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I've come up with some code to consume all wating items from a queue. Rather than processing the items 1 by 1, it makes sense to process all waiting items as a set.

I've declared my queue like this.

private BlockingCollection<Item> items = 
    new BlockingCollection<Item>(new ConcurrentQueue<Item>);

Then, on a consumer thread, I plan to read the items in batches like this,

Item nextItem;
while (this.items.TryTake(out nextItem, -1))
    var workToDo = new List<Item>();

    while(this.items.TryTake(out nextItem))

    // process workToDo, then go back to the queue.

This approach lacks the utility of GetConsumingEnumerable and I can't help wondering if I've missed a better way, or if my approach is flawed.

Is there a better way to consume a BlockingCollection<T> in batches?

share|improve this question
You could do a Take(50) on the ConsumingEnumerable but you would lose the effect of the 50ms timeout. So choose what is more important. – Henk Holterman Sep 4 '12 at 9:40
@HenkHolterman, you're right, I don't actually need that, it would be problematic it items were produced at a faster rate. – Jodrell Sep 4 '12 at 9:57
@HenkHolterman, question edited accordingly. – Jodrell Sep 4 '12 at 9:59
No a faster rate would be no problem, a slower one would, Your current code (w/o timeout) is less suitable to be replaced by ConsumingEnumerable – Henk Holterman Sep 4 '12 at 10:48
@HenkHolterman, I guess it depends if I want to wait for bigger batches, in which case something different is called for. – Jodrell Sep 4 '12 at 11:12

While not as good as ConcurrentQueue<T> in some ways, my own LLQueue<T> allows for a batched dequeue with a AtomicDequeueAll method where all items currently on the queue are taken from it in a single (atomic and thread-safe) operation, and are then in a non-threadsafe collection for consumption by a single thread. This method was designed precisely for the scenario where you want to batch the read operations.

This isn't blocking though, though it could be used to create a blocking collection easily enough:

public BlockingBatchedQueue<T>
  private readonly AutoResetEvent _are = new AutoResetEvent(false);
  private readonly LLQueue<T> _store;
  public void Add(T item)
  public IEnumerable<T> Take()
    return _store.AtomicDequeueAll();
  public bool TryTake(out IEnumerable<T> items, int millisecTimeout)
      items = _store.AtomicDequeueAll();
      return true;
    items = null;
    return false;

That's a starting point that doesn't do the following:

  1. Deal with a pending waiting reader upon disposal.
  2. Worry about a potential race with multiple readers both being triggered by a write happening while one was reading (it just considers the occasional empty result enumerable to be okay).
  3. Place any upper-bound on writing.

All of which could be added too, but I wanted to keep to the minimum of some practical use, that hopefully isn't buggy within the defined limitations above.

share|improve this answer
I wonder, if you made a BatchedQueue<T> that implemented IProducerConsumer<IEnumerable<T>> ... or if LLQueue<T> did, now I'm wondering if its me who is missing somthing or rather, its the framework. – Jodrell Sep 4 '12 at 9:45
LLQueue<T> implements IProducerConsumerCollection<T> alright, but using that directly in a blocking collection means we lose the access to the AtomicDequeueAll() that is the only advantage it has here over anything else. You could try wrapping LLQueue<T> in a class that implemented IProducerConsumer<IEnumerable<T>> by calling EnqueueRange() and AtomicDequeueAll(), but EnqueueRange() isn't atomic, so there could be periods when you're waiting to read while there are actually items there to be read, because the blocking collection doesn't realise it. – Jon Hanna Sep 4 '12 at 9:56
The TryAdd would need to be atomic for the whole IEnumerable<T>. – Jodrell Sep 4 '12 at 10:07
Exactly. EnqueueRange() is little more than a convenience on repeatedly calling Enqueue(). Fine if you don't mind it being inter-leaved with other Enqueue()s, but useless if we were to wrap it in something used by something that expects it to be atomic. That said, I imagine BlockingCollection doesn't allow reads until a write has returned, so it might actually be okay in that regard. I really don't like the idea of stretching expected behaviour that much though. – Jon Hanna Sep 4 '12 at 10:17
Actually, just taking a look at it for another reason, it appears I forgot my own code: EnqueueRange() is currently atomic, I had just decided not to guarantee that because I wasn't sure if it was the best approach so I wanted the right to change that later. With the current code, you could definitely make a BlockingCollection<IEnumerable<T>> that is atomic for both adding and removing. – Jon Hanna Dec 10 '13 at 9:45

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