I have a sequence of tasks, where each one depends on the output of the previous one. I'd like to represent this as a single Task object, whose result is the output of the end of the sequence. (If the tasks didn't depend on one another then I could do it in parallel and I would use TaskFactory.ContinueWhenAll.)

I'd like to be able to implement this method:

static Task<TState> AggregateAsync<T, TState>(
    IEnumerable<T> items,
    TState initial,
    Func<TState, T, Task<TState>> makeTask);

How can I efficiently run the tasks one after another in sequence? I'm using C# 4.0 so I can't use async/await to do it for me.

Edit: I could write AggregateAsync like this:

static Task<TState> AggregateAsync<T, TState>(IEnumerable<T> items, TState initial, Func<TState, T, Task<TState>> makeTask)
    var initialTask = Task.Factory.StartNew(() => initial);
    return items.Aggregate(
        (prevTask, item) =>
                prevTask.Wait(); // synchronous blocking here?
                return makeTask(prevTask.Result, item);

But surely I'll get a batch of tasks, each of which blocks synchronously waiting for the one before it?


The easy way (using Microsoft.Bcl.Async):

static async Task<TState> AggregateAsync<T, TState>(
    this IEnumerable<T> items,
    TState initial,
    Func<TState, T, Task<TState>> makeTask)
  var state = initial;
  foreach (var item in items)
    state = await makeTask(state, item);
  return state;

The hard way:

static Task<TState> AggregateAsync<T, TState>(
    this IEnumerable<T> items,
    TState initial,
    Func<TState, T, Task<TState>> makeTask)
  var tcs = new TaskCompletionSource<TState>();
  Task<TState> ret = tcs.Task;
  foreach (var item in items)
    var localItem = item;
    ret = ret.ContinueWith(t => makeTask(t.Result, localItem)).Unwrap();
  return ret;

Note that error handling is more awkward with the "hard" way; an exception from the first item will be wrapped in an AggregateException by each successive item. The "easy" way does not wrap exceptions like this.

  • Thanks Stephen - it looks like TaskExtensions.Unwrap is the magic method. And the example on MSDN. is similar to my situation. – Tim Robinson Dec 6 '13 at 13:03
  • Thanks for the .Unwrap "trick". Also, can't the first three lines of your "hard way" be replaced with Task.FromResult(initial)? Is there any difference? – dcastro Dec 6 '13 at 13:04
  • 1
    @dcastro: Yes, except that FromResult isn't available on .NET 4.0. But that is logically what it's doing. – Stephen Cleary Dec 6 '13 at 13:05
  • I'm confused by the requirement for Unwrap. Seems like silly design on MS' part. – Gusdor Dec 9 '13 at 10:46
  • @Gusdor: It makes sense to me; if you have a task returning a task of state, the correct type is Task<Task<TState>>, which you can Unwrap into a plain Task<TState>. There are certain situations where the Task<Task<TState>> is exactly what you want. The reason it's a bit awkward is because we're doing asynchronous programming in .NET 4.0 (when the Task type was primarily intended for parallel programming). – Stephen Cleary Dec 9 '13 at 14:03

You can use Task.ContinueWith. The task you see in the code below, represents the previous (completed) task, and you can fetch its result to execute the second task, and so on.

T item1 = default(T);
T item2 = default(T);
Task<TState> task1 = makeTask(initial, item1);

//create second task
task1.ContinueWith(task => makeTask(task.Result, item2).Result,


Sorry, I missed this part

I'd like to represent this as a single Task object, whose result is the output of the end of the sequence.

In order to do that, you just have to return a reference to the result of the last ContinueWith call.

Task<State> aggregate = task1.ContinueWith(
                                  task => makeTask(task.Result, item2).Result,

var res = aggregate .Result; //wait synchronously for the result of the sequence
  • 1
    Having done this in F# and JS I wanted a ContinueWith that can create a new task - that is, Func<Task<T>, Task<TResult>>. But there's only Func<Task<T>, TResult>. – Tim Robinson Dec 6 '13 at 12:02
  • What do you mean? I may have misunderstood you.. I'm positive you can easily implement a method with the given signature using the sample I provided, and your own implementation of makeTask. – dcastro Dec 6 '13 at 12:04
  • Just chain all your tasks with .ContinueWith and the result of that will be a single Task instance you can wait for (for example using Task.Result as dcastro shows). The tasks will be done in order. That is - task1.ContinueWith(...).ContinueWith(...).ContinueWith(...) or something similar. – Luaan Dec 6 '13 at 12:42
  • How would your second example apply to an arbitrary sequence? If I return secondTask;, I get a Task<Task<T>>; if I return thirdTask; I get Task<Task<Task<T>>>, and so on. I updated the question with code that I think achieves what I want, but with blocking. – Tim Robinson Dec 6 '13 at 12:43
  • @TimRobinson my bad, i've fixed my examples to return Task<State> instead of Task<Task<State>>. In this code, there is no blocking. By the time you call .Result on the previous task, the task has already been ran to completion. – dcastro Dec 6 '13 at 12:52

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