Here is the code I have but I don't understand what SemaphoreSlim is doing.

async Task WorkerMainAsync()
    SemaphoreSlim ss = new SemaphoreSlim(10);
    List<Task> trackedTasks = new List<Task>();
    while (DoMore())
        await ss.WaitAsync();
        trackedTasks.Add(Task.Run(() =>
    await Task.WhenAll(trackedTasks);

void DoPollingThenWorkAsync()
    var msg = Poll();
    if (msg != null)
        Thread.Sleep(2000); // process the long running CPU-bound job

What does await ss.WaitAsync(); and ss.Release(); do?

I guess that if I run 50 threads at a time then write code like SemaphoreSlim ss = new SemaphoreSlim(10); then it will be forced to run 10 active thread at time.

When one of 10 thread completes then another thread will start. If I am not right then help me to understand with sample situation.

Why is await needed along with ss.WaitAsync();? What does ss.WaitAsync(); do?

  • 3
    One thing to note is that you really should wrap that "DoPollingThenWorkAsync();" in a "try { DoPollingThenWorkAsync(); } finally { ss.Release(); }", otherwise exceptions will permanently starve that semaphore. – Austin Salgat Jan 14 '18 at 16:53

i guess that if i run 50 thread at a time then code like SemaphoreSlim ss = new SemaphoreSlim(10); will force to run 10 active thread at time

That is correct; the use of the semaphore ensures that there won't be more than 10 workers doing this work at the same time.

Calling WaitAsync on the semaphore produces a task that will be completed when that thread has been given "access" to that token. await-ing that task lets the program continue execution when it is "allowed" to do so. Having an asynchronous version, rather than calling Wait, is important both to ensure that the method stays asynchronous, rather than being synchronous, as well as deals with the fact that an async method can be executing code across several threads, due to the callbacks, and so the natural thread affinity with semaphores can be a problem.

A side note: DoPollingThenWorkAsync shouldn't have the Async postfix because it's not actually asynchronous, it's synchronous. Just call it DoPollingThenWork. It will reduce confusion for the readers.

| improve this answer | |
  • thanks but please tell me what happen when we specify no of thread to run say 10.when one of 10 thread finish then again that thread jump onto finish another jobs or goes back to pool? this is not very clear to....so please explain what happen behind the scene. – Mou Nov 18 '13 at 20:29
  • @Mou What's not clear about it? The code waits until there are less than 10 tasks currently running; when there are, it adds another. When a task finishes it indicates that it has finished. That's it. – Servy Nov 18 '13 at 21:34
  • what is the advantage of specifying no of thread to run. if too many thread may hamper performance ? if yes then why hamper...if i run 50 threads instead of 10 thread then why performance will matter...can u please explain. thanks – Thomas Nov 19 '13 at 8:33
  • 4
    @Thomas If you have too many concurrent threads then the threads spend more time context switching than they spend doing productive work. Throughput goes down as threads go up as you spend more and more time managing threads instead of doing work, at least, once your thread count goes much past the number of cores on the machine. – Servy Nov 19 '13 at 14:56
  • 3
    @Servy That's part of the job of the task scheduler. Tasks != threads. The Thread.Sleep in the original code would devastate the task scheduler. If you're not async to the core, you're not async. – Joseph Lennox Feb 17 '15 at 19:56

In the kindergarden around the corner they use a SemaphoreSlim to control how many kids can play in the PE room.

They painted on the floor, outside of the room, 5 pairs of footprints.

As the kids arrive, they leave their shoes on a free pair of footprints and enter the room.

Once they are done playing they come out, collect their shoes and "release" a slot for another kid.

If a kid arrives and there are no footprints left, they go play elsewhere or just stay around for a while and check every now and then (i.e., no FIFO priorities).

When a teacher is around, she "releases" an extra row of 5 footprints on the other side of the corridor such that 5 more kids can play in the room at the same time.

It also has the same "pitfalls" of SemaphoreSlim...

If a kid finishes playing and leaves the room without collecting the shoes (does not trigger the "release") then the slot remains blocked, even though there is theoretically an empty slot. The kid usually gets told off, though.

Sometimes one or two sneaky kid hide their shoes elsewhere and enter the room, even if all footprints are already taken (i.e., the SemaphoreSlim does not "really" control how many kids are in the room).

This does not usually end well, since the overcrowding of the room tends to end in kids crying and the teacher fully closing the room.

| improve this answer | |

Although I accept this question really relates to a countdown lock scenario, I thought it worth sharing this link I discovered for those wishing to use a SemaphoreSlim as a simple asynchronous lock. It allows you to use the using statement which could make coding neater and safer.


I did swap _isDisposed=true and _semaphore.Release() around in its Dispose though in case it somehow got called multiple times.

Also it is important to note SemaphoreSlim is not a reentrant lock, meaning if the same thread calls WaitAsync multiple times the count the semaphore has is decremented every time. In short SemaphoreSlim is not Thread aware.

Regarding the questions code-quality it is better to put the Release within the finally of a try-finally to ensure it always gets released.

| improve this answer | |
  • 5
    It's inadvisable to post link-only answers since links tend to die over time thus rendering the answer worthless. If you can, it's best to summarise the key points or key code block into your answer. – John May 19 '18 at 9:23
  • When you say "I did swap _isDisposed=true and _semaphore.Release() around its Dispose," do you mean to say "I did swap _isDisposed=true and _semaphore.Release() around IN its Dispose?" – InteXX Nov 29 '19 at 20:49
  • @InteXX your right I've edited my answer. – andrew pate Dec 3 '19 at 22:54

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.