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This question follows on from the development of an issue originally posted here. The issue is with editing the properties of an object from multiple-threads.

The context of the application is as follows:

I have a System.Timers.Timer object, which does the below numbered items on every tick. I need this to be done with a timer because I may want to be able to vary the tick interval from 1ms to 60s.

On every tick event:

  1. Run a background worker to read data from a file [order of ms] (or a URL [order of seconds])
  2. When background worker finishes reading data from file, raise an Event (say Ticker_Updated_Event)
  3. In the event handler of Ticker_Updated_Event, run object code which updates a certain property (say this.MyProperty). Additional code is executed in this event handler, including calls to update the GUI [which I believe I have made thread safe (at least i hope)].

Various suggestions have been made including using shared variables and interlocking, but I feel that the quickest(?) and potentially the most robust solution in terms of keeping the rest of my code functional, would be one where I simply force Timer to wait for the code in its tick handler to finish before executing another tick. Can this be as simple as attaching a boolean expression to the start and end of the tick handler?

EDIT 1: I would like the timer to tick as soon as code has finished executing in its handler. I am interested in the performance of my application when running on 1ms tick intervals. I expect the code in the event handler to execute fairly quickly and do not see this being an issue when using it with intervals greater than say 200ms.

EDIT 2: I think I wasn't very clear in setting out the scope of my functionality. I essentially will have 2 states under which my program will run. At any run time, the program will either be:

  1. Using tick intervals >> time needed for execution of code in the handler, which will include doing http requests etc, so no issues here.


  1. Using very short ticks ~1ms to read data from file and run the exact same code as in the first scope, where a loop would easily suffice but mean having to modify the code in the first scope item.
share|improve this question
why must you use a timer if you are executing on every tick? – T McKeown Mar 4 '14 at 21:48
So lets say that your timer ticks ever 5 seconds, and one operation takes 2 seconds. Should the timer next tick in 3 seconds, or in 5 seconds? If the tick event takes 9 seconds should it tick again in 2 seconds, or in 5 seconds? (Or some 3rd option I didn't list?) – Servy Mar 4 '14 at 21:49
@TMcKeown To wait some period of time before performing the "next" operation. – Servy Mar 4 '14 at 21:49
i guess using timer if you are going to update the UI is required. – T McKeown Mar 4 '14 at 21:50
If you want it to tick right away, then you really don't need a timer. Just have the completion of the previous event start the next event. If you don't actually want to wait, don't use the timer. – Servy Mar 4 '14 at 22:00
up vote 1 down vote accepted

Going from your previous question and these updates, it sounds like you might want to be aggressive in throwing away ticks. This is based on the comment that the code is too complex to be fully aware of where data changes are happening in multiple threads to make the changes needed to synchronize the use of shared members.

The pseudo code I posted in the previous question which was expanded by ebyrob would be a reasonable choice assuming you haven't kept hidden from us that this application is running multiple times in different application domains!

If you wanted to try to shim something into your existing solution, try something like this:

class UpdateThrottler
    static object lockObject = new object();
    static volatile bool isBusyFlag = false;

    static bool CanAcquire()
        if (!isBusyFlag)
                if (!isBusyFlag) //could have changed by the time we acquired lock
                    return (isBusyFlag = true);
        return false;

    static void Release()
            isBusyFlag = false;

Then in your code, you could do something as simple as:

    if (UpdateThrottler.CanAcquire())
        //Do your work

This has some flexibility in that you can call Release from another location if for some reason you aren't sure to be done working at the end of the Tick handler. This could be because you use a background worker whose callback is used to finish the remaining work or whatever. I'm not entirely sure it's a good practice but short of spending the time to understand your application in its entirety, I'm not sure what else could be done.

At this point we're getting dangerously close to reproducing the (Manual)ResetEvent object.

EDIT: After some discussion I realized it doesn't hurt to have the volatile marker and could ease some potential edge case somewhere.

share|improve this answer
Thank you for taking the time to post this answer. I believe I am now out of my depth and will need to spend some time understanding what you've written. Expect an update later tonight or tomorrow :) – armensg90 Mar 4 '14 at 23:29
Auto/ManualResetEvents are basically simple 2 state semaphores. You're either set or you're not. It's a bit more complex under the covers making use of different wait strategies depending on if you get blocked during a wait for a very short time or a long time. It's slightly more complicated to use than what I've written but it's safer. The drawback is it's designed to make things wait which is not what you wait - you want to bail out if you're already busy. So it's not a perfect fit for what you want but we're starting to recreate its functionality but in a poor way! :) – Erik Noren Mar 4 '14 at 23:34
haha trying to figure out how to use this. I made a class called UpdateThrottler and I am simply doing my work in the if (UpdateThrottler.CanAcquire()){} block? – armensg90 Mar 4 '14 at 23:42
Yeah. If CanAcquire returns true, it's ok for you to do work. If it is false, something else is already working. Then you call Release when you're done and ready for the next tick to get processed. You can move the Release to wherever the last of your code finishes. Either in the Timer event where I've shown it or in the callback of your background worker if that's the last thing that runs. – Erik Noren Mar 5 '14 at 2:09
@ErikNoren The second example uses the very definition of double-check-locking which (last I checked) doesn't work for .Net. On the bright side, lock() overhead isn't nearly as bad as you might think. – user645280 Mar 5 '14 at 14:37

The below will certainly skip ticks, the only other alternative I can think of would amount to an event queue solution. (Which would be more like lock() { push(); } and probably use another thread to do the reading and processing lock() { o=popornull(); } // use o

class TickHandler
   static object StaticSyncObject = new object();
   static bool IsBusy = false;

   private TickHandlerObject myHandler;

   static void HandleTimerElapsed(object source, ElapsedEventArgs e)
          if( IsBusy ) 
             IsBusy = true;
      try {

          // ... do some work here ...  hopefully often faster than interval.

                           // without any IsBusy checks
                           // without thread safety (1 thread at a time calls)
                           // Note: If you're trying to split up threads below
                           //       this, that's up to you.  Or diff question.
                           //       ie: file/URL read vs memory/GUI update

      } finally {
            IsBusy = false;

PS - Don't necessarily lose heart on the Timer notion. A good timer will have much less clock skew than the average while loop. (I'm assuming clock skew is important here since you're using a timer)

Note: Careful thread safety of memory push from the "data read" code, which could execute under this thread, and proper use of Control.Invoke and/or Control.BeginInvoke should allow you to complete your task without any other "events" needing to be fired.

Performance Note: lock may take around 50 nanoseconds with low contention: http://www.informit.com/guides/content.aspx?g=dotnet&seqNum=600. So, this code should be fine for millisecond resolution. Note: The System.Threading.Interlocked methods may drop some operations to only 6 ns instead of 50 ns, but that difference seems minor in this instance, especially given the complexity of using Interlocked. (see: http://www.dotnetperls.com/interlocked)

share|improve this answer
If you expect to throw away a lot of ticks, you could save some time by checking IsBusy before the lock. Otherwise you'll be incurring some time while threads are stacking up trying to get the lock. Hopefully the acquiring of the lock is quick enough compared to the interval of ticks that this won't be a problem but it's really not that much more to add a check. If this happens, you could be delaying setting the IsBusy back to false and introducing delay between executions by having so many threads trying to acquire the lock just to see if they need to work. – Erik Noren Mar 4 '14 at 22:55
Thanks guys, could you kindly comment on my solution as well? I am curious :) – armensg90 Mar 4 '14 at 23:03
@ErikNoren That sounds a lot like double-check-locking en.wikipedia.org/wiki/Double-checked_locking. 1) make it work. 2) (less important) make it fast. 3) I'm pretty sure the average lock() contention is much much faster than 1 ms. (In fact, I've used lock() in debug print statements before... Notice the lock() is not held during "do work". It's only open long enough to protect the IsBusy flag check, set and clear. – user645280 Mar 5 '14 at 14:25
@ebyrob Yes, I see you're not holding the lock. The concern I had was, given the way the question seems to evolve into higher orders of complexity than the original question starts with, I didn't think it was a safe assumption to think this code would only be used in the single timer callback. People who aren't 100% sure what they're doing will tend to copy and paste things around a bit compounding the risk for contention. You're right in that it's probably not likely to happen if done the way we expect it to be done. Just not sure that's a safe assumption here. – Erik Noren Mar 5 '14 at 16:36

I thought I would try and answer my question as well with a solution I have attempted. Please let me know if you see any potential pitfalls in this solution:

This class raises events based on its Timer object executing code:

public class Ticker{

    private TickHandlerObject myHandler; // injected dependency

    //bw is a background worker

    // Handle the Timer tick here:
    private void OnTimedEvent(object source, ElapsedEventArgs e)
        if (myHandler.IsBusy == false) // check here if the handler is still running
            // do work with background worker, that could take time...

    private void bw_RunWorkerCompleted(object sender, RunWorkerCompletedEventArgs e)
            // raise event to be handled by myHanlder object


This class instaniates the ticker and handles its events.

public class TickHandlerObject{

    // This class subscribes to the Updated event of myTicker.
    private Ticker myTicker;
    myTicker.Updated += this.TickerUpdated;
    public bool IsBusy{get;set;}

    private void TickerUpdated()
        // thread-safing
        this.IsBusy = true;

        // do stuff that can take longer than the tick interval

        //  thread-safing
        this.IsBusy = false;
share|improve this answer
What is private Ticker myTicker; ? It doesn't appear to be anything. Is TickerUpdated called from a Timer Tick? If so, you'll have similar problems of race conditions around the IsBusy flag without locking. – Erik Noren Mar 4 '14 at 23:04
Yes, this is 'psuedo' code, i have omitted the Timer code, only left its Tick handler inside Ticker class. – armensg90 Mar 4 '14 at 23:06
@ErikNoren would declaring IsBusy as volatile fix that issue? since it won't be modified but only read by Ticker? – armensg90 Mar 4 '14 at 23:14
I'm not sure but I'm inclined to say no. The way you have the TickerUpdated method now, you are always setting to true when you start work and false when you're done without checking if you can set to true. This would require a comparison check at some point. The time between check and set could allow two threads to see IsBusy as false, both set true and do work at the same time. It didn't do its job of letting only one through at a time. – Erik Noren Mar 4 '14 at 23:24
volatile will make sure the variable is eventually updated in each thread. (not optimized away from that) However, by itself a single volatile variable can usually only do one operation at a time like "check" or "set". In this case you must do "check and set" as one operation or there will be timing glitches. (ie: windows of opportunity for two threads to run at the same time) – user645280 Mar 5 '14 at 15:07

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