4

Basing on this topic, I put down an interesting version of Singleton pattern which implementation is based on AtomicIntegers.

The questions are:

  • is this implementation correct and thread-safe, and generally is it possible to use Atomic Variables for thread synchronization and management?
  • Additional question: if this implementation is thread-safe, do I really need a volatile modifier for instance variable?
public class StrangeSingleton
{

    private StrangeSingleton() {};

    private static volatile Object instance;

    private static AtomicInteger initCounter = new AtomicInteger();
    private static AtomicInteger readyCounter = new AtomicInteger();

    static Object getInstance()
    {

        if (initCounter.incrementAndGet() == 1)
        {
            instance = new Object();

            readyCounter.incrementAndGet();

            return instance;
        }
        else if (readyCounter.get() == 1)
        {
            return instance;
        }
        else
        {
            //initialization not complete yet.
            //write here some logic you want:               
            //sleep for 5s and try one more time,
            //or throw Exception, or return null..

            return null;
        }
    }
}

UPDATE: added the private constructor, but its not the point.

4
  • 2
    You are missing the private constructor !
    – Santosh
    Sep 19, 2012 at 13:22
  • How can it be a singleton when anybody can call new StrangeSingleton(). Create a private constructor that takes no arguments.
    – km1
    Sep 19, 2012 at 13:24
  • 2
    You could use AtomicBoolean instead of AtomicInteger. Use compareAndSet().
    – Gray
    Sep 19, 2012 at 13:24
  • 1
    @Santosh You can create as many StrangeSingleton as you want, there will only be one instance object.
    – assylias
    Sep 19, 2012 at 13:26

4 Answers 4

8

is this implementation is correct and thread-safe, and generally is it possible to use Atomic Variables for thread synchronization and management?

Its is but it usually more complicated and cpu intensive as you need to busy wait to respond to changes quickly.

Additional question: if this implementation is thread-safe, do I really need a volatile modifier for instance variable?

In this case you don't because AtomicInteger contain volatile fields which will ensure correct happens-before/happens-after behaviour.


Of course you could just use an enum which is thread safe and much simpler ;)

enum Singleton {
    INSTANCE;
}
8
  • Peter, how does this compare with usual double-check locking mechanism (from performance point of view) ?
    – Santosh
    Sep 19, 2012 at 13:33
  • Double check locking would be faster than checking two AtomicXxxxx. Using an enum is the fastest as it doesn't need a volatile field and no checking. Sep 19, 2012 at 13:35
  • 1
    @Santosh Double-locking also isn't necessarily safe on all platforms for 1.4 and earlier due to some implementation semantics. (Wikipedia article.) This isn't a problem in 5+. Also, +1
    – Brian
    Sep 19, 2012 at 13:41
  • @Brian I haven't used Java 1.4 for 8 years so I forget these things. In fact I didn't know it could be a problem until I was already using Java 5.0 ;) Sep 19, 2012 at 13:44
  • 1
    The INSTANCE isn't loaded until it is used the first time. Its just as lazy loaded as the alternatives. Sep 19, 2012 at 14:27
2

is this implementation correct and thread-safe, and generally is it possible to use Atomic Variables for thread synchronization and management?

Yes, but for the readyCounter variable you should probably use a CountDownLatch, like this:

private static AtomicInteger initCounter = new AtomicInteger();
private static CountDownLatch readyCounter = new CountDownLatch(1);

static Object getInstance()
{

    if (initCounter.incrementAndGet() == 1)
    {
        try {
            instance = new Object();
            return instance;
        } finally {
            readyCounter.countDown();
        }
    }
    else
    {
        readyCounter.await();
        return instance;
    }
}

Calling await() also solves the initialization race condition. (I also added a try-finally block to avoid deadlocks on a constructor exception.)

Additional question: if this implementation is thread-safe, do I really need a volatile modifier for instance variable?

No, not if you call the relevant AtomicInteger or CountDownLatch functions before accessing the instance variable. Look for happens-before in the documentation.

0
0

Thread T1 may be suspended on instance = new Object();, T2 will then hit the else{} block since readyCounter hasn't been incremented yet. Thtat is not quite correct since initialization has completed, what's lagging behind is the state book-keeping

0

I would rather do one synchronized block in your getInstance() method. This is sufficient. You don't need these strange counters which are also not so safe as @David noticed.

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