Exemplo n.º 1
0
        private static void ActionBlockSample()
        {
            var processInput = new ActionBlock<string>(s =>
            {
                Console.WriteLine("user input: {0}", s);
            });

            processInput.Post("111");
            processInput.Post("222");
        }
Exemplo n.º 2
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 public void TestPost()
 {
     foreach (bool bounded in DataflowTestHelpers.BooleanValues)
     {
         ActionBlock<int> ab = new ActionBlock<int>(i => { },
             new ExecutionDataflowBlockOptions { BoundedCapacity = bounded ? 1 : -1 }); // test greedy and then non-greedy
         Assert.True(ab.Post(0), "Expected non-completed ActionBlock to accept Post'd message");
         ab.Complete();
         Assert.False(ab.Post(0), "Expected Complete'd ActionBlock to decline messages");
     }
 }
Exemplo n.º 3
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        public void Run()
        {
            this.output.WriteLine("TPL start");
            this.CheckFileExists();

            var f = new FileInfo(this.sampleLogFileName);
            this.fileSizeInBytes = f.Length;
            this.lineSizeInBytesSoFar = 0;
            this.lineCount = 0;

            var sw = new Stopwatch();
            sw.Start();

            var options = new ExecutionDataflowBlockOptions { MaxDegreeOfParallelism = 8 };

            var ab = new ActionBlock<string>(s => this.ProcessLine(s), options);

            using (TextReader reader = File.OpenText(this.sampleLogFileName))
            {
                string line;
                while ((line = reader.ReadLine()) != null)
                {
                    ab.Post(line);
                }
            }

            ab.Complete();
            ab.Completion.Wait();

            sw.Stop();
            this.ShowResults();

            this.output.WriteLine();
            this.output.WriteLine("TPL done in {0}", sw.Elapsed);
        }
    public void WriteOneLatency_OneMetricFlushed_Success()
    {
      _block = TimedLatencyAggregatorBlockFactory.CreateBlock(_outputBuffer,
        String.Empty,
        _intervalService,
        true,
        _log.Object);
      var pulseDate = DateTime.Now;

      _block.Post(new Timing("foo.bar.baz", 100));
      _block.WaitUntilAllItemsProcessed();
      _intervalService.Pulse(pulseDate);

      Assert.AreEqual(new GraphiteLine("foo.bar.baz.count", 1, pulseDate.ToEpoch()),_outputBuffer.GetGraphiteLine(0));
      Assert.AreEqual(new GraphiteLine("foo.bar.baz.min", 100, pulseDate.ToEpoch()), _outputBuffer.GetGraphiteLine(1));
      Assert.AreEqual(new GraphiteLine("foo.bar.baz.max", 100, pulseDate.ToEpoch()), _outputBuffer.GetGraphiteLine(2));
      Assert.AreEqual(new GraphiteLine("foo.bar.baz.mean", 100, pulseDate.ToEpoch()), _outputBuffer.GetGraphiteLine(3));
      Assert.AreEqual(new GraphiteLine("foo.bar.baz.sum", 100, pulseDate.ToEpoch()), _outputBuffer.GetGraphiteLine(4));
      Assert.AreEqual(new GraphiteLine("foo.bar.baz.sumSquares", 10000, pulseDate.ToEpoch()), _outputBuffer.GetGraphiteLine(5));
      Assert.AreEqual(6, _outputBuffer.GraphiteLines.Count);
      // Ensure that min, max, mean and sum are all equal
      Assert.IsTrue(_outputBuffer.GetGraphiteLine(1).Quantity == _outputBuffer.GetGraphiteLine(2).Quantity 
        && _outputBuffer.GetGraphiteLine(2).Quantity == _outputBuffer.GetGraphiteLine(3).Quantity
        && _outputBuffer.GetGraphiteLine(3).Quantity == _outputBuffer.GetGraphiteLine(4).Quantity);
    }
Exemplo n.º 5
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        static void Test()
        {
            ConcurrentExclusiveSchedulerPair pair = new ConcurrentExclusiveSchedulerPair();

            readerAB1 = new ActionBlock<int>((i) =>
            {
                Console.WriteLine(i + "  ReaderAB1 begin handing." + " Excute Time:" + DateTime.Now +
                                  " currentThreadId : " + Thread.CurrentThread.ManagedThreadId);
                Thread.Sleep(500);
            }, new ExecutionDataflowBlockOptions() {TaskScheduler = pair.ConcurrentScheduler});

            readerAB2 = new ActionBlock<int>((i) =>
            {
                Console.WriteLine(i + "  ReaderAB2 begin handing." + " Excute Time:" + DateTime.Now +
                                  " currentThreadId : " + Thread.CurrentThread.ManagedThreadId);
                Thread.Sleep(500);
            }, new ExecutionDataflowBlockOptions() {TaskScheduler = pair.ConcurrentScheduler});

            readerAB3 = new ActionBlock<int>((i) =>
            {
                Console.WriteLine(i + "  ReaderAB3 begin handing." + " Excute Time:" + DateTime.Now +
                                  " currentThreadId : " + Thread.CurrentThread.ManagedThreadId);
                Thread.Sleep(500);
            }, new ExecutionDataflowBlockOptions() {TaskScheduler = pair.ConcurrentScheduler});

            writeAB1 = new ActionBlock<int>((i) =>
            {
                Console.ForegroundColor = ConsoleColor.Red;
                Console.WriteLine(i + "  writeAB1 begin handing." + " Excute Time:" + DateTime.Now +
                                  " currentThreadId : " + Thread.CurrentThread.ManagedThreadId);
                Console.ResetColor();
                Thread.Sleep(3000);
            }, new ExecutionDataflowBlockOptions() {TaskScheduler = pair.ExclusiveScheduler});

            bb.LinkTo(readerAB1);
            bb.LinkTo(readerAB2);
            bb.LinkTo(readerAB3);

            var task1 = Task.Run(() =>
            {
                while (true)
                {
                    bb.Post(1);
                    Thread.Sleep(1000);
                }
            });

            var task2 = Task.Run(() =>
            {
                while (true)
                {
                    writeAB1.Post(1);
                    Thread.Sleep(6000);
                }
            });

            Task.WaitAll(task1, task2);
        }
        public async Task TestBlockBufferCount()
        {
            var block1 = new TransformBlock<int, int>(i => 2 * i);
            var block2 = new TransformManyBlock<int, int>(i => new [] { i });
            var block3 = new ActionBlock<int>(i => { Thread.Sleep(1000); });

            block1.Post(0);
            block2.Post(0);
            block2.Post(0);
            block3.Post(0);
            block3.Post(0);
            block3.Post(0);

            await Task.Delay(200);

            Assert.AreEqual(1, block1.GetBufferCount().Total());
            Assert.AreEqual(2, block2.GetBufferCount().Total());
            Assert.AreEqual(2, block3.GetBufferCount().Total());
        }
    public void WriteFourLatencies_PercentileLogged_Success()
    {
      _block = TimedLatencyPercentileAggregatorBlockFactory.CreateBlock(_outputBuffer,
        String.Empty,
        _intervalService,
        90,
        null,
        _log.Object);

      _block.Post(new Timing("foo", 100));
      _block.Post(new Timing("foo", 200));
      _block.Post(new Timing("foo", 300));
      _block.Post(new Timing("foo", 400));
      _block.WaitUntilAllItemsProcessed();
      _intervalService.Pulse();

      Assert.IsTrue(_outputBuffer.GraphiteLines.Any(p => p.Name == "foo.p90"));
      Assert.AreEqual(400, _outputBuffer["foo.p90"]);
    }
Exemplo n.º 8
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        public void Start(string root)
        {
            _token = new CancellationTokenSource();
            _task = Loop((now, ct) => SendMessagesAsync(ct), _token.Token);
            _task.Post(DateTimeOffset.Now);
            _root = root;
            //_stopwatch.Start();

            Frontier.Push(_root, null);
        }
    public void WriteTwoLatencies_CalulateMinMaxMeanSum_Success()
    {
      _block = TimedLatencyAggregatorBlockFactory.CreateBlock(_outputBuffer,
        String.Empty,
        _intervalService,
        true,
        _log.Object);
      var pulseDate = DateTime.Now;

      _block.Post(new Timing("foo", 5));
      _block.Post(new Timing("foo", 15));
      _block.WaitUntilAllItemsProcessed();
      _intervalService.Pulse(pulseDate);

      Assert.AreEqual(15, _outputBuffer["foo.max"]);
      Assert.AreEqual(5, _outputBuffer["foo.min"]);
      Assert.AreEqual(10, _outputBuffer["foo.mean"]);
      Assert.AreEqual(2, _outputBuffer["foo.count"]);
      Assert.AreEqual(20, _outputBuffer["foo.sum"]);
    }
Exemplo n.º 10
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        public async Task CachePage(EventPage page)
        {
            Accumulator.Store(page);

            if (Accumulator.CachedEventCount > _projection.AsyncOptions.MaximumStagedEventCount)
            {
                _logger.ProjectionBackedUp(this, Accumulator.CachedEventCount, page);
                await _fetcher.Pause().ConfigureAwait(false);
            }

            _executionTrack?.Post(page);
        }
Exemplo n.º 11
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		public void CompleteTest ()
		{
			var block = new ActionBlock<int> (i => Thread.Sleep (100));

			for (int i = 0; i < 10; i++)
				Assert.IsTrue (block.Post (i), "Not Accepted");

			block.Complete ();
			// Still element to be processed so Completion should be false
			Assert.IsFalse (block.Completion.IsCompleted);
			block.Completion.Wait ();
			Assert.IsTrue (block.Completion.IsCompleted);
		}
Exemplo n.º 12
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		public void BasicUsageTest ()
		{
			bool[] array = new bool[3];
			var evt = new CountdownEvent (array.Length);
			var block = new ActionBlock<int> (i => { array[i] = true; evt.Signal (); });

			for (int i = 0; i < array.Length; ++i)
				Assert.IsTrue (block.Post (i), "Not accepted");

			Assert.IsTrue (evt.Wait (500));
			
			Assert.IsTrue (array.All (b => b), "Some false");
		}
    public void WriteOneHunderedLatencies_p90PercentileLogged_Success()
    {
      _block = TimedLatencyPercentileAggregatorBlockFactory.CreateBlock(_outputBuffer,
        String.Empty,
        _intervalService,
        90,
        null,
        _log.Object);

      TestUtility.Range(100, false).ForEach(p => _block.Post(new Timing("foo", p)));
      _block.WaitUntilAllItemsProcessed();
      _intervalService.Pulse();

      Assert.AreEqual(90, _outputBuffer["foo.p90"]);
    }
Exemplo n.º 14
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        internal ProjectionUpdateBatch(EventGraph events, DocumentSessionBase session, EventRange range, CancellationToken token)
        {
            Range    = range;
            _session = session;
            _token   = token;
            Queue    = new ActionBlock <IStorageOperation>(processOperation,
                                                           new ExecutionDataflowBlockOptions {
                MaxDegreeOfParallelism = 1, EnsureOrdered = true, CancellationToken = token
            });

            startNewPage(session);

            var progressOperation = range.BuildProgressionOperation(events);

            Queue.Post(progressOperation);
        }
Exemplo n.º 15
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        private static Task NonSequentialWithTdfAsync(int n)
        {
            var options = new ExecutionDataflowBlockOptions
            {
                MaxDegreeOfParallelism = n
            };
            var abSequential = new ActionBlock <int>(SingleStepAsync,
                                                     options);

            for (int i = 0; i < 10; i++)
            {
                abSequential.Post(i);
            }
            abSequential.Complete();
            return(abSequential.Completion);
        }
Exemplo n.º 16
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        private static void SimpleActionBlock()
        {
            Console.WriteLine("SimpleActionBlock");
            var ab = new ActionBlock <int>(x =>
            {
                Console.WriteLine($"({x}) Task Id: {Task.CurrentId}");
                Thread.Sleep(10);
            });

            for (int i = 0; i < 10; i++)
            {
                ab.Post(i);
            }
            ab.Complete();
            ab.Completion.Wait();
        }
Exemplo n.º 17
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        public void Configuration(IAppBuilder builder)
        {
            var config = new HttpConfiguration();

            // Configure routing
            config.MapHttpAttributeRoutes();

            // Configure serialization
            config.Formatters.XmlFormatter.UseXmlSerializer = true;
            config.Formatters.JsonFormatter.SerializerSettings.ContractResolver
                = new Newtonsoft.Json.Serialization.CamelCasePropertyNamesContractResolver();

            config.Routes.MapHttpRoute("tradingApi", "api/trading/{id}",
                                       new { controller = "Trading", id = RouteParameter.Optional });


            config.Routes.MapHttpRoute("DefaultApi", "api/{controller}/{id}",
                                       new { controller = "{controller}", id = RouteParameter.Optional });

            // replace the default controller activator
            config.Services.Replace(
                typeof(IHttpControllerActivator),
                new ControlActivatorPublisher(
                    Observer.Create <CommandWrapper>(
                        x => agent.Post <CommandWrapper>(x))));

            // Enable Swagger and Swagger UI
            config
            .EnableSwagger(c => c.SingleApiVersion("v1", "StockTicker API"))
            .EnableSwaggerUi();

            var configSignalR = new HubConfiguration()
            {
                EnableDetailedErrors = true
            };                                                                            // #E

            GlobalHost.HubPipeline.AddModule(new ErrorHandlingPipelineModule());
            Owin.CorsExtensions.UseCors(builder, Microsoft.Owin.Cors.CorsOptions.AllowAll);

            TradingCoordinator.Instance()
            .AddPublisher(StockMarket.StockMarket.Instance().AsObservable());

            //  MapSignalR() is an extension method of IAppBuilder provided by SignalR to facilitate mapping and configuration of the hub service.
            //  The generic overload MapSignalR<TConnection> is used to map persistent connections, that we do not have to specify the classes that implement the services
            builder.MapSignalR(configSignalR);
            builder.UseWebApi(config);
        }
Exemplo n.º 18
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        static async Task Main(string[] args)
        {
            var processedDelaysCollection = new BlockingCollection <int>();
            var options = new ExecutionDataflowBlockOptions {
                MaxDegreeOfParallelism = 4
            };

            var actionBlock = new ActionBlock <int>(async delay =>
            {
                if (delay == 3 || delay == 5)
                {
                    throw new ArgumentException($"Nope delay {delay} is not supported, not at all");
                }

                await Task.Delay(1000 * delay);

                processedDelaysCollection.Add(delay);
            }, options);

            var stopWatch = Stopwatch.StartNew();

            foreach (var delay in new int[] { 8, 6, 5, 3 })
            {
                actionBlock.Post(delay);
            }

            actionBlock.Complete();
            try
            {
                await actionBlock.Completion;
            }
            catch (AggregateException errors)
            {
                foreach (var ex in errors.InnerExceptions)
                {
                    Console.WriteLine($"{ex.Message}");
                }
            }
            catch (Exception ex)
            {
                Console.WriteLine($"{ex.Message}");
            }

            stopWatch.Stop();
            Console.WriteLine($"Processing took {stopWatch.Elapsed} secs");
            Console.WriteLine($"Processed delays : {string.Join(',', processedDelaysCollection)}");
        }
Exemplo n.º 19
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        private async void Execute()
        {
            var cancelToken = _cancellationTokenSource.Token;
            var opts        = new ExecutionDataflowBlockOptions()
            {
                MaxDegreeOfParallelism = MaxConcurrentItems,
                BoundedCapacity        = MaxConcurrentItems + 1
            };

            var actionBlock = new ActionBlock <string>(ExecuteItem, opts);

            while (!cancelToken.IsCancellationRequested)
            {
                try
                {
                    if (!SpinWait.SpinUntil(() => actionBlock.InputCount == 0, Options.IdleTime))
                    {
                        continue;
                    }

                    var item = await QueueProvider.DequeueWork(Queue, cancelToken);

                    if (item == null)
                    {
                        if (!QueueProvider.IsDequeueBlocking)
                        {
                            await Task.Delay(Options.IdleTime, cancelToken);
                        }
                        continue;
                    }

                    if (!actionBlock.Post(item))
                    {
                        await QueueProvider.QueueWork(item, Queue);
                    }
                }
                catch (OperationCanceledException)
                {
                }
                catch (Exception ex)
                {
                    Logger.LogError(ex.Message);
                }
            }
            actionBlock.Complete();
            await actionBlock.Completion;
        }
Exemplo n.º 20
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        // other options for perf.
        // 1) only grab certain directories either with dockerfiles or as specified by build.yaml
        // 2) Prioritize large files or files with lots of copies.
        // 3) parallelize copy with buffer first attempt at that with _contentClient.GetBufferAsync failed. Also lots of memory.
        // 4) multistream copyasync
        public async Task <Dictionary <string, double> > Materialize(string localDestination)
        {
            var uniqueblobs = _files.GroupBy(keySelector: file => file.Blob.Id, resultSelector: (key, file) => file).ToList();
            var metrics     = new Dictionary <string, double>
            {
                ["files"]       = _files.Count,
                ["uniqueblobs"] = uniqueblobs.Count
            };

            if (_computeDockerHashes)
            {
                ComputeDockerHashes(localDestination, metrics);
            }

            var dltimes   = new ConcurrentBag <double>();
            var copytimes = new ConcurrentBag <double>();
            var filesize  = new ConcurrentBag <double>();
            var throttler = new ActionBlock <IEnumerable <VstsFile> >(list => DownloadGrouping(list, localDestination, dltimes, copytimes, filesize), new ExecutionDataflowBlockOptions {
                MaxDegreeOfParallelism = _concurrentDownloads
            });

            foreach (var grouping in uniqueblobs)
            {
                throttler.Post(grouping);
            }

            throttler.Complete();
            await throttler.Completion;

            if (dltimes.Any())
            {
                metrics["DownloadCount"]       = dltimes.Count();
                metrics["AverageDownloadSecs"] = dltimes.Average();
                metrics["MaxDownloadSecs"]     = dltimes.Max();
                CalculatePercentile(metrics, dltimes, "Download");
            }

            if (copytimes.Any())
            {
                metrics["CopyCount"]       = copytimes.Count();
                metrics["AverageCopySecs"] = copytimes.Average();
                metrics["MaxCopySecs"]     = copytimes.Max();
                CalculatePercentile(metrics, copytimes, "CopyTime");
            }

            return(metrics);
        }
Exemplo n.º 21
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 /// <summary>
 /// Acknowledge a response from a fetch request. Will post a corresponding
 /// message to the inner actor.
 /// </summary>
 /// <param name="fetchResponse">a fetch response from a Kafka broker.</param>
 public void Acknowledge(CommonAcknowledgement <FetchPartitionResponse> fetchResponse)
 {
     _innerActor.Post(new ConsumerMessage
     {
         MessageType  = ConsumerMessageType.FetchResponse,
         MessageValue = new ConsumerMessageValue
         {
             FetchResponse = fetchResponse
         }
     });
 }
Exemplo n.º 22
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        /// <summary>
        /// Starts a periodic task with delay that gets cancelled using cancellation tokens.
        /// To start the task: PeriodictaskWithDelay(action, token, delay).Post(DateTimeOffset.Now);
        /// </summary>
        /// <param name="action">The work to perform.</param>
        /// <param name="cancellationToken">The cancellation token to stop the loop.</param>
        /// <param name="delay">The delay between each execution (milliseconds)</param>
        /// <returns>The target action block.</returns>
        public static ActionBlock <DateTimeOffset> PeriodicTaskWithDelay(
            Action <DateTimeOffset> action, CancellationToken cancellationToken, int delay)
        {
            ActionBlock <DateTimeOffset> block = null;

            block = new ActionBlock <DateTimeOffset>(async now => {
                action(now);
                await Task.Delay(TimeSpan.FromMilliseconds(delay), cancellationToken).
                ConfigureAwait(false);
                block.Post(DateTimeOffset.Now);
            }, new ExecutionDataflowBlockOptions
            {
                CancellationToken = cancellationToken
            });

            return(block);
        }
        static void Main(string[] args)
        {
            var actionBlock = new ActionBlock <int>(n =>
            {
                Task.Delay(500).Wait();
                Console.WriteLine(n);
            });

            for (int i = 0; i < 10; i++)
            {
                actionBlock.Post(i);
                Console.WriteLine($"There are {actionBlock.InputCount} in the input queue");
            }

            Console.WriteLine("done");
            Console.ReadKey();
        }
Exemplo n.º 24
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        static void Main()
        {
            var ab = new ActionBlock <int>(i =>
            {
                Console.Write($"{i}) Task Id:{Task.CurrentId}\t");
                Thread.Sleep(10);
            }, new ExecutionDataflowBlockOptions {
                MaxDegreeOfParallelism = 4
            });

            for (int i = 1; i <= 10; i++)
            {
                ab.Post(i);
            }
            ab.Complete();
            ab.Completion.Wait();
        }
Exemplo n.º 25
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		public void AsyncNullTest()
		{
			var scheduler = new TestScheduler ();
			var block = new ActionBlock<int> (
				i => null,
				new ExecutionDataflowBlockOptions { TaskScheduler = scheduler });

			Assert.IsTrue (block.Post (1));

			scheduler.ExecuteAll ();

			Assert.IsFalse (block.Completion.Wait (100));

			block.Complete ();

			Assert.IsTrue (block.Completion.Wait (100));
		}
Exemplo n.º 26
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        public async Task DoWorkLoads(List <IPAddress> addresses)
        {
            var options = new ExecutionDataflowBlockOptions
            {
                MaxDegreeOfParallelism = 255
            };

            var block = new ActionBlock <IPAddress>(TestSocket, options);

            foreach (var ip in addresses)
            {
                block.Post(ip);
            }

            block.Complete();
            await block.Completion;
        }
        public static ActionBlock <DateTimeOffset> Create(Func <DateTimeOffset, CancellationToken, Task> action, CancellationToken cancellationToken, TimeSpan delay)
        {
            // Validate parameters.
            if (action == null)
            {
                throw new ArgumentNullException(nameof(action));
            }

            // Declare the block variable, it needs to be captured.
            ActionBlock <DateTimeOffset> block = null;

            // Create the block, it will call itself, so
            // you need to separate the declaration and
            // the assignment.
            // Async so you can wait easily when the
            // delay comes.
            block = new ActionBlock <DateTimeOffset>(async now =>
            {
                // Perform the action.  Wait on the result.
                await action(now, cancellationToken).
                // Doing this here because synchronization context more than
                // likely *doesn't* need to be captured for the continuation
                // here.  As a matter of fact, that would be downright
                // dangerous.
                ConfigureAwait(false);

                // Wait.
                try
                {
                    await Task.Delay(delay, cancellationToken)
                    .
                    // Same as above.
                    ConfigureAwait(false);
                }
                catch (OperationCanceledException) {}

                // Post the action back to the block.
                block.Post(DateTimeOffset.Now);
            }, new ExecutionDataflowBlockOptions
            {
                CancellationToken = cancellationToken
            });

            // Return the block.
            return(block);
        }
Exemplo n.º 28
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        public override void Run()
        {
            // 指定块最大并行数量为 4
            ActionBlock <RunModel> actionBlock = new ActionBlock <RunModel>(
                (model) => Helper.PrintLine($"ActionBlock: {model.Name}"),
                new ExecutionDataflowBlockOptions()
            {
                MaxDegreeOfParallelism = 4
            });
            var models = this.CreateCollection();

            Parallel.ForEach(models, model => actionBlock.Post(model));

            // 将块置为完成,并等待完成
            actionBlock.Complete();
            actionBlock.Completion.Wait();
        }
Exemplo n.º 29
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        /// <summary>
        /// Executes given lambda parallely on given data set with max degree of parallelism set up
        /// </summary>
        /// <typeparam name="T">The item type</typeparam>
        /// <param name="source">Data to process</param>
        /// <param name="body">Lambda to execute on all items</param>
        /// <param name="maxDegreeOfParallelism">Max degree of parallelism (-1 for unbounded execution)</param>
        /// <returns></returns>
        internal static Task AsyncParallelForEach <T>(this IEnumerable <T> source, Func <T, Task> body, int maxDegreeOfParallelism)
        {
            var options = new ExecutionDataflowBlockOptions
            {
                MaxDegreeOfParallelism = maxDegreeOfParallelism
            };

            var block = new ActionBlock <T>(body, options);

            foreach (var item in source)
            {
                block.Post(item);
            }

            block.Complete();
            return(block.Completion);
        }
Exemplo n.º 30
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        private static Task BatchAsync(CancellationToken cancellationToken)
        {
            var options = new ExecutionDataflowBlockOptions
            {
                MaxDegreeOfParallelism = 3,
                CancellationToken      = cancellationToken
            };
            var ab = new ActionBlock <int>(i => DownloadAndSave(i, cancellationToken)
                                           , options);

            for (int i = 0; i < 100; i++)
            {
                ab.Post(i);
            }
            ab.Complete();
            return(ab.Completion);
        }
        public void ProcessAsync(Func <Task> func, LockType lockType)
        {
            switch (lockType)
            {
            case LockType.None:
                func();
                break;

            case LockType.Read:
                _readLockedQueue.Post(func);
                break;

            case LockType.Write:
                _writeLockedQueue.Post(func);
                break;
            }
        }
Exemplo n.º 32
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        private void Flush(Dictionary <String, IDocumentDatabase> from, Dictionary <String, IDocumentDatabase> to)
        {
            var flush = new ActionBlock <FlushTo>(s =>
            {
                try
                {
                    s.To.DropAndPrepare();

                    if (s.Data.Count > 0)
                    {
                        s.To.Save(s.Data);
                    }
                }
                catch (Exception ex)
                {
                    _logger.Fatal(ex);
                }
            }, new ExecutionDataflowBlockOptions()
            {
                MaxDegreeOfParallelism = 10
            });

            foreach (var inMemoryDatabasePair in from)
            {
                var inMemoryDatabase    = (InMemoryDatabase)inMemoryDatabasePair.Value;
                var destinationDatabase = to[inMemoryDatabasePair.Key];

                destinationDatabase.DropAllCollections();

                foreach (var inMemoryCollectionPair in inMemoryDatabase.Collections)
                {
                    var inMemoryCollection = (IInMemoryCollection)inMemoryCollectionPair.Value;
                    var documentType       = inMemoryCollectionPair.Key.DocumentType;
                    var collectionName     = inMemoryCollectionPair.Key.CollectionName;

                    var destinationCollection = destinationDatabase.GetCollection(documentType, collectionName);

                    destinationCollection.DropAndPrepare();

                    flush.Post(new FlushTo(destinationCollection, inMemoryCollection.Documents.Values));
                }
            }

            flush.Complete();
            flush.Completion.Wait();
        }
Exemplo n.º 33
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        public async Task <long> Start(ProjectionDaemon daemon)
        {
            _logger.LogInformation("Starting projection agent for '{ShardName}'", _projectionShard.Name);

            var singleFileOptions = new ExecutionDataflowBlockOptions
            {
                EnsureOrdered          = true,
                MaxDegreeOfParallelism = 1,
                CancellationToken      = _cancellation,
            };

            _commandBlock = new ActionBlock <Command>(processCommand, singleFileOptions);
            _loader       = new TransformBlock <EventRange, EventRange>(loadEvents, singleFileOptions);

            _tracker = daemon.Tracker;
            _daemon  = daemon;


            _fetcher  = new EventFetcher(_store, _projectionShard.EventFilters);
            _grouping = new TransformBlock <EventRange, EventRangeGroup>(groupEventRange, singleFileOptions);


            _building = new ActionBlock <EventRangeGroup>(processRange, singleFileOptions);

            _grouping.LinkTo(_building);
            _loader.LinkTo(_grouping, e => e.Events.Any());

            var lastCommitted = await _store.Advanced.ProjectionProgressFor(_projectionShard.Name, _cancellation);

            foreach (var storageType in _source.Options.StorageTypes)
            {
                // TODO -- this will have to get fancier when we do multi-tenancy by database
                _store.Tenancy.Default.EnsureStorageExists(storageType);
            }

            _commandBlock.Post(Command.Started(_tracker.HighWaterMark, lastCommitted));

            _subscription = _tracker.Subscribe(this);

            _logger.LogInformation("Projection agent for '{ShardName}' has started from sequence {LastCommitted} and a high water mark of {HighWaterMark}", _projectionShard.Name, lastCommitted, _tracker.HighWaterMark);

            Status = AgentStatus.Running;

            Position = lastCommitted;
            return(lastCommitted);
        }
Exemplo n.º 34
0
        private static void Main()
        {
            var actionBlock = new ActionBlock <int>(i =>
            {
                Thread.Sleep(1000);
                Console.WriteLine(i);
            });

            for (var i = 0; i < 10; i++)
            {
                actionBlock.Post(i);
            }

            Console.WriteLine("Done");

            Console.ReadKey();
        }
Exemplo n.º 35
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        ITargetBlock <IEnumerable <ArbitragePair> > CreateNeverEndingTask(
            Func <IEnumerable <ArbitragePair>, CancellationToken, Task> action,
            CancellationToken cancellationToken)
        {
            // Validate parameters.
            if (action == null)
            {
                throw new ArgumentNullException("action");
            }

            // Declare the block variable, it needs to be captured.
            ActionBlock <IEnumerable <ArbitragePair> > block = null;

            // Create the block, it will call itself, so
            // you need to separate the declaration and
            // the assignment.
            // Async so you can wait easily when the
            // delay comes.
            block = new ActionBlock <IEnumerable <ArbitragePair> >(async pairs =>
            {
                // Perform the action.  Wait on the result.
                await action(pairs, cancellationToken).
                // Doing this here because synchronization context more than
                // likely *doesn't* need to be captured for the continuation
                // here.  As a matter of fact, that would be downright
                // dangerous.
                ConfigureAwait(false);

                // Wait.
                await Task.Delay(TimeSpan.FromSeconds(300), cancellationToken).
                // Same as above.
                ConfigureAwait(false);

                pairs = dbService.GetArbitragePairs("", baseExchange.Name, counterExchange.Name).Select(p => new ArbitragePair(p));
                // Post the action back to the block.
                block.Post(pairs);
                //block.Complete();
            }, new ExecutionDataflowBlockOptions
            {
                CancellationToken = cancellationToken
            });

            // Return the block.
            return(block);
        }
Exemplo n.º 36
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        /// <summary>
        /// Lints a given set of specs that belong to a workspace and include any potential linter failures in the resulting one.
        /// </summary>
        public static Workspace CreateLintedWorkspaceForChangedSpecs(
            Workspace workspace,
            IEnumerable <ISourceFile> changedSpecsToLint,
            LoggingContext loggingContext,
            IFrontEndConfiguration configuration,
            PathTable pathTable)
        {
            var logger = BuildXL.FrontEnd.Script.Tracing.Logger.CreateLogger(preserveLogEvents: true);

            var linter = DiagnosticAnalyzer.Create(
                logger,
                loggingContext,
                new HashSet <string>(configuration.EnabledPolicyRules),
                disableLanguagePolicies: false);

            // Lint all files in parallel and wait for queue completion
            var linterQueue = new ActionBlock <ISourceFile>(
                (Action <ISourceFile>)LintFile,
                new ExecutionDataflowBlockOptions {
                MaxDegreeOfParallelism = configuration.MaxFrontEndConcurrency()
            });

            foreach (var sourceFile in changedSpecsToLint)
            {
                linterQueue.Post(sourceFile);
            }

            linterQueue.Complete();

            linterQueue.Completion.GetAwaiter().GetResult();

            // Create a workspace with the extra failures (if any) and return it
            var linterFailures = ComputeLinterFailures(workspace, logger, pathTable);

            return(linterFailures.Count > 0 ? workspace.WithExtraFailures(linterFailures) : workspace);

            // Local functions
            void LintFile(ISourceFile sourceFile)
            {
                if (!sourceFile.HasDiagnostics())
                {
                    linter.AnalyzeFile(sourceFile, logger, loggingContext, pathTable, workspace);
                }
            }
        }
Exemplo n.º 37
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        public static async Task Main(string[] args)
        {
            var service = new PerformanceService(null);

            if (args.Length < 1)
            {
                Console.WriteLine("url is required");
                return;
            }

            var url = args[0];

            var size = 100000;

            if (args.Length > 1)
            {
                size = int.Parse(args[1]);
            }


            var degree = 10;

            if (args.Length > 2)
            {
                degree = int.Parse(args[2]);
            }

            var handler = new HttpPerformanceDelegatingHandler(new HttpClientHandler());


            var client = new HttpClient(handler);


            var block = new ActionBlock <int>(async i => await client.GetAsync(string.Format(url, i)), new ExecutionDataflowBlockOptions {
                MaxDegreeOfParallelism = degree
            });

            foreach (var i in Enumerable.Range(0, size))
            {
                block.Post(i);
            }

            block.Complete();
            await block.Completion;
        }
Exemplo n.º 38
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        private static void DataStructure_ActionBlock()
        {
            // Create an ActionBlock<int> object that prints values
            // to the console.
            var actionBlock = new ActionBlock <int>(n =>
                                                    Console.WriteLine(n));

            // Post several messages to the block.
            for (int i = 0; i < 3; i++)
            {
                actionBlock.Post(i * 10);
            }

            // Set the block to the completed state and wait for all
            // tasks to finish.
            actionBlock.Complete();
            actionBlock.Completion.Wait();
        }
Exemplo n.º 39
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        /// <inheritdoc />
        public override async Task SendWebHookWorkItemsAsync(IEnumerable <WebHookWorkItem> workItems)
        {
            if (workItems == null)
            {
                throw new ArgumentNullException(nameof(workItems));
            }

            _launcher = new ActionBlock <WebHookWorkItem>(async item => {
                await LaunchWebHook(item);
            }
                                                          , _options);
            foreach (WebHookWorkItem workItem in workItems)
            {
                _launcher.Post(workItem);
            }
            _launcher.Complete();
            await _launcher.Completion;
        }
Exemplo n.º 40
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        private static void Main(string[] args)
        {
            //UnhandledException();

            // InternalExceptionHandling();

            //ExternallyExceptionHandling();


            PropagatingAndHandlingExceptions();


            var divideBlock =
                new ActionBlock <Tuple <int, int> >(
                    (Action <Tuple <int, int> >)(input =>
            {
                Thread.Sleep(10);
                Console.WriteLine(input.Item1 / input.Item2);
            }),
                    new ExecutionDataflowBlockOptions()
            {
                MaxDegreeOfParallelism = 2
            });

            divideBlock.Post(Tuple.Create(10, 5));
            divideBlock.Post(Tuple.Create(20, 4));
            divideBlock.Post(Tuple.Create(10, 0));
            divideBlock.Post(Tuple.Create(10, 2));
            divideBlock.Post(Tuple.Create(50, 5));
            divideBlock.Post(Tuple.Create(10, 5));
            divideBlock.Post(Tuple.Create(20, 4));


            //   Console.Read();

            try
            {
                divideBlock.Completion.Wait();
            }
            catch (AggregateException errors)
            {
                foreach (Exception error in errors.InnerExceptions)
                {
                    Console.WriteLine(error.Message);
                }
            }
        }
        /// <summary>
        /// This constructor should be used for asynchronous resource creation
        /// </summary>
        /// <param name="resourceTaskFactory">Function to create a task that returns a resource</param>
        /// <param name="options"></param>
        public AsyncResourcePool(Func <Task <TResource> > resourceTaskFactory, AsyncResourcePoolOptions options)
        {
            _minNumResources                = options.MinNumResources;
            _maxNumResources                = options.MaxNumResources;
            _resourcesExpireAfter           = options.ResourcesExpireAfter;
            _maxNumResourceCreationAttempts = options.MaxNumResourceCreationAttempts;
            _resourceCreationRetryInterval  = options.ResourceCreationRetryInterval;
            _availableResources             = new Queue <TimestampedResource>();
            _pendingResourceRequests        = new Queue <ResourceRequestMessage>();
            _resourceTaskFactory            = resourceTaskFactory;

            // Important: These functions must be called after all instance members have been initialised!
            _messageHandler = GetMessageHandler();
            SetupErrorHandling();
            SetupPeriodicPurge();

            _messageHandler.Post(new EnsureAvailableResourcesMessage());
        }
Exemplo n.º 42
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        /// <summary>
        /// Process the data.
        /// </summary>
        public static void ProcessData <T>
        (
            [NotNull] this IEnumerable <T> data,
            [NotNull] ActionBlock <T> actionBlock
        )
        {
            Code.NotNull(data, "data");
            Code.NotNull(actionBlock, "actionBlock");

            foreach (T item in data)
            {
                actionBlock.Post(item);
                //actionBlock.SendAsync(item);
            }

            actionBlock.Complete();
            actionBlock.Completion.Wait();
        }
Exemplo n.º 43
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        private static async Task TrdStageAsync()
        {
            // make the rest of the code async
            // otherwise you will have dead lock (GetConsumingEnumerable is
            // blocking API therefore could be dangerous)
            await Task.Delay(1);

            foreach (Completeble <string> message in _secondQueue.GetConsumingEnumerable())
            {
                await Task.Delay(2000);

                string data = $"{message.Value} -> third stage";

                var nextMessage = message.ProceedWith(data);
                _finalProcesing.Post(nextMessage); // enqueue and complete
                Console.Write(" 3rd ");
            }
        }
    private static void ActionBlockSample()
    {
      var processInput = new ActionBlock<string>(s =>
      {
        Console.WriteLine("user input: {0}", s);
      });

      bool exit = false;
      while (!exit)
      {
        string input = Console.ReadLine();
        if (string.Compare(input, "exit", ignoreCase: true) == 0)
        {
          exit = true;
        }
        else
        {
          processInput.Post(input);
        }
      }
    }
        internal Task SendBatchAsync(IEnumerable<BrokeredMessage> messages)
        {
            var postBlock = new ActionBlock<IGrouping<string, BrokeredMessage>>((group) =>
            {

                var r = R.Next(_scaleCount);
                TopicClient client = GetClient(group.Key, r);

                Logger.TraceFormat("Posting Messages onto Topic {1} '{0}'", client.Path, r);

                return client.SendBatchAsync(messages);
            });


            foreach (var group in messages.GroupBy(m => m.CorrelationId ?? DEFAULT_COORELATION_ID))
                postBlock.Post(group);

            postBlock.Complete();
            return postBlock.Completion;

        }
Exemplo n.º 46
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        //[Fact(Skip = "Outerloop")]
        public void RunActionBlockConformanceTests()
        {
            // SYNC
            // Do everything twice - once through OfferMessage and Once through Post
            for (FeedMethod feedMethod = FeedMethod._First; feedMethod < FeedMethod._Count; feedMethod++)
            {
                Func<DataflowBlockOptions, TargetProperties<int>> actionBlockFactory =
                    options =>
                    {
                        ITargetBlock<int> target = new ActionBlock<int>(i => TrackCaptures(i), (ExecutionDataflowBlockOptions)options);
                        return new TargetProperties<int> { Target = target, Capturer = target, ErrorVerifyable = true };
                    };

                CancellationTokenSource cancellationSource = new CancellationTokenSource();
                var defaultOptions = new ExecutionDataflowBlockOptions();
                var dopOptions = new ExecutionDataflowBlockOptions { MaxDegreeOfParallelism = Environment.ProcessorCount };
                var mptOptions = new ExecutionDataflowBlockOptions { MaxDegreeOfParallelism = Environment.ProcessorCount, MaxMessagesPerTask = 1 };
                var cancellationOptions = new ExecutionDataflowBlockOptions { MaxDegreeOfParallelism = Environment.ProcessorCount, MaxMessagesPerTask = 1, CancellationToken = cancellationSource.Token };
                var spscOptions = new ExecutionDataflowBlockOptions { SingleProducerConstrained = true };
                var spscMptOptions = new ExecutionDataflowBlockOptions { SingleProducerConstrained = true, MaxMessagesPerTask = 10 };

                Assert.True(FeedTarget(actionBlockFactory, defaultOptions, 1, Intervention.None, null, feedMethod, true));
                Assert.True(FeedTarget(actionBlockFactory, dopOptions, 1, Intervention.None, null, feedMethod, true));
                Assert.True(FeedTarget(actionBlockFactory, mptOptions, 1, Intervention.None, null, feedMethod, true));
                Assert.True(FeedTarget(actionBlockFactory, mptOptions, 1, Intervention.Complete, null, feedMethod, true));
                Assert.True(FeedTarget(actionBlockFactory, cancellationOptions, 1, Intervention.Cancel, cancellationSource, feedMethod, true));

                Assert.True(FeedTarget(actionBlockFactory, spscOptions, 1, Intervention.None, null, feedMethod, true));
                Assert.True(FeedTarget(actionBlockFactory, spscOptions, 1, Intervention.Complete, null, feedMethod, true));
                Assert.True(FeedTarget(actionBlockFactory, spscMptOptions, 1, Intervention.None, null, feedMethod, true));
                Assert.True(FeedTarget(actionBlockFactory, spscMptOptions, 1, Intervention.Complete, null, feedMethod, true));
            }

            // Test scheduler usage
            {
                bool localPassed = true;
                for (int trial = 0; trial < 2; trial++)
                {
                    var sts = new SimpleTaskScheduler();

                    var options = new ExecutionDataflowBlockOptions { TaskScheduler = sts, MaxDegreeOfParallelism = DataflowBlockOptions.Unbounded, MaxMessagesPerTask = 1 };
                    if (trial == 0) options.SingleProducerConstrained = true;

                    var ab = new ActionBlock<int>(i => localPassed &= TaskScheduler.Current.Id == sts.Id, options);
                    for (int i = 0; i < 2; i++) ab.Post(i);
                    ab.Complete();
                    ab.Completion.Wait();
                }

                Assert.True(localPassed, string.Format("{0}: Correct scheduler usage", localPassed ? "Success" : "Failure"));
            }

            // Test count
            {
                bool localPassed = true;
                for (int trial = 0; trial < 2; trial++)
                {
                    var barrier1 = new Barrier(2);
                    var barrier2 = new Barrier(2);
                    var ab = new ActionBlock<int>(i =>
                    {
                        barrier1.SignalAndWait();
                        barrier2.SignalAndWait();
                    }, new ExecutionDataflowBlockOptions { SingleProducerConstrained = (trial == 0) });
                    for (int iter = 0; iter < 2; iter++)
                    {
                        for (int i = 1; i <= 2; i++) ab.Post(i);
                        for (int i = 1; i >= 0; i--)
                        {
                            barrier1.SignalAndWait();
                            localPassed &= i == ab.InputCount;
                            barrier2.SignalAndWait();
                        }
                    }
                }

                Assert.True(localPassed, string.Format("{0}: InputCount", localPassed ? "Success" : "Failure"));
            }

            // Test ordering
            {
                bool localPassed = true;
                for (int trial = 0; trial < 2; trial++)
                {
                    int prev = -1;
                    var ab = new ActionBlock<int>(i =>
                    {
                        if (prev + 1 != i) localPassed &= false;
                        prev = i;
                    }, new ExecutionDataflowBlockOptions { SingleProducerConstrained = (trial == 0) });
                    for (int i = 0; i < 2; i++) ab.Post(i);
                    ab.Complete();
                    ab.Completion.Wait();
                }

                Assert.True(localPassed, string.Format("{0}: Correct ordering", localPassed ? "Success" : "Failure"));
            }

            // Test non-greedy
            {
                bool localPassed = true;
                var barrier = new Barrier(2);
                var ab = new ActionBlock<int>(i =>
                {
                    barrier.SignalAndWait();
                }, new ExecutionDataflowBlockOptions { BoundedCapacity = 1 });
                ab.SendAsync(1);
                Task.Delay(200).Wait();
                var sa2 = ab.SendAsync(2);
                localPassed &= !sa2.IsCompleted;
                barrier.SignalAndWait(); // for SendAsync(1)
                barrier.SignalAndWait(); // for SendAsync(2)
                localPassed &= sa2.Wait(100);
                int total = 0;
                ab = new ActionBlock<int>(i =>
                {
                    Interlocked.Add(ref total, i);
                    Task.Delay(1).Wait();
                }, new ExecutionDataflowBlockOptions { BoundedCapacity = 1 });
                for (int i = 1; i <= 100; i++) ab.SendAsync(i);
                SpinWait.SpinUntil(() => total == ((100 * 101) / 2), 30000);
                localPassed &= total == ((100 * 101) / 2);
                Assert.True(localPassed, string.Format("total={0} (must be {1})", total, (100 * 101) / 2));
                Assert.True(localPassed, string.Format("{0}: Non-greedy support", localPassed ? "Success" : "Failure"));
            }

            // Test that OperationCanceledExceptions are ignored
            {
                bool localPassed = true;
                for (int trial = 0; trial < 2; trial++)
                {
                    int sumOfOdds = 0;
                    var ab = new ActionBlock<int>(i =>
                    {
                        if ((i % 2) == 0) throw new OperationCanceledException();
                        sumOfOdds += i;
                    }, new ExecutionDataflowBlockOptions { SingleProducerConstrained = (trial == 0) });
                    for (int i = 0; i < 4; i++) ab.Post(i);
                    ab.Complete();
                    ab.Completion.Wait();
                    localPassed = sumOfOdds == (1 + 3);
                }

                Assert.True(localPassed, string.Format("{0}: OperationCanceledExceptions are ignored", localPassed ? "Success" : "Failure"));
            }

            // Test using a precanceled token
            {
                bool localPassed = true;
                try
                {
                    var cts = new CancellationTokenSource();
                    cts.Cancel();
                    var dbo = new ExecutionDataflowBlockOptions { CancellationToken = cts.Token };
                    var ab = new ActionBlock<int>(i => { }, dbo);

                    localPassed &= ab.Post(42) == false;
                    localPassed &= ab.InputCount == 0;
                    localPassed &= ab.Completion != null;
                    ab.Complete();
                }
                catch (Exception)
                {
                    localPassed = false;
                }

                Assert.True(localPassed, string.Format("{0}: Precanceled tokens work correctly", localPassed ? "Success" : "Failure"));
            }

            // Test faulting
            {
                bool localPassed = true;
                for (int trial = 0; trial < 2; trial++)
                {
                    var ab = new ActionBlock<int>(i => { throw new InvalidOperationException(); },
                        new ExecutionDataflowBlockOptions { SingleProducerConstrained = (trial == 0) });
                    ab.Post(42);
                    ab.Post(1);
                    ab.Post(2);
                    ab.Post(3);
                    try { localPassed &= ab.Completion.Wait(5000); }
                    catch { }
                    localPassed &= ab.Completion.IsFaulted;
                    localPassed &= SpinWait.SpinUntil(() => ab.InputCount == 0, 500);
                    localPassed &= ab.Post(4) == false;
                }

                Assert.True(localPassed, string.Format("{0}: Faulted handled correctly", localPassed ? "Success" : "Failure"));
            }

            // ASYNC (a copy of the sync but with constructors returning Task instead of void

            // Do everything twice - once through OfferMessage and Once through Post
            for (FeedMethod feedMethod = FeedMethod._First; feedMethod < FeedMethod._Count; feedMethod++)
            {
                Func<DataflowBlockOptions, TargetProperties<int>> actionBlockFactory =
                    options =>
                    {
                        ITargetBlock<int> target = new ActionBlock<int>(i => TrackCapturesAsync(i), (ExecutionDataflowBlockOptions)options);
                        return new TargetProperties<int> { Target = target, Capturer = target, ErrorVerifyable = true };
                    };
                CancellationTokenSource cancellationSource = new CancellationTokenSource();
                var defaultOptions = new ExecutionDataflowBlockOptions();
                var dopOptions = new ExecutionDataflowBlockOptions { MaxDegreeOfParallelism = Environment.ProcessorCount };
                var mptOptions = new ExecutionDataflowBlockOptions { MaxDegreeOfParallelism = Environment.ProcessorCount, MaxMessagesPerTask = 10 };
                var cancellationOptions = new ExecutionDataflowBlockOptions { MaxDegreeOfParallelism = Environment.ProcessorCount, MaxMessagesPerTask = 100, CancellationToken = cancellationSource.Token };

                Assert.True(FeedTarget(actionBlockFactory, defaultOptions, 1, Intervention.None, null, feedMethod, true));
                Assert.True(FeedTarget(actionBlockFactory, defaultOptions, 10, Intervention.None, null, feedMethod, true));
                Assert.True(FeedTarget(actionBlockFactory, dopOptions, 1000, Intervention.None, null, feedMethod, true));
                Assert.True(FeedTarget(actionBlockFactory, mptOptions, 10000, Intervention.None, null, feedMethod, true));
                Assert.True(FeedTarget(actionBlockFactory, mptOptions, 10000, Intervention.Complete, null, feedMethod, true));
                Assert.True(FeedTarget(actionBlockFactory, cancellationOptions, 10000, Intervention.Cancel, cancellationSource, feedMethod, true));
            }

            // Test scheduler usage
            {
                bool localPassed = true;
                var sts = new SimpleTaskScheduler();
                var ab = new ActionBlock<int>(i =>
                    {
                        localPassed &= TaskScheduler.Current.Id == sts.Id;
                        return Task.Factory.StartNew(() => { });
                    }, new ExecutionDataflowBlockOptions { TaskScheduler = sts, MaxDegreeOfParallelism = -1, MaxMessagesPerTask = 10 });
                for (int i = 0; i < 2; i++) ab.Post(i);
                ab.Complete();
                ab.Completion.Wait();
                Assert.True(localPassed, string.Format("{0}: Correct scheduler usage", localPassed ? "Success" : "Failure"));
            }

            // Test count
            {
                bool localPassed = true;
                var barrier1 = new Barrier(2);
                var barrier2 = new Barrier(2);
                var ab = new ActionBlock<int>(i => Task.Factory.StartNew(() =>
                {
                    barrier1.SignalAndWait();
                    barrier2.SignalAndWait();
                }));
                for (int iter = 0; iter < 2; iter++)
                {
                    for (int i = 1; i <= 2; i++) ab.Post(i);
                    for (int i = 1; i >= 0; i--)
                    {
                        barrier1.SignalAndWait();
                        localPassed &= i == ab.InputCount;
                        barrier2.SignalAndWait();
                    }
                }
                Assert.True(localPassed, string.Format("{0}: InputCount", localPassed ? "Success" : "Failure"));
            }

            // Test ordering
            {
                bool localPassed = true;
                int prev = -1;
                var ab = new ActionBlock<int>(i =>
                {
                    return Task.Factory.StartNew(() =>
                    {
                        if (prev + 1 != i) localPassed &= false;
                        prev = i;
                    });
                });
                for (int i = 0; i < 2; i++) ab.Post(i);
                ab.Complete();
                ab.Completion.Wait();
                Assert.True(localPassed, string.Format("{0}: Correct ordering", localPassed ? "Success" : "Failure"));
            }

            // Test non-greedy
            {
                bool localPassed = true;
                var barrier = new Barrier(2);
                var ab = new ActionBlock<int>(i =>
                {
                    return Task.Factory.StartNew(() =>
                    {
                        barrier.SignalAndWait();
                    });
                }, new ExecutionDataflowBlockOptions { BoundedCapacity = 1 });
                ab.SendAsync(1);
                Task.Delay(200).Wait();
                var sa2 = ab.SendAsync(2);
                localPassed &= !sa2.IsCompleted;
                barrier.SignalAndWait(); // for SendAsync(1)
                barrier.SignalAndWait(); // for SendAsync(2)
                localPassed &= sa2.Wait(100);
                int total = 0;
                ab = new ActionBlock<int>(i =>
                {
                    return Task.Factory.StartNew(() =>
                    {
                        Interlocked.Add(ref total, i);
                        Task.Delay(1).Wait();
                    });
                }, new ExecutionDataflowBlockOptions { BoundedCapacity = 1 });
                for (int i = 1; i <= 100; i++) ab.SendAsync(i);
                SpinWait.SpinUntil(() => total == ((100 * 101) / 2), 30000);
                localPassed &= total == ((100 * 101) / 2);
                Assert.True(localPassed, string.Format("total={0} (must be {1})", total, (100 * 101) / 2));
                Assert.True(localPassed, string.Format("{0}: Non-greedy support", localPassed ? "Success" : "Failure"));
            }

            // Test that OperationCanceledExceptions are ignored
            {
                bool localPassed = true;
                int sumOfOdds = 0;
                var ab = new ActionBlock<int>(i =>
                {
                    if ((i % 2) == 0) throw new OperationCanceledException();
                    return Task.Factory.StartNew(() => { sumOfOdds += i; });
                });
                for (int i = 0; i < 4; i++) ab.Post(i);
                ab.Complete();
                ab.Completion.Wait();
                localPassed = sumOfOdds == (1 + 3);
                Assert.True(localPassed, string.Format("{0}: OperationCanceledExceptions are ignored", localPassed ? "Success" : "Failure"));
            }

            // Test that null task is ignored
            {
                bool localPassed = true;
                int sumOfOdds = 0;
                var ab = new ActionBlock<int>(i =>
                {
                    if ((i % 2) == 0) return null;
                    return Task.Factory.StartNew(() => { sumOfOdds += i; });
                });
                for (int i = 0; i < 4; i++) ab.Post(i);
                ab.Complete();
                ab.Completion.Wait();
                localPassed = sumOfOdds == (1 + 3);
                Assert.True(localPassed, string.Format("{0}: null tasks are ignored", localPassed ? "Success" : "Failure"));
            }

            // Test faulting from the delegate
            {
                bool localPassed = true;
                var ab = new ActionBlock<int>(new Func<int, Task>(i => { throw new InvalidOperationException(); }));
                ab.Post(42);
                ab.Post(1);
                ab.Post(2);
                ab.Post(3);
                try { localPassed &= ab.Completion.Wait(100); }
                catch { }
                localPassed &= ab.Completion.IsFaulted;
                localPassed &= SpinWait.SpinUntil(() => ab.InputCount == 0, 500);
                localPassed &= ab.Post(4) == false;
                Assert.True(localPassed, string.Format("{0}: Faulted from delegate handled correctly", localPassed ? "Success" : "Failure"));
            }

            // Test faulting from the task
            {
                bool localPassed = true;
                var ab = new ActionBlock<int>(i => Task.Factory.StartNew(() => { throw new InvalidOperationException(); }));
                ab.Post(42);
                ab.Post(1);
                ab.Post(2);
                ab.Post(3);
                try { localPassed &= ab.Completion.Wait(100); }
                catch { }
                localPassed &= ab.Completion.IsFaulted;
                localPassed &= SpinWait.SpinUntil(() => ab.InputCount == 0, 500);
                localPassed &= ab.Post(4) == false;
                Assert.True(localPassed, string.Format("{0}: Faulted from task handled correctly", localPassed ? "Success" : "Failure"));
            }
        }
Exemplo n.º 47
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        async Task TransformCoreAsync(StreamReader reader, StreamWriter writer)
        {
            var writerBlock = new ActionBlock<string>(l => writer.WriteLineAsync(l));

            for (; ; )
            {
                var line = await reader.ReadLineAsync().ConfigureAwait(false);

                if (null == line)
                    break;

                line = line.Normalize(NormalizationForm.FormC);

                line = line.TrimEnd();

                writerBlock.Post(line);
            }

            writerBlock.Complete();

            await writerBlock.Completion.ConfigureAwait(false);
        }
Exemplo n.º 48
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		public void DefaultSchedulerIsDefaultTest ()
		{
			var scheduler = new TestScheduler ();
			var factory = new TaskFactory (scheduler);

			ActionBlock<int> action = null;

			var task = factory.StartNew (() =>
			{
				Assert.AreEqual (scheduler, TaskScheduler.Current);

				action = new ActionBlock<int> (
					i => Assert.AreNotEqual (scheduler, TaskScheduler.Current));
				Assert.IsTrue (action.Post (1));
				action.Complete ();
			});

			Assert.AreEqual (1, scheduler.ExecuteAll ());

			Assert.IsNotNull (action);

			Assert.IsTrue (action.Completion.Wait (1000));
			Assert.IsTrue (task.Wait (0));
		}
Exemplo n.º 49
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        private static IEnumerable<string> ConvertToCsvLines(IEnumerable<CloudBlockBlob> blobs, int maxDegreeOfParallelism)
        {
            var lines = new BlockingCollection<string>(BoundedCapacity);

            Task.Run(async () =>
                {
                    var actionBlock = new ActionBlock<CloudBlockBlob>(
                    async (b) =>
                    {
                        var line = await ConvertToCsvLineAsync(b);
                        lines.Add(line);
                    },
                    new ExecutionDataflowBlockOptions { MaxDegreeOfParallelism = maxDegreeOfParallelism });

                    foreach (var blob in blobs)
                    {
                        var postSuccess = actionBlock.Post(blob);
                    }

                    actionBlock.Complete();
                    await actionBlock.Completion;
                    lines.CompleteAdding();
                });

            return lines.GetConsumingEnumerable();
        }
        public void TestEncapsulate_LinkingAndUnlinking()
        {
            var buffer = new BufferBlock<int>();
            var action = new ActionBlock<int>(i => buffer.Post(i));
            action.Completion.ContinueWith(delegate { buffer.Complete(); }, TaskScheduler.Default);
            IPropagatorBlock<int, int> encapsulated = DataflowBlock.Encapsulate(action, buffer);

            var endTarget = new BufferBlock<int>();

            IDisposable unlink = encapsulated.LinkTo(endTarget);
            Assert.NotNull(unlink);

            IDisposable unlink2 = encapsulated.LinkTo(endTarget);
            Assert.NotNull(unlink);

            action.Post(1);
            Assert.Equal(expected: 1, actual: endTarget.Receive());

            unlink.Dispose();
            action.Post(2);
            Assert.Equal(expected: 2, actual: endTarget.Receive());

            unlink2.Dispose();
        }
Exemplo n.º 51
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 /// <summary>
 /// 请求队列处理程序
 /// </summary>
 /// <param name="dr"></param>
 /// <param name="parseQueue"></param>
 public void RequestHandler(DataRequest dr, ActionBlock<DataResponse> parseQueue)
 {
     //TODO [待完善]异常处理
     var dcp = _dcpList[dr.GUID];
     var dresp = dcp.SendHandler(dr);
     parseQueue.Post(dresp);
 }
Exemplo n.º 52
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 internal static bool ActionPingPong()
 {
     const int ITERS = 2;
     using (ManualResetEventSlim mres = new ManualResetEventSlim())
     {
         ActionBlock<int> c1 = null, c2 = null;
         c1 = new ActionBlock<int>(i => c2.Post(i + 1));
         c2 = new ActionBlock<int>(i =>
         {
             if (i >= ITERS) mres.Set();
             else c1.Post(i + 1);
         });
         c1.Post(0);
         mres.Wait();
         return true;
     }
 }
Exemplo n.º 53
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		public void AsyncCancelledTest()
		{
			var scheduler = new TestScheduler ();
			var block = new ActionBlock<int> (
				i =>
				{
					var tcs = new TaskCompletionSource<int> ();
					tcs.SetCanceled ();
					return tcs.Task;
				}, new ExecutionDataflowBlockOptions { TaskScheduler = scheduler });

			Assert.IsTrue (block.Post (1));

			scheduler.ExecuteAll ();

			Assert.IsFalse (block.Completion.Wait (100));
		}
Exemplo n.º 54
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        public async Task TestFaulting()
        {
            for (int trial = 0; trial < 3; trial++)
            foreach (bool singleProducerConstrained in DataflowTestHelpers.BooleanValues)
            {
                var options = new ExecutionDataflowBlockOptions { SingleProducerConstrained = singleProducerConstrained };
                Action thrower = () => { throw new InvalidOperationException(); };

                ActionBlock<int> ab = null;
                switch (trial)
                {
                    case 0: ab = new ActionBlock<int>(i => thrower(), options); break;
                    case 1: ab = new ActionBlock<int>(i => { thrower(); return Task.FromResult(0); }, options); break;
                    case 2: ab = new ActionBlock<int>(i => Task.Run(thrower), options); break;
                }
                for (int i = 0; i < 4; i++)
                {
                    ab.Post(i); // Post may return false, depending on race with ActionBlock faulting
                }

                try
                {
                    await ab.Completion;
                    Assert.True(false, "Should always throw IOE");
                }
                catch (InvalidOperationException) { }

                Assert.Equal(expected: 0, actual: ab.InputCount);
                Assert.False(ab.Post(5));
            }
        }
Exemplo n.º 55
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        public async Task TestExceptionDataStorage()
        {
            const string DataKey = "DataflowMessageValue"; // must match key used in dataflow source

            // Validate that a message which causes the ActionBlock to fault
            // ends up being stored (ToString) in the resulting exception's Data
            var ab1 = new ActionBlock<int>((Action<int>)(i => { throw new FormatException(); }));
            ab1.Post(42);
            await Assert.ThrowsAsync<FormatException>(() => ab1.Completion);
            AggregateException e = ab1.Completion.Exception;
            Assert.Equal(expected: 1, actual: e.InnerExceptions.Count);
            Assert.Equal(expected: "42", actual: (string)e.InnerException.Data[DataKey]);
        
            // Test case where message's ToString throws
            var ab2 = new ActionBlock<ObjectWithFaultyToString>((Action<ObjectWithFaultyToString>)(i => { throw new FormatException(); }));
            ab2.Post(new ObjectWithFaultyToString());
            Exception ex = await Assert.ThrowsAsync<FormatException>(() => ab2.Completion);
            Assert.False(ex.Data.Contains(DataKey));
        }
Exemplo n.º 56
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 public async Task TestFaultyScheduler()
 {
     var ab = new ActionBlock<int>(i => { },
         new ExecutionDataflowBlockOptions
         {
             TaskScheduler = new DelegateTaskScheduler
             {
                 QueueTaskDelegate = delegate { throw new FormatException(); }
             }
         });
     ab.Post(42);
     await Assert.ThrowsAsync<TaskSchedulerException>(() => ab.Completion);
 }
Exemplo n.º 57
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        public async Task ActionPingPong()
        {
            var tcs = new TaskCompletionSource<bool>();

            ActionBlock<int> c1 = null, c2 = null;
            c1 = new ActionBlock<int>(i => c2.Post(i + 1));
            c2 = new ActionBlock<int>(i => {
                if (i >= Iterations) tcs.SetResult(true);
                else c1.Post(i + 1);
            });
            c1.Post(0);

            await tcs.Task;
        }
    public void WriteLatenciesToTwoBuckets_MeasurementsSeparate_Success()
    {
      _block = TimedLatencyPercentileAggregatorBlockFactory.CreateBlock(_outputBuffer,
        String.Empty,
        _intervalService,
        80,
        null,
        _log.Object);
      var pulseDate = DateTime.Now;

      // Bucket one
      TestUtility.Range(5, false).ForEach(p => _block.Post(new Timing("foo", p * 100)));
      // Bucket two
      TestUtility.Range(5, false).ForEach(p => _block.Post(new Timing("bar", p * 100)));
      _block.WaitUntilAllItemsProcessed();
      _intervalService.Pulse(pulseDate);

      Assert.AreEqual(400, _outputBuffer["foo.p80"]);
      Assert.AreEqual(400, _outputBuffer["bar.p80"]);
      Assert.AreEqual(1, _outputBuffer.Items.Count);
    }
Exemplo n.º 59
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		public void TaskSchedulerTest ()
		{
			var scheduler = new TestScheduler ();

			int n = 0;

			var action = new ActionBlock<int> (
				i => Interlocked.Increment (ref n),
				new ExecutionDataflowBlockOptions { TaskScheduler = scheduler });

			Assert.IsTrue (action.Post (1));

			Assert.AreEqual (0, Volatile.Read (ref n));

			Assert.AreEqual (1, scheduler.ExecuteAll ());
			Assert.AreEqual (1, Volatile.Read (ref n));
		}
Exemplo n.º 60
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 /// <summary>
 /// 解析队列处理程序
 /// </summary>
 /// <param name="dresp"></param>
 /// <param name="storeQueue"></param>
 public void ParseHandler(DataResponse dresp, ActionBlock<DataContainer> storeQueue)
 {
     //TODO [待完善]异常处理
     var dcp = _dcpList[dresp.GUID];
     DataContainer dc;
     try
     {
         dc = dcp.ParseHandler(dresp);
     }
     catch (ParseErrorException)
     {
         //TODO [待完善]统一保存异常页面
         var path = Path.Combine(WorkPath.ErrorPagePath, $"{ DateTime.Now.ToString("yyyy-MM-dd_HH.mm.ss.fffffff")}.html");
         File.WriteAllText(path, dresp.Text);
         return;
     }
     storeQueue.Post(dc);
 }