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A lot of our code is legacy but we are moving to a "Big Data" back-end and I'm trying to evangelize the newer API calls, encourage the use of the latest Spring libraries etc. One of our problems is application layer ID generation. For reasons I don't understand, a higher authority want sequential BigInteter's. I would have made them random with re-generate and re-try on failed insertions but I done got vetoed.

Grumbling aside, I'm in a position where I need to increment and get a BigInteger across threads and do it in a safe and performant manner. I've never used AtomicReference before but it looks pretty close to perfect for this application. Right now we have a synchronized code block which hurts our performance pretty badly.

Is this the right way to go? Syntax examples?

I should mention that the way this module works, it hits the database using a Stored Procedure to grab a range of values to use. Tens of thousands at a time so that it only happens maybe once in 20 minutes. This keeps the various servers from stepping on each-other but it also adds the wrinkle of having to set the BigInteger to an arbitrarily subsequent value. Of course, that needs to be thread safe also.

P.S. I still think my random generation idea is better than handling all this threading stuff. A BigInteger is a ridiculously large number and the odds of ever generating the same one twice have to be close to nil.

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2  
Doesn't seem like AtomicReference does it for you without locking. But unless you need integers larger than longs, I would be surprised if BigInteger wasn't slowing you down. Try to convince them to go with AtomicLong. –  Rob I Dec 22 '12 at 20:56
    
I'll look into that. Regardless, I'm still professionally curious about the answer. ;-) Especially because they might veto me again. Politics. –  user447607 Dec 22 '12 at 21:03
    
AtomicReference (like the other Atomic.. classes) do not use locking. –  bowmore Dec 22 '12 at 21:15
    
Regarding the non-locking for AtomicReference, the impression I got from the documentation was that it was somewhat (at least a little) system dependent.... so while it wasn't guaranteed, it was what one might expect. For example, on my ancient 32 bit Flintstonian Stone-Box-With-A-Bird-In-It desktop dev box, one might expect the processor wouldn't be advanced enough to support it... but on the actual server after deployment this would seem significantly more likely. –  user447607 Dec 22 '12 at 21:15
    
From 'Java Concurrency in Practice' : "in the worst case if a CAS-like instruction is not available the JVM uses a spin lock." –  bowmore Dec 22 '12 at 21:26

2 Answers 2

up vote 8 down vote accepted

It is possible using AtomicReference here's a quick draft :

public final class AtomicBigInteger {

    private final AtomicReference<BigInteger> valueHolder = new AtomicReference<>();

    public AtomicBigInteger(BigInteger bigInteger) {
        valueHolder.set(bigInteger);
    }

    public BigInteger incrementAndGet() {
        for (; ; ) {
            BigInteger current = valueHolder.get();
            BigInteger next = current.add(BigInteger.ONE);
            if (valueHolder.compareAndSet(current, next)) {
                return next;
            }
        }
    }
}

It is basically a copy of the AtomicLong code for incrementAndGet()

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Didn't notice this answer while I was writing mine :) –  Aviram Segal Dec 22 '12 at 21:15
    
Happens to me all the time :) –  bowmore Dec 22 '12 at 21:27
    
Yes, I was just looking at that code, here: docjar.com/html/api/java/util/concurrent/atomic/… –  user447607 Dec 22 '12 at 21:30
    
It occurs to me now that I might need an AtomicLong in an AtomicReference... The problem is that I also have to set the value in a threadsafe manner due to the occasional SP calls to get a new range of values for use. –  user447607 Dec 22 '12 at 21:57
    
Nope. A review of the API shows that it has all the requisite get/set routines that AtomicReference does. –  user447607 Dec 23 '12 at 2:50

This basically tries over and over until the operation was atomic.

Personally I don't like this code as theoretically it could lead to thread starvation (although the person who showed it to me claims it never happens)

private AtomicReference<BigInteger> ref = new AtomicReference<BigInteger>(BigInteger.ZERO);

public BigInteger incrementAndGet() {
    BigInteger currVal, newVal;
    do {
        currVal = ref.get();
        newVal = currVal.clone();
        newVal.add(BigInteger.ONE);
    } while (!ref.compareAndSet(currVal, newVal));

}

I would go with AtomicLong if possible.

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From 'Java Concurrency in Practice' : "Theoretically, it could have to try arbitrarily many times if other threads keep winning the CAS race; in practice, this sort of starvation rarely happens." –  bowmore Dec 22 '12 at 21:29
1  
Yea I know, but it feels wrong :) –  Aviram Segal Dec 22 '12 at 21:31
    
@AviramSegal: Slight typo in "clone". Regarding starvation, it is possible if a low-priority thread has to compete against multiple high-priority threads, but unlike some backoff-and-retry algorithms, this one guarantees that at least someone will make forward progress. –  supercat Dec 19 '13 at 20:03

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