Is Parallel.ForEach() with MaxDegreeOfParallelism==1 guaranteed to process the input enumerable in-order?

If the answer is "no", is there a way to enforce this behavior?

  • 5
    Can I ask why you want to know this? Just academic curiosity, or are you experiencing some sort of real world issue?
    – mason
    Mar 15, 2017 at 13:46
  • 1
    @mituw16: I cannot find any hint on this in the linked MSDN article. Also spinning up a few tests is no guarantee for "yes".
    – D.R.
    Mar 15, 2017 at 13:46
  • 1
    Such question depends on implementation details and if it's not stated by msdn it can be changed in the future. Do you need to run something in order? Then use Queue<>.
    – Sinatr
    Mar 15, 2017 at 13:47
  • 2
    If your test code requires in-order processing for something that isn't in-order under real circumstances then your test is flawed. Rewrite it so that verifying the outcome doesn't rely on this assumption, or rewrite the code under test to make an explicit exception when MaxDegreeOfParallelism is 1 so you are assured of its consistent behavior in all circumstances. The first option is preferable, obviously. Mar 16, 2017 at 11:29
  • 3
    @l33t - looking at the source or running a test tells you nothing about future implementations. You need an explicit statement in the docs.
    – ℍ ℍ
    Feb 16, 2018 at 17:14

3 Answers 3


First, it is correct that Microsoft's official documentation on parallel programming states that the execution order is not guaranteed.

The Parallel.ForEach method does not guarantee the order of execution. Unlike a sequential ForEach loop, the incoming values aren't always processed in order.

It would be best to use Parallel.ForEach as the public API is designed: to process items in a parallel manner. If you need to process items sequentially, you're much better off using a regular foreach loop. The intent is clearer than using MaxDegreeOfParallelism = 1.

With that being said, for curiosity's sake, I took a look at the source code for .NET 4.7.1. The short answer is yes, the items will be processed sequentially if MaxDegreeOfParallelism = 1. However, you shouldn't rely on this for future implementations, because it may not always be this way.

  1. Taking a look at Parallel.ForEach and following it through, you'll eventually see that the collection to be iterated over is partitioned (this process is slightly different whether it is a TSource[], List<TSource>, or an IEnumerable<TSource>.

  2. Task.SavedStateForNextReplica and Task.SavedStateFromPreviousReplica are overridden in ParallelForReplicaTask in order to communicate state between tasks running in parallel. In this case, they are used to communicate which partition the task should iterate over.

  3. Finally, let's take a look at Task.ExecuteSelfReplicating. ParallelForReplicatingTask overrides ShouldReplicate based on the degree of parallelism specified as well as the task scheduler's MaximumConcurrencyLevel. So, this with MaxDegreeOfParallelism = 1 will only create a single child task. As such, this task will only operate over the single partition which was created.

So, to answer your question: as of writing, Parallel.ForEach with MaxDegreeOfParallism = 1 will enumerate the collection from beginning to end for a TSource[], from beginning to end for an IList<TSource>, and use GetEnumerator for an IEnumerable<TSource>, with slightly different paths depending on if the IEnumerable<TSource> can be cast to an OrderablePartitioner<TSource> or not. These three paths are determined in Parallel.ForEachWorker.

I strongly encourage you to browse through the source code on your own to see for yourself.

I hope this is able to answer your question, but it's really important to remember: don't rely on this. It is very possible that this implementation can change in the future.


From MSDN:

The Parallel.ForEach method does not guarantee the order of execution. Unlike a sequential ForEach loop, the incoming values aren't always processed in order.



The answer is "no" but you can enforce the behavior using AsOrdered() as shown below.

using System;
using System.Linq;
using System.Threading.Tasks;

var items = Enumerable.Range(0, 1000).ToArray();
    new ParallelOptions { MaxDegreeOfParallelism = 1 },

SharpLab sample here

Obviously, if you increase MaxDegreeOfParallelism each parallel task will process its chunk (or chunks) of items - in the order they appear in the original ordered list.


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