Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have got one class with various member variables. There is a constructor and there are getter-methods, but no setter-methods. In fact, this object should be immutable.

public class Example {
   private ArrayList<String> list; 

Now I noticed the following: when I get the variable list with a getter-method, I can add new values and so on - I can change the ArrayList. When I call the next time get() for this variable, the changed ArrayList is returned. How can this be? I didn't set it again, I just worked on it! With a String this behaviour isn't possible. So what is the difference here?

share|improve this question

7 Answers 7

up vote 24 down vote accepted

Just because the reference to the list is immutable doesn't mean that the list it refers to is immutable.

Even if list was made final this would be allowed

// changing the object which list refers to

but this would not allowed:

// changing list
example.list = new ArrayList<String>();   // assuming list is public

In order to make the list immutable (prevent also the first line), I suggest you use Collections.unmodifiableList:

public class Example {
    final private ArrayList<String> list;

    Example(ArrayList<String> listArg) {
        list = Collections.unmodifiableList(listArg);

(Note that this creates an unmodifiable view of the list. If someone is holding on to the original reference, then the list can still be modified through that.)

With a String this behaviour isnt possible. So what is the difference here?

That is because a String is already immutable (unmodifiable) just as the list would be if you turned it into an unmodifiableList.


              String data structure  | List data structure
Immutable  | String                  | Collection.unmodifiableList(...)   |
Mutable    | StringBuffer            | ArrayList                          |
share|improve this answer
AFAIK Collections.unmodifiableList() returns an immutable WRAPPER for given list. If I am correct, above will not guarantee immutability. A class may instantiate a list, instantiate Example, and can still modify the list that Example is holding by modifying the original list passed to the constructor. Albeit the answer may suffice to address the differences, it may fail to meet strict "immutability" requirements. –  Maurice Jun 19 at 0:09
That's correct. Answer updated. You could do Collections.unmodifiableList(new ArrayList<>(listArg)) to make sure no one holds a reference to the underlying mutable list and thus avoid mutability. –  aioobe Jun 19 at 7:26

You are returning a reference to the list. And list isn't immutable.

If you do not want your list to be changed return a copy of it:

public List<String> get() {
    return new ArrayList<String>(this.list);

Or you can return a unmodifiable list:

public List<String> get() {
    return Collections.unmodifiableList(this.list);
share|improve this answer

The key is to understand that you're not changing the string - you're changing which string references the list contains.

To put it another way: if I take a dollar out of your wallet, and replace it with a dime, I haven't changed either the dollar or the dime - I've just changed the contents of your wallet.

If you want a read-only view on the list, look at Collections.unmodifiableList. That won't stop the list that it's wrapping from changing of course, but it will stop anyone who only has a reference to the unmodifiable list from modifying the contents.

For a truly immutable list, look at Guava's ImmutableList class.

share|improve this answer

As the other answers say the Object you return from the getters is still mutable.

You can turn the List immutable by decorating it using the Collections class:

 list = Collections.unmodifiableList(list);

If you return this to clients they will not be able to add or remove elements to it. However, they can still get elements out of the list - so you have to make sure they're immutable too, if that's what you're after!

share|improve this answer

Therefore you should not provide a getter method for the list if you want to protect it from being changed.

Its objects are still staying intact since you didn't have setters. But what you do is remove/add new/different objects to it and this is fine.

share|improve this answer

The list reference is immutable, but not the list. If you want the list itself to be immutable, consider using ImmutableList

share|improve this answer

Collections.unmodifiableList() makes list unmidifiable. Which again creates a new final array list and override add, remove, addall and clear method to throw unsupportedoperationexception. Its a hack of Collections class. But at compile time it does not stop you from adding and removing stuff. I would rather go with cloning of that list. Which can help me to keep my existing object immutable and does not cost me creating of new list. Read difference between cloning and new operator(http://www.javatpoint.com/object-cloning). Also will help from crashing my code at runtime.

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.