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Using the .NET Task Parallel Library, is there an in-built way to wait for all running Tasks to complete, without actually having a reference to the Tasks?

Task.WaitAny() and Task.WaitAll() both require an array of Task instances. What I'd like is something like Task.WaitAll() which takes no arguments, and just waits for any and all Tasks spawned by my application to complete.

If not, I'll build something into my framework, but I don't want to reinvent the wheel if I can help it.

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By 'all running tasks' do you mean Tasks that you created in your process/application? –  n8wrl Aug 24 '11 at 19:52
@n8wrl: I said "any and all Tasks spawned by my application"... so yes. –  Igby Largeman Aug 24 '11 at 20:21

2 Answers 2

up vote 4 down vote accepted

Since any Task could be spawned by any .NET code (i.e. BCL, some library, etc.) you probably don't want to wait on all tasks that are outstanding, but just the ones that your own code has created. The simplest way is to create your own factory that uses the underlying one that tracks all unfinished tasks and exposes the desired wait functions

public class MyTaskFactory {
    private HashSet<Task> _tasks = new HashSet<Task>();

    public Task<T> StartNew<T>(Func<T> func) {
        var t = Task.Factory.StartNew(func);
        t.ContinueWith(x => {
          lock(_tasks) {
        lock(_tasks) {
        return t;

    // ... implement other StartNew overrides ...

    public void WaitAll() {
        Task[] tasks;
        lock(_tasks) {
          tasks = _tasks.ToArray();
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I've done something quite similar to this, but I'm allowing my classes to maintain their own list of tasks and implement the same WaitAll() method you've written, which is exposed by an IUsesTasks interface. This fits in well with my current framework. However, I like your idea too, perhaps more than mine. +1. –  Igby Largeman Aug 25 '11 at 0:59
I'm accepting this as I ended up doing something similar, and I love the t.ContinueWith(x => _tasks.Remove(x));, which I hadn't thought of. Thanks. –  Igby Largeman Aug 26 '11 at 22:00
This code is not thread safe. For example, if StartNew is invoked by parallel tasks, calls to Remove or Add may be attempted in parallel on the container that is not thread safe. Also, if a task finishes during the call to WaitAll, Remove may be called concurrently to ToArray. These problems can be solved by locking, or using a thread-safe collection instead of the HashSet, but there are more subtle problems as well: for example, if one of the tasks you are currently waiting on calls StartNew, you gonna have a "leaked" task. –  Branko Dimitrijevic Aug 31 '11 at 22:27
@Branko Duh.. That's what i get for posting a toy implementation. Fixed the concurrency issues. The second one you mention is a bit more complex. If i lock _tasks for the waitall, it could lead to deadlock. I run a loop waiting on all and remove completed tasks until tasks is depleted. I'll leave that implementation to the reader :) –  Arne Claassen Sep 1 '11 at 16:49

I know this doesn't answer your question directly, but you could change your architecture so all the tasks are created as children of one "main" task. Waiting on this "main" task will then automatically wait on all its children.

You can create a child task like this:

    () => /* ... */,

You may find the following links useful when it comes to the topic of child tasks:

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That's a neat idea - I'll consider it. Thanks. +1 –  Igby Largeman Aug 24 '11 at 20:20

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