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I want to see example, when would it be good idea to use AtomicReferenceArray.

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5 Answers 5

up vote 6 down vote accepted

looks like it's functionally equivalent to AtomicReference[], occupying a little less memory though.

So it's useful when you need more than a million atomic references - can't think of any use case.

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not exactly correct - see fahd's answer for a description. –  aperkins Sep 29 '10 at 17:21
Much better answer than the accepted one. It saves space vs an AtomicReference[] - one copy of the Unsafe class, lots of object references it can act upon. –  themightyjon Oct 5 '12 at 16:15

If you had a shared array of object references, then you would use an AtomicReferenceArray to ensure that the array couldn't be updated simultaneously by different threads i.e. only one element can be updated at a time.

However, in an AtomicReference[] (array of AtomicReference) multiple threads can still update different elements simulateously, because the atomicity is on the elements, not on the array as a whole.

More info here.

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multiple threads can update AtomicReferenceArray elements simultaneously. –  irreputable Sep 29 '10 at 17:36
They can't. Read the link I posted. –  dogbane Sep 29 '10 at 17:56
Then what is the difference between AtomicReferenceArray and AtomicReference[]? Sun's implementation is by Doug Lea. –  dogbane Sep 30 '10 at 7:08
It uses less space, because each atomic reference in the AtomicReferenceArray only takes up one pointer. The compareAndSet operation is done in Unsafe by some special native operation on the pointer. –  starblue Sep 30 '10 at 14:45
Yeah, though this answer has been accepted it is actually incorrect. You can check the source if you like. As some have said here, it is an array of object references, any one of which can be updated atomically. Not with respect to any other reference in the array though. It saves space vs an AtomicReference[], by only using one set of the stuff needed to perform this magic (the Unsafe class) and using offsets to alter any one of the object references it holds. grepcode.com/file/repository.grepcode.com/java/root/jdk/openjdk/… –  themightyjon Oct 5 '12 at 16:12

It could be useful if you have a large number of objects that are updated concurrently, for example in a large multiplayer game.

An update of reference i would follow the pattern

boolean success = false;
while (!success)
    E previous = atomicReferenceArray.get(i);
    E next = ... // compute updated object
    success = atomicReferenceArray.compareAndSet(i, previous, next);

Depending on the circumstances this may be faster and/or easier to use than locking (synchronized).

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One possible use case would have been ConcurrentHashMap which extensively uses array internally. Array can be volatile but at per element level sematics can't be volatile. it's one of the reason automic array came into existence.

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import java.util.concurrent.atomic.AtomicReferenceArray;

public class AtomicReferenceArrayExample {
    AtomicReferenceArray<String> arr = new AtomicReferenceArray<String>(10);

    public static void main(String... args) {
        new Thread(new AtomicReferenceArrayExample().new AddThread()).start();
        new Thread(new AtomicReferenceArrayExample().new AddThread()).start();

    class AddThread implements Runnable {
        public void run() {
            // Sets value at the index 1
            arr.set(0, "A");
            // At index 0, if current reference is "A" then it changes as "B".
            arr.compareAndSet(0, "A", "B");
            // At index 0, if current value is "B", then it is sets as "C".
            arr.weakCompareAndSet(0, "B", "C");


//    Result:
//        C
//        C
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