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Is there any Java library offering an ImmutableBitSet? I didn't find any, neither Guava nor using Google.

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What would you use it for? – Joachim Sauer Aug 11 '11 at 9:57
@Joachim Sauer For the same things I'm using BitSet - remembering what's on and what's off. It should be immutable, since it shouldn't get changed after creation and it must be thread-safe. It should have a constructor taking an ordinary BitSet. – maaartinus Aug 11 '11 at 10:05
By "what's on and what's off", are we talking about some pre-defined set of features/flags? If so, then an EnumSet might be a good solution. While it is not inherently immutable, you can easily make a unmodifiable wrapper using Collection.unmoidifiableSet(). – Joachim Sauer Aug 11 '11 at 10:08
@Joachim Sauer: I use a couple of such pre-defined sets, they're fixed, but I don't want to convert all of them to enums (too many elements, too much writing, loss of flexibility). – maaartinus Aug 11 '11 at 11:40
Too much writing? Sounds like a job for search & replace to me. And what flexibility are you loosing? Well, it's your choice. – Joachim Sauer Aug 11 '11 at 14:37

You could use BigInteger, since it has setBit, testBit and clearBit.

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This could work, just the conversion to and from BitSet (which I want to use as builder) could get complicated. – maaartinus Aug 12 '11 at 6:53
The problem with BigInteger is that it doesn't allow leading zeroes; the highest bit is always set. – erickson Nov 22 '11 at 20:32
@erickson: I don't think so. For each non-empty BitSet there's a highest bit; for the empty BitSet use BigInteger.ZERO. You need no leading zeros: Each number can be viewed as having an infinite number of leading zero and each BitSet has an infinite number of implicit cleared bits -- the situation is the same in both cases. – maaartinus Jul 14 '12 at 21:50
@maaartinus Sure, if you feel okay about pulling that logic out of the set and into your client(s), it can obviously be used that way. – erickson Jul 14 '12 at 22:07

A workaround:

store the BitSet in a private field and expose it with a cloning public method:

private final BitSet bits;
public BitSet bits(){
    return (BitSet) bits.clone();


private final BitSet bits;
public BitSet bits(){
    BitSet clone = new BitSet();
    return clone;
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Nice idea, but... it could get a bit confusing to rely on using a mutable copy for each access. And it also could be used quite inefficiently if you always call bits(). – maaartinus Aug 12 '11 at 6:48
@martinuus I know. It's not perfect, it's just one of several ideas. Of course if you used it several times per method you'd store it in a local variable first. – Sean Patrick Floyd Aug 12 '11 at 7:44

It's easy to make a practically immutable BitSet from a java.util.BitSet by extending it and knock out modifier methods with throws UnsupportedException or empty block.

However, since BitSet's field which stores effective data isn't final, you have to apply one of the safe publication idioms to achieve thread-safety (copied from here):

  • Initializing an object reference from a static initializer;
  • Storing a reference to it into a volatile field or AtomicReference;
  • Storing a reference to it into a final field of a properly constructed object
  • Storing a reference to it into a field that is properly guarded by a lock.

Another solution could be to make a new ImmutableBitSet class, embed a BitSet into it as a field (with final modifier) and delegate the embedded object's reader methods to the new class.

Note that the latter solution doesn't break Liskow Substitution Principle while the first one does.

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I tried it, and it's really easy. However, I don't think I achieve thread safety this way - there's nothing final there. – maaartinus Aug 11 '11 at 13:58
Hey! If it's immutable, it's inherently thread safe. Go it over.Do you mean 'final' as the keyword? What do you want with it? It has nothing with thread-safety. Maybe you think about 'synchronized'. Anyway, you can put it on the methods of your extension class, if you want. – pcjuzer Aug 15 '11 at 8:35
Yes, immutable implies thread-safe, but only because of the memory barrier at the very end of a constructor, which I somehow missed to think about. And no, in no case I'm confusing "final" and "synchronized". Sorry, but saying that "final" has nothing to do with "thread-safe" is plain wrong. – maaartinus Aug 15 '11 at 18:44
Well, I meant "final" as the keyword which prevents method overriding or extension of class, which afterall has some indirect relation with thread-safety but not much. But I see you think about 'final' which prevents reassigning fields or local variables which, you're right, has more relation with thread-safety. But an object can be 'effectively immutable' even by not having 'final' fields, if the fields practically never change. Knocking out modifiers exactly does this. java.util.Collections.unmodifiableList() does similar thing but not with extension but with delegation. – pcjuzer Aug 16 '11 at 7:12
I think, you're wrong. Watch this talk by Jeremy Manson at 46:10 to see what happens if you omit final. – maaartinus Aug 21 '11 at 15:45
up vote 3 down vote accepted

I decided to make a summary of all the answers:

I see no way to get everything perfect, i.e., to get an immutable subclass of BitSet, so that equals works in an thread-safe manner. I admit that I didn't state all my requirements in the question.

Inheriting from BitSet and letting all the mutator methods throw an exception is easy and works. The only problem is that equals called from BitSet itself is not thread-safe since it accesses the non-final inherited fields directly. All other methods can be made thread-safe by a trick described below.

Delegating to BitSet is also easy and works, and its only problem is that a BitSet can't be equal to an ImmutableBitSet. Note that for thread safety the delegate must be stored in a final field.

Combining inheritance and delegation looks promising:

public class ImmutableBitSet extends BitSet {
    private final ImmutableBitSet delegate;

    public ImmutableBitSet(BitSet original) {
        or(original); // copy original to this
        delegate = this; // initialize a final reference for thread safety

    @Override // example mutator method
    public void and(BitSet set) {
        throw new UnsupportedOperationException();

    @Override // example non-mutator method
    public boolean get(int bitIndex) {
        return delegate.getPrivate(bitIndex);

    // needed in order to avoid endless recursion
    private boolean getPrivate(int bitIndex) {


It looks strange, but works nearly perfect. Call to bitSet.equals(immutableBitSet) are not thread-safe, because of them accessing the non-final fields directly. So it was just a fruitless exercise.

Using a BitInteger is quite a lot of work if one wants to implement all the methods and conversion to and from the mutable BitSet. So I'd recommend either delegation or inheritance, depending on the desired behavior of equals and on the need for thread safety.

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Ideally it would be nice to have an ImmutableBitSetBuilder aka Guava style. Anyway I put a feature request into Guava: . Please vote on it if your interested. – Adam Gent Jul 6 '12 at 12:57

You could maybe use BigInteger. It is immutable, and has bit manipulation methods.

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Personally, I prefer an EnumSet over a BitSet. It is implemented as a bit field, but has the API of a set with strong naming. Really this is the best of both worlds. Guava does provide an ImmutableEnumSet

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I also prefer EnumSet, but I don't want to use enums here (as explained in the comments to the question). – maaartinus Aug 12 '11 at 6:51

I have implemented such based on org.apache.lucene.util.OpenBitSet from the Apache Lucene project here

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You did, but you doesn't allow ImmutableBitSet and MutableBitSet be equal. This might be fine, but I wanted to do it the way List and Set do. – maaartinus Jan 24 '14 at 19:00

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