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I am confused about the difference between sending items through Post() or SendAsync(). My understanding is that in all cases once an item reached the input buffer of a data block, control is returned to the calling context, correct? Then why would I ever need SendAsync? If my assumption is incorrect then I wonder, on the contrary, why anyone would ever use Post() if the whole idea of using data blocks is to establish a concurrent and async environment.

I understand of course the difference technically in that Post() returns a bool whereas SendAsync returns an awaitable Task of bool. But what implications does that have? When would the return of a bool (which I understand is a confirmation whether the item was placed in the queue of the data block or not) ever be delayed? I understand the general idea of the async/await concurrency framework but here it does not make a whole lot sense because other than a bool the results of whatever is done to the passed-in item is never returned to the caller but instead placed in an "out-queue" and either forwarded to linked data blocks or discarded.

And is there any performance difference between the two methods when sending items?

1
  • A relevant quote from this blog: 1) The client of an action block may provide a queue size (in the constructor). 2) When a queue is full the Post method returns false and SendAsync method “blocks” until the queue will get a free spot.
    – noseratio
    Jun 28, 2020 at 21:55

2 Answers 2

69

To see the difference, you need a situation where blocks will postpone their messages. In this case, Post will return false immediately, whereas SendAsync will return a Task that will be completed when the block decides what to do with the message. The Task will have a true result if the message is accepted, and a false result if not.

One example of a postponing situation is a non-greedy join. A simpler example is when you set BoundedCapacity:

[TestMethod]
public void Post_WhenNotFull_ReturnsTrue()
{
    var block = new BufferBlock<int>(new DataflowBlockOptions {BoundedCapacity = 1});

    var result = block.Post(13);

    Assert.IsTrue(result);
}

[TestMethod]
public void Post_WhenFull_ReturnsFalse()
{
    var block = new BufferBlock<int>(new DataflowBlockOptions { BoundedCapacity = 1 });
    block.Post(13);

    var result = block.Post(13);

    Assert.IsFalse(result);
}

[TestMethod]
public void SendAsync_WhenNotFull_ReturnsCompleteTask()
{
    // This is an implementation detail; technically, SendAsync could return a task that would complete "quickly" instead of already being completed.
    var block = new BufferBlock<int>(new DataflowBlockOptions { BoundedCapacity = 1 });

    var result = block.SendAsync(13);

    Assert.IsTrue(result.IsCompleted);
}

[TestMethod]
public void SendAsync_WhenFull_ReturnsIncompleteTask()
{
    var block = new BufferBlock<int>(new DataflowBlockOptions { BoundedCapacity = 1 });
    block.Post(13);

    var result = block.SendAsync(13);

    Assert.IsFalse(result.IsCompleted);
}

[TestMethod]
public async Task SendAsync_BecomesNotFull_CompletesTaskWithTrueResult()
{
    var block = new BufferBlock<int>(new DataflowBlockOptions { BoundedCapacity = 1 });
    block.Post(13);
    var task = block.SendAsync(13);

    block.Receive();

    var result = await task;
    Assert.IsTrue(result);
}

[TestMethod]
public async Task SendAsync_BecomesDecliningPermanently_CompletesTaskWithFalseResult()
{
    var block = new BufferBlock<int>(new DataflowBlockOptions { BoundedCapacity = 1 });
    block.Post(13);
    var task = block.SendAsync(13);

    block.Complete();

    var result = await task;
    Assert.IsFalse(result);
}
15
  • 1
    The block may eventually decide to decline that message (e.g., if you Complete the block), in which case the result of the task will be false. See updated answer. Nov 28, 2012 at 13:40
  • 3
    Yes, Yes, and Not quite. If the block postpones the message, SendAsync will construct a "message holder" that will hold the message until the block receives or rejects it. The Task is actually a part of the message holder. Also, when dealing with postponement, the target block has a data structure to keep track of its postponed message sources (which would include the "message holder"). Nov 28, 2012 at 14:04
  • 3
    Post returns immediately; so it will return false if the block would postpone. There's no "message holder" for Post. There's a great document Guide to Implementing Custom TPL Dataflow Blocks that goes more in-depth on how Dataflow blocks actually work. Nov 28, 2012 at 14:11
  • 1
    Correct. So you need to check for Post returning false and do something else with the message if you don't want to drop it. Nov 28, 2012 at 14:33
  • 6
    So does this mean everybody should always use SendAsync unless they are ok with getting messages dropped? Oct 25, 2014 at 1:43
21

The documentation makes this reasonably clear, IMO. In particular, for Post:

This method will return once the target block has decided to accept or decline the item, but unless otherwise dictated by special semantics of the target block, it does not wait for the item to actually be processed.

And:

For target blocks that support postponing offered messages, or for blocks that may do more processing in their Post implementation, consider using SendAsync, which will return immediately and will enable the target to postpone the posted message and later consume it after SendAsync returns.

In other words, while both are asynchronous with respect to processing the message, SendAsync allows the target block to decide whether or not to accept the message asynchronously too.

It sounds like SendAsync is a generally "more asynchronous" approach, and one which is probably encouraged in general. What isn't clear to me is why both are required, as it certainly sounds like Post is broadly equivalent to using SendAsync and then just waiting on the result. As noted in comments, there is one significant difference: if the buffer is full, Post will immediately reject, whereas SendAsync doesn't.

6
  • 1
    thanks, it made it a bit clearer though your last sentence sums up my remaining confusion. From my own tests, when a data block refuses to accept a message I did not see any advantage in using SendAsync over Post, both did not attempt to re-deliver the message when the data block signals that it accepts messages at a later point. (both immediately return if the message is refused and both immediately return if the message is accepted). In that the semantics of "accepting" the message re Post vs SendAsync are still nebulous to me.
    – Matt
    Nov 28, 2012 at 7:36
  • I guess I just do not understand how much latency could potentially be introduced in the "acceptance/decline" mechanism of new passed messages. So far I have never seen any measurable delays between the passing and arrival of a message in the input queue/rejection from the queue. But thanks anyway for putting the focus on the "acceptance/rejection" part of the issue.
    – Matt
    Nov 28, 2012 at 7:40
  • 4
    @Freddy: Sure - but the difference is when a block postpones the accept/decline decision. Maybe the target block you're using never does that, of course.
    – Jon Skeet
    Nov 28, 2012 at 7:40
  • 1
    ❝Post is broadly equivalent to using SendAsync and then just waiting on the result.❞ I don't think this is correct. In case of a full input buffer Post(x) does not wait, while SendAsync(x).Wait() does wait. Aug 14, 2019 at 5:58
  • @TheodorZoulias: Will edit to highlight that difference. I did say "broadly" :)
    – Jon Skeet
    Aug 14, 2019 at 6:42

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