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I thought I know a lot on the subject, but the following puzzles me. I know that on the particular PC I run this on, "_x++" is translated to three assembly instructions (move value to register from memory, increment in register, write back to memory). So why on Earth, when locked to a single CPU the threads incrementing the value manage to not be preempted at the exact time when a value is incremented, but still in a Register and not written back to memory? Does anybody know an answer to this? I'm guessing this works by sheer luck, but I can't exactly prove it.

I was able to make the correct result go away by setting a break point on inc eax in the disassembly window in VS, then making a few steps in the debugger, but that's no proof. Not a solid one.

[This code IS NOT THREAD-SAFE on purpose. This is not production code, it serves educational purposes. I'm trying to dig deep into the subject. Of course, with cache lines out of the picture, we get a lot, but still -- three instructions, and not even a single miss, that's weird! This is a 4 core CPU, x64.]

    private static int NumberOfThreads = 2;
    private const long IncrementIterations = 1000000000;

    private static int _x;

    static void Main(string[] args)
        Process.GetCurrentProcess().ProcessorAffinity = (IntPtr)1;

        Console.WriteLine("Hit Enter");

        while (true)
            var barrier = new Barrier(NumberOfThreads);

            _x = 0;

            var threads = new List<Thread>();

            for (int i = 0; i < NumberOfThreads; i++)
                var thread = new Thread(

                        for (int j = 0; j < IncrementIterations; j++)





            Console.WriteLine("Actual increments: " + (IncrementIterations * NumberOfThreads));

            if (_x != (IncrementIterations * NumberOfThreads))
                Console.WriteLine("Observed: " + _x);


    private static void BlockUntilAllThreadsQuit(IEnumerable<Thread> threadsToWaitFor)
        foreach (var thread in threadsToWaitFor)
share|improve this question
So are you trying to increment _x on different threads? – MatthewRz Jun 18 '12 at 21:56
Matthew, yes. But they are affine to a single CPU core. – Mikhail Jun 18 '12 at 21:57
There is no mystery as to why this works with all threads running on single core when x++ is a single assembly instruction, but in that particular case I have x++ as three instructions. – Mikhail Jun 18 '12 at 22:01
What is the output you get with the current code and what is the desired output? – MatthewRz Jun 18 '12 at 22:02
Could you post disassembled instructions around the increment? According to this ( article on MSDN "A thread can be preempted in the middle of the increment or decrement operation — for example, after it has loaded and incremented the count, but before the new value has been stored. While the thread is preempted, the other thread can increment the count, or the finalizer thread can decrement the count.". Also, is this a release or debug build? Can you confirm this happens in both? – ananthonline Jun 18 '12 at 22:05
up vote 3 down vote accepted

Your program would be clearer if you used a class with a _x field, rather than using a _x variable that gets hoisted to a closure. That having been said, the increment would only fail to be atomic if a thread got preempted while it was doing an increment, in particular between the time the load completes and the time the store begins. That's a very small window. It's possible that some arbitrary event could occur and trigger a task switch at that exact moment, but it's not very likely. Note that it's entirely possible that the amount of time required to run your loop will be such that the ordinary timer-tick events would consistently miss the magic window of opportunity.

If you want to test things a little better, I'd suggest perhaps adding a little code to the loop to randomize the timing a little bit (e.g. using a bona fide auto variable randThing initialized to 1, do something like:

  if (randthing & 0x20000000)
    randthing ^= 0x20043251); // Number picked out of hat; a primitive polynomial
                              // would be better.
    randthing <<= 1;

might cause the loop timing to vary a little from one iteration to the next, in a non-periodic fashion.

share|improve this answer
the time window seems to be rather small indeed. It skips a beat only once in 8 hours. I'm guessing that "arbitrary event" kicks in. I will try out that trick. Thanks. – Mikhail Jun 19 '12 at 9:34
this works like a charm - hits it every time, inserted the snippet in the loop right before the increment. Thanks a lot! – Mikhail Jun 19 '12 at 16:04
@Mikhail: You mean every time you run the program the increment fails at least once, right? Not that it fails on every loop iteration? – supercat Jun 19 '12 at 16:22
yes. Every run the program increment is missed at least once (actually - more than once). Thank you again. – Mikhail Jun 21 '12 at 6:37

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