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I have the following code:

    public static System.Int32 i = 0;

    static void Main(string[] args)
    {
        new Thread(Worker1) { IsBackground = true }.Start();
        new Thread(Worker2) { IsBackground = true }.Start();

        Console.WriteLine("Running... Press enter to quit");
        Console.ReadLine();
    }

    static void Worker1(object _)
    {
        while (true)
        {
            var oldValue = i;
            i++;
            var newValue = i;

            if (newValue < oldValue)
                Console.WriteLine("{2}, i++ went backwards! oldValue={0}, newValue={1}!", oldValue, newValue, DateTime.Now.ToString("HH:MM:ss.fff"));
        }
    }

    static void Worker2(object _)
    {
        while (true)
        {
            i++;
        }
    }

When run, this produces output that looks like this:

17:08:17.020, i++ went backwards! oldValue=6124653, newValue=6113984!
17:08:17.057, i++ went backwards! oldValue=18764535, newValue=18752368!
17:08:17.086, i++ went backwards! oldValue=27236177, newValue=27236176!
17:08:17.087, i++ went backwards! oldValue=27550457, newValue=27535008!
17:08:17.130, i++ went backwards! oldValue=40251349, newValue=40235492!
17:08:17.137, i++ went backwards! oldValue=42339974, newValue=42323786!
17:08:17.142, i++ went backwards! oldValue=43828602, newValue=43828436!
17:08:17.149, i++ went backwards! oldValue=45969702, newValue=45959111!
17:08:17.158, i++ went backwards! oldValue=48705847, newValue=48705549!
17:08:17.230, i++ went backwards! oldValue=71199684, newValue=71199674!

Note: this is being run on a quad-core i7 with hyperthreading on windows 7

As far as I can tell, either:

  • Thread2 is incrementing i approx 4 billion times (but not quite!) in between the reads of oldValue and newValue. Given the numbers and timings above though, it seems like there is a higher chance of me winning the lottery 10 times in the next 2 seconds.

  • The CPU and compiler are doing some reordering... This seems the logical explanation, but I can't quite figure out a sequence of operations that could actually cause this?

Can anyone shed some light on it?


To clarify the question: I am deliberately looking for code which reproduces memory reordering bugs as part of an educational excercise. There are many ways to fix this, I was mainly interested in analyzing what was happening.

@Tymek has shown the (blindingly obvious now that it's pointed out) answer below.

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It just might happen, that the OS needs some ressources while executing your program, which lead to a the feeling that there is a reordering. Just expect that with multithreading and multiple unsynschronized operations, every possible permutation will happen - sooner or later. –  weismat Aug 2 '12 at 6:23
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3 Answers

up vote 4 down vote accepted

You surely know that i++ is not atomic and looks really like something like this:

  • read i from memory to a register,
  • increment the register,
  • write register to memory where i is,
  • return i;

This sequence can be interrupted at any stage.

Having this in mind, one case which generates your message of doom is a follows:

  • Let's i be 100;
  • Thread 2 reads 100 and is interrupted;
  • Thread 1 executes for a while and increments i to 120 (few full loops), then reads i as 120, reads i and increments it to 121 and is interrupted before var newValue = i;;
  • Thread 2 increments i to 101 and is interrupted;
  • Thread one runs and executes var newValue = i <- this will read in 101;

Now oldValue is 120 and newValue is 101.

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If u want that the assignment of the old-value, the incrementation of i and the assignment of the new-value happens "at the same time" u should use a lock. Just introduce a private variable and then use the lock on this. This looks something like:

lock(lockObj)
{
  var oldValue = i;             
  i++;             
  var newValue = i;
}
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1  
You would have to lock, both i++ statements in the provided code. Locking just one will not change much. –  Tymek Aug 2 '12 at 6:45
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To avoid this issue you could use Interlocked.Increment it will garantee that operation will be atomic and thread safe. When you use i++ it is not atomary and value of it could be changed during incrementation (from another thread e.g.).

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