6

Having created the following console application I am a little puzzled why it seems to run synchronously instead of asynchronously:

class Program
{
    static void Main(string[] args)
    {
        Stopwatch stopwatch = new Stopwatch();
        stopwatch.Start();
        var total = CreateMultipleTasks();
        stopwatch.Stop();

        Console.WriteLine("Total jobs done: {0} ms", total.Result);
        Console.WriteLine("Jobs done in: {0} ms", stopwatch.ElapsedMilliseconds);
    }

    static async Task<int> CreateMultipleTasks()
    {
        var task1 = WaitForMeAsync(5000);
        var task2 = WaitForMeAsync(3000);
        var task3 = WaitForMeAsync(4000);

        var val1 = await task1;
        var val2 = await task2;
        var val3 = await task3;

        return val1 + val2 + val3;

    }

    static Task<int> WaitForMeAsync(int ms)
    {
        Thread.Sleep(ms);
        return Task.FromResult(ms);
    }
}

When running the application, output is:

Total jobs done: 12000 ms
Jobs done in: 12003 ms

I would have expected somehing like:

Total jobs done: 12000 ms
Jobs done in: 5003 ms

Is this because when I use the Thread.Sleep method it stops further execution of the whole application? Or am I missing something important here?

2
  • 2
    You're mixing asynchronous with multitasking. It's not the same. May 12, 2014 at 7:47
  • As @MarcinJuraszek said, try switching Thread.Sleep to something async instead, like WebClient.DownloadStringTaskAsync(). And await all threads at the same time, not one by one. async is not multitaskning.
    – flindeberg
    May 12, 2014 at 8:19

3 Answers 3

5

Even when you convert to using Task.Run or Task.Delay as other answers suggest, you should avoid using the blocking Task.WaitAll anywhere inside async methods, as much as you can. Mixing asynchronous and synchronous code is usually a bad idea, it increases the number of redundantly blocked threads and promotes deadlocks.

Instead, use await Task.WhenAll and move the blocking wait to the top level (i.e., Main method in this case):

class Program
{
    static void Main(string[] args)
    {
        Stopwatch stopwatch = new Stopwatch();
        stopwatch.Start();
        var total = CreateMultipleTasks();

        total.Wait();

        stopwatch.Stop();

        Console.WriteLine("Total jobs done: {0} ms", total.Result);
        Console.WriteLine("Jobs done in: {0} ms", stopwatch.ElapsedMilliseconds);
    }

    static async Task<int> CreateMultipleTasks()
    {
        var task1 = Task.Run(() => WaitForMeAsync(5000));
        var task2 = Task.Run(() => WaitForMeAsync(3000));
        var task3 = Task.Run(() => WaitForMeAsync(4000));

        await Task.WhenAll(new Task[] { task1, task2, task3 });

        return task1.Result + task2.Result + task3.Result;
    }

    static int WaitForMeAsync(int ms)
    {
        // assume Thread.Sleep is a placeholder for a CPU-bound work item
        Thread.Sleep(ms);
        return ms;
    }
}

On a side note, check Stephen Toub's "Should I expose asynchronous wrappers for synchronous methods?" and "Should I expose asynchronous wrappers for synchronous methods?"

0
2

You run the task in a synchounus manner. You can do something like this:

static async Task<int> CreateMultipleTasks()
{
    var task1 = Task.Run<int>(() => WaitForMeAsync(5000));
    var task2 = Task.Run<int>(() => WaitForMeAsync(3000));
    var task3 = Task.Run<int>(() => WaitForMeAsync(4000));

    Task.WaitAll(new Task[] { task1, task2, task3 });

    return task1.Result + task2.Result + taks3.Result;

}

Using the three await in a row will NOT run the tasks in parallel. It will just free the thread while it is waiting (if you use await Task.Delay(ms) as Thread.Sleep(ms) is a blocking operation), but the current execution will NOT continue with task2 while task1 is "sleeping".

20
  • @ssg That's the only way to get it run in 5 seconds. And the reason is, you need multitasking to make that happen, async is not enough. May 12, 2014 at 7:51
  • @chrfin he wants the total delay to be split into smaller chunks and executed simultaneously. he doesn't mention "threading" specifically. and the question title specifically says "asynchronous", which is not about threading at all. May 12, 2014 at 7:54
  • @MarcinJuraszek no it's not the only way for the given example. see my answer. May 12, 2014 at 7:54
  • @ssg: No, if you await them it will always run one after the other as this is the puropse of await... May 12, 2014 at 7:56
  • 1
    @ssg Yeah, after couple edits, several comments and 15 minutes your answer finally shows a way to go. Good job! May 12, 2014 at 8:01
1

Your WaitForMeAsync method is just a simple sync method pretending to be an async one.

You don't perform anything async and Sleep() just blocks the thread.

Why would you want to delay async? (yes you can use await Task.Delay(ms)), need more input to help there.

2
  • I am going to change an existing application with some rather heavy SQL calls into async calls. So I just wanted to be 100% sure that my async-setup was correct before starting changing my real application.
    – olf
    May 12, 2014 at 8:13
  • Is your application an ASP.NET application or a console application? Or the question is are you trying to lower the latency of your app (console or asp.net), or make it handle more requests per second (asp.net). May 12, 2014 at 15:52

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