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Is there a way to do foreach style iteration over parallel enumerables in C#? For subscriptable lists, I know one could use a regular for loop iterating an int over the index range, but I really prefer foreach to for for a number of reasons.

Bonus points if it works in C# 2.0

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wouldn't a for loop be a more simpler, shorter, readable solution instead of the Combine response below ? what are your reasons for preferring foreach in this case –  Gishu Feb 7 '09 at 7:29
Also parallel iteration just surfaced in Ruby 1.9 so I'd bet on it not being in C# as of now.. LISP had it though :) –  Gishu Feb 7 '09 at 7:30
I'm not sure I understand the question correctly. Are you trying to iterate over multiple enumerables in parallel, or are you trying to loop over one enumerable, processing different items in parallel? –  Hosam Aly Feb 7 '09 at 8:37
I am talking about multiple enumerables in parallel. Like parallel arrays of pencils and papers. I want each pencil to write on the corresponding paper. –  recursive Feb 7 '09 at 15:28

6 Answers 6

up vote 9 down vote accepted

Short answer, no. foreach works on only one enumerable at a time.

However, if you combine your parallel enumerables into a single one, you can foreach over the combined. I am not aware of any easy, built in method of doing this, but the following should work (though I have not tested it):

public IEnumerable<TSource[]> Combine<TSource>(params object[] sources)
    foreach(var o in sources)
        // Choose your own exception
        if(!(o is IEnumerable<TSource>)) throw new Exception();

    var enums =
        sources.Select(s => ((IEnumerable<TSource>)s).GetEnumerator())

    while(enums.All(e => e.MoveNext()))
        yield return enums.Select(e => e.Current).ToArray();

Then you can foreach over the returned enumerable:

foreach(var v in Combine(en1, en2, en3))
    // Remembering that v is an array of the type contained in en1,
    // en2 and en3.
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Why did you pick object[] instead of IEnumerable<TSource> as parameter type? It would eliminate the exception, no? –  mafu Nov 14 '14 at 23:16
There was at least one version of the C# language that wouldn't compile params with anything other than object[]. Considering this answer is five years old, I'd guess the only version I'd used at that point was one that wouldn't work with params IEnumerable<TSource>[] sources. These days, of course I'd use the more explicit typing. I'd probably also use the IEnumerable<T>.Zip extension method for two enumerables - fairly sure this also didn't exist five years ago. –  Zooba Nov 17 '14 at 19:43

Zooba's answer is good, but you might also want to look at the answers to "How to iterate over two arrays at once".

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Would this work for you?

public static class Parallel
    public static void ForEach<T>(IEnumerable<T>[] sources,
                                  Action<T> action)
        foreach (var enumerable in sources)
            ThreadPool.QueueUserWorkItem(source => {
                foreach (var item in (IEnumerable<T>)source)
            }, enumerable);

// sample usage:
static void Main()
    string[] s1 = { "1", "2", "3" };
    string[] s2 = { "4", "5", "6" };
    IEnumerable<string>[] sources = { s1, s2 };
    Parallel.ForEach(sources, s => Console.WriteLine(s));
    Thread.Sleep(0); // allow background threads to work

For C# 2.0, you need to convert the lambda expressions above to delegates.

Note: This utility method uses background threads. You may want to modify it to use foreground threads, and probably you'll want to wait till all threads finish. If you do that, I suggest you create sources.Length - 1 threads, and use the current executing thread for the last (or first) source.

(I wish I could include waiting for threads to finish in my code, but I'm sorry that I don't know how to do that yet. I guess you should use a WaitHandle Thread.Join().)

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.NET 4's BlockingCollection makes this pretty easy. Create a BlockingCollection, return its .GetConsumingEnumerable() in the enumerable method. Then the foreach simply adds to the blocking collection.


private BlockingCollection<T> m_data = new BlockingCollection<T>();

public IEnumerable<T> GetData( IEnumerable<IEnumerable<T>> sources )
    Task.Factory.StartNew( () => ParallelGetData( sources ) );
    return m_data.GetConsumingEnumerable();

private void ParallelGetData( IEnumerable<IEnumerable<T>> sources )
    foreach( var source in sources )
        foreach( var item in source )
            m_data.Add( item );

    //Adding complete, the enumeration can stop now

Hope this helps. BTW I posted a blog about this last night


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This should be marked as correct now that .net 4.0 is out –  BlueRaja - Danny Pflughoeft May 21 '10 at 16:21
This does not answer the question, which is about enumerating multiple enumerables together. –  Arthur Ward Dec 22 '14 at 21:05
You are absolutely correct Arthur, I'll fix it –  Andre Dec 23 '14 at 4:25

I wrote an implementation of EachParallel() from the .NET4 Parallel library. It is compatible with .NET 3.5: Parallel ForEach Loop in C# 3.5 Usage:

string[] names = { "cartman", "stan", "kenny", "kyle" };
names.EachParallel(name =>
    catch { /* handle exception */ }


/// <summary>
/// Enumerates through each item in a list in parallel
/// </summary>
public static void EachParallel<T>(this IEnumerable<T> list, Action<T> action)
    // enumerate the list so it can't change during execution
    list = list.ToArray();
    var count = list.Count();

    if (count == 0)
    else if (count == 1)
        // if there's only one element, just execute it
        // Launch each method in it's own thread
        const int MaxHandles = 64;
        for (var offset = 0; offset < list.Count() / MaxHandles; offset++)
            // break up the list into 64-item chunks because of a limitiation             // in WaitHandle
            var chunk = list.Skip(offset * MaxHandles).Take(MaxHandles);

            // Initialize the reset events to keep track of completed threads
            var resetEvents = new ManualResetEvent[chunk.Count()];

            // spawn a thread for each item in the chunk
            int i = 0;
            foreach (var item in chunk)
                resetEvents[i] = new ManualResetEvent(false);
                ThreadPool.QueueUserWorkItem(new WaitCallback((object data) =>
                    int methodIndex = (int)((object[])data)[0];

                    // Execute the method and pass in the enumerated item

                    // Tell the calling thread that we're done
                }), new object[] { i, item });

            // Wait for all threads to execute
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If you want to stick to the basics - I rewrote the currently accepted answer in a simpler way:

    public static IEnumerable<TSource[]> Combine<TSource> (this IEnumerable<IEnumerable<TSource>> sources)
        var enums = sources
            .Select (s => s.GetEnumerator ())
            .ToArray ();

        while (enums.All (e => e.MoveNext ())) {
            yield return enums.Select (e => e.Current).ToArray ();

    public static IEnumerable<TSource[]> Combine<TSource> (params IEnumerable<TSource>[] sources)
        return sources.Combine ();
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