113

I have implemented a simple Task.Factory.StartNew() and I wonder how can I do it with Task.Run() instead?

Here is the basic code:

Task.Factory.StartNew(new Action<object>(
(x) =>
{
    // Do something with 'x'
}), rawData);

I looked into System.Threading.Tasks.Task in Object Browser and I couldn't find a Action<T> like parameter. There is only Action that takes void parameter and no type.

There are only 2 things similiar: static Task Run(Action action) and static Task Run(Func<Task> function) but can't post parameter(s) with both.

Yes, I know I can create a simple extension method for it but my main question is can we write it on single line with Task.Run()?

4
  • It's not clear what you'd want the value of the parameter to be. Where would it come from? If you've already got it, just capture it in the lambda expression...
    – Jon Skeet
    May 13, 2015 at 21:33
  • @JonSkeet rawData is a network data packet that has a container class (like DataPacket) and I'm re-using this instance to reduce GC pressure. So, if I use rawData directly in Task, it can (probably) be changed before Task handles it. Now, I think I can create another byte[] instance for it. I think it's the simplest solution for me. May 13, 2015 at 21:54
  • Yes, if you need to clone the byte array, you clone the byte array. Having an Action<byte[]> doesn't change that.
    – Jon Skeet
    May 14, 2015 at 5:49
  • Here are some good solutions to pass parameters to a task. Jan 18, 2020 at 10:54

8 Answers 8

153
private void RunAsync()
{
    //Beware of closures.  String is immutable.
    string param = "Hi";
    Task.Run(() => MethodWithParameter(param));
}

private void MethodWithParameter(string param)
{
    //Do stuff
}

Edit

Due to popular demand I must note that the Task launched will run in parallel with the calling thread. Assuming the default TaskScheduler this will use the .NET ThreadPool. Anyways, this means you need to account for whatever parameter(s) being passed to the Task as potentially being accessed by multiple threads at once, making them shared state. This includes accessing them on the calling thread.

In my above code that case is made entirely moot. Strings are immutable. That's why I used them as an example. But say you're not using a String...

One solution is to use async and await. This, by default, will capture the SynchronizationContext of the calling thread and will create a continuation for the rest of the method after the call to await and attach it to the created Task. If this method is running on the WinForms GUI thread it will be of type WindowsFormsSynchronizationContext.

The continuation will run after being posted back to the captured SynchronizationContext - again only by default. So you'll be back on the thread you started with after the await call. You can change this in a variety of ways, notably using ConfigureAwait. In short, the rest of that method will not continue until after the Task has completed on another thread. But the calling thread will continue to run in parallel, just not the rest of the method.

This waiting to complete running the rest of the method may or may not be desirable. If nothing in that method later accesses the parameters passed to the Task you may not want to use await at all.

Or maybe you use those parameters much later on in the method. No reason to await immediately as you could continue safely doing work. Remember, you can store the Task returned in a variable and await on it later - even in the same method. For instance, once you need to access the passed parameters safely after doing a bunch some other work. Again, you do not need to await on the Task right when you run it.

Anyways, a simple way to make this thread-safe with respect to the parameters passed to Task.Run is to do this:

You must first decorate RunAsync with async:

private async void RunAsync()

Important Notes

Preferably the method marked async should not return void, as the linked documentation mentions. The common exception to this is event handlers such as button clicks and such. They must return void. Otherwise I always try to return a Task or Task<TResult> when using async. It's good practice for a quite a few reasons.

Now you can await running the Task like below. You cannot use await without async.

await Task.Run(() => MethodWithParameter(param));
//Code here and below in the same method will not run until AFTER the above task has completed in one fashion or another

So, in general, if you await the task you can avoid treating passed in parameters as a potentially shared resource with all the pitfalls of modifying something from multiple threads at once. Also, beware of closures. I won't cover those in depth but the linked article does a great job of it.

Regarding Run and StartNew the code below I find most important to know, really. There are legitimate reasons to use either, neither is obsolete or "better" than the other. Be aware simply replacing one with the other is a very bad idea unless you understand this:

//These are exactly the same
Task.Run(x); 
Task.Factory.StartNew(x, CancellationToken.None,
TaskCreationOptions.DenyChildAttach, TaskScheduler.Default);

//These are also exactly the same
Task.Factory.StartNew(x);
Task.Factory.StartNew(x, CancellationToken.None, 
TaskCreationOptions.None, TaskScheduler.Current);

Side Notes

A bit off topic, but be careful using any type of "blocking" on the WinForms GUI thread due to it being marked with [STAThread]. Using await won't block at all, but I do sometimes see it used in conjunction with some sort of blocking.

"Block" is in quotes because you technically cannot block the WinForms GUI thread. Yes, if you use lock on the WinForms GUI thread it will still pump messages, despite you thinking it's "blocked". It's not.

This can cause bizarre issues in very rare cases. One of the reasons you never want to use a lock when painting, for example. But that's a fringe and complex case; however I've seen it cause crazy issues. So I noted it for completeness sake.

16
  • 29
    You are not awaiting Task.Run(() => MethodWithParameter(param));. Which means that if param gets modified after the Task.Run, you might have unexpected results on the MethodWithParameter. May 13, 2015 at 21:43
  • 14
    Why is this an accepted answer when it's wrong. It's not at all equivalent of passing state object. Apr 25, 2017 at 22:21
  • 8
    @Zer0 a state object is the second paremeter in Task.Factory.StartNew msdn.microsoft.com/en-us/library/dd321456(v=vs.110).aspx and it saves the value of the object at the moment of the call to StartNew, while your answer creates a closure, which keeps the reference (if the value of param changes before the task is run it will also change in the task), so your code is not at all equivalent to what the question was asking. The answer really is that there is no way to write it with Task.Run(). Apr 29, 2017 at 18:35
  • 3
    @Zer0 Perhaps you should read the source code. One passes the state object, the other one doesn't. Which is what I said from the begining. Task.Run is not a short-hand for Task.Factory.StartNew. The state object version is there for legacy reasons, but it is still there and it behaves differently sometimes, so people should be aware of that. May 19, 2017 at 21:15
  • 3
    Reading Toub's article I will highlight this sentence " You get to use overloads that accept object state, which for performance-sensitive code paths can be used to avoid closures and the corresponding allocations". I think this is what @Zero is implying when considering Task.Run over StartNew usage.
    – davidcarr
    Feb 5, 2019 at 21:27
41

Use variable capture to "pass in" parameters.

var x = rawData;
Task.Run(() =>
{
    // Do something with 'x'
});

You also could use rawData directly but you must be careful, if you change the value of rawData outside of a task (for example a iterator in a for loop) it will also change the value inside of the task.

5
  • 11
    +1 for taking into consideration the important fact that the variable might be changed right after calling Task.Run. May 13, 2015 at 21:46
  • 2
    how is this going to help? if you use x inside the task thread, and x is a reference to an object, and if the object is modified in the same time when the task thread is running it can lead to havoc.
    – ovi
    Jul 13, 2016 at 10:25
  • 1
    @Ovi-WanKenobi Yes, but that is not what this question was about. It was how to pass a parameter. If you passed a reference to a object as a parameter to a normal function you would have the exact same problem there too. Jul 13, 2016 at 13:28
  • Yup this does not work. My task has no reference back to x in the calling thread. I just get null. May 2, 2019 at 14:38
  • Scott Chamberlain, Passing argument via capture comes with its own issues. In particular, there is the issue of memory leaking and memory pressure. In particular when you try to scale up. (see "8 Ways You can Cause Memory Leaks" for more details). Dec 6, 2020 at 18:41
16

From now you can also :

Action<int> action = (o) => Thread.Sleep(o);
int param = 10;
await new TaskFactory().StartNew(action, param)
3
  • 3
    This is the best answer as it allows a state to be passed in, and prevents the possible situation mentioned in Kaden Burgart's answer. For example, if you need to pass a IDisposable object into the task delegate to resolve the ReSharper warning "Captured variable is disposed in the outer scope", this does it very nicely. Contrary to popular belief, there's nothing wrong with using Task.Factory.StartNew instead of Task.Run where you need to pass state. See here.
    – Neo
    Nov 14, 2020 at 21:00
  • 1
    While this is good a point direction what to do, but the example above will not compile. StartNew need Action<object> as parameter...
    – Kirsan
    Feb 9, 2022 at 11:05
  • 1
    @Kirsan I got this to compile by changing the signature of Action<int> to Action<object?> in .Net 6.
    – Jason D
    Aug 28, 2022 at 19:19
11

I know this is an old thread, but I wanted to share a solution I ended up having to use since the accepted post still has an issue.

The Issue:

As pointed out by Alexandre Severino, if param (in the function below) changes shortly after the function call, you might get some unexpected behavior in MethodWithParameter.

Task.Run(() => MethodWithParameter(param)); 

My Solution:

To account for this, I ended up writing something more like the following line of code:

(new Func<T, Task>(async (p) => await Task.Run(() => MethodWithParam(p)))).Invoke(param);

This allowed me to safely use the parameter asynchronously despite the fact that the parameter changed very quickly after starting the task (which caused issues with the posted solution).

Using this approach, param (value type) gets its value passed in, so even if the async method runs after param changes, p will have whatever value param had when this line of code ran.

5
  • 9
    I eagerly await anyone who can think of a way to do this more legibly with less overhead. This is admittedly rather ugly. Oct 13, 2016 at 20:07
  • 6
    Here you go: var localParam = param; await Task.Run(() => MethodWithParam(localParam)); Oct 13, 2016 at 20:11
  • 2
    Which, by the way, Stephen already discussed in his answer, a year and a half ago.
    – Servy
    Oct 13, 2016 at 20:33
  • 1
    @Servy: That was Scott's answer, actually. I didn't answer this one. Oct 13, 2016 at 21:26
  • Scott's answer would not have worked for me actually, as I was running this in a for loop. The local param would have been reset in the next iteration. The difference in the answer I posted is that the param gets copied into the scope of the lambda expression, so the variable is immediately safe. In Scott's answer, the parameter is still in the same scope, so it could still change between calling the line, and executing the async function. Oct 18, 2016 at 19:30
4

Just use Task.Run

var task = Task.Run(() =>
{
    //this will already share scope with rawData, no need to use a placeholder
});

Or, if you would like to use it in a method and await the task later

public Task<T> SomethingAsync<T>()
{
    var task = Task.Run(() =>
    {
        //presumably do something which takes a few ms here
        //this will share scope with any passed parameters in the method
        return default(T);
    });

    return task;
}
3
  • 2
    Just be careful of closures if you do it that way for(int rawData = 0; rawData < 10; ++rawData) { Task.Run(() => { Console.WriteLine(rawData); } ) } will not behave the same as if rawData was passed in like in the OP's StartNew example. May 13, 2015 at 21:37
  • @ScottChamberlain - That seems like a different example ;) I would hope most people understand about closing over lambda values.
    – Travis J
    May 13, 2015 at 21:39
  • 3
    And if those previous comments made no sense, please see Eric Lipper's blog on the topic: blogs.msdn.com/b/ericlippert/archive/2009/11/12/… It explains why this happens very well.
    – Travis J
    May 13, 2015 at 21:46
4

It's unclear if the original problem was the same problem I had: wanting to max CPU threads on computation inside a loop while preserving the iterator's value and keeping inline to avoid passing a ton of variables to a worker function.

for (int i = 0; i < 300; i++)
{
    Task.Run(() => {
        var x = ComputeStuff(datavector, i); // value of i was incorrect
        var y = ComputeMoreStuff(x);
        // ...
    });
}

I got this to work by changing the outer iterator and localizing its value with a gate.

for (int ii = 0; ii < 300; ii++)
{
    System.Threading.CountdownEvent handoff = new System.Threading.CountdownEvent(1);
    Task.Run(() => {
        int i = ii;
        handoff.Signal();

        var x = ComputeStuff(datavector, i);
        var y = ComputeMoreStuff(x);
        // ...

    });
    handoff.Wait();
}
4

Idea is to avoid using a Signal like above. Pumping int values into a struct prevents those values from changing (in the struct). I had the following Problem: loop var i would change before DoSomething(i) was called (i was incremented at end of loop before ()=> DoSomething(i,ii) was called). With the structs it doesn't happen anymore. Nasty bug to find: DoSomething(i, ii) looks great, but never sure if it gets called each time with a different value for i (or just a 100 times with i=100), hence -> struct

struct Job { public int P1; public int P2; }
…
for (int i = 0; i < 100; i++) {
    var job = new Job { P1 = i, P2 = i * i}; // structs immutable...
    Task.Run(() => DoSomething(job));
}
1
  • 2
    While this may answer the question, it was flagged for review. Answers with no explanation are often considered low-quality. Please provide some commentary for why this is the correct answer.
    – Dan
    Mar 25, 2020 at 17:06
0

There is another way of doing this. I found it useful.

int param;
ThreadPool.QueueUserWorkItem(someMethod, param);
void someMethod(object parameter){
    var param = (int) parameter;
    // do the job
}

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