Deploying IObservable <Task <T>> to IObservable <T>

Question

Deploying IObservable <Task <T>> to IObservable <T>

Is there a way to expand IObservable<Task<T>>in IObservable<T>while maintaining the same order of events, for example?

Tasks:  ----a-------b--c----------d------e---f---->
Values: -------A-----------B--C------D-----E---F-->

Let's say I have a desktop application that consumes a stream of messages, some of which require heavy post-processing:

IObservable<Message> streamOfMessages = ...;

IObservable<Task<Result>> streamOfTasks = streamOfMessages
    .Select(async msg => await PostprocessAsync(msg));

IObservable<Result> streamOfResults = ???; // unwrap streamOfTasks

I imagine two ways to deal with this.

Firstly, I can subscribe streamOfTasksusing an asynchronous event handler:

streamOfTasks.Subscribe(async task =>
{
    var result = await task;
    Display(result);
});

Secondly, I can convert streamOfTasksusing Observable.Create, for example:

var streamOfResults =
    from task in streamOfTasks
    from value in Observable.Create<T>(async (obs, cancel) =>
    {
        var v = await task;
        obs.OnNext(v);

        // TODO: don't know when to call obs.OnComplete()
    })
    select value;

streamOfResults.Subscribe(result => Display(result));

: , , , , . , , , .

, , , . , - .

UPD. , . . :

Timer: 0
Timer: 1
Async handler: 1
Observable.Create: 1
Observable.FromAsync: 1
Timer: 2
Async handler: 2
Observable.Create: 2
Observable.FromAsync: 2
Observable.Create: 0
Async handler: 0
Observable.FromAsync: 0

:

// "C:\Program Files (x86)\MSBuild\14.0\Bin\csc.exe" test.cs /r:System.Reactive.Core.dll /r:System.Reactive.Linq.dll /r:System.Reactive.Interfaces.dll

using System;
using System.Reactive;
using System.Reactive.Concurrency;
using System.Reactive.Linq;
using System.Threading.Tasks;

class Program
{
    static void Main()
    {
        Console.WriteLine("Press ENTER to exit.");

        // the source stream
        var timerEvents = Observable.Timer(TimeSpan.Zero, TimeSpan.FromSeconds(1));
        timerEvents.Subscribe(x => Console.WriteLine($"Timer: {x}"));

        // solution #1: using async event handler
        timerEvents.Subscribe(async x =>
        {
            var result = await PostprocessAsync(x);
            Console.WriteLine($"Async handler: {x}");
        });

        // solution #2: using Observable.Create
        var processedEventsV2 =
            from task in timerEvents.Select(async x => await PostprocessAsync(x))
            from value in Observable.Create<long>(async (obs, cancel) =>
            {
                var v = await task;
                obs.OnNext(v);
            })
            select value;
        processedEventsV2.Subscribe(x => Console.WriteLine($"Observable.Create: {x}"));

        // solution #3: using FromAsync, as answered by @Enigmativity
        var processedEventsV3 =
            from msg in timerEvents
            from result in Observable.FromAsync(() => PostprocessAsync(msg))
            select result;

        processedEventsV3.Subscribe(x => Console.WriteLine($"Observable.FromAsync: {x}"));

        Console.ReadLine();
    }

    static async Task<long> PostprocessAsync(long x)
    {
        // some messages require long post-processing
        if (x % 3 == 0)
        {
            await Task.Delay(TimeSpan.FromSeconds(2.5));
        }

        // and some don't
        return x;
    }
}

+4

c# .net-4.5 system.reactive task-parallel-library rx.net

yallie 10 . '17 2:51

4

?

IObservable<Result> streamOfResults =
    from msg in streamOfMessages
    from result in Observable.FromAsync(() => PostprocessAsync(msg))
    select result;

+1

Enigmativity 10 . '17 3:14

, TransformBlock TPL Dataflow. TransformBlock - .

using System;
using System.Collections.Generic;
using System.Reactive.Linq;
using System.Threading.Tasks;
using System.Threading.Tasks.Dataflow;
using NUnit.Framework;

namespace HandlingStreamInOrder {

    [TestFixture]
    public class ItemHandlerTests {

        [Test]
        public async Task Items_Are_Output_In_The_Same_Order_As_They_Are_Input() {
            var itemHandler = new ItemHandler();
            var timerEvents = Observable.Timer(TimeSpan.Zero, TimeSpan.FromMilliseconds(250));
            timerEvents.Subscribe(async x => {
                var data = (int)x;
                Console.WriteLine($"Value Produced: {x}");                
                var dataAccepted = await itemHandler.SendAsync((int)data);
                if (dataAccepted) {
                    InputItems.Add(data);
                }                
            });

            await Task.Delay(5000);
            itemHandler.Complete();
            await itemHandler.Completion;

            CollectionAssert.AreEqual(InputItems, itemHandler.OutputValues);
        }

        private IList<int> InputItems {
            get;
        } = new List<int>();
    }

    public class ItemHandler {


        public ItemHandler() {            
            var options = new ExecutionDataflowBlockOptions() {
                BoundedCapacity = DataflowBlockOptions.Unbounded,
                MaxDegreeOfParallelism = Environment.ProcessorCount,
                EnsureOrdered = true
            };
            PostProcessBlock = new TransformBlock<int, int>((Func<int, Task<int>>)PostProcess, options);

            var output = PostProcessBlock.AsObservable().Subscribe(x => {
                Console.WriteLine($"Value Output: {x}");
                OutputValues.Add(x);
            });
        }

        public async Task<bool> SendAsync(int data) {
            return await PostProcessBlock.SendAsync(data);
        }

        public void Complete() {
            PostProcessBlock.Complete();
        }

        public Task Completion {
            get { return PostProcessBlock.Completion; }
        }

        public IList<int> OutputValues {
            get;
        } = new List<int>();

        private IPropagatorBlock<int, int> PostProcessBlock {
            get;
        }

        private async Task<int> PostProcess(int data) {
            if (data % 3 == 0) {
                await Task.Delay(TimeSpan.FromSeconds(2));
            }            
            return data;
        }
    }
}

+1

JSteward 10 . '17 15:30

Rx TPL , TPL , :

using System.Threading.Tasks;
using System.Threading.Tasks.Dataflow;

static async Task<long> PostprocessAsync(long x) { ... }

IObservable<Message> streamOfMessages = ...;
var streamOfTasks = new TransformBlock<long, long>(async msg => 
    await PostprocessAsync(msg)
    // set the concurrency level for messages to handle
    , new ExecutionDataflowBlockOptions { MaxDegreeOfParallelism = Environment.ProcessorCount });
// easily convert block into observable
IObservable<long> streamOfResults = streamOfTasks.AsObservable();

: Rx , . , . C# , .

, Interlocked , - :

// counter for operations get started
int operationNumber = 0;
// counter for operations get done
int doneNumber = 0;
...
var currentOperationNumber = Interlocked.Increment(ref operationNumber);
...
while (Interlocked.CompareExchange(ref doneNumber, currentOperationNumber + 1, currentOperationNumber) != currentOperationNumber)
{
    // spin once here
}
// handle event
Interlocked.Increment(ref doneNumber);

+1

VMAtm 10 . '17 22:04

yallie · Accepted Answer · 2017-04-11T22:18:43+0000

@Enigmativity @VMAtm SO, :

// usage
var processedStream = timerEvents.SelectAsync(async t => await PostprocessAsync(t));

processedStream.Subscribe(x => Console.WriteLine($"Processed: {x}"));

// my sample console program prints the events ordered properly:
Timer: 0
Timer: 1
Timer: 2
Processed: 0
Processed: 1
Processed: 2
Timer: 3
Timer: 4
Timer: 5
Processed: 3
Processed: 4
Processed: 5
....

SelectAsync, IObservable<Task<TSource>> IObservable<TResult>, :

public static IObservable<TResult> SelectAsync<TSource, TResult>(
    this IObservable<TSource> src,
    Func<TSource, Task<TResult>> selectorAsync)
{
    // using local variable for counter is easier than src.Scan(...)
    var counter = 0;
    var streamOfTasks =
        from source in src
        from result in Observable.FromAsync(async () => new
        {
            Index = Interlocked.Increment(ref counter) - 1,
            Result = await selectorAsync(source)
        })
        select result;

    // buffer the results coming out of order
    return Observable.Create<TResult>(observer =>
    {
        var index = 0;
        var buffer = new Dictionary<int, TResult>();

        return streamOfTasks.Subscribe(item =>
        {
            buffer.Add(item.Index, item.Result);

            TResult result;
            while (buffer.TryGetValue(index, out result))
            {
                buffer.Remove(index);
                observer.OnNext(result);
                index++;
            }
        });
    });
}

, , - . , ( ).

. RX .

Deploying IObservable <Task <T>> to IObservable <T>

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