that you can't reassign the field.. the object referenced by a final field could be mutable –  Esailija Apr 17 '13 at 13:15

6 Answers 6

up vote 24 down vote accepted

The main difference between an immutable object (all properties final) and an effectively immutable object (properties aren't final but can't be changed) is safe publication.

You can safely publish an immutable object in a multi threaded context without having to worry about adding synchronization, thanks to the guarantees provided by the Java Memory Model for final fields:

final fields also allow programmers to implement thread-safe immutable objects without synchronization. A thread-safe immutable object is seen as immutable by all threads, even if a data race is used to pass references to the immutable object between threads. This can provide safety guarantees against misuse of an immutable class by incorrect or malicious code. final fields must be used correctly to provide a guarantee of immutability.

As a side note, it also enables to enforce immutability (if you try to mutate those fields in a future version of your class because you have forgotten it should be immutable, it won't compile).


  • Making all the fields of an object final does not make it immutable - you also need to make sure that (i) its state can't change (for example, if the object contains a final List, no mutating operations (add, remove...) must be done after construction) and (ii) you don't let this escape during construction
  • An effectively immutable object is thread safe once it has been safely published
  • Example of unsafe publication:

    class EffectivelyImmutable {
        static EffectivelyImmutable unsafe;
        private int i;
        public EffectivelyImmutable (int i) { this.i = i; }
        public int get() { return i; }
    // in some thread
    EffectivelyImmutable.unsafe = new EffectivelyImmutable(1);
    //in some other thread
    if (EffectivelyImmutable.unsafe != null
        && EffectivelyImmutable.unsafe.get() != 1)

    This program could in theory print What???. If i were final, that would not be a legal outcome.

share|improve this answer
while I do agree with u, what about an object that has an array field that is final? The reference is immutable, but the values are not. Same thing about ImmutableList of StringBuilders for example. Are these objects considered thread-safe? –  Eugene Apr 17 '13 at 13:26
how will an object with non final private fields (initialized on object construction) ever be thread unsafe ? –  NimChimpsky Apr 17 '13 at 13:39
If all their fields are final they can still be safely published but it is not enough to make them thead safe. –  assylias Apr 17 '13 at 13:42
In what situation would they be thread unsafe ? Nothing can change after object creation ... so I don't undestand how they would ever be unsafe. –  NimChimpsky Apr 17 '13 at 13:56
I really don't understand stackoverflow.com/q/16062274/106261 –  NimChimpsky Apr 17 '13 at 14:06

You can easily guarantee immutability by encapsulation alone, so it's not necessary:

// This is trivially immutable.
public class Foo {
    private String bar;
    public Foo(String bar) {
        this.bar = bar;
    public String getBar() {
        return bar;

However, you also must guarantee it by encapsulation in some cases, so it's not sufficient:

public class Womble {
    private final List<String> cabbages;
    public Womble(List<String> cabbages) {
        this.cabbages = cabbages;
    public List<String> getCabbages() {
        return cabbages;
// ...
Womble w = new Womble(...);
// This might count as mutation in your design. (Or it might not.)

It's not a bad idea to do so to catch some trivial errors, and to demonstrate your intent clearly, but "all fields are final" and "the class is immutable" are not equivalent statements.

share|improve this answer
+1 for Womble... –  Alec Gorge Apr 17 '13 at 16:21

Immutable = not changeable. So making properties final is a good idea. If not all properties of an object are protected from being changed I wouldn't say the object is immutable.

BUT an object is also immutable if it doesn't provide any setters for it's private properties.

share|improve this answer

Immutable objects MUST not be modified in any way after their creation. final of course helps to achieve that. You guarantee that they will not ever be changed. BUT what if you have an array inside your object that is final? Of course the reference is not changable, but the elements are. Look here at almost the same question I gave also:


share|improve this answer

Simply declaring an object as final does not make it inherently immutable. Take for example this class:

import java.util.Date;

* Planet is an immutable class, since there is no way to change
* its state after construction.
public final class Planet {

  public Planet (double aMass, String aName, Date aDateOfDiscovery) {
     fMass = aMass;
     fName = aName;
     //make a private copy of aDateOfDiscovery
     //this is the only way to keep the fDateOfDiscovery
     //field private, and shields this class from any changes that 
     //the caller may make to the original aDateOfDiscovery object
     fDateOfDiscovery = new Date(aDateOfDiscovery.getTime());

  * Returns a primitive value.
  * The caller can do whatever they want with the return value, without 
  * affecting the internals of this class. Why? Because this is a primitive 
  * value. The caller sees its "own" double that simply has the
  * same value as fMass.
  public double getMass() {
    return fMass;

  * Returns an immutable object.
  * The caller gets a direct reference to the internal field. But this is not 
  * dangerous, since String is immutable and cannot be changed.
  public String getName() {
    return fName;

//  /**
//  * Returns a mutable object - likely bad style.
//  *
//  * The caller gets a direct reference to the internal field. This is usually dangerous, 
//  * since the Date object state can be changed both by this class and its caller.
//  * That is, this class is no longer in complete control of fDate.
//  */
//  public Date getDateOfDiscovery() {
//    return fDateOfDiscovery;
//  }

  * Returns a mutable object - good style.
  * Returns a defensive copy of the field.
  * The caller of this method can do anything they want with the
  * returned Date object, without affecting the internals of this
  * class in any way. Why? Because they do not have a reference to 
  * fDate. Rather, they are playing with a second Date that initially has the 
  * same data as fDate.
  public Date getDateOfDiscovery() {
    return new Date(fDateOfDiscovery.getTime());

  // PRIVATE //

  * Final primitive data is always immutable.
  private final double fMass;

  * An immutable object field. (String objects never change state.)
  private final String fName;

  * A mutable object field. In this case, the state of this mutable field
  * is to be changed only by this class. (In other cases, it makes perfect
  * sense to allow the state of a field to be changed outside the native
  * class; this is the case when a field acts as a "pointer" to an object
  * created elsewhere.)
  private final Date fDateOfDiscovery;
share|improve this answer


For example, see the implementation of java.lang.String. Strings are immutable in Java, but the field hash is not final (it is lazily computed the first time hashCode is called and then cached). But this works because hash can take on only one nondefault value that is the same every time it is computed.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.