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Is there a neat way to do this using the Interlocked class? Or should I just use lock { }?

My specific use case is that I have multiple threads that compute a long value, and compare it to a shared "Maximum" value, replacing the shared value only if the local value is larger.

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Sorry you're out of luck here, use a lock. –  Blindy Jul 8 '11 at 13:54

2 Answers 2

up vote 2 down vote accepted

Try the Interlocked.CompareExchange method. I haven't tried, but something like this seems logical to me:

long localMax = Interlocked.Read(ref max);
while (value > localMax) {
  Interlocked.CompareExchange(ref max, value, localMax);
  localMax = Interlocked.Read(ref max);

As usual, stress test your code to try to catch concurrency issues.

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CompareExchange only checks for equality. You can't act on "greater than" comparisons etc. –  LukeH Jul 8 '11 at 13:51
Not using it alone... I've updated. –  Jordão Jul 8 '11 at 14:03
Those reads of the max field aren't guaranteed to be thread-safe. –  LukeH Jul 8 '11 at 14:10
That's OK, because the CompareExchange will "synch" with the current value of max. –  Jordão Jul 8 '11 at 14:12
Ohhh, but since it's a long, the read might not be atomic on 32 bit machines.... I'll update. –  Jordão Jul 8 '11 at 14:19

So long as the value of your shared field only ever increases then you could do something like this with a combination of Read and CompareExchange.

long sharedVal = Interlocked.Read(ref _sharedField);
while (localVal > sharedVal)
    long temp = Interlocked.CompareExchange(ref _sharedField, localVal, sharedVal);
    sharedVal = (temp == sharedVal) ? localVal : temp;

However, I would go for a plain lock in this situation: using Interlocked like this is less readable than a lock block and has the potential for much poorer performance too.

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Doesn't this risk an infinite loop? Supposed initially sharedField is 1 and localVal is 2. After the Interlocked.Read, another thread nips in and sets sharedField to 3. The Exchange will then return 3, so sharedVal will never change. –  Rob Jul 8 '11 at 14:25
Also, I accept that a lock solution is certainly more readable, but why would an Interlocked solution be poorer performance? –  Rob Jul 8 '11 at 14:26
@Rob: Yep, that was a mistake! I've already fixed just before your comment appeared. –  LukeH Jul 8 '11 at 14:26
@Rob: As for performance: this could potentially do tens/hundreds/thousands/millions etc iterations, with CompareExchange "failing" every time because the shared field is continually updated by other threads with a new value that's still lower than this thread's localVal. A plain lock will only need to wait-compare-exchange once (even though that wait could be a relatively long time compared to a small number of Interlocked calls). –  LukeH Jul 8 '11 at 14:33
Good point. Just out of curiosity, I might run some empirical tests. In my use case, each thread might try to update the shared field every 200ms or so. Presumably, a couple of instructions in the while loop will be so fast by comparison as to rarely if ever be pre-empted more than once. –  Rob Jul 8 '11 at 14:48

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