Exemple #1
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 public SingleThreadStressTest(ConnectionString connectionString) : base(connectionString)
 {
     _client     = BrightstarService.GetClient(connectionString);
     _storeName  = connectionString.StoreName;
     _importJobs = new List <string>();
     _queryTimes = new ConcurrentQueue <Tuple <long, int> >();
     _queryTasks = new List <Task>();
 }
 public SingleThreadStressTest(ConnectionString connectionString) : base(connectionString)
 {
     _client = BrightstarService.GetClient(connectionString);
     _storeName = connectionString.StoreName;
     _importJobs = new List<string>();
     _queryTimes = new ConcurrentQueue<Tuple<long, int>>();
     _queryTasks = new List<Task>();
 }
Exemple #3
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        private Socket(Line Line)
        {
            _SendTasks = new ConcurrentQueue <Task>();
            _ReadTask  = new Task();

            m_Line    = Line;
            m_Machine = new StageMachine <Timestamp>();
        }
Exemple #4
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        /// <summary>
        /// Constructor responsible for initializing received messages's list and server's member.
        /// Already calls .start() function in order to start server's thread.
        /// </summary>
        /// <param name="listeningport">Port in configuration file</param>
        public Networking(int listeningport)
        {
            _untreatedInbox = new ConcurrentQueue <byte[]>();
            _treatedInbox   = new ConcurrentQueue <Message>();
            _sendInbox      = new ConcurrentQueue <MessageContainer>();

            _listeningServer = new Server(listeningport, ref _untreatedInbox);
            Start();
        }
Exemple #5
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 /// <summary>
 ///  初始化各种处理器
 /// </summary>
 /// <param name="factory">Session工厂</param>
 /// <param name="filter">连接过滤器</param>
 /// <param name="handshake">握手处理器</param>
 public AsyncTcpListener(ISessionFactory factory, ISocketFilter filter, IHandshake handshake)
 {
     m_sessionFactory = factory;
     m_filter = filter;
     m_handshake = handshake;
     if (m_filter != null && m_filter.IdleMilliseconds > 0)
     {
         m_queue = new System.Collections.Concurrent.ConcurrentQueue<StateObject>();
     }
 }
        public SerialPorts_ViewModel(SerialPortWrapper.ISerialPorts ports)
        {
            this.ports = ports;
            listener   = ports.GetPortListener();

            SerialPortNames = new ReadOnlyObservableCollection <string>(new ObservableCollection <string>(this.ports.GetAvailablePortNames()));

            worker.RunWorkerCompleted += worker_RunWorkerCompleted;
            worker.DoWork             += worker_DoWork;

            port_events_queue       = new ConcurrentQueue <PortEvent>();
            listener.event_handler += OnPortEvent;
        }
Exemple #7
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 /// <summary>
 /// 构造函数
 /// </summary>
 /// <param name="maxClients">允许的最大连接数</param>
 /// <param name="receiveBufferSize">每个连接接收数据缓存的大小</param>
 /// <param name="sendBufferSize">每个连发送收数据缓存的大小</param>
 /// <param name="sendQueueSize">等待发送数据的最大业务包</param>
 public SessionFactory(int maxClients, int receiveBufferSize, int sendBufferSize, int sendQueueSize, IBufferProcessor commandReader)
 {
     m_receiveBufferSize = receiveBufferSize;
     m_sendBufferSize = sendBufferSize;
     m_bufferPool = new System.Collections.Concurrent.ConcurrentQueue<UserBuffer>();
     m_receivebuffer = new byte[maxClients * receiveBufferSize];
     m_sendbuffer = new byte[maxClients * sendBufferSize];
     m_process = commandReader;
     for (int i = 0; i < maxClients; i++)
     {
         var receivebuffer = new Sinan.Collections.BytesSegment(m_receivebuffer, m_receiveBufferSize * i, m_receiveBufferSize);
         var sendbuffer = new Sinan.Collections.BytesSegment(m_sendbuffer, m_sendBufferSize * i, m_sendBufferSize);
         UserBuffer helper = new UserBuffer(i, this, receivebuffer, sendbuffer, sendQueueSize);
         m_bufferPool.Enqueue(helper);
     }
 }
Exemple #8
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        void _worker_DoWork(object sender, DoWorkEventArgs e)
        {
            WorkerArgs args = (e.Argument as WorkerArgs);

            if (args == null)
            {
                return;
            }
            lock (_launchTimingLock)
            {
                _lastLaunchInitiatedUtc = DateTime.UtcNow;
            }
            _serverIndex = 0;
            System.Collections.Concurrent.ConcurrentQueue <LaunchItem> globalQueue = args.ConcurrentLaunchQueue;
            _serverTotal = globalQueue.Count;
            if (_serverTotal == 0)
            {
                return;
            }

            LaunchItem launchItem         = null;
            var        accountLaunchTimes = _gameSessionMap.GetLaunchAccountTimes();

            while (globalQueue.TryDequeue(out launchItem))
            {
                int threadDelayMs = ConfigSettings.GetConfigInt("ThreadGameLaunchDelayMs", 100);
                Thread.Sleep(threadDelayMs);
                new Thread((x) =>
                {
                    Thread.CurrentThread.IsBackground = true;
                    launchGameFromItem(args, (LaunchItem)x, accountLaunchTimes);
                }).Start(launchItem);

                if (_worker.CancellationPending)
                {
                    e.Cancel = true;
                    return;
                }
            }
        }
Exemple #9
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        public MainWindow()
        {
            try
            {
                InitializeComponent();

                TestBenchLogQ   = new System.Collections.Concurrent.ConcurrentQueue <string>();
                TransmitterLogQ = new System.Collections.Concurrent.ConcurrentQueue <string>();

                Logger.DoWork += Logger_DoWork;
                Logger.WorkerSupportsCancellation = true;
                Logger.RunWorkerAsync();


                Communicator.DoWork += Communicator_DoWork;
                Communicator.WorkerSupportsCancellation = true;


                String testbenchport = ConfigurationManager.AppSettings.Get("TestBenchPort");

                String testPressure = ConfigurationManager.AppSettings.Get("TestPressure");

                Convert.ToDouble(testPressure);

                HoseLeakTestBench      = new TestBench(testbenchport, 9600, Parity.None, 8, StopBits.One);
                HoseLeakTestBench.LogQ = TestBenchLogQ;
                String transmitterport = ConfigurationManager.AppSettings.Get("PressureTransmitterPort");
                pressureTransmitterManager      = new PressureTransmitterManager(transmitterport, 9600, Parity.None, 8, StopBits.One, 1);
                pressureTransmitterManager.LogQ = TransmitterLogQ;

                Communicator.RunWorkerAsync();
            }

            catch (Exception e)
            {
                TestBenchLogQ.Enqueue(e.Message);
            }
        }
Exemple #10
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        /// <summary>
        /// Display Message on the application page
        /// </summary>
        /// <param name="Message">String to display</param>
        async void LogMessage(string Message)
        {
            if (MessageList == null)
                MessageList = new System.Collections.Concurrent.ConcurrentQueue<string>();
            string Text = string.Format("{0:d/M/yyyy HH:mm:ss.fff}", DateTime.Now) + " " + Message + "\n";
            MessageList.Enqueue(Text);
            System.Diagnostics.Debug.WriteLine(Text);
            await Dispatcher.RunAsync(Windows.UI.Core.CoreDispatcherPriority.Normal,
                () =>
                {

                    string result;
                    //  double h = logs.ActualHeight;
                    while (MessageList.TryDequeue(out result))
                    {
                        logs.Text += result;
                        if (logs.Text.Length > 16000)
                        {
                            string LocalString = logs.Text;
                            while (LocalString.Length > 12000)
                            {
                                int pos = LocalString.IndexOf('\n');
                                if ((pos > 0) && (pos < LocalString.Length))
                                {
                                    LocalString = LocalString.Substring(pos + 1);
                                }
                            }
                            logs.Text = LocalString;
                        }
                    }
                    //if (logs.ActualHeight > h)
                    //  logs.Height = h;

                }
            );
        }
Exemple #11
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 void IEntity.SetMoveQ(System.Collections.Concurrent.ConcurrentQueue <Vector3> CV, System.Collections.Concurrent.ConcurrentQueue <Quaternion> CQ)
 {
     CQuaternion = CQ;
     CPosition   = CV;
 }
Exemple #12
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        public async Task <IList <DownloadedSubtitle> > SearchSubtitlesForTVAsync(IList <string> showNameCandidates,
                                                                                  int seasonNbr,
                                                                                  int episodeNbr,
                                                                                  IList <CultureInfo> cultureInfos,
                                                                                  System.Collections.Concurrent.ConcurrentQueue <ProviderSignal> cQueue)
        {
            _logger.LogTrace($"{GetCaller()}() entered");

            List <DownloadedSubtitle> downloadedSubs = new List <DownloadedSubtitle>();

            try
            {
                if (!_tvShows.Any())
                {
                    _logger.LogInformation("No TV shows available.");
                }
                else
                {
                    // Find our target show
                    bool foundShow = false;
                    UpdateTaskDisplay(cQueue, .1, "Searching for TV show...");

                    _logger.LogDebug($"Searching for subtitles for the following show names: ({String.Join<string>(", ", showNameCandidates).TrimEnd()})");

                    for (int x = 0; x < showNameCandidates.Count && !foundShow; x++)
                    {
                        string showName = showNameCandidates[x];

                        var myShow = _tvShows.FirstOrDefault(x => x.Name.Contains(showName, StringComparison.OrdinalIgnoreCase));

                        if (myShow == null)
                        {
                            _logger.LogDebug($"TV show variation ({x + 1}/{showNameCandidates.Count}) ({showName}) was not in the list of available shows.");
                        }
                        else
                        {
                            foundShow = true;

                            UpdateTaskDisplay(cQueue, .2, $"Matched to series ({showName}). Searching for subtitles for season ({seasonNbr})...");
                            _logger.LogDebug($"TV show variation ({x + 1}/{showNameCandidates.Count}) ({showName}) was found in the list of available shows.");

                            // Find all subtitles for each episode in the target season
                            List <Episode> eps = null;
                            string         SEASON_SUBTITLES_FILENAME = $"{showName}.s{seasonNbr}.cache";
                            IFormatter     formatter = new BinaryFormatter();
                            Stream         stream    = null;

                            if (File.Exists(SEASON_SUBTITLES_FILENAME))
                            {
                                // Load the season info from a file
                                stream = new FileStream(SEASON_SUBTITLES_FILENAME, FileMode.Open, FileAccess.Read);

                                eps = (List <Episode>)formatter.Deserialize(stream);

                                stream.Close();

                                string infoMsg = $"Season subtitles info read from {SEASON_SUBTITLES_FILENAME}. Downloading...";
                                _logger.LogDebug(infoMsg);
                                UpdateTaskDetails(cQueue, infoMsg);
                            }
                            else
                            {
                                // Download the list of episodes for this season
                                UpdateTaskDisplay(cQueue, .5, $"{SEASON_SUBTITLES_FILENAME} not found. Downloading show list...");
                                eps = await _api.GetSeasonSubtitles(myShow.Id, seasonNbr);

                                if (eps.Any())
                                {
                                    stream = new FileStream(SEASON_SUBTITLES_FILENAME, FileMode.Create, FileAccess.Write);
                                    formatter.Serialize(stream, eps);
                                    stream.Close();

                                    string infoMsg = $"Season subtitles info downloaded and written to {SEASON_SUBTITLES_FILENAME}. ";
                                    UpdateTaskDetails(cQueue, infoMsg);
                                }
                                else
                                {
                                    _logger.LogInformation($"No episodes for season ({seasonNbr}) were available.");
                                }
                            }

                            if (eps.Any())
                            {
                                // Find our target episode
                                var myEp = eps.Where(x => x.Number == episodeNbr).FirstOrDefault();

                                if (myEp == null)
                                {
                                    _logger.LogInformation($"No subtitles for series ({showName}) season ({seasonNbr}) episode ({episodeNbr}) were available.");
                                }
                                else
                                {
                                    foreach (CultureInfo language in cultureInfos)
                                    {
                                        // Find our target subtitle. Grab the first english one by default
                                        var found = myEp.Subtitles.FirstOrDefault(x => x.Language == language.DisplayName);

                                        // Try again using parent language
                                        if (found == null)
                                        {
                                            found = myEp.Subtitles.FirstOrDefault(x => x.Language == language.Parent.DisplayName);
                                        }

                                        if (found == null)
                                        {
                                            _logger.LogInformation($"Subtitles for series ({showName}) season ({seasonNbr}) episode ({episodeNbr}) were available, not in the language specified ({language})");
                                        }
                                        else
                                        {
                                            UpdateTaskDisplay(cQueue, .3, $"Found {eps.Count} episodes for season ({seasonNbr}). Episode ({episodeNbr}) subtitle found. Downloading...");
                                            _logger.LogInformation($"Downloading subtitles for series ({showName}) season ({seasonNbr}) episode ({episodeNbr}) in {language}");

                                            var downloadedSub = await _api.DownloadSubtitle(myShow.Id, found.DownloadUri);

                                            downloadedSubs.Add(new DownloadedSubtitle()
                                            {
                                                Contents = downloadedSub.Stream, CultureInfo = language
                                            });

                                            _logger.LogInformation($"Successfully retrieved subtitles for series ({showName}) season ({seasonNbr}) episode ({episodeNbr}) in {language}");
                                        }
                                    }
                                }
                            }
                        }
                    }

                    if (!foundShow)
                    {
                        string warning = $"Could not find show in list of available shows. Used the following show names: ({String.Join<string>(", ", showNameCandidates).TrimEnd()})";

                        _logger.LogWarning(warning);
                    }
                }
            }
            catch (Exception ex)
            {
                // Log the exception as a debug item, as it's presumably logged/handled up the call stack
                _logger.LogDebug(ex, $"Exception: {GetCaller()}()");

                _logger.LogTrace($"{GetCaller()}() exiting (exception)");
                throw;
            }

            _logger.LogTrace($"{GetCaller()}() exiting (normal)");
            return(downloadedSubs);
        }
 public ConcurrentCircularBuffer(int size)
 {
     this._size = size;
     _buffer    = new ConcurrentQueue <string>();
 }
Exemple #14
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        public Launcher()
        {
            _Operations = new ConcurrentQueue <Operation>();

            _Items = new List <T>();
        }
Exemple #15
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        public static void ExecuteMain(string nick, IndexArgumentSetup setup, Action prepare_db)
        {
            var dbname = String.Format ("DB.{0}", Path.GetFileName(setup.DATABASE));
            setup.BINARY_DATABASE = dbname;

            prepare_db ();

            // It is required to be already on memory at this point. The reason is to avoid the loading of several instances
            // of the same database
            SpaceGenericIO.Load (setup.BINARY_DATABASE);

            var arglist = new System.Collections.Concurrent.ConcurrentQueue<String> ();
            arglist.Enqueue ("--save");
            arglist.Enqueue (String.Format ("Tab.ApproxIndexes.{0}.{1}.qarg={2}.json", nick, Path.GetFileName (setup.QUERIES), setup.QARG));
                /*var arglist = new List<string> () {
                "--save",
                String.Format("Tab.{0}.{1}.qarg={2}.json", nick, Path.GetFileName(setup.QUERIES), setup.QARG)
                */

            if (setup.ExecuteSequential) {
                arglist.Enqueue (Indexes.ExecuteSeq (setup, nick));
            }
            var actionlist = new List<Action> ();
            // arglist.Add (Indexes.ExecuteSATApprox (setup, nick));
            // arglist.Add (Indexes.ExecuteSATForest (setup, nick));

            foreach (var max_instances in setup.NeighborhoodHash_MaxInstances) {
                foreach (var expected_recall in setup.NeighborhoodHash_ExpectedRecall) {
                    var _max_instances = max_instances;
                    var _expected_recall = expected_recall;
                    actionlist.Add (() => {
                        var reslist = Indexes.ExecuteMultiNeighborhoodHash (setup, nick, _expected_recall, _max_instances);
                        foreach (var res in reslist) {
                            arglist.Enqueue(res);
                        }
                    });
                }
            }

            foreach (var numrefs in setup.KNR_NUMREFS) {
                foreach (var k in setup.KNR_KBUILD) {
                    foreach (var maxcand_ratio in setup.KNR_MAXCANDRATIO) {
                        var _numrefs = numrefs;
                        var _k = k;
                        var _maxcand_ratio = maxcand_ratio;
                        actionlist.Add (() => {
                            var reslist = Indexes.ExecuteKNRSEQ (setup, nick, _numrefs, _k, _maxcand_ratio);
                            foreach (var res in reslist) {
                                arglist.Enqueue(res);
                            }
                        });
                    }
                }
            }

            //			actionlist.Add (() => {
            //				var resname = Indexes.ExecuteAPG_OptTabuSatNeighborhood (setup, nick);
            //				arglist.Enqueue(resname);
            //			});
            //
            //			actionlist.Add (() => {
            //				var resname = Indexes.ExecuteAPG_OptTabuSatNeighborhoodMontecarloStart(setup, nick);
            //				arglist.Enqueue(resname);
            //			});

            foreach (var neighbors in setup.OPTSEARCH_NEIGHBORS) {
                // arglist.Add (Indexes.ExecuteLocalSearchRestarts (setup, nick, dbname, setup.QUERIES, neighbors));
                // arglist.Add (Indexes.ExecuteLocalSearchBestFirst (setup, nick, dbname, setup.QUERIES, neighbors));
                var _neighbors = neighbors;

                actionlist.Add (() => {
                    var resname = Indexes.ExecuteApproxGraphOptRestartsIS(setup, nick, _neighbors);
                    arglist.Enqueue(resname);
                });

                actionlist.Add (() => {
                    var resname = Indexes.ExecuteApproxGraphOptRandomRestarts(setup, nick, _neighbors);
                    arglist.Enqueue(resname);
                });

            //				actionlist.Add (() => {
            //					var resname = Indexes.ExecuteApproxGraphOptSimplerOptRandomRestarts(setup, nick, _neighbors);
            //					arglist.Enqueue(resname);
            //				});

                actionlist.Add (() => {
                    var resname = Indexes.ExecuteMetricGraphGreedy(setup, nick, _neighbors);
                    arglist.Enqueue(resname);
                });

                foreach (var restarts in setup.OPTSEARCH_RESTARTS) {
                    var _restarts = restarts;
                    actionlist.Add (() => {
                        var resname = Indexes.ExecuteApproxGraphIS(setup, nick, _neighbors, _restarts);
                        arglist.Enqueue(resname);
                    });
            //					actionlist.Add (() => {
            //						var resname = Indexes.ExecuteApproxGraph(setup, nick, _neighbors, _restarts);
            //						arglist.Enqueue(resname);
            //					});
                }

                actionlist.Add (() => {
                    var resname = Indexes.ExecuteLocalSearchGallopingBeam(setup, nick, _neighbors);
                    arglist.Enqueue(resname);
                });

                foreach (var beamsize in setup.OPTSEARCH_BEAMSIZE) {
                    var _beamsize = beamsize;
                    actionlist.Add (() => {
                        var resname = Indexes.ExecuteLocalSearchBeam(setup, nick, _beamsize, _neighbors);
                        arglist.Enqueue(resname);
                    });

            //					actionlist.Add (() => {
            //						var resname = Indexes.ExecuteLocalSearchMontecarloBeam(setup, nick, _beamsize, _neighbors);
            //						arglist.Enqueue(resname);
            //					});
                }
            }

            foreach (var numInstances in setup.LSHFloatVector_INDEXES) {
                foreach (var numSamples in setup.LSHFloatVector_SAMPLES) {
                    var _numInstances = numInstances;
                    var _numSamples = numSamples;
                    actionlist.Add (() => {
                        var resname = Indexes.ExecuteLSHFloatVector (setup, nick, _numInstances, _numSamples);
                        arglist.Enqueue(resname);
                    });
                }
            }

            if (setup.SPAWN == 1) {
                foreach (var action in actionlist) {
                    action.Invoke ();
                }
            } else {
                LongParallel.ForEach (actionlist, (a) => a.Invoke (), setup.SPAWN);
            }
            if (setup.ExecuteSearch) {
                Commands.Check (arglist);
            }
        }
Exemple #16
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 public CachePrinter(IPrinterChange ipc)
 {
     m_IPrinterChange = ipc;
     _cachList        = new ConcurrentQueue <MyStruct>();
     _bReadExited     = false;
 }