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just see that there is AtomicBoolean class in Java 5 and I would like to ask general question. How I can use it and what's for AtomicBoolean class?

Thank you.

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5 Answers 5

up vote 65 down vote accepted

When multiple threads need to check and change the boolean. For example:

if (!initialized) {
   initialize();
   initialized = true;
}

This is not thread-safe. You can fix it by using AtomicBoolean:

if (atomicInitialized.compareAndSet(false, true)) {
    initialize();
}
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3  
Shouldn't that be if (atomicInitialized.compareAndSet(false, true))? Well, I guess the effect is the same either way. –  ColinD Dec 21 '10 at 16:13
    
yes, thanks, fixed that. It would also work the other way I think, but that's better. –  Bozho Dec 21 '10 at 16:15
13  
It doesn't look like a real-world example - other thread can see true when initialize() haven't been completed. So, it works only if other threads don't care about completion of initialize(). –  axtavt Dec 21 '10 at 16:19
    
@axtavt: I think it's a perfectly valid real-world example if initialized is simply being used to ensure that one and only one thread will invoke the initialize() method. Obviously initialized being true doesn't mean that initialization has definitely completed in this case, so maybe a slightly different term would be better here. Again, it depends on what it's being used for. –  ColinD Dec 21 '10 at 16:24
6  
you would need 2 booleans for initStarted and initCompleted, then the first thread sets initStarted and calls initialise(), the rest wait until initCompleted is true. –  Martin Dec 21 '10 at 17:32

Here is the notes (From Brian Goetz book) I made that might be of help to you

AtomicXXX classes

  • provide Non-bloking Compare-And-Swap implementation

  • Takes advantage of the support provide by hardware (the CMPXCHG instruction on Intel) When lots of threads are running through your code that uses these atomic concurrency API, they will scale much better than code which uses Object level monitors/synchronization. Since, Java's synchronization mechanisms makes code wait, when there are lots of threads running through your critical sections, a substantial amount of CPU time is spent in managing the synchronization mechanism itself (waiting, notifying, etc). Since the new API uses hardware level constructs (atomic variables) and wait and lock free algorithms to implement thread-safety, a lot more of CPU time is spent "doing stuff" rather than in managing synchronization.

  • not only offer better throughput, but they also provide greater resistance to liveness problems such as deadlock and priority inversion.

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The AtomicBoolean class gives you a boolean value that you can update atomically. Use it when you have multiple threads accessing a boolean variable.

The java.util.concurrent.atomic package overview gives you a good high-level description of what the classes in this package do and when to use them. I'd also recommend the book Java Concurrency in Practice by Brian Goetz.

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Would the downvoter care to comment? What do you think is wrong with this answer? –  Cameron Skinner Sep 8 '12 at 19:49

There are two main reasons why you can use an atomic boolean. First its mutable, you can pass it in as a reference and change the value that is a associated to the boolean itself, for example.

public final class MyThreadSafeClass{

    private AtomicBoolean myBoolean = new AtomicBoolean(false);
    private SomeThreadSafeObject someObject = new SomeThreadSafeObject();

    public boolean doSomething(){
         someObject.doSomeWork(myBoolean);
         return myBoolean.get(); //will return true
    }
}

and in the someObject class

public final class SomeThreadSafeObject{
    public void doSomeWork(AtomicBoolean b){
        b.set(true);
    }
}

More importantly though, its thread safe and can indicate to developers maintaining the class, that this variable is expected to be modified and read from multiple threads. If you do not use an AtomicBoolean you must synchronize the boolean variable you are using by declaring it volatile or synchronizing around the read and write of the field.

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1  
For the love of god, that was only to show the mutability of the object itself. I specifically wrote that for demonstration purposes. –  John Vint Dec 21 '10 at 16:24
    
And further more, if that was ALL that was happening then yes, it will always return true –  John Vint Dec 21 '10 at 16:25
    
That isn't proving if it is or isnt thread-safe. I can finish my snippets of code to make the class very thread-safe, but that only kills my point. –  John Vint Dec 21 '10 at 17:23
    
There you go, a thread-safe class that in no way helps what I was explaining –  John Vint Dec 21 '10 at 17:26
1  
Much better example now :) –  Knubo Dec 21 '10 at 18:58

Excerpt from the package description

Package java.util.concurrent.atomic description: A small toolkit of classes that support lock-free thread-safe programming on single variables.[...]

The specifications of these methods enable implementations to employ efficient machine-level atomic instructions that are available on contemporary processors.[...]

Instances of classes AtomicBoolean, AtomicInteger, AtomicLong, and AtomicReference each provide access and updates to a single variable of the corresponding type.[...]

The memory effects for accesses and updates of atomics generally follow the rules for volatiles:

  • get has the memory effects of reading a volatile variable.
  • set has the memory effects of writing (assigning) a volatile variable.
  • weakCompareAndSet atomically reads and conditionally writes a variable, is ordered with respect to other memory operations on that variable, but otherwise acts as an ordinary non-volatile memory operation.
  • compareAndSet and all other read-and-update operations such as getAndIncrement have the memory effects of both reading and writing volatile variables.
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