5

I was surprised that Java's AtomicInteger and AtomicLong classes don't have methods for modular increments (so that the value wraps around to zero after hitting a limit).

I figure I've got to be missing something obvious. What's the best way to do this?

For example, I want to share a simple int between threads, and I want each thread to be able to increment it, say, mod 10.

I can create a class which uses synchronization/locks, but is there a better, easier way?

4 Answers 4

16

Just mod 10 the value when you read from it?

public class AtomicWrappingCounter {
  private final AtomicLong counter = new AtomicLong();
  private final int max;

  public AtomicWrappingCounter(int max) {
    this.max = max;
  }

  public int get() {
    return (int) (counter.get() % max);
  }

  public int incrementAndGet() {
    return (int) (counter.incrementAndGet() % max);
  }
}

Obviously if you might increment this counter more than Long.MAX_VALUE times, you couldn't use this approach, but 9 quintillion is a lot of times to be incrementing (around 292 years at a rate of 1 per nanosecond!).

2
  • Don't these methods need to be synchronized, ColinD? What if one thread is inside incrementAndGet(), and the increment has completed, but not the modulo, and a different thread calls get() and it returns the incremented but not modulo'ed value?
    – user116228
    Oct 19, 2016 at 21:55
  • 1
    @Mark: No. The modulo is local to each thread. The AtomicLong will ensure that once incrementAndGet() has been called on it, the other thread calling get() will see the new value. Both threads then modulo the value on their own, and each sees the expected final result.
    – ColinD
    Oct 24, 2016 at 1:53
13

In Java 8 you can use getAndUpdate (and updateAndGet) in AtomicInteger.

For example if we want to have a counter that wraps to zero each time it hits 10.

AtomicInteger counter = new AtomicInteger(0);

// to get & update
counter.getAndUpdate(value -> (value + 1) % 10)
9

I would think the simplest way is to build a wrapping counter yourself which stores it's values in an AtomicInteger, something like

public class AtomicWrappingCounter {
    private AtomicInteger value;
    private final int max;

    public AtomicWrappingCounter(int start, int max) {
        this.value = new AtomicInteger(start);
        this.max = max;
    }

    public int get() {
        return value.get();
    }

    /* Simple modification of AtomicInteger.incrementAndGet() */
    public int incrementAndGet() {
        for (;;) {
            int current = get();
            int next = (current + 1) % max;
            if (value.compareAndSet(current, next))
                return next;
        }
    }
}

Why doesn't AtomicInteger provide something like this itself? Who knows, but I think the intention of the concurrency framework authors were to provide some building blocks you could use to better create your own higher-level functions.

12
  • They only really need to implement get and compareAndSet in the framework. All the other methods can be built on those.
    – finnw
    Jan 26, 2011 at 22:54
  • 1
    Clever - but I suspect that under heave contention this would actually perform worse than synchronization. Jan 26, 2011 at 23:09
  • @Michael can you elaborate why? Would it be any different than AtomicInteger's own behavior?
    – matt b
    Jan 26, 2011 at 23:35
  • 1
    @Michael: The thing is, incrementAndGet() is implemented just like his method here except without the mod.
    – ColinD
    Jan 26, 2011 at 23:40
  • 2
    Right, so in such a situation you wouldn't want to use Atomic classes anyway, a situation which basically negates the core of this question. Good info to know though.
    – matt b
    Jan 26, 2011 at 23:58
4

What's difficult about adding a synchronized modifier or block to your addModular() method?

The reason why the Atomic classes don't have this functionality is that they're based on specific atomic hardware instructions offered by current CPUs, and modular arithmetic cannot be implemented by those without resorting to locking or other more complex and potentially inefficient algorithms like the one suggested by matt.

0

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