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I have a rather large class which contains plenty of fields (10+), a huge array (100kb) and some unmanaged resources. Let me explain by example

class ResourceIntensiveClass
{
    private object unmaganedResource; //let it be the expensive resource
    private byte[] buffer = new byte[1024 * 100]; //let it be the huge managed memory
    private Action<ResourceIntensiveClass> OnComplete;


    private void DoWork(object state)
    {
        //do long running task
        OnComplete(this); //notify callee that task completed so it can reuse same object for another task
    }

    public void Start(object dataRequiredForCurrentTask)
    {
        ThreadPool.QueueUserWorkItem(DoWork); //initiate long running work
    }
}

The problem is that the start method never returns after the 10000th iteration causing a stack overflow. I could execute the OnComplete delegate in another thread giving a chance for the Start method to return, but it requires using extra cpu time and resources as you know. So what is the best option for me?

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1  
where is the recursion? –  matt b Apr 8 '11 at 19:18
    
@matt b Start calls OnCompleteMethod which calls Start. –  Scott Chamberlain Apr 8 '11 at 19:19
2  
@TakeMeAsGuest - this code just smells wrong. I'm missing how recursion is helping you with performance? –  RQDQ Apr 8 '11 at 19:22
1  
and what is its intention? –  user492238 Apr 8 '11 at 19:22
    
I'd also like to know 'why' you've implemented it like this. –  bic Apr 8 '11 at 19:27

6 Answers 6

Is there a good reason for doing your calculations recursively? This seems like a simple loop would do the trick, thus obviating the need for incredibly deep stacks. This design seems especially problematic as you are relying on main() to setup your recursion.

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yes, Start initiates other methods on threadpool, actually oncomplete is invoked on another thread. the provided code is just a illustration of what i am currently doing not the real situation. –  TakeMeAsAGuest Apr 8 '11 at 19:24
    
You might need to give more specifics, then, because the code above probably shouldn't be written the way it is. More details would help. –  dlev Apr 8 '11 at 19:30
    
thanks but the class is written the way it is. it accomplishes long running tasks using both unmanaged expensive resources and managed big memory. the problem here is not my code, the situation –  TakeMeAsAGuest Apr 8 '11 at 19:33
    
"the problem here is not my code, the situation" - what dlev and others are saying here is that, based on your example, perhaps the solution you've coded is not a good match for the situation –  matt b Apr 8 '11 at 20:03
    
i think the situation is crystal clear. i set delegate to get notified upon completion to proceed to the next task. assume task progression is linear. –  TakeMeAsAGuest Apr 8 '11 at 20:14

recursive methods can get out of hand quite fast. Have you looked into using Parallel Linq? you could do something like

(your Array).AsParallel().ForAll(item => item.CallMethod());

you could also look into the Task Parallel Library (TPL)

with tasks, you can define an action and a continue with task.

The Reactive Framework (RX) on the other hand could handle these on complete events in an async manner.

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im aware of tpl but i want full control of whats going on because process is not that straightforward. and i think rx handles oncomplete in another thread which i could do too. thanks anyway –  TakeMeAsAGuest Apr 8 '11 at 19:27
    
using RX you can execute the oncomplete on the same thread as it was originaly launched from. using the SubscribeOn method. –  Alexandre Brisebois Apr 8 '11 at 19:31
    
then the same situation will arise on rx. –  TakeMeAsAGuest Apr 8 '11 at 19:42

Where are you changing the value of taskData so that its length can ever equal currentTaskIndex? Since the tasks you are assigning to the data are never changing, they are being carried out forever...

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do i copy my whole project? using threads, understanding recursive nature of program flow, using delegates etc but making a design just for 2 objects. hmm so enlightening answer. –  TakeMeAsAGuest Apr 8 '11 at 21:16
    
It depends what you're trying to do... Obvious choice would be to remove a task from the array and make sure that `currentTaskIndex' == 0 when it's finished. Then you can return the method and jump out of recursion. Alternatively you could use a 'for' loop to do it which would be simpler ;) –  AlexW Apr 8 '11 at 21:20
    
1-in actual code there isnt currentTaskIndex.2-then i can return to where? to the air? DoWork is executing in threadpool. it just returns to the threadpool. –  TakeMeAsAGuest Apr 8 '11 at 21:25
    
Check out this page on Threading in C#... apologies if it's too basic for you, I'm more familiar with Java. suite101.com/article.cfm/c_sharp/96436 –  AlexW Apr 8 '11 at 21:29
    
thanks but ive got nothing to do with thread abort, suspend, interrupt. by the way, they should be used as a last resort and in almost all situations they should be and "can be" avoided using other technics. –  TakeMeAsAGuest Apr 8 '11 at 21:34

I would guess that the problem arises from using the pre-increment operator here:

 if(c.CurrentCount < 10000)
    c.Start(++c.CurrentCount);

I am not sure of the semantics of pre-increment in C#, perhaps the value passed to a method call is not what you expect.

But since your Start(int) method assigns the value of the input to this.CurrentCount as it's first step anyway, you should be safe replacing this with:

 if(c.CurrentCount < 10000)
    c.Start(c.CurrentCount + 1);

There is no point in assigning to c.CurrentCount twice.

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as i mentioned before, that code is completely dummy to illustrate the situation. in actual scenario, start initiates other methods on another threads. and after that methods finished, the class is free for other waiting tasks untill all complete. –  TakeMeAsAGuest Apr 8 '11 at 19:41
    
I'm not sure which part of my question you are addressing? My suggestion is to use foo + 1 instead of ++foo. Or are you stating that the real code does not do start(++foo)? If so, you may want to re-work your code sample to be closer to the real thing. –  matt b Apr 8 '11 at 19:42
    
look at updated code –  TakeMeAsAGuest Apr 8 '11 at 19:54
    
I'm afraid that doesn't help, as this new sample doesn't show the recursion - do the listeners of OnComplete() invoke DoWork() again? –  matt b Apr 8 '11 at 20:04
    
they Start() the work again. –  TakeMeAsAGuest Apr 8 '11 at 20:11

If using the threadpool, I assume you are protecting the counters (c.CurrentCount), otherwise concurrent increments will cause more activity, not just 10000 executions.

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i already know that. look at my updated code –  TakeMeAsAGuest Apr 8 '11 at 19:55

There's a neat tool called a ManualResetEvent that could simplify life for you.

Place a ManualResetEvent in your class and add a public OnComplete event.

When you declare your class, you can wire up the OnComplete event to some spot in your code or not wire it up and ignore it.

This would help your custom class to have more correct form.

When your long process is complete (I'm guessing this is in a thread), simply call the Set method of the ManualResetEvent.

As for running your long method, it should be in a thread that uses the ManualResetEvent in a way similar to below:

private void DoWork(object state)
{
    ManualResetEvent mre = new ManualResetEvent(false);
    Thread thread1 = new Thread(
      () => {
      //do long running task
      mre.Set();
    );
    thread1.IsBackground = true;
    thread1.Name = "Screen Capture";
    thread1.Start();
    mre.WaitOne();
    OnComplete(this); //notify callee that task completed so it can reuse same object for another task
}
share|improve this answer
    
it requires creating thread per task + switching to kernel mode + blocking unneccesarly. to be more clearer, the long running task uses io completion port, which doesnt neccessarly need a thread per task. –  TakeMeAsAGuest Apr 8 '11 at 21:28

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