It's unclear to me what exactly are you doing where “elements are chosen randomly”. But if you use
Paralle.ForEach(), then it tries to be efficient and so it partitions the input sequence in some way. If the input sequence is an
IList<T>, it will use range partitioning, otherwise, it will use chunk partitioning (see Chunk partitioning vs range partitioning in PLINQ).
If you want to process the items in order, you could configure
Parallel.ForEach() by using a custom partitioner, which would partition the collection into chunks of size 1.
But since you don't really need
Parallel.ForEach() here, possibly a simpler solution would be just to create 4 tasks that process the items one by one. For synchronization, you could use
BlockingCollection. Something like:
public static class ParallelOrdered
public static void ForEach<T>(IEnumerable<T> collection, Action<T> action, int degreeOfParallelism)
var blockingCollection = new BlockingCollection<T>();
foreach (var item in collection)
var tasks = new Task[degreeOfParallelism];
for (int i = 0; i < degreeOfParallelism; i++)
tasks[i] = Task.Factory.StartNew(
foreach (var item in blockingCollection.GetConsumingEnumerable())