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Is there an immutable alternative to the primitive arrays in Java? Making a primitive array final doesn't actually prevent one from doing something like

final int[] array = new int[] {0, 1, 2, 3};
array[0] = 42;

I want the elements of the array to be unchangeable.

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31  
Do yourself a favor and stop using arrays in Java for anything besides 1) io 2) heavy number crunching 3) if you need to implement your own List/Collection (which is rare). They are extremely inflexible and antiquated... as you have just discovered with this question. –  whaley Sep 13 '10 at 14:25
14  
@Whaley, and performances, and code where you don't need "dynamic" arrays. Arrays are still useful in lot of places, it's not that rare. –  Colin Hebert Sep 13 '10 at 14:29
8  
@Colin: yes but they're severely constraining; it's best to get into the habit of thinking "do I really need an array here or can I use a List instead?" –  Jason S Sep 13 '10 at 15:18
4  
@Colin: Only optimize when you need to. When you find yourself spending half a minute adding something that, for example, enlarges an array or you keep some index outside of the scope of a for-loop, you've already wasted some of your boss' time. Build first, optimize when and where it's needed - and in most applications, that's not in replacing Lists with arrays. –  fwielstra Sep 13 '10 at 19:11
3  
@Colin, performance-wise, an ArrayList is on par with arrays (since it is implemented internally on top of an array). However, it is generic, thus it is safer to use and more flexible. In most places where an array would be "useful", a collection would be equally useful or better. –  Péter Török Sep 14 '10 at 7:54

12 Answers 12

up vote 63 down vote accepted

Not with primitive arrays. You'll need to use a List or some other data structure:

List<Integer> items = Collections.unmodifiableList(Arrays.asList(0,1,2,3));
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7  
Somehow I never knew about Arrays.asList(T ...). I guess I can get rid of my ListUtils.list(T ...) now. –  MattRS Feb 9 '11 at 21:23

My recommendation is to not use an array or an unmodifiableList but to use Guava's ImmutableList, which exists for this purpose.

ImmutableList<Integer> values = ImmutableList.of(0, 1, 2, 3);
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2  
+1 Guava's ImmutableList is even better than Collections.unmodifiableList ,because it is a separate type. –  sleske Feb 18 '11 at 10:35
12  
ImmutableList is often better (it depends on the use case) because it's immutable. Collections.unmodifiableList is not immutable. Rather, it's a view that receivers can't change, but the original source CAN change. –  Charlie Collins Mar 6 '11 at 16:31

As others have noted, you can't have immutable arrays in Java.

If you absolutely need a method that returns an array that doesn't influence the original array, then you'd need to clone the array each time:

public int[] getFooArray() {
  return fooArray == null ? null : fooArray.clone();
}

Obviously this is rather expensive (as you'll create a full copy each time you call the getter), but if you can't change the interface (to use a List for example) and can't risk the client changing your internals, then it may be necessary.

This technique is called making a defensive copy.

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3  
Where did he mention that he needed a getter? –  Erick Robertson Sep 13 '10 at 14:22
3  
@Erik: he didn't, but that's a very common use case for immutable data structures (I modified the answer to refer to methods in general, as the solution applies everywhere, even if it's more common in getters). –  Joachim Sauer Sep 13 '10 at 14:53
2  
Is it better to use clone() or Arrays.copy() here? –  kevinarpe Jul 16 '13 at 12:44

There is one way to make an immutable array in Java:

final String[] IMMUTABLE = new String[0];

Arrays with 0 elements (obviously) cannot be mutated.

This can actually come in handy if you are using the List.toArray method to convert a List to an array. Since even an empty array takes up some memory, you can save that memory allocation by creating a constant empty array, and always passing it to the toArray method. That method will allocate a new array if the array you pass doesn't have enough space, but if it does (the list is empty), it will return the array you passed, allowing you to reuse that array any time you call toArray on an empty List.

final static String[] EMPTY_STRING_ARRAY = new String[0];

List<String> emptyList = new ArrayList<String>();
return emptyList.toArray(EMPTY_STRING_ARRAY); // returns EMPTY_STRING_ARRAY
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1  
Good point about empty arrays can be immutable. –  kevinarpe Jul 16 '13 at 12:45

If you need (for performance reason or to save memory) native 'int' instead of 'java.lang.Integer', then you would probably need to write your own wrapper class. There are various IntArray implementations on the net, but none (I found) was immutable: Koders IntArray, Lucene IntArray. There are probably others.

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Another one answer

static class ImmutableArray<T> {
    final T[] array;

    private ImmutableArray(T[] a){
        array = Arrays.copyOf(a, a.length);
    }

    public static <T> ImmutableArray<T> from(T[] a){
        return new ImmutableArray<T>(a);
    }

    public T get(int index){
        return array[index];
    }
}

{
    final ImmutableArray<String> sample = ImmutableArray.from(new String[]{"a", "b", "c"});
}
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No, this is not possible. However, one could do something like this:

List<Integer> temp = new ArrayList<Integer>();
temp.add(Integer.valueOf(0));
temp.add(Integer.valueOf(2));
temp.add(Integer.valueOf(3));
temp.add(Integer.valueOf(4));
List<Integer> immutable = Collections.unmodifiableList(temp);

This requires using wrappers, and is a List, not an array, but is the closest you will get.

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3  
No need to write all those valueOf()s, autoboxing will take care of that. Also Arrays.asList(0, 2, 3, 4) would be much more concise. –  Joachim Sauer Sep 13 '10 at 13:50
    
@Joachim: Point of using valueOf() is to utilize the internal Integer object cache to reduce memory consumption/recycling. –  Esko Sep 13 '10 at 13:55
3  
@Esko: read the autoboxing spec. It does exactly the same thing, so there's no difference here. –  Joachim Sauer Sep 13 '10 at 13:59
1  
@John You'll never get a NPE converting an int to an Integer though; just have to be careful the other way around. –  ColinD Sep 13 '10 at 14:34
1  
@John: you're right, it can be dangerous. But instead of avoiding it completely, it's probably better to understand the danger and avoid that. –  Joachim Sauer Sep 13 '10 at 14:58

In some situations, it will be lighter weight to use this static method from Google Guava library: List<Integer> Ints.asList(int... backingArray)

Examples:

  • List<Integer> x1 = Ints.asList(0, 1, 2, 3)
  • List<Integer> x1 = Ints.asList(new int[] { 0, 1, 2, 3})
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If you want to avoid both mutability and boxing, there is no way out of the box. But you can create a class which holds primitive array inside and provides read-only access to elements via method(s).

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Well.. arrays are useful to pass as constants (if they were) as variants parameters.

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What's a "variants parameter"? Never heard of it. –  sleske Feb 18 '11 at 10:36
    
Sorry, varargs ;) –  Martin Feb 23 '11 at 14:25
    
Using arrays as constants is exactly where many people FAIL. The reference is constant, but the contents of the array are mutable. One caller/client could change the contents of your "constant." This is probably not something you want to allow. Use an ImmutableList. –  Charlie Collins Mar 6 '11 at 16:34
    
@CharlieCollins even this can be hacked via reflection. Java is unsafe language in terms of mutability... and this isn't going to change. –  Sarge Borsch Jan 19 at 4:42

Check Array Mutability section
Java sun docs!
Helped me!

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While it's true that Collections.unmodifiableList() works, sometimes you may have a large library having methods already defined to return arrays (e.g. String[]). To prevent breaking them, you can actually define auxiliary arrays that will store the values:

public class Test {
    private final String[] original;
    private final String[] auxiliary;
    /** constructor */
    public Test(String[] _values) {
        original = new String[_values.length];
        // Pre-allocated array.
        auxiliary = new String[_values.length];
        System.arraycopy(_values, 0, original, 0, _values.length);
    }
    /** Get array values. */
    public String[] getValues() {
        // No need to call clone() - we pre-allocated auxiliary.
        System.arraycopy(original, 0, auxiliary, 0, original.length);
        return auxiliary;
    }
}

To test:

    Test test = new Test(new String[]{"a", "b", "C"});
    System.out.println(Arrays.asList(test.getValues()));
    String[] values = test.getValues();
    values[0] = "foobar";
    // At this point, "foobar" exist in "auxiliary" but since we are 
    // copying "original" to "auxiliary" for each call, the next line
    // will print the original values "a", "b", "c".
    System.out.println(Arrays.asList(test.getValues()));

Not perfect, but at least you have "pseudo immutable arrays" (from the class perspective) and this will not break related code.

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