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Can anyone explain what the await function does?

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Is this what you are referring to? Asynchronous Programming in C# 5.0 part two: Whence await? –  jordanbtucker Oct 30 '10 at 5:23

7 Answers 7

up vote 52 down vote accepted

They just talked about this at PDC yesterday!

Await is used in conjunction with Tasks (parallel programming) in .NET. It's a keyword being introduced in the next version of .NET. It more or less lets you "pause" the execution of a method to wait for the Task to complete execution. Here's a brief example:

//create and run a new task  
Task<DataTable> dataTask = new Task<DataTable>(SomeCrazyDatabaseOperation);

//run some other code immediately after this task is started and running  
ShowLoaderControl();  
StartStoryboard();

//this will actually "pause" the code execution until the task completes.  It doesn't lock the thread, but rather waits for the result, similar to an async callback  
// please so also note, that the task needs to be started before it can be awaited. Otherwise it will never return
dataTask.Start();
DataTable table = await dataTask;

//Now we can perform operations on the Task result, as if we're executing code after the async operation completed  
listBoxControl.DataContext = table;  
StopStoryboard();  
HideLoaderControl();
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2  
When is it the C# form of promises: en.wikipedia.org/wiki/Futures_and_promises –  Gorgen Oct 30 '10 at 6:07
11  
Sounds a lot like Thread.Join(). –  Steve Guidi Oct 30 '10 at 15:34
10  
Reminds me of COMEFROM –  Joel Spolsky Oct 31 '10 at 13:27
16  
For the sake of completness, let's add that the above piece of code must be wrapped in a method that is adorned with an async keyword. This method shall immediately return as soon as the first await keyword is encountered therein. –  Przemek Nov 1 '10 at 7:53
13  
In your words: it lets you "pause" the method, but it should be noted that it doesn't pause or block the thread. –  Matt Crinklaw-Vogt Dec 7 '10 at 6:03

For anyone new to asynchronous programming in .NET, here's a (totally fake) analogy in a scenario you may be more familiar with - AJAX calls using JavaScript/jQuery. A simple jQuery AJAX post looks like this:

$.post(url, values, function(data) {
  // AJAX call completed, do something with returned data here
});

The reason we process the results in a callback function is so we don't block the current thread while waiting for the AJAX call to return. Only when the response is ready will the callback get fired, and possibly on a different thread.

Now, if JavaScript supported the await keyword (which of course it doesn't), you could achieve the same with this:

var data = await $.post(url, values);
// AJAX call completed, do something with returned data here

That's a lot cleaner, but it sure looks like we introduced synchronous, blocking code. But the (fake) JavaScript compiler would have taken everything after await and wired it into a callback, so at runtime the second example would behave just like the first.

It may not seem like it's saving you much work, but when it comes to things like exception handling and synchronization contexts, the compiler is actually doing a lot of heavy lifting for you. For more, I'd recommend the FAQs followed by Stephen Cleary's blog series.

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If I had to implement it in Java it would look some thing like this:

/**
 * @author Ilya Gazman
 */
public abstract class SynchronizedTask{

    private ArrayList<Runnable> listeners = new ArrayList<Runnable>();

    private static final ThreadPoolExecutor threadPoolExecutor =  new ThreadPoolExecutor(6, 6, 0, TimeUnit.MILLISECONDS, new ArrayBlockingQueue<Runnable>(1000));

    public final void await(Runnable listener){
        synchronized (this) {
            listeners.add(listener);
        }
    }

    public void excecute(){
        onExcecute();
        for (int i = listeners.size() - 1; i >= 0; i--) {
            Runnable runnable;
            synchronized (this) {
                runnable = listeners.remove(i);
            }
            threadPoolExecutor.execute(runnable);
        }
    }

    protected abstract void onExcecute();
}

Your application would use it like this:

public class Test{
    private Job job = new Job();

    public Test() {
        craeteSomeJobToRunInBackground();
        methode1();
        methode2();
    }

    private void methode1(){
        System.out.println("Running methode 1");
        job.await(new Runnable() {

            @Override
            public void run() {
                System.out.println("Continue to running methode 1");
            }
        });
    }

    private void methode2(){
        System.out.println("Running methode 2");
    }

    private void craeteSomeJobToRunInBackground() {
        new Thread(new Runnable() {

            @Override
            public void run() {
                job.excecute();
            }
        }).start();
    }

    private class Job extends SynchronizedTask{

        @Override
        protected void onExcecute() {
            try {
                Thread.sleep(1000);
            }
            catch (InterruptedException e) {
                e.printStackTrace();
            }
            System.out.println("Job is done");
        }
    }
}
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The currently accepted answer is misleading. await is not pausing anything. First of all it can be used only in methods or lambdas marked as async and returning Task or void if you don't care having Task instance running in this method.

Here is an illustration:

internal class Program
{
    private static void Main(string[] args)
    {
        var task = DoWork();
        Console.WriteLine("Task status: " + task.Status);
        Console.WriteLine("Waiting for ENTER");
        Console.ReadLine();
    }

    private static async Task DoWork()
    {
        Console.WriteLine("Entered DoWork(). Sleeping 3");
        // imitating time consuming code
        // in a real-world app this should be inside task, 
        // so method returns fast
        Thread.Sleep(3000);

        await Task.Run(() =>
            {
                for (int i = 0; i < 10; i++)
                {
                    Console.WriteLine("async task iteration " + i);
                    // imitating time consuming code
                    Thread.Sleep(1000);
                }
            });

        Console.WriteLine("Exiting DoWork()");
    }
}

Output:

Entered DoWork(). Sleeping 3
async task iteration 0
Task status: WaitingForActivation
Waiting for ENTER
async task iteration 1
async task iteration 2
async task iteration 3
async task iteration 4
async task iteration 5
async task iteration 6
async task iteration 7
async task iteration 8
async task iteration 9
Exiting DoWork()

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You are correct in that await doesn't pause anything, but it can make sense to think that it does. The accepted answer has pause in quotes, implying that it's not true, it's just a way of thinking about what's going on. I'd say it's not really wrong, but it's certainly not well explained. As for not being in a method marked async, at the time that post was written the feature hadn't yet been released, and the syntax for it hadn't even been invented yet. Explaining the syntax now that it has is fine, just understand why it's not in that answer. –  Servy Feb 15 '13 at 15:54
1  
You're also aware that it will block the caller for 3 seconds before it even gives them the task that they can await on? Meaning if this is called from a UI thread it will block the UI thread for 3 seconds? The idea of this model is to avoid doing things like that. –  Servy Feb 15 '13 at 16:05
1  
If you're going to demonstrate things that you shouldn't do it's best to state that they shouldn't be done and why. As it is, readers of your answer might think this is code worth imitating in spirit. –  Servy Feb 15 '13 at 16:08
5  
@Servy are you trolling me? –  Anri Feb 15 '13 at 16:09
2  
Nope. I'm trying to help you improve your answer. –  Servy Feb 15 '13 at 16:10

Basically, the async and await keywords allow you to specify that execution of a method should stop at all usages of await, which mark asynchronous method calls, and then resume once the asynchronous operation is complete. This allows you to call a method in an app's main thread and handle complex work asynchronously, without the need to explicitly define threads and joins or blocking the app's main thread.

Think of it as being somewhat similar to a yield return statement in a method producing an IEnumerable. When the runtime hits the yield, it will basically save the method's current state, and return the value or reference being yielded. The next time IEnumerator.MoveNext() is called on the return object (which is generated internally by the runtime), the method's old state is restored to the stack and execution continues with the next line after the yield return as if we'd never left the method. Without this keyword, an IEnumerator type must be custom-defined to store state and handle the iteration requests, with methods that can become VERY complex indeed.

Similarly, a method marked as async must have at least one await. On an await, the runtime will save the current thread's state and call stack, make the asynchronous call, and unwind back to the runtime's message loop to handle the next message and keep the app responsive. When the asynchronous operation is complete, at the next scheduling opportunity, the call stack to up the async operation is pushed back in and continued as if the call was synchronous.

So, these two new keywords basically simplify the coding of asynchronous processes, much like yield return simplified the generation of custom enumerables. With a couple keywords and a little background knowledge, you can skip all the confusing and often error-prone details of a traditional asynchronous pattern. This will be INVALUABLE in pretty much any event-driven GUI app like Winforms, WPF of Silverlight.

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Watch "The Future of C# and Visual Basic", Anders Hejlsberg's presentation at PDC 2010 where he covers this and gives some cool demos.

If you want to play around with it now, you can get the VS Async CTP here.

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Actually this is not LINQ, this is the (only accounced) new feature in C#5, part of async programming.

As such, we don't really know too much about it.

However there's a decent writeup on it here.

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