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I am writing a multi threaded application and I have concerns with 2 threads access a queue

Thread 1 puts items in a queue for processing Thread 2 removes items from the queue to process

Thread 1 runs once a minute due to the nature of the data it is pulling. Thread 2 is always running, it removes an item from the queue and sleeps for 100ms. I have to do this to ensure that I don't overwhelm a service it calls when it dequeues an item.

I assume both threads should place a lock on the queue when adding or removing items from it. Are there any further considerations? For instance say Thread 1 has a lock and Thread 2 tries to access it. Does Thread 2 simply know to wait and resume once the lock is removed?

Would it be preferable to use a ConcurrentQueue and just TryDequeue and if it fails just go about its 100 ms sleep?

Thanks in advance

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4 Answers 4

up vote 8 down vote accepted

It's even easier if you use a BlockingCollection<T> like I do in NuGet's VS console dispatcher for my PostKey/WaitKey implementation. The consuming thread calls Take(...) which will block until another thread calls Add(...). There is no need to poll. Additionally, you may wish to pass a cancellation token to the Take method so another thread can stop the consumer thread if it's currently waiting for an Add that will never come. Here are the relevant methods:

private readonly BlockingCollection<VsKeyInfo> _keyBuffer = 
      new BlockingCollection<VsKeyInfo>();
private CancellationTokenSource _cancelWaitKeySource;

// place a key into buffer
public void PostKey(VsKeyInfo key)
{
    if (key == null)
    {
        throw new ArgumentNullException("key");
    }
    _keyBuffer.Add(key);
}

// signal thread waiting on a key to exit Take
public void CancelWaitKey()
{
    if (_isExecutingReadKey && !_cancelWaitKeySource.IsCancellationRequested)
    {
        _cancelWaitKeySource.Cancel();
    }
}

// wait for a key to be placed on buffer
public VsKeyInfo WaitKey()
{
    try
    {
        // raise the StartWaitingKey event on main thread
        RaiseEventSafe(StartWaitingKey);

        // set/reset the cancellation token
        _cancelWaitKeySource = new CancellationTokenSource();
        _isExecutingReadKey = true;

        // blocking call
        VsKeyInfo key = _keyBuffer.Take(_cancelWaitKeySource.Token);

        return key;
    }
    catch (OperationCanceledException)
    {
        return null;
    }
    finally
    {
        _isExecutingReadKey = false;
    }
}

See http://nuget.codeplex.com/SourceControl/changeset/view/45e353aca7f4#src%2fVsConsole%2fConsole%2fConsole%2fConsoleDispatcher.cs for more details.

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This is a better answer than mine IMO. –  swannee Feb 23 '12 at 1:35
    
+1 for BlockingCollection. –  Branko Dimitrijevic Feb 23 '12 at 1:37
    
Why? The OP has stated that he/she is going to wait 100ms anyway to prevent overloading some downstream service, so using a blocking queue here is redundant. It's just a waste of kernel calls and CPU cycles. swannee's ConcurrentQueue + sleep() loop is fine. –  Martin James Feb 23 '12 at 1:42
    
@MartinJames I'm not following. You're telling me that constantly polling on a sleep/spin is less of a "waste of kernel calls and CPU cycles" than signalling? Additionally, the 100ms sleep can be performed after a successful Take to effect the desired throttling. –  x0n Feb 23 '12 at 2:10
1  
Polling is a wasteful design in the first place, anyway to move away from it is good IMO. –  Paul Tyng Feb 23 '12 at 2:21
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As long as you are locking on the same "sync" object, thread 2 will wait for thread 1 and vice-versa. I think the ConcurrentQueue is a good idea because it's already specified as thread safe.

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ConcurrentQueue is thread safe so you wouldn't need to lock, just call TryDequeue and you will be fine with no other special coding. Do not iterate it though, per the documentation, it will snapshot on iteration (unless that was what you wanted): http://msdn.microsoft.com/en-us/library/dd287144.aspx

The enumeration represents a moment-in-time snapshot of the contents of the queue. It does not reflect any updates to the collection after GetEnumerator was called. The enumerator is safe to use concurrently with reads from and writes to the queue.

Honestly I think you would be better off just having Thread 1 spawn a thread (or Task) whenever it needs something done and using some sort of throttling synchronization (like an AutoResetEvent)

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'Honestly I think you would be better off just having Thread 1 spawn a thread (or Task) whenever it needs something done' - doesn't sound like a good plan to me - it's much more complex than a sleep() loop and risks runaway threads. One loopy thread is much easier and safer. That said, the interaction with the service-that-gets-overloaded may possibly be done in a more efficient way, but we don't have enough info. on that. –  Martin James Feb 23 '12 at 1:38
    
The entire purpose of the TPL is for spawing async tasks, so not sure how its much more complex or risks runaway threads. –  Paul Tyng Feb 23 '12 at 1:41
    
I should add: any moreso than any multi-threaded programming in .NET, its all potentially dangerous... –  Paul Tyng Feb 23 '12 at 1:46
    
TPL tasks, OK:) Continually spawning threads, not so good :( I agree that .NET thread support could do with some work, but poor thread support is not .NET specific, (other languages/environments are worse). –  Martin James Feb 23 '12 at 10:40
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If you're going to sleep for 100ms anyway, you can pretty much implement the queue any way you want as long as it's thread-safe. A simple queue with a lock/mutex, a ConcurrentQueue, they're all fine.

'For instance say Thread 1 has a lock and Thread 2 tries to access it. Does Thread 2 simply know to wait and resume once the lock is removed' - Thread 2 waits until the lock is released, yes.

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