37

I have a WPF GUI, where I want to press a button to start a long task without freezing the window for the duration of the task. While the task is running I would like to get reports on progress, and I would like to incorporate another button that will stop the task at any time I choose.

I cannot figure the correct way to use async/await/task. I can't include everything I've tried, but this is what I have at the moment.

A WPF window class :

public partial class MainWindow : Window
{
    readonly otherClass _burnBabyBurn = new OtherClass();
    internal bool StopWorking = false;

    //A button method to start the long running method
    private async void Button_Click_3(object sender, RoutedEventArgs e)
    {   
        Task burnTheBaby = _burnBabyBurn.ExecuteLongProcedureAsync(this, intParam1, intParam2, intParam3);

        await burnTheBaby;
    }

    //A button Method to interrupt and stop the long running method
    private void StopButton_Click(object sender, RoutedEventArgs e)
    {
        StopWorking = true;
    }

    //A method to allow the worker method to call back and update the gui
    internal void UpdateWindow(string message)
    {
        TextBox1.Text = message;
    }
}

And a class for the worker method:

class OtherClass
{
    internal Task ExecuteLongProcedureAsync(MainWindow gui, int param1, int param2, int param3)
    {       
        var tcs = new TaskCompletionSource<int>();       

        //Start doing work
        gui.UpdateWindow("Work Started");        

        While(stillWorking)
        {
        //Mid procedure progress report
        gui.UpdateWindow("Bath water n% thrown out");        
        if (gui.StopTraining) return tcs.Task;
        }

        //Exit message
        gui.UpdateWindow("Done and Done");       
        return tcs.Task;        
    }
}

This runs, but the WPF function window is still blocked once the worker method starts.

I need to know how to arrange the async/await/task declarations to allow

A) the worker method to not block the gui window
B) let the worker method update the gui window
C) allow the gui window to stop interrupt and stop the worker method

Any help or pointers are much appreciated.

68

Long story short:

private async void ButtonClick(object sender, RoutedEventArgs e)
{
    txt.Text = "started";// done in UI thread

    // wait for the task to finish, but don't block the UI thread
    await Task.Run(()=> HeavyMethod(txt));
    // The task is now completed.

    txt.Text = "done";// done in UI thread
}

// Running the Task causes this method to be executed in Thread Pool
internal void HeavyMethod(TextBox /*or any Control or Window*/ txt)
{
    while (stillWorking)
    {
        txt/*or a control or a window*/.Dispatcher.Invoke(() =>
        {
            // UI operations go inside of Invoke
            txt.Text += ".";
        });

        // CPU-bound or I/O-bound operations go outside of Invoke
        System.Threading.Thread.Sleep(51);
    }
}
Result:
txt.Text == "started....................done"

Explanation:

  1. You can only await in an async method.

  2. You can only await an awaitable object (i.e. Task or Task<T>)

  3. Task.Run usually queues a Task in the thread pool (i.e. it uses an existing thread from the thread pool or creates a new thread in the thread pool to run the task. This is all true if the async operation is not a pure operation, otherwise there will be no thread, just pure async operation handled by OS and device drivers)

  4. The execution waits at await for the task to finish and returns back its results, without blocking the main thread because of the async keyword's magic ability:

  5. The magic of async keyword is that it does not create another thread. It only enables the compiler to give up and take back the control over that method. (don't confuse the method with async keyword with the method wrapped within a Task)

So

Your main thread calls the async method (MyButton_Click) like a normal method and no threading so far... Now you can run a task inside the MyButton_Click like this:

private async void MyButton_Click(object sender, RoutedEventArgs e)
{
    //queue a task to run on threadpool
    Task task = Task.Run(()=>
        ExecuteLongProcedure(this, intParam1, intParam2, intParam3));
    //wait for it to end without blocking the main thread
    await task;
}

or simply

private async void MyButton_Click(object sender, RoutedEventArgs e)
{
    await Task.Run(()=>
        ExecuteLongProcedure(this, intParam1, intParam2, intParam3));
}

or if ExecuteLongProcedure has a return value of type string

private async void MyButton_Click(object sender, RoutedEventArgs e)
{
    Task<string> task = Task.Run(()=>
        ExecuteLongProcedure(this, intParam1, intParam2, intParam3));
    string returnValue = await task;
}

or simply

private async void MyButton_Click(object sender, RoutedEventArgs e)
{
    string returnValue = await Task.Run(()=>
        ExecuteLongProcedure(this, intParam1, intParam2, intParam3));

    //or in cases where you already have a "Task returning" method:
    //  var httpResponseInfo = await httpRequestInfo.GetResponseAsync();
}

The method inside the task (or ExecuteLongProcedure) runs asynchronously and looks like this:

//change the value for the following flag to terminate the loop
bool stillWorking = true;

//calling this method blocks the calling thread
//you must run a task for it
internal void ExecuteLongProcedure(MainWindow gui, int param1, int param2, int param3)
{
    //Start doing work
    gui.UpdateWindow("Work Started");

    while (stillWorking)
    {
        //put a dot in the window showing the progress
        gui.UpdateWindow(".");
        //the following line will block main thread unless
        //ExecuteLongProcedure is called with await keyword
        System.Threading.Thread.Sleep(51);
    }

    gui.UpdateWindow("Done and Done");
} 

Return Types:

If task is of type Task<T> then the value returned by await task statement is a value of type T. If task is of type Task then await task doesn't return anything (or returns void). At this point, you can tell the compiler to await the task to finish or just move on to the next line.

Therefore, if your async method is not returning anything you can write async void MyMethod() or async Task MyMethod(). And if your async method is returning something (e.g. an integer) then you can write async Task<int> MyMethod. In this case your code may look like this:

private async Task<int> MyMethod()
{
    int number = await Task.Run(todo);
    return number;
}

This is obvious because if you don't want to wait for the results, then you probably don't need a Task as the return type of the async method. But if you do want to wait for a result then you must await the result of the async method the same way you did inside that method. e.g. var asyncResult = await MyMethod()

Still confused? Read async return types on MSDN.

Note:

Task.Run is newer (.NetFX4.5) and simpler version of Task.Factory.StartNew

await is not Task.Wait()

Blocking:

CPU-bound or IO-bound operations such as Sleep will block the main thread even if they are called in a method with async keyword. (again, don't confuse async method with the method inside a Task. Obviously this is not true if the async method itself is executed as a task: await MyAsyncMethod)

await prevents a task from blocking the main thread because the compiler will give up its control over the async method.

private async void Button_Click(object sender, RoutedEventArgs e)
{
        Thread.Sleep(1000);//blocks
        await Task.Run(() => Thread.Sleep(1000));//does not block
}

WPF GUI:

If you have to access GUI asynchronously (inside ExecuteLongProcedure method), invoke any operation which involves modification to any non-thread-safe object. For instance, any WPF GUI object must be invoked using a Dispatcher object which is associated with the GUI thread:

void UpdateWindow(string text)
{
    //safe call
    Dispatcher.Invoke(() =>
    {
        txt.Text += text;
    });
}

However, If a task is started as a result of a property changed callback from the ViewModel, there is no need to use Dispatcher.Invoke because the callback is actually executed from the UI thread.

Accessing collections on non-UI Threads

WPF enables you to access and modify data collections on threads other than the one that created the collection. This enables you to use a background thread to receive data from an external source, such as a database, and display the data on the UI thread. By using another thread to modify the collection, your user interface remains responsive to user interaction.

Value changes fired by INotifyPropertyChanged are automatically marshalled back onto the dispatcher.

How to enable cross-thread access

Remember, async method itself runs on the main thread. So this is valid:

private async void MyButton_Click(object sender, RoutedEventArgs e)
{
    txt.Text = "starting"; // UI Thread
    await Task.Run(()=> ExecuteLongProcedure1());
    txt.Text = "waiting"; // UI Thread
    await Task.Run(()=> ExecuteLongProcedure2());
    txt.Text = "finished"; // UI Thread
}

Naming Convention

Just postfix the name of the method with the return type of Task or Task<T> with Async. e.g:

Task WriteToFileAsync(string fileName)
{
    return Task.Run(()=>WriteToFile(fileName));
}
async void DoJob()
{
    await WriteToFileAsync("a.txt");
}
void Main()
{
    DoJob();
}

Do not use Async postfix for a method which will be passed to Task.Run().

I personally think the Async postfix should not be used for a method which does not return a Task or Task<T>. But most people use this prefix on any async method.

Is this all to it?

No. There is a lot more to learn about async, its context and its continuation.

Task uses Thread? Are you sure?

Not necessarily. Read this answer to know more about the true face of async.

Stephen Cleary has explained async-await perfectly. He also explains in his other blog post when there is no thread involved.

Read more

MSDN explains Task

MSDN explains async

async await - Behind the scenes

async await - FAQ

Make sure you know the difference between Asynchronous, Parallel and Concurrent.

You may also read a simple asynchronous file writer to know where you should concurrent.

Investigate concurrent namespace

Ultimately, read this e-book: Patterns_of_Parallel_Programming_CSharp

  • Wonderful, thanks you so so much, this was driving me around the twist. Ill figure the halt/stop easily enough now too :) – Kickaha Nov 23 '14 at 14:01
  • You're welcome. for the record it's sometimes better to sleep the async thread by adding System.Threading.Thread.Sleep(10); to the end of UpdateWindow method. – Bizhan Nov 23 '14 at 14:15
  • 2
    Great answer. I would add one more option though. If you bind your UI to an object that implements INotifyPropertyChanged (usually called ViewModel), then you can change properties of the object from asynchronous thread. WPF's databinding mechanizm will switch to UI thread for you. – Liero Nov 30 '16 at 9:33
  • Thank you @Liero for the useful information. I put that in answer – Bizhan Nov 30 '16 at 9:56
8

Your use of TaskCompletionSource<T> is incorrect. TaskCompletionSource<T> is a way to create TAP-compatible wrappers for asynchronous operations. In your ExecuteLongProcedureAsync method, the sample code is all CPU-bound (i.e., inherently synchronous, not asynchronous).

So, it's much more natural to write ExecuteLongProcedure as a synchronous method. It's also a good idea to use standard types for standard behaviors, in particular using IProgress<T> for progress updates and CancellationToken for cancellation:

internal void ExecuteLongProcedure(int param1, int param2, int param3,
    CancellationToken cancellationToken, IProgress<string> progress)
{       
  //Start doing work
  if (progress != null)
    progress.Report("Work Started");

  while (true)
  {
    //Mid procedure progress report
    if (progress != null)
      progress.Report("Bath water n% thrown out");
    cancellationToken.ThrowIfCancellationRequested();
  }

  //Exit message
  if (progress != null)
    progress.Report("Done and Done");
}

Now you have a more reusable type (no GUI dependencies) that uses the appropriate conventions. It can be used as such:

public partial class MainWindow : Window
{
  readonly otherClass _burnBabyBurn = new OtherClass();
  CancellationTokenSource _stopWorkingCts = new CancellationTokenSource();

  //A button method to start the long running method
  private async void Button_Click_3(object sender, RoutedEventArgs e)
  {
    var progress = new Progress<string>(data => UpdateWindow(data));
    try
    {
      await Task.Run(() => _burnBabyBurn.ExecuteLongProcedure(intParam1, intParam2, intParam3,
          _stopWorkingCts.Token, progress));
    }
    catch (OperationCanceledException)
    {
      // TODO: update the GUI to indicate the method was canceled.
    }
  }

  //A button Method to interrupt and stop the long running method
  private void StopButton_Click(object sender, RoutedEventArgs e)
  {
    _stopWorkingCts.Cancel();
  }

  //A method to allow the worker method to call back and update the gui
  void UpdateWindow(string message)
  {
    TextBox1.Text = message;
  }
}
  • Cheers, as you say this helps keep my type portable to different interface layers. Also the cancellation token actually cancel the thread and (ill assume) releases the threads resources... and my bool token based interruption actually pauses thread execution so that's good too. Thanks :) – Kickaha Nov 24 '14 at 12:40
  • @Kickaha: The bool approach is technically wrong; it makes incorrect assumptions about the .NET memory model. – Stephen Cleary Nov 24 '14 at 12:48
  • 1
    Ahh.. yes fair enough. To implement pause Ill be sure to seralize and save, then resume state from the save instead of assuming persistence when there patently should not be any. Thank you. – Kickaha Nov 24 '14 at 13:26
4

This is a simplified version of the most popular answer here by Bijan. I simplified Bijan's answer to help me think through the problem using the nice formatting provided by Stack Overflow.

By carefully reading and editing Bijan's post I finally understood: How to wait for async method to complete?

In my case the chosen answer for that other post is what ultimately led me to solve my problem:

"Avoid async void. Have your methods return Task instead of void. Then you can await them."

My simplified version of Bijan's (excellent) answer follows:

1) This starts a task using async and await:

private async void Button_Click_3(object sender, RoutedEventArgs e)
{
    // if ExecuteLongProcedureAsync has a return value
    var returnValue = await Task.Run(()=>
        ExecuteLongProcedureAsync(this, intParam1, intParam2, intParam3));
}

2) This is the method to execute asynchronously:

bool stillWorking = true;
internal void ExecuteLongProcedureAsync(MainWindow gui, int param1, int param2, int param3)
{
    //Start doing work
    gui.UpdateWindow("Work Started");

    while (stillWorking)
    {
        //put a dot in the window showing the progress
        gui.UpdateWindow(".");

        //the following line blocks main thread unless
        //ExecuteLongProcedureAsync is called with await keyword
        System.Threading.Thread.Sleep(50);
    }

    gui.UpdateWindow("Done and Done");
} 

3) Invoke the operation which involves a property from gui:

void UpdateWindow(string text)
{
    //safe call
    Dispatcher.Invoke(() =>
    {
        txt.Text += text;
    });
}

Or,

void UpdateWindow(string text)
{
    //simply
    txt.Text += text;
}

Closing comments) In most cases you have two methods.

  • First method (Button_Click_3) calls the second method and has the async modifier which tells the compiler to enable threading for that method.

    • Thread.Sleep in an async method blocks the main thread. but awaiting a task does not.
    • Execution stops on current thread (second thread) on await statements until task is finished.
    • You can't use await outside an async method
  • Second method (ExecuteLongProcedureAsync) is wrapped within a task and returns a generic Task<original return type> object which can be instructed to be processed asynchronously by adding await before it.

    • Everything in this method in executed asynchronously

Important:

Liero brought up an important issue. When you are Binding an element to a ViewModel property, the property changed callback is executed in UI thread. So there is no need to use Dispatcher.Invoke. Value changes fired by INotifyPropertyChanged are automatically marshalled back onto the dispatcher.

  • Just undeleted this post because I saw someone had upvoted it so it seems someone saw value in it. I don't know what to do with it and I apologize if it's against the rules. I copied-and-pasted an existing answer and removed text to allow me to think through the problem. – Eric D Sep 11 '17 at 20:39
  • Eric, remixing other people's answers is very much encouraged, as long as you credit them. The liberal license (see "cc by-sa 3.0" in the site footer) explicitly allows for it. – halfer Sep 30 '17 at 10:20
3

Here is an example using async/await, IProgress<T> and CancellationTokenSource. These are the modern C# and .Net Framework language features that you should be using. The other solutions are making my eyes bleed a bit.

Code Features

  • Count to 100 over a period of 10 seconds
  • Display progress on a progress bar
  • Long running work (a 'wait' period) performed without blocking the UI
  • User triggered cancellation
  • Incremental progress updates
  • Post operation status report

The view

<Window x:Class="ProgressExample.MainWindow"
        xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation"
        xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"
        xmlns:d="http://schemas.microsoft.com/expression/blend/2008"
        xmlns:mc="http://schemas.openxmlformats.org/markup-compatibility/2006"
        mc:Ignorable="d"
        Title="MainWindow" SizeToContent="WidthAndHeight" Height="93.258" Width="316.945">
    <StackPanel>
        <Button x:Name="Button_Start" Click="Button_Click">Start</Button>
        <ProgressBar x:Name="ProgressBar_Progress" Height="20"  Maximum="100"/>
        <Button x:Name="Button_Cancel" IsEnabled="False" Click="Button_Cancel_Click">Cancel</Button>
    </StackPanel>
</Window>

The code

    /// <summary>
    /// Interaction logic for MainWindow.xaml
    /// </summary>
    public partial class MainWindow : Window
    {
        private CancellationTokenSource currentCancellationSource;

        public MainWindow()
        {
            InitializeComponent();
        }

        private async void Button_Click(object sender, RoutedEventArgs e)
        {
            // Enable/disabled buttons so that only one counting task runs at a time.
            this.Button_Start.IsEnabled = false;
            this.Button_Cancel.IsEnabled = true;

            try
            {
                // Set up the progress event handler - this instance automatically invokes to the UI for UI updates
                // this.ProgressBar_Progress is the progress bar control
                IProgress<int> progress = new Progress<int>(count => this.ProgressBar_Progress.Value = count);

                currentCancellationSource = new CancellationTokenSource();
                await CountToOneHundredAsync(progress, this.currentCancellationSource.Token);

                // Operation was successful. Let the user know!
                MessageBox.Show("Done counting!");
            }
            catch (OperationCanceledException)
            {
                // Operation was cancelled. Let the user know!
                MessageBox.Show("Operation cancelled.");
            }
            finally
            {
                // Reset controls in a finally block so that they ALWAYS go 
                // back to the correct state once the counting ends, 
                // regardless of any exceptions
                this.Button_Start.IsEnabled = true;
                this.Button_Cancel.IsEnabled = false;
                this.ProgressBar_Progress.Value = 0;

                // Dispose of the cancellation source as it is no longer needed
                this.currentCancellationSource.Dispose();
                this.currentCancellationSource = null;
            }
        }

        private async Task CountToOneHundredAsync(IProgress<int> progress, CancellationToken cancellationToken)
        {
            for (int i = 1; i <= 100; i++)
            {
                // This is where the 'work' is performed. 
                // Feel free to swap out Task.Delay for your own Task-returning code! 
                // You can even await many tasks here

                // ConfigureAwait(false) tells the task that we dont need to come back to the UI after awaiting
                // This is a good read on the subject - https://blog.stephencleary.com/2012/07/dont-block-on-async-code.html
                await Task.Delay(100, cancellationToken).ConfigureAwait(false);

                // If cancelled, an exception will be thrown by the call the task.Delay
                // and will bubble up to the calling method because we used await!

                // Report progress with the current number
                progress.Report(i);
            }
        }

        private void Button_Cancel_Click(object sender, RoutedEventArgs e)
        {
            // Cancel the cancellation token
            this.currentCancellationSource.Cancel();
        }
    }
-2

It has been several years since the question was asked but I think it is worth noting that the BackgroundWorker class is designed precisely to achieve A, B and C requirements.

Complete sample in msdn reference page: https://msdn.microsoft.com/en-us/library/system.componentmodel.backgroundworker(v=vs.110).aspx

  • This should have been a comment, if not some implementation – Souvik Ghosh Aug 11 '17 at 8:04
  • Also, I'm not sure your comment is entirely correct anyway. See: stackoverflow.com/questions/12414601/… – maplemale Aug 12 '18 at 22:13
  • There are so many concurrency models in c#, all of which do achieve A,B,C – Bizhan Aug 22 '18 at 21:47

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