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I really like this question:

Simplest way to do a fire and forget method in C#?

I just want to know that now that we have Parallel extensions in C# 4.0 is there a better cleaner way to do Fire & Forget with Parallel linq?

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1  
The answer to that question still applies to .NET 4.0. Fire and forget doesn't get much simpler than QueueUserWorkItem. – Brian Rasmussen Apr 10 '11 at 19:05

With the Task class yes, but PLINQ is really for querying over collections.

Something like the following will do it with Task.

Task.Factory.StartNew(() => FireAway());

Or even...

Task.Factory.StartNew(FireAway);

Or...

new Task(FireAway).Start();

Where FireAway is

public static void FireAway()
{
    // Blah...
}

So by virtue of class and method name terseness this beats the threadpool version by between six and nineteen characters depending on the one you choose :)

ThreadPool.QueueUserWorkItem(o => FireAway());
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Surely they are not functionality equivalent though? – Jonathon Kresner Apr 11 '11 at 21:18
3  
There is a subtle semantic difference between StartNew and new Task.Start but otherwise, yes. They all queue FireAway to run on a thread in the threadpool. – Ade Miller Apr 11 '11 at 23:27
4  
What is that subtle semantic difference? – mbx Apr 11 '14 at 8:38

Not an answer for 4.0, but worth noting that in .Net 4.5 you can make this even simpler with:

#pragma warning disable 4014
Task.Run(() =>
{
    MyFireAndForgetMethod();
}).ConfigureAwait(false);
#pragma warning restore 4014

The pragma is to disable the warning that tells you you're running this Task as fire and forget.

If the method inside the curly braces returns a Task:

#pragma warning disable 4014
Task.Run(async () =>
{
    await MyFireAndForgetMethod();
}).ConfigureAwait(false);
#pragma warning restore 4014

Let's break that down:

Task.Run returns a Task, which generates a compiler warning (warning CS4014) noting that this code will be run in the background - that's exactly what you wanted, so we disable warning 4014.

By default, Tasks attempt to "Marshal back onto the original Thread," which means that this Task will run in the background, then attempt to return to the Thread that started it. Often fire and forget Tasks finish after the original Thread is done. That will cause a ThreadAbortException to be thrown. In most cases this is harmless - it's just telling you, I tried to rejoin, I failed, but you don't care anyway. But it's still a bit noisy to have ThreadAbortExceptions either in your logs in Production, or in your debugger in local dev. .ConfigureAwait(false) is just a way of staying tidy and explicitly say, run this in the background, and that's it.

Since this is wordy, especially the ugly pragma, I use a library method for this:

public static class TaskHelper
{
    /// <summary>
    /// Runs a TPL Task fire-and-forget style, the right way - in the
    /// background, separate from the current thread, with no risk
    /// of it trying to rejoin the current thread.
    /// </summary>
    public static void RunBg(Func<Task> fn)
    {
        Task.Run(fn).ConfigureAwait(false);
    }

    /// <summary>
    /// Runs a task fire-and-forget style and notifies the TPL that this
    /// will not need a Thread to resume on for a long time, or that there
    /// are multiple gaps in thread use that may be long.
    /// Use for example when talking to a slow webservice.
    /// </summary>
    public static void RunBgLong(Func<Task> fn)
    {
        Task.Factory.StartNew(fn, TaskCreationOptions.LongRunning)
            .ConfigureAwait(false);
    }
}

Usage:

TaskHelper.RunBg(async () =>
{
    await doSomethingAsync();
}
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If MyFireAndForgetMethod is already marked async (in which case it should be called MyFireAndForgetMethodAsync by convention), the code is even simpler: #pragma warning disable 4014 MyFireAndForgetMethodAsync(); – Keith Morgan Oct 8 '14 at 11:54
1  
@ksm Your approach is in for some trouble unfortunately - have you tested it? That approach is exactly why Warning 4014 exists. Calling an async method without await, and without the help of Task.Run... will cause that method to run, yes, but once it finishes it will attempt to marshal back to the original thread it was fired from. Often that thread will have already completed execution and your code will explode in confusing, indeterminate ways. Don't do it! The call to Task.Run is a convenient way of saying "Run this in the global context," leaving nothing for it to attempt to marshal to. – Chris Moschini Oct 8 '14 at 22:54
1  
@ChrisMoschini glad to help, and thanks for the update! On the other matter, where I wrote "you are calling it with an async anonymous func" in the comment above, it's honestly confusing to me which is the truth. All I know is the code works when the async is not included in the calling (anonymous function) code, but would that mean the calling code would not be run in an asynchronous way (which is bad, a very bad gotcha)? So I am not recommending without the async, it's just odd that in this case, both work. – Nicholas Petersen Oct 22 '15 at 16:44
1  
@AlexeyStrakh Think you're overcomplicating this. You literally just need to put try/catch in there. No need to rely on other devs. Task.Run(async () => { try { await MyFireAndForgetMethod(); } catch(... {...} }).ConfigureAwait(false); – Chris Moschini May 9 at 4:12
1  
I do not see the point of ConfigureAwait(false) on Task.Run when you do not await the task. The purpose of the function is in its name: "configure await". If you do not await the task, you do not register a continuation, and there is no code for the task to "marshal back onto the original thread", as you say. The bigger risk is of an unobserved exception being rethrown on the finalizer thread, which this answer does not even address. – Mike Strobel yesterday

I have a couple issues with the leading answer to this question.

First, in a true fire-and-forget situation, you probably won't await the task, so it is useless to append ConfigureAwait(false). If you do not await the value returned by ConfigureAwait, then it cannot possibly have any effect.

Second, you need to be aware of what happens when the task completes with an exception. Consider the simple solution that @ade-miller suggested:

Task.Factory.StartNew(SomeMethod);  // .NET 4.0
Task.Run(SomeMethod);               // .NET 4.5

This introduces a hazard: if an unhandled exception escapes from SomeMethod(), that exception will never be observed, and may1 be rethrown on the finalizer thread, crashing your application. I would therefore recommend using a helper method to ensure that any resulting exceptions are observed.

You could write something like this:

public static class Blindly
{
    private static readonly Action<Task> DefaultErrorContination =
        t =>
        {
            try { t.Wait(); }
            catch {}
        };

    public static void Run(Action action, Action<Exception> handler = null)
    {
        if (action == null)
            throw new ArgumentNullException(nameof(action));

        var task = Task.Run(action);  // Adapt as necessary for .NET 4.0.

        if (handler == null)
        {
            task.ContinueWith(
                DefaultErrorContination,
                TaskContinuationOptions.ExecuteSynchronously |
                TaskContinuationOptions.NotOnRanToCompletion);
        }
        else
        {
            task.ContinueWith(
                t => handler(t.Exception.GetBaseException()),
                TaskContinuationOptions.ExecuteSynchronously |
                TaskContinuationOptions.NotOnRanToCompletion);
        }
    }
}

This implementation should have minimal overhead: the continuation is only invoked if the task does not complete successfully, and it should be invoked synchronously (as opposed to being scheduled separately from the original task). In the "lazy" case, you won't even incur an allocation for the continuation delegate.

Kicking off an asynchronous operation then becomes trivial:

Blindly.Run(SomeMethod);                              // Ignore error
Blindly.Run(SomeMethod, e => Log.Warn("Whoops", e));  // Log error

1. This was the default behavior in .NET 4.0. In .NET 4.5, the default behavior was changed such that unobserved exceptions would not be rethrown on the finalizer thread (though you may still observe them via the UnobservedTaskException event on TaskScheduler). However, the default configuration can be overridden, and even if your application requires .NET 4.5, you should not assume that unobserved task exceptions will be harmless.

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