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I'm trying to use SemaphoreSlim and ContinueWith to limit the number of concurrent tasks I'm running. But the run-time behavior differs my expectation a lot.

The value I've set for ServicePointManager.DefaultConnectionLimit equals to 288 and since I've initialized SemaphoreSlim(100), my expectation of the run-time behavior is that the code should spawn 100 threads first and then start a new task when the first task is completed.

var sr =
    new StreamReader(
        @"UrlList.tsv");

var urlList = new List<string>();
for (int i = 0; i < 1000; i++)
{
    string line = sr.ReadLine();
    string[] tokens = line.Split('\t');
    string url = tokens[4];
    urlList.Add(url);
}

ServicePointManager.DefaultConnectionLimit = 12*Environment.ProcessorCount;
Console.WriteLine(DateTime.Now + "\t" + ServicePointManager.DefaultConnectionLimit);

var tasks = new Task[urlList.Count];
var semaphore = new SemaphoreSlim(100);
var client = new HttpClient();
int cnt = 0;
for (int i = 0; i < urlList.Count; i++)
{
    int i1 = i;
    tasks[i] = semaphore.WaitAsync().ContinueWith(task =>
    {
        Console.WriteLine(DateTime.Now + "\t" + ++cnt);
        var t = client.GetStringAsync(urlList[i1]);
        Console.WriteLine(t.Result);
        semaphore.Release();
        return t.Result;
    });
}
Task.WhenAll(tasks).GetAwaiter().GetResult();

The output looks something like this:

4/6/2015 11:36:12 PM    288
4/6/2015 11:36:12 PM    1
4/6/2015 11:36:12 PM    7
4/6/2015 11:36:12 PM    10
4/6/2015 11:36:12 PM    11
4/6/2015 11:36:12 PM    12
4/6/2015 11:36:12 PM    3
4/6/2015 11:36:12 PM    4
4/6/2015 11:36:12 PM    2
4/6/2015 11:36:12 PM    5
4/6/2015 11:36:12 PM    8
4/6/2015 11:36:12 PM    6
4/6/2015 11:36:12 PM    9
4/6/2015 11:36:12 PM    21
4/6/2015 11:36:12 PM    17
4/6/2015 11:36:12 PM    14
4/6/2015 11:36:12 PM    15
4/6/2015 11:36:12 PM    13
4/6/2015 11:36:12 PM    22
4/6/2015 11:36:12 PM    16
4/6/2015 11:36:12 PM    23
4/6/2015 11:36:12 PM    20
4/6/2015 11:36:12 PM    19
4/6/2015 11:36:12 PM    24
4/6/2015 11:36:12 PM    25
4/6/2015 11:36:12 PM    18
4/6/2015 11:36:13 PM    26
4/6/2015 11:36:14 PM    27
4/6/2015 11:36:15 PM    28

So it seems the thread is not spawned in a way I would expect and no Url content is being shown as well. What exactly is the issue in my code?

2
  • 1
    Is there a reason you are trying to do it manually? Both the TPL and PLINQ have mechanisms for parallel loops where you can just add the maximum degree of parallelism as parameters.
    – nvoigt
    Apr 7, 2015 at 6:47
  • @nvoigt: Thanks for your comment but please correct me if I am wrong. I think basically I should only use Parallel.ForEach when my job is CPU bounded and async-await when my job is I/O bounded?
    – derekhh
    Apr 7, 2015 at 6:50

1 Answer 1

3

Try somethng like this:

async Task<IEnumerable<string>> DoItAsync(int threads, IEnumerable<string> urls)
{
    ServicePointManager.DefaultConnectionLimit = 12*Environment.ProcessorCount;
    Console.WriteLine("{0:HH:mm:ss.ffffff}\t{1}", DateTime.Now, ServicePointManager.DefaultConnectionLimit);

    var semaphore = new SemaphoreSlim(threads);
    var client = new HttpClient();
    var cnt = 0;
    var tasks = new List<Task<string>>();
    foreach (var url in urls)
    {
        tasks.Add(((Func<Task<string>>)(async () =>
            {
                await semaphore.WaitAsync();

                var c = ++cnt;
                Console.WriteLine("{0:HH:mm:ss.ffffff}\t{1}\t{2}", DateTime.Now, c, url);
                var s = await client.GetStringAsync(url);
                Console.WriteLine("{0:HH:mm:ss.ffffff}\t{1}\t{2}\t{3}", DateTime.Now, c, url, s.Substring(0, 20));
                semaphore.Release();
                return s;
            }))());
    }

    return await Task.WhenAll(tasks);
}
6
  • The use of async/await are improvements over the OP's code, but you do not want Task.Run (you're already getting a "hot" task from your async delegate), and I think you could simply return await Task.WhenAll(...) at the end. Apr 7, 2015 at 20:17
  • Edited per my previous comments. Apr 7, 2015 at 20:18
  • Actually Todd Menier, I'd prefer the former. See these two links: blogs.msdn.com/b/pfxteam/archive/2012/02/08/10265476.aspx blogs.msdn.com/b/pfxteam/archive/2011/10/24/10229468.aspx
    – Kakira
    Apr 7, 2015 at 22:48
  • @ToddMenier, I was favoring readability. The async delegate is not a "hot" task but a delegate that returns a hot task when invoked. On your correction you were not invoking it and the code didn't even compile. Apr 8, 2015 at 9:52
  • @PauloMorgado Right you are, my bad. (I should have tried to build it!) I do think what you've arrived at here (invoking the delegate) is preferable over forcing another thread into the mix with Task.Run. I'd probably extract the delegate to an async method for readability (avoid the awkward cast, etc), but correctness-wise this is an improvement. +1. Apr 8, 2015 at 14:50

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