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What if you need to run multiple asynchronous I/O tasks in parallel but need to make sure that no more than X I/O processes are running at the same time; and pre and post I/O processing tasks shouldn't have such limitation.

Here is a scenario - let's say there are 1000 tasks; each of them accepts a text string as an input parameter; transforms that text (pre I/O processing) then writes that transformed text into a file. The goal is to make pre-processing logic utilize 100% of CPU/Cores and I/O portion of the tasks run with max 10 degree of parallelism (max 10 simultaneously opened for writing files at a time).

Can you provide a sample code how to do it with C# / .NET 4.5?

share|improve this question
Rx 2.0 might be a good fit for this (throttling the second stage to 10 at a time) but I'm not familiar enough with it to say for sure. :-/ – James Manning May 29 '12 at 15:59
up vote 6 down vote accepted

I think using TPL Dataflow for this would be a good idea: you create pre- and post-process blocks with unbounded parallelism, a file-writing block with limited parallelism and link them together. Something like:

var unboundedParallelismOptions =
    new ExecutionDataflowBlockOptions
        MaxDegreeOfParallelism = DataflowBlockOptions.Unbounded

var preProcessBlock = new TransformBlock<string, string>(
    s => PreProcess(s), unboundedParallelismOptions);

var writeToFileBlock = new TransformBlock<string, string>(
    async s =>
                await WriteToFile(s);
                return s;
    new ExecutionDataflowBlockOptions { MaxDegreeOfParallelism = 10 });

var postProcessBlock = new ActionBlock<string>(
    s => PostProcess(s), unboundedParallelismOptions);

var propagateCompletionOptions =
    new DataflowLinkOptions { PropagateCompletion = true };

preProcessBlock.LinkTo(writeToFileBlock, propagateCompletionOptions);
writeToFileBlock.LinkTo(postProcessBlock, propagateCompletionOptions);

// use something like await preProcessBlock.SendAsync("text") here

await postProcessBlock.Completion;

Where WriteToFile() could look like this:

private static async Task WriteToFile(string s)
    using (var writer = new StreamWriter(GetFileName()))
        await writer.WriteAsync(s);
share|improve this answer
+1 That's interesting.. thanks! – Grief Coder May 29 '12 at 22:01

It sounds like you'd want to consider a Djikstra Semaphore to control access to the starting of tasks.

However, this sounds like a typical queue/fixed number of consumers kind of problem, which may be a more appropriate way to structure it.

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