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EDIT: As recommended by svick I replaced the custom IPropagatorBlock with a simple TransformBlock, however, I still see a mismatch between the order of input items and order of output items. Below my TransformBlock instantiation and Func that I pass in:

quoteBuffer = new TransformBlock<Tuple<Symbol, int>, List<Quote>>(syncExecution, new ExecutionDataflowBlockOptions { SingleProducerConstrained = true,  MaxDegreeOfParallelism = DataflowBlockOptions.Unbounded });

//Function that performs Sync Processing
Func<Tuple<Symbol, int>, List<Quote>> syncExecution = new Func<Tuple<Symbol, int>, List<Quote>>(partitionTuple =>
    Symbol symbol = partitionTuple.Item1;
    int partitionIndex = partitionTuple.Item2;

    //Read Binary Data
    byte[] byteArray = binaryDataReaders[symbol].ReadBytes(partitionIndex);

    //Deserialize and return quote list
    List<Quote> quoteList = dataInterfaces[symbol].Deserialize(symbol, byteArray);

    return quoteList;

And this is how I post to the transform block:

quoteBuffer.SendAsync(new Tuple<Symbol, int>(symbol, counter));


someone helped me with the following custom transform block. The idea is to post/sendasync TInput and have TInput being acted upon in an async manner while the custom transform block preserves the order of posted items when returning transformed items.

For example, if posting 1,2,3 in the respective order and the transform function squares each input and returns the item, the correct output values and order should be 1, 4, 9, irregardless of which of the 3 transform operations completes when.

However, I suspect there is an error with the code because the output order is not correct. Worse yet, the messed up order location is random which makes it harder to debug but is a reflection of the fact that apparently the tasks that are kicked off to transform input elements into output elements complete always differently.

Can someone please take a look and possible give some hints what I am missing here? Thanks

public static IPropagatorBlock<TInput, TOutput> CreateConcurrentOrderedTransformBlock<TInput, TOutput>(Func<TInput, TOutput> transform)
        var queue = new TransformBlock<Task<TOutput>, TOutput>(t => t);

        var processor = new ActionBlock<Tuple<TInput, Action<TOutput>>>(
            tuple => tuple.Item2(transform(tuple.Item1)),
            new ExecutionDataflowBlockOptions
                MaxDegreeOfParallelism = DataflowBlockOptions.Unbounded

        var enqueuer = new ActionBlock<TInput>(
            async item =>
                var tcs = new TaskCompletionSource<TOutput>();
                await processor.SendAsync(
                    new Tuple<TInput, Action<TOutput>>(item, tcs.SetResult));
                await queue.SendAsync(tcs.Task);

            _ =>

        return DataflowBlock.Encapsulate(enqueuer, queue);
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I take it for a simple transform block to work and benefit from parallel execution of input items I need to set the degree of parallelism to something larger than one, correct? –  Matt Wolf Oct 10 '12 at 19:29
@svick, I actually question your statement, I tried that some time ago and also just ran it again and the order does not seem guaranteed. Are you sure TransformBlock returns items in the order streamed to it? If thats the case then something else very funny is going on... –  Matt Wolf Oct 10 '12 at 20:11
@svick, as an additional note to make my point: As long as I set MaxDegreeOfParallelism = 1 the output items are in the same order as input items. Anything larger than that messes up the order. I edited my question and included the Func that is passed on to the instantiated TransformBlock. Could you maybe take a look to check whether you see something weird? The only answer I currently have is a)TransformBlock does not preserve the order or b) some reference types in Func mess with my brain (its 6am here). Thanks a lot. –  Matt Wolf Oct 10 '12 at 21:04
Yeah, all my tests indicate that TransformBlock does keep the order of items. There most likely is something else going on (but it's not in your lambda). Could you post a short, complete program that shows your issue? –  svick Oct 11 '12 at 9:22
@svick, please see my own answer. My wrong it took a heck of a time to debug. –  Matt Wolf Oct 12 '12 at 18:58

1 Answer 1

up vote 0 down vote accepted

I answer my own question because I found the bug which caused all this trouble. As can be seen from my lambda expression I read byte arrays within the data block, meaning that as soon as degree of parallelism is set to >1 byte arrays are read from the same file from a physical disk concurrently. This apparently really messes with the locations at which the bytes are read. I set the starting point of the read operation with br.basestream.seek(...) and read bytes through br.readbytes(numberBytes). As several operations concurrently affect the locations within the file the binary reader most likely reads bytes in an unordered fashion which causes the mess ups.

I solved the problem by pulling the binary reader out of the lambda expression and instead pass read byte arrays into the expression and use concurrency only for deserialization and merge/sorting purposes which solved the problem. And yes, transform block preserves the order. Thanks svick for sharing your vast expertise on the tpl dataflow side.

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