// parse extensions config internal static void ParseExtensionsConfig(string TrainPath, System.Text.Encoding Encoding, ref UnifiedObject[] CarObjects, ref UnifiedObject[] BogieObjects, ref UnifiedObject[] CouplerObjects, TrainManager.Train Train, bool LoadObjects) { bool[] CarObjectsReversed = new bool[Train.Cars.Length]; bool[] BogieObjectsReversed = new bool[Train.Cars.Length * 2]; bool[] CarsDefined = new bool[Train.Cars.Length]; bool[] BogiesDefined = new bool[Train.Cars.Length * 2]; System.Globalization.CultureInfo Culture = System.Globalization.CultureInfo.InvariantCulture; string FileName = OpenBveApi.Path.CombineFile(TrainPath, "extensions.cfg"); if (System.IO.File.Exists(FileName)) { Encoding = TextEncoding.GetSystemEncodingFromFile(FileName, Encoding); string[] Lines = System.IO.File.ReadAllLines(FileName, Encoding); for (int i = 0; i < Lines.Length; i++) { int j = Lines[i].IndexOf(';'); if (j >= 0) { Lines[i] = Lines[i].Substring(0, j).Trim(new char[] { }); } else { Lines[i] = Lines[i].Trim(new char[] { }); } } for (int i = 0; i < Lines.Length; i++) { if (Lines[i].Length != 0) { switch (Lines[i].ToLowerInvariant()) { case "[exterior]": // exterior i++; while (i < Lines.Length && !Lines[i].StartsWith("[", StringComparison.Ordinal) & !Lines[i].EndsWith("]", StringComparison.Ordinal)) { if (Lines[i].Length != 0) { int j = Lines[i].IndexOf("=", StringComparison.Ordinal); if (j >= 0) { string a = Lines[i].Substring(0, j).TrimEnd(new char[] { }); string b = Lines[i].Substring(j + 1).TrimStart(new char[] { }); int n; if (int.TryParse(a, System.Globalization.NumberStyles.Integer, Culture, out n)) { if (n >= 0 & n < Train.Cars.Length) { if (Path.ContainsInvalidChars(b)) { Interface.AddMessage(MessageType.Error, false, "File contains illegal characters at line " + (i + 1).ToString(Culture) + " in file " + FileName); } else { string File = OpenBveApi.Path.CombineFile(TrainPath, b); if (System.IO.File.Exists(File)) { if (LoadObjects) { Program.CurrentHost.LoadObject(File, Encoding, out CarObjects[n]); } } else { Interface.AddMessage(MessageType.Error, true, "The car object " + File + " does not exist at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } } else { Interface.AddMessage(MessageType.Error, false, "The car index " + a + " does not reference an existing car at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } else { Interface.AddMessage(MessageType.Error, false, "The car index is expected to be an integer at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } else { Interface.AddMessage(MessageType.Error, false, "Invalid statement " + Lines[i] + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } i++; } i--; break; default: if (Lines[i].StartsWith("[car", StringComparison.OrdinalIgnoreCase) & Lines[i].EndsWith("]", StringComparison.Ordinal)) { // car string t = Lines[i].Substring(4, Lines[i].Length - 5); int n; if (int.TryParse(t, System.Globalization.NumberStyles.Integer, Culture, out n)) { if (n >= 0 & n < Train.Cars.Length) { if (CarsDefined[n]) { Interface.AddMessage(MessageType.Error, false, "Car " + n.ToString(Culture) + " has already been declared at line " + (i + 1).ToString(Culture) + " in file " + FileName); } CarsDefined[n] = true; bool DefinedLength = false; bool DefinedAxles = false; i++; while (i < Lines.Length && !Lines[i].StartsWith("[", StringComparison.Ordinal) & !Lines[i].EndsWith("]", StringComparison.Ordinal)) { if (Lines[i].Length != 0) { int j = Lines[i].IndexOf("=", StringComparison.Ordinal); if (j >= 0) { string a = Lines[i].Substring(0, j).TrimEnd(new char[] { }); string b = Lines[i].Substring(j + 1).TrimStart(new char[] { }); switch (a.ToLowerInvariant()) { case "object": if (string.IsNullOrEmpty(b)) { Interface.AddMessage(MessageType.Error, true, "An empty car object was supplied at line " + (i + 1).ToString(Culture) + " in file " + FileName); break; } if (Path.ContainsInvalidChars(b)) { Interface.AddMessage(MessageType.Error, false, "File contains illegal characters at line " + (i + 1).ToString(Culture) + " in file " + FileName); } else { string File = OpenBveApi.Path.CombineFile(TrainPath, b); if (System.IO.File.Exists(File)) { if (LoadObjects) { Program.CurrentHost.LoadObject(File, Encoding, out CarObjects[n]); } } else { Interface.AddMessage(MessageType.Error, true, "The car object " + File + " does not exist at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } break; case "length": { double m; if (double.TryParse(b, System.Globalization.NumberStyles.Float, Culture, out m)) { if (m > 0.0) { Train.Cars[n].Length = m; Train.Cars[n].BeaconReceiverPosition = 0.5 * m; DefinedLength = true; } else { Interface.AddMessage(MessageType.Error, false, "Value is expected to be a positive floating-point number in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } else { Interface.AddMessage(MessageType.Error, false, "Value is expected to be a positive floating-point number in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } break; case "axles": { int k = b.IndexOf(','); if (k >= 0) { string c = b.Substring(0, k).TrimEnd(new char[] { }); string d = b.Substring(k + 1).TrimStart(new char[] { }); double rear, front; if (!double.TryParse(c, System.Globalization.NumberStyles.Float, Culture, out rear)) { Interface.AddMessage(MessageType.Error, false, "Rear is expected to be a floating-point number in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName); } else if (!double.TryParse(d, System.Globalization.NumberStyles.Float, Culture, out front)) { Interface.AddMessage(MessageType.Error, false, "Front is expected to be a floating-point number in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName); } else if (rear >= front) { Interface.AddMessage(MessageType.Error, false, "Rear is expected to be less than Front in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName); } else { Train.Cars[n].RearAxle.Position = rear; Train.Cars[n].FrontAxle.Position = front; DefinedAxles = true; } } else { Interface.AddMessage(MessageType.Error, false, "An argument-separating comma is expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } break; case "reversed": CarObjectsReversed[n] = b.Equals("true", StringComparison.OrdinalIgnoreCase); break; case "loadingsway": Train.Cars[n].EnableLoadingSway = b.Equals("true", StringComparison.OrdinalIgnoreCase); break; default: Interface.AddMessage(MessageType.Warning, false, "Unsupported key-value pair " + a + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName); break; } } else { Interface.AddMessage(MessageType.Error, false, "Invalid statement " + Lines[i] + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } i++; } i--; if (DefinedLength & !DefinedAxles) { double AxleDistance = 0.4 * Train.Cars[n].Length; Train.Cars[n].RearAxle.Position = -AxleDistance; Train.Cars[n].FrontAxle.Position = AxleDistance; } } else { Interface.AddMessage(MessageType.Error, false, "The car index " + t + " does not reference an existing car at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } else { Interface.AddMessage(MessageType.Error, false, "The car index is expected to be an integer at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } else if (Lines[i].StartsWith("[coupler", StringComparison.OrdinalIgnoreCase) & Lines[i].EndsWith("]", StringComparison.Ordinal)) { // coupler string t = Lines[i].Substring(8, Lines[i].Length - 9); int n; if (int.TryParse(t, System.Globalization.NumberStyles.Integer, Culture, out n)) { if (n >= 0 & n < Train.Cars.Length - 1) { i++; while (i < Lines.Length && !Lines[i].StartsWith("[", StringComparison.Ordinal) & !Lines[i].EndsWith("]", StringComparison.Ordinal)) { if (Lines[i].Length != 0) { int j = Lines[i].IndexOf("=", StringComparison.Ordinal); if (j >= 0) { string a = Lines[i].Substring(0, j).TrimEnd(new char[] { }); string b = Lines[i].Substring(j + 1).TrimStart(new char[] { }); switch (a.ToLowerInvariant()) { case "distances": { int k = b.IndexOf(','); if (k >= 0) { string c = b.Substring(0, k).TrimEnd(new char[] { }); string d = b.Substring(k + 1).TrimStart(new char[] { }); double min, max; if (!double.TryParse(c, System.Globalization.NumberStyles.Float, Culture, out min)) { Interface.AddMessage(MessageType.Error, false, "Minimum is expected to be a floating-point number in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName); } else if (!double.TryParse(d, System.Globalization.NumberStyles.Float, Culture, out max)) { Interface.AddMessage(MessageType.Error, false, "Maximum is expected to be a floating-point number in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName); } else if (min > max) { Interface.AddMessage(MessageType.Error, false, "Minimum is expected to be less than Maximum in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName); } else { Train.Cars[n].Coupler.MinimumDistanceBetweenCars = min; Train.Cars[n].Coupler.MaximumDistanceBetweenCars = max; } } else { Interface.AddMessage(MessageType.Error, false, "An argument-separating comma is expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } break; case "object": if (string.IsNullOrEmpty(b)) { Interface.AddMessage(MessageType.Error, true, "An empty coupler object was supplied at line " + (i + 1).ToString(Culture) + " in file " + FileName); break; } if (Path.ContainsInvalidChars(b)) { Interface.AddMessage(MessageType.Error, false, "File contains illegal characters at line " + (i + 1).ToString(Culture) + " in file " + FileName); } else { string File = OpenBveApi.Path.CombineFile(TrainPath, b); if (System.IO.File.Exists(File)) { if (LoadObjects) { Program.CurrentHost.LoadObject(File, Encoding, out CouplerObjects[n]); } } else { Interface.AddMessage(MessageType.Error, true, "The coupler object " + File + " does not exist at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } break; default: Interface.AddMessage(MessageType.Warning, false, "Unsupported key-value pair " + a + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName); break; } } else { Interface.AddMessage(MessageType.Error, false, "Invalid statement " + Lines[i] + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } i++; } i--; } else { Interface.AddMessage(MessageType.Error, false, "The coupler index " + t + " does not reference an existing coupler at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } else { Interface.AddMessage(MessageType.Error, false, "The coupler index is expected to be an integer at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } else if (Lines[i].StartsWith("[bogie", StringComparison.OrdinalIgnoreCase) & Lines[i].EndsWith("]", StringComparison.Ordinal)) { // car string t = Lines[i].Substring(6, Lines[i].Length - 7); int n; if (int.TryParse(t, System.Globalization.NumberStyles.Integer, Culture, out n)) { if (n > BogiesDefined.Length - 1) { continue; } if (BogiesDefined[n]) { Interface.AddMessage(MessageType.Error, false, "Bogie " + n.ToString(Culture) + " has already been declared at line " + (i + 1).ToString(Culture) + " in file " + FileName); } BogiesDefined[n] = true; //Assuming that there are two bogies per car bool IsOdd = (n % 2 != 0); int CarIndex = n / 2; if (n >= 0 & n < Train.Cars.Length * 2) { bool DefinedAxles = false; i++; while (i < Lines.Length && !Lines[i].StartsWith("[", StringComparison.Ordinal) & !Lines[i].EndsWith("]", StringComparison.Ordinal)) { if (Lines[i].Length != 0) { int j = Lines[i].IndexOf("=", StringComparison.Ordinal); if (j >= 0) { string a = Lines[i].Substring(0, j).TrimEnd(new char[] { }); string b = Lines[i].Substring(j + 1).TrimStart(new char[] { }); switch (a.ToLowerInvariant()) { case "object": if (Path.ContainsInvalidChars(b)) { Interface.AddMessage(MessageType.Error, false, "File contains illegal characters at line " + (i + 1).ToString(Culture) + " in file " + FileName); } else { if (string.IsNullOrEmpty(b)) { Interface.AddMessage(MessageType.Error, true, "An empty bogie object was supplied at line " + (i + 1).ToString(Culture) + " in file " + FileName); break; } string File = OpenBveApi.Path.CombineFile(TrainPath, b); if (System.IO.File.Exists(File)) { if (LoadObjects) { Program.CurrentHost.LoadObject(File, Encoding, out BogieObjects[n]); } } else { Interface.AddMessage(MessageType.Error, true, "The bogie object " + File + " does not exist at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } break; case "length": { Interface.AddMessage(MessageType.Error, false, "A defined length is not supported for bogies at line " + (i + 1).ToString(Culture) + " in file " + FileName); } break; case "axles": { int k = b.IndexOf(','); if (k >= 0) { string c = b.Substring(0, k).TrimEnd(new char[] { }); string d = b.Substring(k + 1).TrimStart(new char[] { }); double rear, front; if (!double.TryParse(c, System.Globalization.NumberStyles.Float, Culture, out rear)) { Interface.AddMessage(MessageType.Error, false, "Rear is expected to be a floating-point number in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName); } else if (!double.TryParse(d, System.Globalization.NumberStyles.Float, Culture, out front)) { Interface.AddMessage(MessageType.Error, false, "Front is expected to be a floating-point number in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName); } else if (rear >= front) { Interface.AddMessage(MessageType.Error, false, "Rear is expected to be less than Front in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName); } else { if (IsOdd) { Train.Cars[CarIndex].FrontBogie.RearAxle.Position = rear; Train.Cars[CarIndex].FrontBogie.FrontAxle.Position = front; } else { Train.Cars[CarIndex].RearBogie.RearAxle.Position = rear; Train.Cars[CarIndex].RearBogie.FrontAxle.Position = front; } DefinedAxles = true; } } else { Interface.AddMessage(MessageType.Error, false, "An argument-separating comma is expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } break; case "reversed": BogieObjectsReversed[n] = b.Equals("true", StringComparison.OrdinalIgnoreCase); break; default: Interface.AddMessage(MessageType.Warning, false, "Unsupported key-value pair " + a + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName); break; } } else { Interface.AddMessage(MessageType.Error, false, "Invalid statement " + Lines[i] + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } i++; } i--; if (!DefinedAxles) { if (IsOdd) { double AxleDistance = 0.4 * Train.Cars[CarIndex].FrontBogie.Length; Train.Cars[CarIndex].FrontBogie.RearAxle.Position = -AxleDistance; Train.Cars[CarIndex].FrontBogie.FrontAxle.Position = AxleDistance; } else { double AxleDistance = 0.4 * Train.Cars[CarIndex].RearBogie.Length; Train.Cars[CarIndex].RearBogie.RearAxle.Position = -AxleDistance; Train.Cars[CarIndex].RearBogie.FrontAxle.Position = AxleDistance; } } } else { Interface.AddMessage(MessageType.Error, false, "The car index " + t + " does not reference an existing car at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } else { Interface.AddMessage(MessageType.Error, false, "The car index is expected to be an integer at line " + (i + 1).ToString(Culture) + " in file " + FileName); } } else { // default if (Lines.Length == 1 && Encoding.Equals(Encoding.Unicode)) { /* * If only one line, there's a good possibility that our file is NOT Unicode at all * and that the misdetection has turned it into garbage * * Try again with ASCII instead */ ParseExtensionsConfig(TrainPath, Encoding.GetEncoding(1252), ref CarObjects, ref BogieObjects, ref CouplerObjects, Train, LoadObjects); return; } Interface.AddMessage(MessageType.Error, false, "Invalid statement " + Lines[i] + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName); } break; } } } // check for car objects and reverse if necessary int carObjects = 0; for (int i = 0; i < Train.Cars.Length; i++) { if (CarObjects[i] != null) { carObjects++; if (CarObjectsReversed[i] && LoadObjects) { { // reverse axle positions double temp = Train.Cars[i].FrontAxle.Position; Train.Cars[i].FrontAxle.Position = -Train.Cars[i].RearAxle.Position; Train.Cars[i].RearAxle.Position = -temp; } if (CarObjects[i] is StaticObject) { StaticObject obj = (StaticObject)CarObjects[i]; obj.ApplyScale(-1.0, 1.0, -1.0); } else if (CarObjects[i] is AnimatedObjectCollection) { AnimatedObjectCollection obj = (AnimatedObjectCollection)CarObjects[i]; for (int j = 0; j < obj.Objects.Length; j++) { for (int h = 0; h < obj.Objects[j].States.Length; h++) { if (obj.Objects[j].States[h].Prototype == null) { continue; //object failed to load? } obj.Objects[j].States[h].Prototype.ApplyScale(-1.0, 1.0, -1.0); Matrix4D t = obj.Objects[j].States[h].Translation; t.Row3.X *= -1.0f; t.Row3.Z *= -1.0f; obj.Objects[j].States[h].Translation = t; } obj.Objects[j].TranslateXDirection.X *= -1.0; obj.Objects[j].TranslateXDirection.Z *= -1.0; obj.Objects[j].TranslateYDirection.X *= -1.0; obj.Objects[j].TranslateYDirection.Z *= -1.0; obj.Objects[j].TranslateZDirection.X *= -1.0; obj.Objects[j].TranslateZDirection.Z *= -1.0; } } else { throw new NotImplementedException(); } } } } //Check for bogie objects and reverse if necessary..... int bogieObjects = 0; for (int i = 0; i < Train.Cars.Length * 2; i++) { bool IsOdd = (i % 2 != 0); int CarIndex = i / 2; if (BogieObjects[i] != null) { bogieObjects++; if (BogieObjectsReversed[i] && LoadObjects) { { // reverse axle positions if (IsOdd) { double temp = Train.Cars[CarIndex].FrontBogie.FrontAxle.Position; Train.Cars[CarIndex].FrontBogie.FrontAxle.Position = -Train.Cars[CarIndex].FrontBogie.RearAxle.Position; Train.Cars[CarIndex].FrontBogie.RearAxle.Position = -temp; } else { double temp = Train.Cars[CarIndex].RearBogie.FrontAxle.Position; Train.Cars[CarIndex].RearBogie.FrontAxle.Position = -Train.Cars[CarIndex].RearBogie.RearAxle.Position; Train.Cars[CarIndex].RearBogie.RearAxle.Position = -temp; } } if (BogieObjects[i] is StaticObject) { StaticObject obj = (StaticObject)BogieObjects[i]; obj.ApplyScale(-1.0, 1.0, -1.0); } else if (BogieObjects[i] is AnimatedObjectCollection) { AnimatedObjectCollection obj = (AnimatedObjectCollection)BogieObjects[i]; for (int j = 0; j < obj.Objects.Length; j++) { for (int h = 0; h < obj.Objects[j].States.Length; h++) { if (obj.Objects[j].States[h].Prototype == null) { continue; //object failed to load? } obj.Objects[j].States[h].Prototype.ApplyScale(-1.0, 1.0, -1.0); Matrix4D t = obj.Objects[j].States[h].Translation; t.Row3.X *= -1.0f; t.Row3.Z *= -1.0f; obj.Objects[j].States[h].Translation = t; } obj.Objects[j].TranslateXDirection.X *= -1.0; obj.Objects[j].TranslateXDirection.Z *= -1.0; obj.Objects[j].TranslateYDirection.X *= -1.0; obj.Objects[j].TranslateYDirection.Z *= -1.0; obj.Objects[j].TranslateZDirection.X *= -1.0; obj.Objects[j].TranslateZDirection.Z *= -1.0; } } else { throw new NotImplementedException(); } } } } if (carObjects > 0 & carObjects < Train.Cars.Length) { Interface.AddMessage(MessageType.Warning, false, "An incomplete set of exterior objects was provided in file " + FileName); } if (bogieObjects > 0 & bogieObjects < Train.Cars.Length * 2) { Interface.AddMessage(MessageType.Warning, false, "An incomplete set of bogie objects was provided in file " + FileName); } } }
public Encoding GetEncoding(string name) { return(new Encoding(NetEncoding.GetEncoding(name))); }
static TmphAppSetting() { #if MONO settings = new NameValueCollection(); ConfigPath = LogPath = Laurent.Lee.CLB.pub.ApplicationPath; ConfigIncludeName = defaultConfigIncludeName; MaxLogSize = 1 << 20; MaxLogCacheCount = 1 << 10; JsonDepth = 64; JavascriptMinTime = new DateTime(1970, 1, 1, 8, 0, 0); Encoding = Encoding.UTF8; TinyThreadStackSize = 128 << 10; ThreadStackSize = 1 << 20; PoolSize = 4; StreamBufferSize = 4 << 10; #else try { Settings = ConfigurationManager.AppSettings; ConfigFile = Settings["configFile"]; if (ConfigFile == null) { ConfigFile = (ConfigPath = CLB.TmphPub.ApplicationPath) + DefaultConfigFile; } else if (ConfigFile.IndexOf(':') == -1) { ConfigFile = (ConfigPath = CLB.TmphPub.ApplicationPath) + ConfigFile; } else ConfigPath = new FileInfo(ConfigFile).Directory.fullName().ToLower(); ConfigIncludeName = Settings["configIncludeName"]; if (ConfigIncludeName == null) ConfigIncludeName = DefaultConfigIncludeName; LogPath = Settings["logPath"]; if (LogPath == null || !TmphDirectory.Create(LogPath = LogPath.pathSuffix().ToLower())) LogPath = CLB.TmphPub.ApplicationPath; var maxLogSize = Settings["maxLogSize"]; if (!int.TryParse(maxLogSize, out MaxLogSize)) MaxLogSize = 1 << 20; var maxLogCacheCount = Settings["maxLogCacheCount"]; if (!int.TryParse(maxLogCacheCount, out MaxLogCacheCount)) MaxLogCacheCount = 1 << 10; var jsonParseDepth = Settings["jsonDepth"]; if (!int.TryParse(jsonParseDepth, out JsonDepth)) JsonDepth = 64; var javascriptMinTimeString = Settings["javascriptMinTime"]; if (!DateTime.TryParse(javascriptMinTimeString, out JavascriptMinTime)) { JavascriptMinTime = new DateTime(1970, 1, 1, 8, 0, 0); } if (Settings["isLogConsole"] != null) IsLogConsole = true; if (Settings["isErrorLog"] != null) IsErrorLog = true; var encoding = Settings["encoding"]; if (encoding != null) { try { Encoding = Encoding.GetEncoding(encoding); } catch (Exception error) { Console.WriteLine(error.ToString()); Encoding = Encoding.UTF8; } } if (Encoding == null) Encoding = Encoding.UTF8; var tinyThreadStackSize = Settings["tinyThreadStackSize"]; if (!int.TryParse(tinyThreadStackSize, out TinyThreadStackSize)) TinyThreadStackSize = 128 << 10; var threadStackSize = Settings["threadStackSize"]; if (!int.TryParse(threadStackSize, out ThreadStackSize)) ThreadStackSize = 1 << 20; var poolSize = Settings["poolSize"]; if (!int.TryParse(poolSize, out PoolSize)) PoolSize = 4; if (Settings["isPoolDebug"] != null) IsPoolDebug = true; var streamBufferSize = Settings["streamBufferSize"]; if (!int.TryParse(streamBufferSize, out StreamBufferSize)) StreamBufferSize = 4 << 10; if (Settings["isCheckMemory"] != null) IsCheckMemory = true; } catch (Exception error) { Settings = new NameValueCollection(); ConfigPath = LogPath = CLB.TmphPub.ApplicationPath; ConfigIncludeName = DefaultConfigIncludeName; MaxLogSize = 1 << 20; MaxLogCacheCount = 1 << 10; JsonDepth = 64; JavascriptMinTime = new DateTime(1970, 1, 1, 8, 0, 0); Encoding = Encoding.UTF8; TinyThreadStackSize = 128 << 10; ThreadStackSize = 1 << 20; PoolSize = 4; StreamBufferSize = 4 << 10; Console.WriteLine(error.ToString()); } #endif }
public Encoding GetEncoding(int codePage) { return(new Encoding(NetEncoding.GetEncoding(codePage))); }