public async Task SerializeToXml(ISourceBlock <Person> source)
        {
            var settings = new XmlWriterSettings();

            settings.Indent = true;
            XmlSerializer xml = new XmlSerializer(typeof(Person));

            using (FileStream fs = File.Create(XmlPath))
                using (StreamWriter sw = new StreamWriter(fs))
                    using (XmlWriter xw = XmlTextWriter.Create(sw, settings))
                    {
                        xw.WriteStartDocument();
                        xw.WriteStartElement("People");
                        string temp = string.Empty;
                        while (await source.OutputAvailableAsync())
                        {
                            var person = source.Receive();

                            xw.WriteStartElement("Person");
                            xw.WriteElementString("Name", person.Name);
                            xw.WriteElementString("Surname", person.Surname);
                            xw.WriteElementString("Countrt", person.Country);
                            xw.WriteElementString("Email", person.Email);
                            xw.WriteElementString("IpAddress", person.IpAddress);
                            xw.WriteEndElement();
                        }
                        xw.WriteEndElement();
                        xw.WriteEndDocument();
                    }
        }
Esempio n. 2
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        static async Task <int> ConsumeAsync(ISourceBlock <List <Vertex> > source)
        {
            // Initialize a counter to track the number of bytes that are processed.
            int nodesProcessed = 0;
            int batch          = 0;

            ElasticClient client = new ElasticClient(new Uri(AppSettings.Current.ElasticServerUrl));

            Console.WriteLine("Indexing documents into elasticsearch...");

            // Read from the source buffer until the source buffer has no
            // available output data.
            while (await source.OutputAvailableAsync())
            {
                Stopwatch sw = new Stopwatch();
                sw.Start();

                List <Vertex> nodes = source.Receive();

                var sb = new StringBuilder();
                foreach (var item in nodes)
                {
                    sb.AppendLine(JsonConvert.SerializeObject(item, Formatting.None));
                }

                File.AppendAllText("/Users/chinkit/00D2D-CRC/04-BigData/stackoverflow/step2/full-graph.json", sb.ToString());


                // Increment the count of bytes received.
                nodesProcessed += nodes.Count;
                Console.WriteLine($"Batch {batch++}     :   Documented {nodesProcessed} ellapsed is {sw.ElapsedMilliseconds / 1000} seconds");
            }

            return(nodesProcessed);
        }
Esempio n. 3
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        // Demonstrates the consumption end of the producer and consumer pattern.
        public async Task <int> ConsumeAsync(ISourceBlock <byte[]> source)
        {
            // Initialize a counter to track the number of bytes that are processed.
            int bytesProcessed = 0;

            // Read from the source buffer until the source buffer has no
            // available output data.
            while (await source.OutputAvailableAsync())
            {
                byte[] data = source.Receive();

                // Increment the count of bytes received.
                bytesProcessed += data.Length;

                //My code for debugging
                lock (consumerLocker)
                {
                    Console.ForegroundColor = ConsoleColor.Green;
                    Console.WriteLine("The processed bytes so far: " + bytesProcessed);
                    Console.ForegroundColor = ConsoleColor.White;
                }
            }

            return(bytesProcessed);
        }
Esempio n. 4
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 // TODO: Wait until this becomes a part of the API
 // https://github.com/dotnet/corefx/issues/41125
 public async static IAsyncEnumerable <TOutput> ReceiveAllAsync <TOutput>(this ISourceBlock <TOutput> source, [EnumeratorCancellation] CancellationToken cancellationToken = default)
 {
     while (await source.OutputAvailableAsync(cancellationToken))
     {
         yield return(source.Receive());
     }
 }
Esempio n. 5
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        static async Task UserInputHandler(ISourceBlock <UserInputEvent> source)
        {
            // Read from the source buffer until the source buffer has no
            // available output data.
            while (await source.OutputAvailableAsync())
            {
                var input = source.Receive();
                if (input == UserInputEvent.ButtonPress)
                {
                    if (boardState == clock)
                    {
                        boardState = countdown;
                    }
                    else
                    {
                        boardState = clock;
                    }
                }

                if (input == UserInputEvent.RotateRight && boardState == countdown)
                {
                    countdown.Increase();
                }
                else if (input == UserInputEvent.RotateLeft && boardState == countdown)
                {
                    countdown.Decrease();
                }
            }
        }
Esempio n. 6
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        //This is the method that consumes the Matrix images and runs some openCV
        //processing on each before saving them. The threads are asynchronus
        //so processing can occur out of order intentionally to speed up the flow
        private static async void AsynchronousImageConv(ISourceBlock <Image> imageQueue)
        {
            while (await imageQueue.OutputAvailableAsync())
            {
                Image producedResult = imageQueue.Receive();


                Task.Run(
                    () =>
                {
                    if (DateTime.Now.Ticks % 3 == 0)
                    {
                        Thread.Sleep(550);
                    }

                    Mat output  = new Mat();
                    Mat input   = producedResult.mat;
                    Mat flipped = input.Flip(FlipMode.Y);
                    //create an inversion effect i.e white becomes black
                    Cv2.BitwiseNot(flipped, output);
                    string outputName = @"C:\Temp\MetroImgs\Output\" + producedResult.filename;
                    output.ImWrite(outputName);
                    Console.WriteLine("Processed Image {0} from the queue:", producedResult.filename);
                    WriteToLog("Processed Image " + producedResult.filename + " from the queue: \n");
                });
            }
        }
Esempio n. 7
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 private async Task <bool> SaveAsync(ISourceBlock <System.Action> source)
 {
     while (await source.OutputAvailableAsync())
     {
         var data = source.Receive();
         data.Invoke();
     }
     return(true);
 }
Esempio n. 8
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        protected override async Task LogConsumerAsync(ISourceBlock <string> Source)
        {
            while (await Source.OutputAvailableAsync())
            {
                await WriteToFile($"{DateTime.Now} {Source.Receive()}\n");

                LogWriteEvent?.Invoke(this, EventArgs.Empty);
            }
        }
        internal async Task <int> ConsumeBuffer(ISourceBlock <SyslogMessageInfo> source)
        {
            int count = 0;

            using (var bucket = DbCluster.OpenBucket("BornToFail1"))
            {
                while (await source.OutputAvailableAsync())
                {
                    var message = source.Receive();

                    var document = new Document <dynamic>
                    {
                        Id      = DocumentPrefix + "message::" + Guid.NewGuid().ToString(),
                        Content = message
                    };

                    var insert = await bucket.InsertAsync(document);

                    if (insert.Success)
                    {
                        Console.WriteLine(document.Id);
                        count++;
                    }
                    else
                    {
                        System.Diagnostics.Debug.WriteLine(insert.Status.ToString());
                    }

                    if (
                        message.Message != null &&
                        message.Message.Header != null &&
                        message.Message.Header.MessageType != null &&
                        message.Message.Header.MessageType.Facility == "SYS" &&
                        message.Message.Header.MessageType.Mnemonic == "CONFIG_I"
                        )
                    {
                        var oldColor = Console.ForegroundColor;
                        Console.ForegroundColor = ConsoleColor.Green;
                        Console.WriteLine("Received Configuration change notification from " + message.Sender.ToString());
                        Console.ForegroundColor = oldColor;

                        var client = new HttpClient();

                        var response = await PostAsJsonAsync(
                            client,
                            "http://localhost:51954/api/values",
                            new ConfigRequestObject
                        {
                            ConfigurationId = Guid.NewGuid(),
                            DeviceId        = message.Sender.Address.ToString()
                        }
                            );
                    }
                }
            }
            return(count);
        }
Esempio n. 10
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 // Demonstrates the consumption end of the producer and consumer pattern.
 async Task ConsumeAsync(ISourceBlock <IMessage> source)
 {
     // Read from the source buffer until the source buffer has no
     // available output data.
     while (await source.OutputAvailableAsync())
     {
         var data = source.Receive();
         aggregateMessage.AddMessage(data);
     }
 }
Esempio n. 11
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 protected override async Task LogConsumerAsync(ISourceBlock <string> Source)
 {
     while (await Source.OutputAvailableAsync())
     {
         LogEntry le = new LogEntry()
         {
             Timestamp = DateTimeOffset.Now, Message = Source.Receive()
         };
         _repoManager.LogEntryRepository.Add(le);
     }
 }
Esempio n. 12
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 protected override async Task ErrorConsumerAsync(ISourceBlock <Exception> Source)
 {
     while (await Source.OutputAvailableAsync())
     {
         LogEntry le = new LogEntry()
         {
             Event = "Exception", Timestamp = DateTimeOffset.Now, Message = Source.Receive().ToString()
         };
         _repoManager.LogEntryRepository.Add(le);
     }
 }
Esempio n. 13
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        public async Task <dynamic> ConsumeAsync(ISourceBlock <object> source, Action <object> action)
        {
            while (await source.OutputAvailableAsync())
            {
                object data = source.Receive();

                action(data);
            }

            return(null);
        }
 private static async void AsynchronousConsumer(ISourceBlock <IList <int> > sourceBlock)
 {
     while (await sourceBlock.OutputAvailableAsync())
     {
         var producedResult = sourceBlock.Receive();
         foreach (var result in producedResult)
         {
             Console.WriteLine("Receiver Received:" + result);
         }
     }
 }
Esempio n. 15
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 public async Task Sender(ISourceBlock <string> source)
 {
     while (await source.OutputAvailableAsync())
     {
         try
         {
             string data = source.Receive();
             await Client.SendAsync(data);
         }
         catch (Exception)
         {
         }
     }
 }
        private async Task ConsumeObjects(ImportContext context, SchemaType type, ISourceBlock <IUser> source)
        {
            long userHighestTicks = 0;

            while (await source.OutputAvailableAsync())
            {
                IUser user = source.Receive();

                try
                {
                    if (user.LastUpdated.HasValue)
                    {
                        AsyncHelper.InterlockedMax(ref userHighestTicks, user.LastUpdated.Value.Ticks);
                    }

                    CSEntryChange c = await this.UserToCSEntryChange(context.InDelta, type, user, context).ConfigureAwait(false);

                    if (c != null)
                    {
                        context.ImportItems.Add(c, context.CancellationTokenSource.Token);
                    }
                }
                catch (Exception ex)
                {
                    UserImportProvider.logger.Error(ex);
                    CSEntryChange csentry = CSEntryChange.Create();
                    csentry.DN = user.Id;
                    csentry.ErrorCodeImport = MAImportError.ImportErrorCustomContinueRun;
                    csentry.ErrorDetail     = ex.StackTrace;
                    csentry.ErrorName       = ex.Message;
                    context.ImportItems.Add(csentry, context.CancellationTokenSource.Token);
                }

                context.CancellationTokenSource.Token.ThrowIfCancellationRequested();
            }

            string wmv;

            if (userHighestTicks <= 0)
            {
                wmv = context.IncomingWatermark["users"].Value;
            }
            else
            {
                wmv = userHighestTicks.ToString();
            }

            context.OutgoingWatermark.Add(new Watermark("users", wmv, "DateTime"));
        }
Esempio n. 17
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 public static async Task <int> SaveFileAsync(ISourceBlock <string> source)
 {
     while (await source.OutputAvailableAsync())
     {
         WebClient wc = new WebClient();
         if (!Directory.Exists("img"))
         {
             Directory.CreateDirectory("img");
         }
         var imageUrl = source.Receive();
         var savePath = GetCacheImageName(imageUrl);
         wc.DownloadFile(imageUrl, savePath);
     }
     return(1);
 }
Esempio n. 18
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        public static async Task <MeasurmentsData> MeasureDataAsync(this ISourceBlock <int> block, int[] keys)
        {
            var stopwatches = keys.ToDictionary(x => x, x => new Stopwatch());
            var seq         = new List <double>();
            var stats       = keys.ToDictionary(x => x, x => new List <double>());

            while (await block.OutputAvailableAsync().ConfigureAwait(false))
            {
                var x = block.Receive();
                seq.Add(x);
                stopwatches[x].Stop();
                stats[x].Add(stopwatches[x].ElapsedMilliseconds);
                stopwatches[x].Restart();
            }
            return(new MeasurmentsData(stats, seq));
        }
Esempio n. 19
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        // Demonstrates the consumption end of the producer and consumer pattern.
        static async Task <int> ConsumeAsync(ISourceBlock <int> source)
        {
            // Initialize a counter to track the number of bytes that are processed.
            int intProcessed = 0;

            // Read from the source buffer until the source buffer has no
            // available output data.
            while (await source.OutputAvailableAsync())
            {
                int data = source.Receive();

                // Increment the sum of int received.
                intProcessed += data;
            }
            return(intProcessed);
        }
Esempio n. 20
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        static async Task <int> ConsumeAsync(ISourceBlock <int> source)
        {
            // Initialize a counter to track the sum.
            int sumOfProcessed = 0;

            // Read from the source buffer until empty
            while (await source.OutputAvailableAsync())
            {
                int data = source.Receive();

                // calculate the sum.
                sumOfProcessed += data;
            }

            return(sumOfProcessed);
        }
        static async Task <int> ConsumeAsync(ISourceBlock <byte[]> source)
        {
            int chunksProcessed = 0;
            int byteProcessed   = 0;

            // keep reading untill source data is exhausted
            while (await source.OutputAvailableAsync())
            {
                byte[] sourceChunkData = source.Receive();
                chunksProcessed++;
                byteProcessed += sourceChunkData.Length;
            }


            Console.WriteLine("Chunks ; " + chunksProcessed);
            return(byteProcessed);
        }
Esempio n. 22
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        // Demonstrates the consumption end of the producer and consumer pattern.
        private static async Task <int> ConsumeAsync(ISourceBlock <byte[]> source)
        {
            // Initialize a counter to track the number of bytes that are processed.
            int bytesProcessed = 0;

            // Read from the source buffer until the source buffer has no
            // available output data.
            while (await source.OutputAvailableAsync().ConfigureAwait(false))
            {
                byte[] data = source.Receive();

                // Increment the count of bytes received.
                Interlocked.Add(ref bytesProcessed, data.Length);
            }

            return(bytesProcessed);
        }
        // Demonstrates the consumption end of the producer and consumer pattern.
        public async Task <int> ConsumeAsync(ISourceBlock <byte[]> source)
        {
            // Initialize a counter to track the number of bytes that are processed.
            int bytesProcessed = 0;

            // Read from the source buffer until the source buffer has no
            // available output data.
            while (await source.OutputAvailableAsync())
            {
                byte[] data = source.Receive();

                // Increment the count of bytes received.
                bytesProcessed += data.Length;
            }

            return(bytesProcessed);
        }
Esempio n. 24
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        /// <summary>
        /// Preparing the match list for saving do tb - include isExist check
        /// </summary>
        /// <param name="source"></param>
        /// <returns></returns>
        static async Task <List <Match> > FetchData(ISourceBlock <Match> source)
        {
            List <Match> matches = new List <Match>();

            while (await source.OutputAvailableAsync())
            {
                Match match = source.Receive();

                //  Check is match already exist in the db
                if (!matches.Any(m => m.Competition == match.Competition && m.TeamA == match.TeamA && m.TeamB == match.TeamB))
                {
                    matches.Add(match);
                }
            }

            return(matches);
        }
Esempio n. 25
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        // Demonstrates the consumption end of the producer and consumer pattern.
        static async Task <int> ConsumeAsync(ISourceBlock <string> source)
        {
            // Initialize a counter to track the number of bytes that are processed.
            int bytesProcessed = 0;

            // Read from the source buffer until the source buffer has no
            // available output data.
            while (await source.OutputAvailableAsync())
            {
                //byte[] data = source.Receive();
                //// Increment the count of bytes received.
                //bytesProcessed += data.Length;
                //Console.WriteLine(data[3].ToString());
                Console.WriteLine(source.Receive());
                bytesProcessed++;
            }
            return(bytesProcessed);
        }
 public Task StartAsync(CancellationToken cancellationToken)
 {
     return(Task.Run(async() =>
     {
         try
         {
             while (await _source.OutputAvailableAsync(cancellationToken))
             {
                 var channelMessage = _source.Receive();
                 channelMessage.Send(_channel);
             }
         }
         catch (OperationCanceledException)
         {
             //all good, time to stop
         }
     }));
 }
Esempio n. 27
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        public static async Task <MeasurmentsData> MeasureDataAsync(this ISourceBlock <int> block)
        {
            var       stats = new List <double>();
            var       seq   = new List <double>();
            Stopwatch sw    = Stopwatch.StartNew();

            while (await block.OutputAvailableAsync().ConfigureAwait(false))
            {
                var item = block.Receive();
                seq.Add(item);
                sw.Stop();
                stats.Add(sw.ElapsedMilliseconds);
                sw.Restart();
            }
            return(new MeasurmentsData(new Dictionary <int, List <double> > {
                [-1] = stats
            }, seq));
        }
Esempio n. 28
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        static async Task ConsumeAsync(ISourceBlock <Pokemon> source)
        {
            BlockingCollection <Pokemon> bag = new BlockingCollection <Pokemon>();

            while (await source.OutputAvailableAsync())
            {
                Pokemon data = (Pokemon)source.Receive();
                bag.Add(data);

                if (!arquivosMultiplos)
                {
                    await CriarArquivoUnico(bag);
                }
                else
                {
                    await CriarArquivMultiplo(bag);
                }
            }
        }
Esempio n. 29
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        /// <summary>
        /// Consumer. Reads tweets from producer.
        /// </summary>
        /// <param name="source"></param>
        /// <returns></returns>
        public async Task <int> ConsumeAsync(ISourceBlock <ITweet> source)
        {
            // Read from the source buffer until the source buffer has no
            // available output data
            while (await source.OutputAvailableAsync())
            {
                ITweet tweet = source.Receive();

                if (tweet.IsRetweet)
                {
                    // If tweet is a retweet, use the orginal tweet
                    tweet = tweet.RetweetedTweet;
                }

                AddTweet(tweet);
            }

            return(0);
        }
Esempio n. 30
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        static async Task ConsumeAsync(ISourceBlock <Pokemon> source)
        {
            BlockingCollection <Pokemon> bag = new BlockingCollection <Pokemon>();

            while (await source.OutputAvailableAsync())
            {
                Pokemon data = (Pokemon)source.Receive();
                bag.Add(data);
            }

            if (!multipleFiles)
            {
                await CreateSingleFile(bag);
            }
            else
            {
                await CreateMultipleFile(bag);
            }
        }
 private async System.Threading.Tasks.Task WriteOutputAsync(ISourceBlock<string> source)
 {
     while (await source.OutputAvailableAsync())
     {
         string data = source.Receive();
         if (OutputPane != null)
         {
             OutputPane.OutputStringThreadSafe(data);
             OutputPane.OutputStringThreadSafe("\r\n");
         }
     }
 }