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I have a System.Timers.Timer that increments a counter every 3 seconds. Another thread may also set this variable to any value under some conditions.

Tried to use Interlocked.Increment but it does not have an overload for UInt16. The next thing in mind is lock, but I am not really sure how to make thread-safe access (read/write/increment) to this variable.

Edited: the code originally used an int, but changed to UInt16 as suggested

private volatile System.UInt16 mCounter = 0;
private readonly object mCounterLock = new object();
public System.UInt16 Counter {
  get {
    lock (mCounterLock) {
      return mCounter;
    }
  }
  set {
    lock (mCounterLock) {
      mCounter = value;
    }
  }
}
private System.Timers.Timer mCounterTimer;

void mCounter_Elapsed(object sender, System.Timers.ElapsedEventArgs e) {
  lock (mCounterLock) {
    Counter++;
  }
}
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2  
Int16 isn't an option? –  Jesus Ramos Jan 2 '12 at 7:38
1  
@JesusRamos, but there's no Interlocked.Increment(Int16) –  fxam Jan 2 '12 at 7:41
    
Just use the lock statement. –  Jesus Ramos Jan 2 '12 at 7:48
1  
It'd be a lot easier if you told us what the requirements are, rather than telling us half of a solution. From looking at your original question and the edit, it looks like the question is not about either incrementing int or uint16, but about incrementing some type up to 65535 and then wrapping around. That may make it a lot easier to answer, if you don't instead talk about specifically incrementing an int or a UInt16 and adding unnecessary constraints. –  jalf Jan 2 '12 at 8:20
1  
@fxam: but it doesn't have to be an uint16, according to your original question. What if someone has a solution for you which uses another data type? In your original question it was not a requirement that the data type was a uint16. But now it is? How does that make sense? –  jalf Jan 2 '12 at 9:54

4 Answers 4

up vote 4 down vote accepted

Just change your Int32 value to Int16 if you only need 2 bytes. Since Shai removed his answer here's some code

UInt16 myval = 0;
Object myvalLock = new Object();
....
lock (myvalLock) { myval++; }
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Use a combination of Interlocked.CompareExchange and Interlocked.Increment wherein you assign 0 if the value reaches 65535

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I would just use an UInt32 with Interlocked.Increment and cast it to UInt16 after every read access.

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volatile int iNum = 0;
...


iActual = iNum;
do
{
   iExpected = iActual;
   iNext = (iExpected+1) & 0xFFFF;
   iActual = Interlocked.CompareExchange (ref iNum, iNext, iExpected);
} while (iExpected != iActual);
return iNext;

This makes the increment thread safe vs. other increments. But you mention also 'read', 'write' and 'reset' and is impossible to tell, in context, if those operations are safe and even if the increment is dafe vs. said 'write' and specially 'reset' operations. Normally for such type of shared counters the only operation allowed is to increment it.

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