public void GetData(out List <ReformData> reforms, out Color[] colors) { reforms = new List <ReformData>(); colors = null; using (IReaderProvider reader = NebulaModAPI.GetBinaryReader(ReformData)) { int count = reader.BinaryReader.ReadInt32(); for (int i = 0; i < count; i++) { ReformData data = new ReformData { latitude = reader.BinaryReader.ReadSingle(), longitude = reader.BinaryReader.ReadSingle(), type = reader.BinaryReader.ReadInt32(), color = reader.BinaryReader.ReadInt32() }; reforms.Add(data); } if (reader.BinaryReader.ReadBoolean()) { colors = new Color[16]; for (int i = 0; i < 16; i++) { colors[i] = new Color( reader.BinaryReader.ReadSingle(), reader.BinaryReader.ReadSingle(), reader.BinaryReader.ReadSingle(), reader.BinaryReader.ReadSingle()); } } } }
public Engine(IReaderProvider reader, IWriterProvider writer, ICommandProvider commandProvider) { if (reader == null) { throw new ArgumentNullException("Engine ReaderProvider cannot be null!"); } if (writer == null) { throw new ArgumentNullException("Engine WriterProvider cannot be null!"); } if (commandProvider == null) { throw new ArgumentNullException("Engine CommandProvider cannot be null!"); } this.reader = reader; this.writer = writer; this.commandProvider = commandProvider; AllOgranisms = new List <IOrganism>(); Plants = new List <IPlant>(); Animals = new List <IAnimal>(); }
public IObjectReaderSession CreateSession(DbDataReader reader, IReaderProvider provider, object[] parentArgs, object[] userArgs, ICompiledSubQuery[] subQueries) { Type sessionType = typeof(ObjectReaderSession <>).MakeGenericType(this.dataReaderType); return((IObjectReaderSession)Activator.CreateInstance(sessionType, BindingFlags.Instance | BindingFlags.Public | BindingFlags.NonPublic, null, new object[] { reader, provider, parentArgs, userArgs, subQueries }, null)); }
public String ReadRFIDToken(int timeout) { // Explicitly use the PC/SC Reader Provider. readerProvider = new PCSCReaderProvider(); // Create the default reader unit. On PC/SC, we will listen on all readers. readerUnit = readerProvider.CreateReaderUnit(); if (readerUnit.ConnectToReader()) { //("Waiting x seconds for a card insertion..."); int i = 0; bool readCard = false; String readID = ""; while (i < timeout && !waitCancelled && !readCard) { i++; if (readerUnit.WaitInsertion(1000)) { if (readerUnit.Connect()) { chip chip = readerUnit.GetSingleChip(); readerUnit.Disconnect(); readCard = true; readID = readerUnit.GetNumber(chip); } } } return(readID); } throw new Exception("No RFID Reader connected"); }
internal MultipleResults(IProvider provider, MetaFunction function, IObjectReaderSession session, ExecuteResult executeResult) { this.provider = provider; this.function = function; this.session = session; this.executeResult = executeResult; _readerProvider = provider as IReaderProvider; }
internal AdoCompiledQuery(IReaderProvider provider, Expression query, QueryInfo[] queryInfos, IObjectReaderFactory factory, ICompiledSubQuery[] subQueries) { this.originalShape = provider.Services.Context.LoadOptions; this.query = query; this.queryInfos = queryInfos; this.factory = factory; this.subQueries = subQueries; }
internal ObjectReaderSession(TDataReader dataReader, IReaderProvider provider, object[] parentArgs, object[] userArgs, ICompiledSubQuery[] subQueries) { _dataReader = dataReader; _provider = provider; _parentArgs = parentArgs; _userArgs = userArgs; _subQueries = subQueries; _hasResults = true; }
// Methods internal ObjectReaderSession(TDataReader dataReader, IReaderProvider provider, object[] parentArgs, object[] userArgs, ICompiledSubQuery[] subQueries) { this.dataReader = dataReader; this.provider = provider; this.parentArgs = parentArgs; this.userArgs = userArgs; this.subQueries = subQueries; hasResults = true; }
public void ThrowArgumentNullException_WhenPassedReaderIsNull() { // arrange IReaderProvider reader = null; var writer = new Mock <IWriterProvider>(); var commandProvider = new Mock <ICommandProvider>(); // act and assert Assert.Throws <ArgumentNullException>(() => new Engine(reader, writer.Object, commandProvider.Object)); }
public static IReaderProvider CreateReaderProviderFromName(string name) { IReaderProvider readerProvider = null; switch (name) { case RP_PCSC: readerProvider = new PCSCReaderProvider(); break; } return(readerProvider); }
private SearchFactoryImpl(Configuration cfg) { CfgHelper.Configure(cfg); Analyzer analyzer = InitAnalyzer(cfg); InitDocumentBuilders(cfg, analyzer); ISet<System.Type> classes = new HashedSet<System.Type>(documentBuilders.Keys); foreach (DocumentBuilder documentBuilder in documentBuilders.Values) documentBuilder.PostInitialize(classes); worker = WorkerFactory.CreateWorker(cfg, this); readerProvider = ReaderProviderFactory.CreateReaderProvider(cfg, this); BuildFilterCachingStrategy(cfg.Properties); }
public List <ItemPackageL> GetData() { List <ItemPackageL> items = new List <ItemPackageL>(dataCount); using IReaderProvider reader = NebulaModAPI.GetBinaryReader(data); for (int i = 0; i < dataCount; i++) { int itemId = reader.BinaryReader.ReadInt32(); int count = reader.BinaryReader.ReadInt32(); int inc = reader.BinaryReader.ReadInt32(); items.Add(new ItemPackageL(itemId, count, inc)); } return(items); }
private SearchFactoryImpl(Configuration cfg) { CfgHelper.Configure(cfg); mapping = SearchMappingFactory.CreateMapping(cfg); Analyzer analyzer = InitAnalyzer(cfg); InitDocumentBuilders(cfg, analyzer); Iesi.Collections.Generic.ISet <System.Type> classes = new HashedSet <System.Type>(documentBuilders.Keys); foreach (DocumentBuilder documentBuilder in documentBuilders.Values) { documentBuilder.PostInitialize(classes); } worker = WorkerFactory.CreateWorker(cfg, this); readerProvider = ReaderProviderFactory.CreateReaderProvider(cfg, this); BuildFilterCachingStrategy(cfg.Properties); }
public static IReaderUnit CreateReaderUnitFromName(IReaderProvider readerProvider, string name) { IReaderUnit readerUnit = null; if (readerProvider != null) { readerUnit = readerProvider.CreateReaderUnit(); switch (readerProvider.RPType) { case RP_PCSC: { IPCSCReaderUnit ru = readerUnit as IPCSCReaderUnit; ru.SetName(name); } break; } } return(readerUnit); }
private void InitializeReaderUnitList() { cbReaderUnit.Items.Clear(); if (cbReaderProvider.SelectedIndex > -1) { string rpkey = cbReaderProvider.SelectedItem.ToString(); IReaderProvider readerProvider = readerProviders[rpkey]; object[] rulist = (object[])readerProvider.GetReaderList(); cbReaderUnit.Items.Add(String.Empty); foreach (IReaderUnit ru in rulist) { string name = ru.name; if (!cbReaderUnit.Items.Contains(name)) { cbReaderUnit.Items.Add(name); } } } }
public Engine(IReaderProvider reader, IWriterProvider writer, ICommandProvider commandProvider) { if (reader == null) { throw new ArgumentNullException("Reader cannot be null!"); } if (writer == null) { throw new ArgumentNullException("Writer cannot be null!"); } if (commandProvider == null) { throw new ArgumentNullException("Validator cannot be null!"); } this.commandProvider = commandProvider; this.writer = writer; this.reader = reader; }
public void Load(string filepath) { Reader = _gameLoader.Load(filepath); }
public IObjectReaderSession CreateSession(DbDataReader reader, IReaderProvider provider, object[] parentArgs, object[] userArgs, ICompiledSubQuery[] subQueries) { Type sessionType = typeof(ObjectReaderSession<>).MakeGenericType(this.dataReaderType); return (IObjectReaderSession)Activator.CreateInstance(sessionType, BindingFlags.Instance | BindingFlags.Public | BindingFlags.NonPublic, null, new object[] { reader, provider, parentArgs, userArgs, subQueries }, null); }
public IObjectReader Create(DbDataReader dataReader, bool disposeDataReader, IReaderProvider provider, object[] parentArgs, object[] userArgs, ICompiledSubQuery[] subQueries) { ObjectReaderSession <TDataReader> session = new ObjectReaderSession <TDataReader>((TDataReader)dataReader, provider, parentArgs, userArgs, subQueries); return(session.CreateReader(_materializeFunc, _namedColumns, _globals, _numberOfLocals, disposeDataReader)); }
protected void Listen() { IsRunning = true; waitRemoval = new AutoResetEvent(false); insertedChip = null; chipInsertionDate = null; log.Info(String.Format("Listening on {0} reader {1}...", readerProviderName, readerUnitName)); readerProvider = DokanNFCConfig.CreateReaderProviderFromName(readerProviderName); readerUnit = DokanNFCConfig.CreateReaderUnitFromName(readerProvider, readerUnitName); if (readerProvider != null && readerUnit != null) { if (readerUnit.ConnectToReader()) { DokanNFCConfig config = DokanNFCConfig.GetSingletonInstance(); switch (config.Mode) { case DisplayMode.RawRFID: break; case DisplayMode.NFC: driver = new NFCDokanRFIDDriver(this); break; } if (driver != null) { string mountPoint = config.MountPoint; if (String.IsNullOrEmpty(mountPoint)) { string[] mountPoints = DokanNFCConfig.GetAvailableMountPoints(); if (mountPoints.Length > 0) { mountPoint = mountPoints[0]; } } if (!String.IsNullOrEmpty(mountPoint)) { DokanOptions options = DokanOptions.FixedDrive; if (config.AlwaysMounted) { Mount(mountPoint, options); } else { options |= DokanOptions.RemovableDrive; } do { if (readerUnit.WaitInsertion(500)) { Thread.Sleep(400); chipInsertionDate = DateTime.Now; log.Info("Card inserted."); if (readerUnit.Connect()) { insertedChip = readerUnit.GetSingleChip(); if (insertedChip != null) { log.Info(String.Format("Chip type `{0}`", insertedChip.Type)); if (!config.AlwaysMounted) { Mount(mountPoint, options); } RemovalChecker(); while (!waitRemoval.WaitOne(500) && IsRunning) { ; } log.Info("Card removed."); if (!config.AlwaysMounted) { Unmount(mountPoint); } } } else { log.Error("Cannot connect to the card."); } chipInsertionDate = null; } } while (IsRunning); if (config.AlwaysMounted) { Unmount(mountPoint); } } else { log.Error("No mount point."); } } else { log.Error("No matching file system driver to mount."); } readerUnit.DisconnectFromReader(); } else { log.Error("Cannot connect to the reader."); } GC.KeepAlive(readerUnit); GC.KeepAlive(readerProvider); } else { log.Error("Error in RFID reader resource allocation."); } }
public FakeEngine(IReaderProvider reader, IWriterProvider writer, ICommandProvider commandProvider) : base(reader, writer, commandProvider) { }
public static IReaderUnit CreateReaderUnitFromName(IReaderProvider readerProvider, string name) { IReaderUnit readerUnit = null; if (readerProvider != null) { readerUnit = readerProvider.CreateReaderUnit(); switch (readerProvider.RPType) { case RP_PCSC: { IPCSCReaderUnit ru = readerUnit as IPCSCReaderUnit; ru.SetName(name); } break; } } return readerUnit; }
protected void Listen() { IsRunning = true; waitRemoval = new AutoResetEvent(false); insertedChip = null; chipInsertionDate = null; log.Info(String.Format("Listening on {0} reader {1}...", readerProviderName, readerUnitName)); readerProvider = DokanNFCConfig.CreateReaderProviderFromName(readerProviderName); readerUnit = DokanNFCConfig.CreateReaderUnitFromName(readerProvider, readerUnitName); if (readerProvider != null && readerUnit != null) { if (readerUnit.ConnectToReader()) { DokanNFCConfig config = DokanNFCConfig.GetSingletonInstance(); switch (config.Mode) { case DisplayMode.RawRFID: break; case DisplayMode.NFC: driver = new NFCDokanRFIDDriver(this); break; } if (driver != null) { string mountPoint = config.MountPoint; if (String.IsNullOrEmpty(mountPoint)) { string[] mountPoints = DokanNFCConfig.GetAvailableMountPoints(); if (mountPoints.Length > 0) { mountPoint = mountPoints[0]; } } if (!String.IsNullOrEmpty(mountPoint)) { DokanOptions options = DokanOptions.FixedDrive; if (config.AlwaysMounted) { Mount(mountPoint, options); } else { options |= DokanOptions.RemovableDrive; } do { if (readerUnit.WaitInsertion(500)) { Thread.Sleep(400); chipInsertionDate = DateTime.Now; log.Info("Card inserted."); if (readerUnit.Connect()) { insertedChip = readerUnit.GetSingleChip(); if (insertedChip != null) { log.Info(String.Format("Chip type `{0}`", insertedChip.Type)); if (!config.AlwaysMounted) { Mount(mountPoint, options); } RemovalChecker(); while (!waitRemoval.WaitOne(500) && IsRunning) ; log.Info("Card removed."); if (!config.AlwaysMounted) { Unmount(mountPoint); } } } else { log.Error("Cannot connect to the card."); } chipInsertionDate = null; } } while (IsRunning); if (config.AlwaysMounted) { Unmount(mountPoint); } } else { log.Error("No mount point."); } } else { log.Error("No matching file system driver to mount."); } readerUnit.DisconnectFromReader(); } else { log.Error("Cannot connect to the reader."); } GC.KeepAlive(readerUnit); GC.KeepAlive(readerProvider); } else { log.Error("Error in RFID reader resource allocation."); } }
public StageXmlReader(IReaderProvider readerProvider, EntityPlacementXmlReader entityReader, HandlerCommandXmlReader commandReader) { _readerProvider = readerProvider; _entityReader = entityReader; _commandReader = commandReader; }
public ReaderService(IReaderProvider readerProvider) { _provider = readerProvider; }