I am in a situation where I want to use mutable versions of things like Integer. Do I have to use these classes (below) or does Java have something built in?


  • 9
    The question is why do you want to do this? Dec 23, 2010 at 15:41
  • 3
    For some cases (eg. a game, storing a piece of food carrying n calories, which can be depleted/added to), it might be better to use a class named after the use, (eg. class FoodItem { int calories; }, because it is clearer and methods can be added if needed later.
    – GKFX
    Jul 29, 2014 at 12:42
  • 8
    Java 8 lambdas work only with effectively final variables. To work around this limitation a mutable int is needed.
    – Alex
    Mar 22, 2017 at 12:58
  • 3
    You may want a counter which needs to be passed between methods. Passing an int doesn't work as if it is incremented in one method then the value won't be reflected in the other method. Apr 15, 2020 at 17:32

7 Answers 7


You could always wrap the value in an array like int[] mutable = {1}; if including the code for a mutable wrapper class is too cumbersome.

  • 3
    this is super clever and takes almost no space. plus avoids the syching done with AtomicInt.
    – CompEng88
    Jan 10, 2018 at 22:13

No, Java doesn't have these built in. And that is for a reason. Using mutable types is dangerous, as they can easily be misused. Additionally, it is really easy to implement it. For example, commons-lang has a MutableInt.

  • 7
    My guess is the java dev's wanted Integer to 'behave' like an int, which is..once you have a reference to it, it never changes (avoid confusion). But..it still seems odd to not have a mutable option somehow, to me...
    – rogerdpack
    Feb 11, 2013 at 23:02
  • 45
    "Using mutable types is dangerous because they can easily be misused." Most things can be misused. Immutable types exist for cases where safety is important, although they can be changed by reflection. With those cases out of the way, there's no reason to prevent people from using mutable types when they need them.
    – GKFX
    Jul 29, 2014 at 12:36
  • 2
    A better way to put it, immutable types create less confusion in e.g. maps and sets. If you had a mutable Integer and changed its value where it served as a key, it would mess up the collection. However, in case you need some mutable implementation of Integer, nothing is easier than creating some class with an int value inside. And you can be creative there - make it e.g. a Counter or Countdown, not just a plain int that enables quite anything. Give it some logic (unless you develop in Java EE that works bottoms-up).
    – Vlasec
    Aug 5, 2014 at 10:42
  • 1
    Certainly an old question, but hopefully someone can answer HOW they can be misused. What is so dangerous about using them? Aug 10, 2017 at 13:14
  • @user1175807 As Vlasec had commented, if you accidentaly modify a variable you have used somewhere else, it will cause weird bugs. Even worse, let's say you're writing a program that works together with a client's code. You need to implement a method which has a parameter of mutable Integer type. Now if you modify the mutable Integer for any reason, then it would also be changed in the client's program, which is totally unexpected, and will cause bugs that are hard to find.
    – GregT
    Nov 13, 2017 at 15:18

Since JDK 1.5 java now has java.util.concurrent.atomic.AtomicInteger

This is a thread safe mutable integer, example of use:

final AtomicInteger value = new AtomicInteger(0);

then later on:

  • 22
    This thead safety comes at a performance cost, which in many cases is not needed. For example, a common use case for me is to increment a counter captured by a lambda. Using an atomic is overkill.
    – Minas Mina
    May 18, 2018 at 12:53

Here's a small class I made for a mutable integer:

public class MutableInteger {
    private int value;
    public MutableInteger(int value) {
        this.value = value;
    public void set(int value) {
        this.value = value;
    public int intValue() {
        return value;

You could easily extend this to any other primitive. Of course, like everyone else is saying, you should use it carefully.

  • 1
    IMHO the best option has it doesn't give false clues about concurrency as using an atomic interger does. And an array, really I would never do such a bad thing in my code.. ;)
    – Snicolas
    May 27, 2015 at 22:51
  • 1
    Could be a good idea to provide a single generic wrapper class instead so You don't end up with a MutableInteger, MutableDouble, MutableString etc. but instead have a Mutable<Integer>, Mutable<Double>, ... The memory overhead (of using Integer over int will usually not fall into account. But you get a single, ready to use class that can handle most cases (If you want your integer to be comparable or similar things you still need to subclass, though).
    – Qw3ry
    Jan 7, 2017 at 18:46
  • It might be a good idea to make it extend Number. Jun 9, 2017 at 21:54

You can use an nnnn[] as a mutable object for any primitive type as @Alexandre suggests, java also has AtomicInteger and AtomicLong.

IMHO int is usually a better choice than Integer and that is mutable.

Can you more details of why you need a mutliple object, perhaps there is another way to achieve the same thing.

  • 8
    int is always mutable unless its also final Jan 31, 2012 at 15:39
  • 19
    It's not really valid to say that a primitive type is mutable. It can be changed but so can every non-final object if you just point to a new object. For example Integer a = 4; then a = 5; is valid code, but Integer is not mutable.
    – mjaggard
    Feb 1, 2012 at 9:08
  • I agree that Integer instances are not mutable even if references to them are, but that's a different type. Feb 1, 2012 at 9:34
  • Isn't this a good way to have a reference int parameter? For example a function that returns a paginated List of items (from the database), but also the total number of records. In such a case, AtomicInteger or MutableInteger seem to be useful. Of course the other way would be to have a getTotalRecords property instead of returning it in the same method.
    – msanjay
    Apr 24, 2012 at 7:21
  • 2
    int is not mutable because if you pass it to a method, there is no way for the method to change its value and have the new value reflected in the calling method Apr 15, 2020 at 17:36

AtomicInteger has already been mentioned. Mutable Doubles can be emulated with AtomicReference<Double>. The already mentioned warnings apply and it is bad style, but sometimes you have code like this

double sum=0
for (Data data:someListGenerator())

and want to refactor it in functional Java 8 style. If the code follows this pattern but adds considerable complexity to it, the most sensible conversion could be

AtomicReference<Double> sumref=new AtomicReference<>(0d);
double sum=sumref.get().doubleValue();

Of course, this is at least questionable style. But I found myself more than once in a situation with a twisted loop over a ResultSet computing and partly cumulating three different information from it. This makes it really hard to convert the code into proper functional style. Converting the cumulating parts according to the above pattern seemed to me a reasonable tradeoff between clean code and oversimplified refactoring.

  • You should really think about your wording: Even if you use a lambda, your example is not functional, as that prohibits side effects. If you really write it functional, you don't need mutables: someStreamGenerator().mapToDouble(Data::getValue).sum(). Even for cumulating three different informations, there is a functional way by using Stream.reduce or Stream.collect. I see no reason to refactor every loop to a functional code fragment, but if you want to go that way, you should go it until the end. Oct 17, 2018 at 10:01
  • 1
    As I wrote: This is not proper style and for each and any new code this should not be used. But when refactoring 400.000+ lines of code which evolved within 15+ years, you find constructs where proper rewrite into truly functional constructs can be extremely difficult. Then, rewriting into such hybrid-style can be a sensible trade-off as you get at least the basic structure aligned. for and foreach can be parts of complex frameworks which are functionally rewritten, so you have to align the rest of the code somehow around them. Oct 17, 2018 at 15:03
  • You are confusing lambdas and functional programming. In your example you didn't rewrite it "functional". And what is the point in rewriting everything with lambdas, when you lose readability, but don't get the advantages of functional programming? Why should one even try to get rid of every loop in a complex framework by using such hybrids? Oct 18, 2018 at 9:11
  • 1
    You have 1000 places with a certain idiom in your code. The idiom is driven by a library or whatever global structure. You replace that global structure with a new one based on functional approach and lambdas. 998 of your 1000 places can be converted cleanly into functional style. The remaining 2 are extremely difficult to convert properly. In such cases, I always mandate for converting into new style with such hybrid constructs. Only then you can get rid of whatever old global structures have been in the code. While not being perfect, the overall code quality increases. Oct 18, 2018 at 13:20

You can import the org.omg.CORBA package(or just the class you need) and in it you can use the Holder classes.

For example, it has the "IntHolder" where the field where it stores the integer is public, giving access to modify it.

public static void triple(IntHolder x){
    x.value = 3 * x.value;

IntHolder mutableInt = new IntHolder(10);

It also has "LongHolder" and "DoubleHolder" and tons of others that you can use. Use with caution.

Here is the api for it: https://docs.oracle.com/javase/7/docs/api/org/omg/CORBA/package-summary.html

  • 2
    While very smart way to fix the problem, with Java9 coming up, you probably don't want to use this -- that would import the whole CORBA module just for an int holder. Nov 25, 2016 at 10:23
  • Also the CORBA package is removed in Java 11.
    – jmizv
    Nov 27, 2023 at 18:49

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