private static void LoadEverythingThreaded()
{
Program.AppendToLogFile("Loading route file: " + CurrentRouteFile);
string RailwayFolder = GetRailwayFolder(CurrentRouteFile);
string ObjectFolder = OpenBveApi.Path.CombineDirectory(RailwayFolder, "Object");
string SoundFolder = OpenBveApi.Path.CombineDirectory(RailwayFolder, "Sound");
// reset
Game.Reset(true);
Game.MinimalisticSimulation = true;
// screen
World.CameraTrackFollower = new TrackManager.TrackFollower {
Train = null, CarIndex = -1
};
World.CameraMode = World.CameraViewMode.Interior;
//First, check the format of the route file
//RW routes were written for BVE1 / 2, and have a different command syntax
bool IsRW = CsvRwRouteParser.isRWFile(CurrentRouteFile);
Program.AppendToLogFile("Route file format is: " + (IsRW ? "RW" : "CSV"));
CsvRwRouteParser.ParseRoute(CurrentRouteFile, IsRW, CurrentRouteEncoding, CurrentTrainFolder, ObjectFolder, SoundFolder, false);
Thread createIllustrations = new Thread(Game.RouteInformation.LoadInformation)
{
IsBackground = true
};
createIllustrations.Start();
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
Game.CalculateSeaLevelConstants();
if (Game.BogusPretrainInstructions.Length != 0)
{
double t = Game.BogusPretrainInstructions[0].Time;
double p = Game.BogusPretrainInstructions[0].TrackPosition;
for (int i = 1; i < Game.BogusPretrainInstructions.Length; i++)
{
if (Game.BogusPretrainInstructions[i].Time > t)
{
t = Game.BogusPretrainInstructions[i].Time;
}
else
{
t += 1.0;
Game.BogusPretrainInstructions[i].Time = t;
}
if (Game.BogusPretrainInstructions[i].TrackPosition > p)
{
p = Game.BogusPretrainInstructions[i].TrackPosition;
}
else
{
p += 1.0;
Game.BogusPretrainInstructions[i].TrackPosition = p;
}
}
}
if (Game.Stations.Length == 1)
{
//Log the fact that only a single station is present, as this is probably not right
Program.AppendToLogFile("The processed route file only contains a single station.");
}
Program.AppendToLogFile("Route file loaded successfully.");
RouteProgress = 1.0;
// initialize trains
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
TrainManager.Trains = new TrainManager.Train[Game.PrecedingTrainTimeDeltas.Length + 1 + (Game.BogusPretrainInstructions.Length != 0 ? 1 : 0)];
for (int k = 0; k < TrainManager.Trains.Length; k++)
{
TrainManager.Trains[k] = new TrainManager.Train {
TrainIndex = k
};
if (k == TrainManager.Trains.Length - 1 & Game.BogusPretrainInstructions.Length != 0)
{
TrainManager.Trains[k].State = TrainManager.TrainState.Bogus;
}
else
{
TrainManager.Trains[k].State = TrainManager.TrainState.Pending;
}
}
TrainManager.PlayerTrain = TrainManager.Trains[Game.PrecedingTrainTimeDeltas.Length];
// load trains
double TrainProgressMaximum = 0.7 + 0.3 * (double)TrainManager.Trains.Length;
for (int k = 0; k < TrainManager.Trains.Length; k++)
{
//Sleep for 10ms to allow route loading locks to release
Thread.Sleep(20);
if (TrainManager.Trains[k].State == TrainManager.TrainState.Bogus)
{
// bogus train
string TrainData = OpenBveApi.Path.CombineFile(Program.FileSystem.GetDataFolder("Compatibility", "PreTrain"), "train.dat");
TrainDatParser.ParseTrainData(TrainData, System.Text.Encoding.UTF8, TrainManager.Trains[k]);
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
TrainManager.Trains[k].InitializeCarSounds();
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
TrainProgressCurrentWeight = 0.3 / TrainProgressMaximum;
TrainProgressCurrentSum += TrainProgressCurrentWeight;
}
else
{
// real train
Program.AppendToLogFile("Loading player train: " + CurrentTrainFolder);
TrainProgressCurrentWeight = 0.1 / TrainProgressMaximum;
string TrainData = OpenBveApi.Path.CombineFile(CurrentTrainFolder, "train.dat");
TrainDatParser.ParseTrainData(TrainData, CurrentTrainEncoding, TrainManager.Trains[k]);
TrainProgressCurrentSum += TrainProgressCurrentWeight;
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
TrainProgressCurrentWeight = 0.2 / TrainProgressMaximum;
SoundCfgParser.ParseSoundConfig(CurrentTrainFolder, CurrentTrainEncoding, TrainManager.Trains[k]);
TrainProgressCurrentSum += TrainProgressCurrentWeight;
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
// door open/close speed
for (int i = 0; i < TrainManager.Trains[k].Cars.Length; i++)
{
if (TrainManager.Trains[k].Cars[i].Specs.DoorOpenFrequency <= 0.0)
{
if (TrainManager.Trains[k].Cars[i].Sounds.DoorOpenL.Buffer != null & TrainManager.Trains[k].Cars[i].Sounds.DoorOpenR.Buffer != null)
{
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorOpenL.Buffer);
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorOpenR.Buffer);
double a = TrainManager.Trains[k].Cars[i].Sounds.DoorOpenL.Buffer.Duration;
double b = TrainManager.Trains[k].Cars[i].Sounds.DoorOpenR.Buffer.Duration;
TrainManager.Trains[k].Cars[i].Specs.DoorOpenFrequency = a + b > 0.0 ? 2.0 / (a + b) : 0.8;
}
else if (TrainManager.Trains[k].Cars[i].Sounds.DoorOpenL.Buffer != null)
{
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorOpenL.Buffer);
double a = TrainManager.Trains[k].Cars[i].Sounds.DoorOpenL.Buffer.Duration;
TrainManager.Trains[k].Cars[i].Specs.DoorOpenFrequency = a > 0.0 ? 1.0 / a : 0.8;
}
else if (TrainManager.Trains[k].Cars[i].Sounds.DoorOpenR.Buffer != null)
{
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorOpenL.Buffer);
double b = TrainManager.Trains[k].Cars[i].Sounds.DoorOpenR.Buffer.Duration;
TrainManager.Trains[k].Cars[i].Specs.DoorOpenFrequency = b > 0.0 ? 1.0 / b : 0.8;
}
else
{
TrainManager.Trains[k].Cars[i].Specs.DoorOpenFrequency = 0.8;
}
}
if (TrainManager.Trains[k].Cars[i].Specs.DoorCloseFrequency <= 0.0)
{
if (TrainManager.Trains[k].Cars[i].Sounds.DoorCloseL.Buffer != null & TrainManager.Trains[k].Cars[i].Sounds.DoorCloseR.Buffer != null)
{
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorCloseL.Buffer);
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorCloseR.Buffer);
double a = TrainManager.Trains[k].Cars[i].Sounds.DoorCloseL.Buffer.Duration;
double b = TrainManager.Trains[k].Cars[i].Sounds.DoorCloseR.Buffer.Duration;
TrainManager.Trains[k].Cars[i].Specs.DoorCloseFrequency = a + b > 0.0 ? 2.0 / (a + b) : 0.8;
}
else if (TrainManager.Trains[k].Cars[i].Sounds.DoorCloseL.Buffer != null)
{
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorCloseL.Buffer);
double a = TrainManager.Trains[k].Cars[i].Sounds.DoorCloseL.Buffer.Duration;
TrainManager.Trains[k].Cars[i].Specs.DoorCloseFrequency = a > 0.0 ? 1.0 / a : 0.8;
}
else if (TrainManager.Trains[k].Cars[i].Sounds.DoorCloseR.Buffer != null)
{
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorCloseL.Buffer);
double b = TrainManager.Trains[k].Cars[i].Sounds.DoorCloseR.Buffer.Duration;
TrainManager.Trains[k].Cars[i].Specs.DoorCloseFrequency = b > 0.0 ? 1.0 / b : 0.8;
}
else
{
TrainManager.Trains[k].Cars[i].Specs.DoorCloseFrequency = 0.8;
}
}
const double f = 0.015;
const double g = 2.75;
TrainManager.Trains[k].Cars[i].Specs.DoorOpenPitch = Math.Exp(f * Math.Tan(g * (Program.RandomNumberGenerator.NextDouble() - 0.5)));
TrainManager.Trains[k].Cars[i].Specs.DoorClosePitch = Math.Exp(f * Math.Tan(g * (Program.RandomNumberGenerator.NextDouble() - 0.5)));
TrainManager.Trains[k].Cars[i].Specs.DoorOpenFrequency /= TrainManager.Trains[k].Cars[i].Specs.DoorOpenPitch;
TrainManager.Trains[k].Cars[i].Specs.DoorCloseFrequency /= TrainManager.Trains[k].Cars[i].Specs.DoorClosePitch;
/*
* Remove the following two lines, then the pitch at which doors play
* takes their randomized opening and closing times into account.
* */
TrainManager.Trains[k].Cars[i].Specs.DoorOpenPitch = 1.0;
TrainManager.Trains[k].Cars[i].Specs.DoorClosePitch = 1.0;
}
}
for (int i = 0; i < TrainManager.Trains[k].Cars.Length; i++)
{
TrainManager.Trains[k].Cars[i].FrontAxle.Follower.Train = TrainManager.Trains[k];
TrainManager.Trains[k].Cars[i].RearAxle.Follower.Train = TrainManager.Trains[k];
TrainManager.Trains[k].Cars[i].BeaconReceiver.Train = TrainManager.Trains[k];
}
// add panel section
if (k == TrainManager.PlayerTrain.TrainIndex)
{
TrainManager.Trains[k].Cars[TrainManager.Trains[k].DriverCar].CarSections = new TrainManager.CarSection[1];
TrainManager.Trains[k].Cars[TrainManager.Trains[k].DriverCar].CarSections[0].Elements = new ObjectManager.AnimatedObject[] { };
TrainManager.Trains[k].Cars[TrainManager.Trains[k].DriverCar].CarSections[0].Overlay = true;
TrainProgressCurrentWeight = 0.7 / TrainProgressMaximum;
TrainManager.ParsePanelConfig(CurrentTrainFolder, CurrentTrainEncoding, TrainManager.Trains[k]);
TrainProgressCurrentSum += TrainProgressCurrentWeight;
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
Program.AppendToLogFile("Train panel loaded sucessfully.");
}
// add exterior section
if (TrainManager.Trains[k].State != TrainManager.TrainState.Bogus)
{
ObjectManager.UnifiedObject[] CarObjects;
ObjectManager.UnifiedObject[] BogieObjects;
ExtensionsCfgParser.ParseExtensionsConfig(CurrentTrainFolder, CurrentTrainEncoding, out CarObjects, out BogieObjects, TrainManager.Trains[k]);
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
//Stores the current array index of the bogie object to add
//Required as there are two bogies per car, and we're using a simple linear array....
int currentBogieObject = 0;
for (int i = 0; i < TrainManager.Trains[k].Cars.Length; i++)
{
if (CarObjects[i] == null)
{
// load default exterior object
string file = OpenBveApi.Path.CombineFile(Program.FileSystem.GetDataFolder("Compatibility"), "exterior.csv");
ObjectManager.StaticObject so = ObjectManager.LoadStaticObject(file, System.Text.Encoding.UTF8, ObjectManager.ObjectLoadMode.Normal, false, false, false);
if (so == null)
{
CarObjects[i] = null;
}
else
{
double sx = TrainManager.Trains[k].Cars[i].Width;
double sy = TrainManager.Trains[k].Cars[i].Height;
double sz = TrainManager.Trains[k].Cars[i].Length;
CsvB3dObjectParser.ApplyScale(so, sx, sy, sz);
CarObjects[i] = so;
}
}
if (CarObjects[i] != null)
{
// add object
int j = TrainManager.Trains[k].Cars[i].CarSections.Length;
Array.Resize <TrainManager.CarSection>(ref TrainManager.Trains[k].Cars[i].CarSections, j + 1);
if (CarObjects[i] is ObjectManager.StaticObject)
{
ObjectManager.StaticObject s = (ObjectManager.StaticObject)CarObjects[i];
TrainManager.Trains[k].Cars[i].CarSections[j].Elements = new ObjectManager.AnimatedObject[1];
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[0] = new ObjectManager.AnimatedObject();
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[0].States = new ObjectManager.AnimatedObjectState[1];
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[0].States[0].Position = new Vector3(0.0, 0.0, 0.0);
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[0].States[0].Object = s;
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[0].CurrentState = 0;
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[0].ObjectIndex = ObjectManager.CreateDynamicObject();
}
else if (CarObjects[i] is ObjectManager.AnimatedObjectCollection)
{
ObjectManager.AnimatedObjectCollection a = (ObjectManager.AnimatedObjectCollection)CarObjects[i];
TrainManager.Trains[k].Cars[i].CarSections[j].Elements = new ObjectManager.AnimatedObject[a.Objects.Length];
for (int h = 0; h < a.Objects.Length; h++)
{
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[h] = a.Objects[h];
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[h].ObjectIndex = ObjectManager.CreateDynamicObject();
}
}
}
//Load bogie objects
if (BogieObjects[currentBogieObject] != null)
{
int j = TrainManager.Trains[k].Cars[i].FrontBogie.CarSections.Length;
Array.Resize <TrainManager.CarSection>(ref TrainManager.Trains[k].Cars[i].FrontBogie.CarSections, j + 1);
if (BogieObjects[currentBogieObject] is ObjectManager.StaticObject)
{
ObjectManager.StaticObject s = (ObjectManager.StaticObject)BogieObjects[currentBogieObject];
TrainManager.Trains[k].Cars[i].FrontBogie.CarSections[j].Elements = new ObjectManager.AnimatedObject[1];
TrainManager.Trains[k].Cars[i].FrontBogie.CarSections[j].Elements[0] = new ObjectManager.AnimatedObject();
TrainManager.Trains[k].Cars[i].FrontBogie.CarSections[j].Elements[0].States = new ObjectManager.AnimatedObjectState[1];
TrainManager.Trains[k].Cars[i].FrontBogie.CarSections[j].Elements[0].States[0].Position = new Vector3(0.0, 0.0, 0.0);
TrainManager.Trains[k].Cars[i].FrontBogie.CarSections[j].Elements[0].States[0].Object = s;
TrainManager.Trains[k].Cars[i].FrontBogie.CarSections[j].Elements[0].CurrentState = 0;
TrainManager.Trains[k].Cars[i].FrontBogie.CarSections[j].Elements[0].ObjectIndex = ObjectManager.CreateDynamicObject();
}
else if (BogieObjects[currentBogieObject] is ObjectManager.AnimatedObjectCollection)
{
ObjectManager.AnimatedObjectCollection a = (ObjectManager.AnimatedObjectCollection)BogieObjects[currentBogieObject];
TrainManager.Trains[k].Cars[i].FrontBogie.CarSections[j].Elements = new ObjectManager.AnimatedObject[a.Objects.Length];
for (int h = 0; h < a.Objects.Length; h++)
{
TrainManager.Trains[k].Cars[i].FrontBogie.CarSections[j].Elements[h] = a.Objects[h];
TrainManager.Trains[k].Cars[i].FrontBogie.CarSections[j].Elements[h].ObjectIndex = ObjectManager.CreateDynamicObject();
}
}
}
currentBogieObject++;
//Can't think of a better way to do this than two functions......
if (BogieObjects[currentBogieObject] != null)
{
int j = TrainManager.Trains[k].Cars[i].RearBogie.CarSections.Length;
Array.Resize <TrainManager.CarSection>(ref TrainManager.Trains[k].Cars[i].RearBogie.CarSections, j + 1);
if (BogieObjects[currentBogieObject] is ObjectManager.StaticObject)
{
ObjectManager.StaticObject s = (ObjectManager.StaticObject)BogieObjects[currentBogieObject];
TrainManager.Trains[k].Cars[i].RearBogie.CarSections[j].Elements = new ObjectManager.AnimatedObject[1];
TrainManager.Trains[k].Cars[i].RearBogie.CarSections[j].Elements[0] = new ObjectManager.AnimatedObject();
TrainManager.Trains[k].Cars[i].RearBogie.CarSections[j].Elements[0].States = new ObjectManager.AnimatedObjectState[1];
TrainManager.Trains[k].Cars[i].RearBogie.CarSections[j].Elements[0].States[0].Position = new Vector3(0.0, 0.0, 0.0);
TrainManager.Trains[k].Cars[i].RearBogie.CarSections[j].Elements[0].States[0].Object = s;
TrainManager.Trains[k].Cars[i].RearBogie.CarSections[j].Elements[0].CurrentState = 0;
TrainManager.Trains[k].Cars[i].RearBogie.CarSections[j].Elements[0].ObjectIndex = ObjectManager.CreateDynamicObject();
}
else if (BogieObjects[currentBogieObject] is ObjectManager.AnimatedObjectCollection)
{
ObjectManager.AnimatedObjectCollection a = (ObjectManager.AnimatedObjectCollection)BogieObjects[currentBogieObject];
TrainManager.Trains[k].Cars[i].RearBogie.CarSections[j].Elements = new ObjectManager.AnimatedObject[a.Objects.Length];
for (int h = 0; h < a.Objects.Length; h++)
{
TrainManager.Trains[k].Cars[i].RearBogie.CarSections[j].Elements[h] = a.Objects[h];
TrainManager.Trains[k].Cars[i].RearBogie.CarSections[j].Elements[h].ObjectIndex = ObjectManager.CreateDynamicObject();
}
}
}
currentBogieObject++;
}
}
// place cars
{
double z = 0.0;
for (int i = 0; i < TrainManager.Trains[k].Cars.Length; i++)
{
//Front axle track position
TrainManager.Trains[k].Cars[i].FrontAxle.Follower.TrackPosition = z - 0.5 * TrainManager.Trains[k].Cars[i].Length + TrainManager.Trains[k].Cars[i].FrontAxle.Position;
//Bogie for front axle
TrainManager.Trains[k].Cars[i].FrontBogie.FrontAxle.Follower.TrackPosition = TrainManager.Trains[k].Cars[i].FrontAxle.Follower.TrackPosition - 0.5 * TrainManager.Trains[k].Cars[i].FrontBogie.Length + TrainManager.Trains[k].Cars[i].FrontBogie.FrontAxle.Position;
TrainManager.Trains[k].Cars[i].FrontBogie.RearAxle.Follower.TrackPosition = TrainManager.Trains[k].Cars[i].FrontAxle.Follower.TrackPosition - 0.5 * TrainManager.Trains[k].Cars[i].FrontBogie.Length + TrainManager.Trains[k].Cars[i].FrontBogie.RearAxle.Position;
//Rear axle track position
TrainManager.Trains[k].Cars[i].RearAxle.Follower.TrackPosition = z - 0.5 * TrainManager.Trains[k].Cars[i].Length + TrainManager.Trains[k].Cars[i].RearAxle.Position;
//Bogie for rear axle
TrainManager.Trains[k].Cars[i].RearBogie.FrontAxle.Follower.TrackPosition = TrainManager.Trains[k].Cars[i].RearAxle.Follower.TrackPosition - 0.5 * TrainManager.Trains[k].Cars[i].RearBogie.Length + TrainManager.Trains[k].Cars[i].RearBogie.FrontAxle.Position;
TrainManager.Trains[k].Cars[i].RearBogie.RearAxle.Follower.TrackPosition = TrainManager.Trains[k].Cars[i].RearAxle.Follower.TrackPosition - 0.5 * TrainManager.Trains[k].Cars[i].RearBogie.Length + TrainManager.Trains[k].Cars[i].RearBogie.RearAxle.Position;
//Beacon reciever (AWS, ATC etc.)
TrainManager.Trains[k].Cars[i].BeaconReceiver.TrackPosition = z - 0.5 * TrainManager.Trains[k].Cars[i].Length + TrainManager.Trains[k].Cars[i].BeaconReceiverPosition;
z -= TrainManager.Trains[k].Cars[i].Length;
if (i < TrainManager.Trains[k].Cars.Length - 1)
{
z -= 0.5 * (TrainManager.Trains[k].Couplers[i].MinimumDistanceBetweenCars + TrainManager.Trains[k].Couplers[i].MaximumDistanceBetweenCars);
}
}
}
// configure ai / timetable
if (TrainManager.Trains[k] == TrainManager.PlayerTrain)
{
TrainManager.Trains[k].TimetableDelta = 0.0;
}
else if (TrainManager.Trains[k].State != TrainManager.TrainState.Bogus)
{
TrainManager.Trains[k].AI = new Game.SimpleHumanDriverAI(TrainManager.Trains[k]);
TrainManager.Trains[k].TimetableDelta = Game.PrecedingTrainTimeDeltas[k];
TrainManager.Trains[k].Specs.DoorOpenMode = TrainManager.DoorMode.Manual;
TrainManager.Trains[k].Specs.DoorCloseMode = TrainManager.DoorMode.Manual;
}
}
TrainProgress = 1.0;
// finished created objects
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
ObjectManager.FinishCreatingObjects();
// update sections
if (Game.Sections.Length > 0)
{
Game.UpdateSection(Game.Sections.Length - 1);
}
// load plugin
for (int i = 0; i < TrainManager.Trains.Length; i++)
{
if (TrainManager.Trains[i].State != TrainManager.TrainState.Bogus)
{
if (TrainManager.Trains[i] == TrainManager.PlayerTrain)
{
if (!PluginManager.LoadCustomPlugin(TrainManager.Trains[i], CurrentTrainFolder, CurrentTrainEncoding))
{
PluginManager.LoadDefaultPlugin(TrainManager.Trains[i], CurrentTrainFolder);
}
}
else
{
PluginManager.LoadDefaultPlugin(TrainManager.Trains[i], CurrentTrainFolder);
}
}
}
}
private static void LoadEverythingThreaded()
{
string RailwayFolder = GetRailwayFolder(CurrentRouteFile);
// if (RailwayFolder == null) {
// Interface.AddMessage(Interface.MessageType.Critical, false, "The Railway folder could not be found. Please check your folder structure.");
// return;
// }
string ObjectFolder = OpenBveApi.Path.CombineDirectory(RailwayFolder, "Object");
string SoundFolder = OpenBveApi.Path.CombineDirectory(RailwayFolder, "Sound");
// reset
Game.Reset(true);
Game.MinimalisticSimulation = true;
// screen
World.CameraTrackFollower = new TrackManager.TrackFollower();
World.CameraTrackFollower.Train = null;
World.CameraTrackFollower.CarIndex = -1;
World.CameraMode = World.CameraViewMode.Interior;
// load route
bool IsRW = string.Equals(System.IO.Path.GetExtension(CurrentRouteFile), ".rw", StringComparison.OrdinalIgnoreCase);
CsvRwRouteParser.ParseRoute(CurrentRouteFile, IsRW, CurrentRouteEncoding, CurrentTrainFolder, ObjectFolder, SoundFolder, false);
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
Game.CalculateSeaLevelConstants();
if (Game.BogusPretrainInstructions.Length != 0)
{
double t = Game.BogusPretrainInstructions[0].Time;
double p = Game.BogusPretrainInstructions[0].TrackPosition;
for (int i = 1; i < Game.BogusPretrainInstructions.Length; i++)
{
if (Game.BogusPretrainInstructions[i].Time > t)
{
t = Game.BogusPretrainInstructions[i].Time;
}
else
{
t += 1.0;
Game.BogusPretrainInstructions[i].Time = t;
}
if (Game.BogusPretrainInstructions[i].TrackPosition > p)
{
p = Game.BogusPretrainInstructions[i].TrackPosition;
}
else
{
p += 1.0;
Game.BogusPretrainInstructions[i].TrackPosition = p;
}
}
}
RouteProgress = 1.0;
// initialize trains
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
TrainManager.Trains = new TrainManager.Train[Game.PrecedingTrainTimeDeltas.Length + 1 + (Game.BogusPretrainInstructions.Length != 0 ? 1 : 0)];
for (int k = 0; k < TrainManager.Trains.Length; k++)
{
TrainManager.Trains[k] = new TrainManager.Train();
TrainManager.Trains[k].TrainIndex = k;
if (k == TrainManager.Trains.Length - 1 & Game.BogusPretrainInstructions.Length != 0)
{
TrainManager.Trains[k].State = TrainManager.TrainState.Bogus;
}
else
{
TrainManager.Trains[k].State = TrainManager.TrainState.Pending;
}
}
TrainManager.PlayerTrain = TrainManager.Trains[Game.PrecedingTrainTimeDeltas.Length];
// load trains
double TrainProgressMaximum = 0.7 + 0.3 * (double)TrainManager.Trains.Length;
for (int k = 0; k < TrainManager.Trains.Length; k++)
{
if (TrainManager.Trains[k].State == TrainManager.TrainState.Bogus)
{
// bogus train
string Folder = Program.FileSystem.GetDataFolder("Compatibility", "PreTrain");
TrainDatParser.ParseTrainData(Folder, System.Text.Encoding.UTF8, TrainManager.Trains[k]);
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
SoundCfgParser.LoadNoSound(TrainManager.Trains[k]);
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
TrainProgressCurrentWeight = 0.3 / TrainProgressMaximum;
TrainProgressCurrentSum += TrainProgressCurrentWeight;
}
else
{
// real train
TrainProgressCurrentWeight = 0.1 / TrainProgressMaximum;
TrainDatParser.ParseTrainData(CurrentTrainFolder, CurrentTrainEncoding, TrainManager.Trains[k]);
TrainProgressCurrentSum += TrainProgressCurrentWeight;
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
TrainProgressCurrentWeight = 0.2 / TrainProgressMaximum;
SoundCfgParser.ParseSoundConfig(CurrentTrainFolder, CurrentTrainEncoding, TrainManager.Trains[k]);
TrainProgressCurrentSum += TrainProgressCurrentWeight;
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
// door open/close speed
for (int i = 0; i < TrainManager.Trains[k].Cars.Length; i++)
{
if (TrainManager.Trains[k].Cars[i].Specs.DoorOpenFrequency <= 0.0)
{
if (TrainManager.Trains[k].Cars[i].Sounds.DoorOpenL.Buffer != null & TrainManager.Trains[k].Cars[i].Sounds.DoorOpenR.Buffer != null)
{
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorOpenL.Buffer);
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorOpenR.Buffer);
double a = TrainManager.Trains[k].Cars[i].Sounds.DoorOpenL.Buffer.Duration;
double b = TrainManager.Trains[k].Cars[i].Sounds.DoorOpenR.Buffer.Duration;
TrainManager.Trains[k].Cars[i].Specs.DoorOpenFrequency = a + b > 0.0 ? 2.0 / (a + b) : 0.8;
}
else if (TrainManager.Trains[k].Cars[i].Sounds.DoorOpenL.Buffer != null)
{
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorOpenL.Buffer);
double a = TrainManager.Trains[k].Cars[i].Sounds.DoorOpenL.Buffer.Duration;
TrainManager.Trains[k].Cars[i].Specs.DoorOpenFrequency = a > 0.0 ? 1.0 / a : 0.8;
}
else if (TrainManager.Trains[k].Cars[i].Sounds.DoorOpenR.Buffer != null)
{
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorOpenL.Buffer);
double b = TrainManager.Trains[k].Cars[i].Sounds.DoorOpenR.Buffer.Duration;
TrainManager.Trains[k].Cars[i].Specs.DoorOpenFrequency = b > 0.0 ? 1.0 / b : 0.8;
}
else
{
TrainManager.Trains[k].Cars[i].Specs.DoorOpenFrequency = 0.8;
}
}
if (TrainManager.Trains[k].Cars[i].Specs.DoorCloseFrequency <= 0.0)
{
if (TrainManager.Trains[k].Cars[i].Sounds.DoorCloseL.Buffer != null & TrainManager.Trains[k].Cars[i].Sounds.DoorCloseR.Buffer != null)
{
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorCloseL.Buffer);
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorCloseR.Buffer);
double a = TrainManager.Trains[k].Cars[i].Sounds.DoorCloseL.Buffer.Duration;
double b = TrainManager.Trains[k].Cars[i].Sounds.DoorCloseR.Buffer.Duration;
TrainManager.Trains[k].Cars[i].Specs.DoorCloseFrequency = a + b > 0.0 ? 2.0 / (a + b) : 0.8;
}
else if (TrainManager.Trains[k].Cars[i].Sounds.DoorCloseL.Buffer != null)
{
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorCloseL.Buffer);
double a = TrainManager.Trains[k].Cars[i].Sounds.DoorCloseL.Buffer.Duration;
TrainManager.Trains[k].Cars[i].Specs.DoorCloseFrequency = a > 0.0 ? 1.0 / a : 0.8;
}
else if (TrainManager.Trains[k].Cars[i].Sounds.DoorCloseR.Buffer != null)
{
Sounds.LoadBuffer(TrainManager.Trains[k].Cars[i].Sounds.DoorCloseL.Buffer);
double b = TrainManager.Trains[k].Cars[i].Sounds.DoorCloseR.Buffer.Duration;
TrainManager.Trains[k].Cars[i].Specs.DoorCloseFrequency = b > 0.0 ? 1.0 / b : 0.8;
}
else
{
TrainManager.Trains[k].Cars[i].Specs.DoorCloseFrequency = 0.8;
}
}
const double f = 0.015;
const double g = 2.75;
TrainManager.Trains[k].Cars[i].Specs.DoorOpenPitch = Math.Exp(f * Math.Tan(g * (Program.RandomNumberGenerator.NextDouble() - 0.5)));
TrainManager.Trains[k].Cars[i].Specs.DoorClosePitch = Math.Exp(f * Math.Tan(g * (Program.RandomNumberGenerator.NextDouble() - 0.5)));
TrainManager.Trains[k].Cars[i].Specs.DoorOpenFrequency /= TrainManager.Trains[k].Cars[i].Specs.DoorOpenPitch;
TrainManager.Trains[k].Cars[i].Specs.DoorCloseFrequency /= TrainManager.Trains[k].Cars[i].Specs.DoorClosePitch;
/*
* Remove the following two lines, then the pitch at which doors play
* takes their randomized opening and closing times into account.
* */
TrainManager.Trains[k].Cars[i].Specs.DoorOpenPitch = 1.0;
TrainManager.Trains[k].Cars[i].Specs.DoorClosePitch = 1.0;
}
}
for (int i = 0; i < TrainManager.Trains[k].Cars.Length; i++)
{
TrainManager.Trains[k].Cars[i].FrontAxle.Follower.Train = TrainManager.Trains[k];
TrainManager.Trains[k].Cars[i].RearAxle.Follower.Train = TrainManager.Trains[k];
TrainManager.Trains[k].Cars[i].BeaconReceiver.Train = TrainManager.Trains[k];
}
// add panel section
if (k == TrainManager.PlayerTrain.TrainIndex)
{
TrainManager.Trains[k].Cars[TrainManager.Trains[k].DriverCar].CarSections = new TrainManager.CarSection[1];
TrainManager.Trains[k].Cars[TrainManager.Trains[k].DriverCar].CarSections[0].Elements = new ObjectManager.AnimatedObject[] { };
TrainManager.Trains[k].Cars[TrainManager.Trains[k].DriverCar].CarSections[0].Overlay = true;
TrainProgressCurrentWeight = 0.7 / TrainProgressMaximum;
TrainManager.ParsePanelConfig(CurrentTrainFolder, CurrentTrainEncoding, TrainManager.Trains[k]);
TrainProgressCurrentSum += TrainProgressCurrentWeight;
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
}
// add exterior section
if (TrainManager.Trains[k].State != TrainManager.TrainState.Bogus)
{
ObjectManager.UnifiedObject[] CarObjects;
ExtensionsCfgParser.ParseExtensionsConfig(CurrentTrainFolder, CurrentTrainEncoding, out CarObjects, TrainManager.Trains[k]);
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
for (int i = 0; i < TrainManager.Trains[k].Cars.Length; i++)
{
if (CarObjects[i] == null)
{
// load default exterior object
string file = OpenBveApi.Path.CombineFile(Program.FileSystem.GetDataFolder("Compatibility"), "exterior.csv");
ObjectManager.StaticObject so = ObjectManager.LoadStaticObject(file, System.Text.Encoding.UTF8, ObjectManager.ObjectLoadMode.Normal, false, false, false);
if (so == null)
{
CarObjects[i] = null;
}
else
{
double sx = TrainManager.Trains[k].Cars[i].Width;
double sy = TrainManager.Trains[k].Cars[i].Height;
double sz = TrainManager.Trains[k].Cars[i].Length;
CsvB3dObjectParser.ApplyScale(so, sx, sy, sz);
CarObjects[i] = so;
}
}
if (CarObjects[i] != null)
{
// add object
int j = TrainManager.Trains[k].Cars[i].CarSections.Length;
Array.Resize <TrainManager.CarSection>(ref TrainManager.Trains[k].Cars[i].CarSections, j + 1);
if (CarObjects[i] is ObjectManager.StaticObject)
{
ObjectManager.StaticObject s = (ObjectManager.StaticObject)CarObjects[i];
TrainManager.Trains[k].Cars[i].CarSections[j].Elements = new ObjectManager.AnimatedObject[1];
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[0] = new ObjectManager.AnimatedObject();
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[0].States = new ObjectManager.AnimatedObjectState[1];
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[0].States[0].Position = new Vector3(0.0, 0.0, 0.0);
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[0].States[0].Object = s;
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[0].CurrentState = 0;
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[0].ObjectIndex = ObjectManager.CreateDynamicObject();
}
else if (CarObjects[i] is ObjectManager.AnimatedObjectCollection)
{
ObjectManager.AnimatedObjectCollection a = (ObjectManager.AnimatedObjectCollection)CarObjects[i];
TrainManager.Trains[k].Cars[i].CarSections[j].Elements = new ObjectManager.AnimatedObject[a.Objects.Length];
for (int h = 0; h < a.Objects.Length; h++)
{
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[h] = a.Objects[h];
TrainManager.Trains[k].Cars[i].CarSections[j].Elements[h].ObjectIndex = ObjectManager.CreateDynamicObject();
}
}
}
}
}
// place cars
{
double z = 0.0;
for (int i = 0; i < TrainManager.Trains[k].Cars.Length; i++)
{
TrainManager.Trains[k].Cars[i].FrontAxle.Follower.TrackPosition = z - 0.5 * TrainManager.Trains[k].Cars[i].Length + TrainManager.Trains[k].Cars[i].FrontAxlePosition;
TrainManager.Trains[k].Cars[i].RearAxle.Follower.TrackPosition = z - 0.5 * TrainManager.Trains[k].Cars[i].Length + TrainManager.Trains[k].Cars[i].RearAxlePosition;
TrainManager.Trains[k].Cars[i].BeaconReceiver.TrackPosition = z - 0.5 * TrainManager.Trains[k].Cars[i].Length + TrainManager.Trains[k].Cars[i].BeaconReceiverPosition;
z -= TrainManager.Trains[k].Cars[i].Length;
if (i < TrainManager.Trains[k].Cars.Length - 1)
{
z -= 0.5 * (TrainManager.Trains[k].Couplers[i].MinimumDistanceBetweenCars + TrainManager.Trains[k].Couplers[i].MaximumDistanceBetweenCars);
}
}
}
// configure ai / timetable
if (TrainManager.Trains[k] == TrainManager.PlayerTrain)
{
TrainManager.Trains[k].TimetableDelta = 0.0;
}
else if (TrainManager.Trains[k].State != TrainManager.TrainState.Bogus)
{
TrainManager.Trains[k].AI = new Game.SimpleHumanDriverAI(TrainManager.Trains[k]);
TrainManager.Trains[k].TimetableDelta = Game.PrecedingTrainTimeDeltas[k];
TrainManager.Trains[k].Specs.DoorOpenMode = TrainManager.DoorMode.Manual;
TrainManager.Trains[k].Specs.DoorCloseMode = TrainManager.DoorMode.Manual;
}
}
TrainProgress = 1.0;
// finished created objects
System.Threading.Thread.Sleep(1); if (Cancel)
{
return;
}
ObjectManager.FinishCreatingObjects();
// update sections
if (Game.Sections.Length > 0)
{
Game.UpdateSection(Game.Sections.Length - 1);
}
// load plugin
for (int i = 0; i < TrainManager.Trains.Length; i++)
{
if (TrainManager.Trains[i].State != TrainManager.TrainState.Bogus)
{
if (TrainManager.Trains[i] == TrainManager.PlayerTrain)
{
if (!PluginManager.LoadCustomPlugin(TrainManager.Trains[i], CurrentTrainFolder, CurrentTrainEncoding))
{
PluginManager.LoadDefaultPlugin(TrainManager.Trains[i], CurrentTrainFolder);
}
}
else
{
PluginManager.LoadDefaultPlugin(TrainManager.Trains[i], CurrentTrainFolder);
}
}
}
}
// parse extensions config
internal static void ParseExtensionsConfig(string TrainPath, System.Text.Encoding Encoding, out ObjectManager.UnifiedObject[] CarObjects, TrainManager.Train Train)
{
CarObjects = new ObjectManager.UnifiedObject[Train.Cars.Length];
bool[] CarObjectsReversed = new bool[Train.Cars.Length];
System.Globalization.CultureInfo Culture = System.Globalization.CultureInfo.InvariantCulture;
string FileName = OpenBveApi.Path.CombineFile(TrainPath, "extensions.cfg");
if (System.IO.File.Exists(FileName))
{
// load file
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();
}
else
{
Lines[i] = Lines[i].Trim();
}
}
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();
string b = Lines[i].Substring(j + 1).TrimStart();
int n;
if (int.TryParse(a, System.Globalization.NumberStyles.Integer, Culture, out n))
{
if (n >= 0 & n < Train.Cars.Length)
{
if (Interface.ContainsInvalidPathChars(b))
{
Interface.AddMessage(Interface.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))
{
CarObjects[n] = ObjectManager.LoadObject(File, Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
}
else
{
Interface.AddMessage(Interface.MessageType.Error, true, "The car object " + File + " does not exist at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
}
}
else
{
Interface.AddMessage(Interface.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(Interface.MessageType.Error, false, "The car index is expected to be an integer at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
}
else
{
Interface.AddMessage(Interface.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)
{
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();
string b = Lines[i].Substring(j + 1).TrimStart();
switch (a.ToLowerInvariant())
{
case "object":
if (Interface.ContainsInvalidPathChars(b))
{
Interface.AddMessage(Interface.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))
{
CarObjects[n] = ObjectManager.LoadObject(File, Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
}
else
{
Interface.AddMessage(Interface.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(Interface.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(Interface.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();
string d = b.Substring(k + 1).TrimStart();
double rear, front;
if (!double.TryParse(c, System.Globalization.NumberStyles.Float, Culture, out rear))
{
Interface.AddMessage(Interface.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(Interface.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(Interface.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].RearAxlePosition = rear;
Train.Cars[n].FrontAxlePosition = front;
DefinedAxles = true;
}
}
else
{
Interface.AddMessage(Interface.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;
default:
Interface.AddMessage(Interface.MessageType.Warning, false, "Unsupported key-value pair " + a + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName);
break;
}
}
else
{
Interface.AddMessage(Interface.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].RearAxlePosition = -AxleDistance;
Train.Cars[n].FrontAxlePosition = AxleDistance;
}
}
else
{
Interface.AddMessage(Interface.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(Interface.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.Couplers.Length)
{
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();
string b = Lines[i].Substring(j + 1).TrimStart();
switch (a.ToLowerInvariant())
{
case "distances":
{
int k = b.IndexOf(',');
if (k >= 0)
{
string c = b.Substring(0, k).TrimEnd();
string d = b.Substring(k + 1).TrimStart();
double min, max;
if (!double.TryParse(c, System.Globalization.NumberStyles.Float, Culture, out min))
{
Interface.AddMessage(Interface.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(Interface.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(Interface.MessageType.Error, false, "Minimum is expected to be less than Maximum in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
Train.Couplers[n].MinimumDistanceBetweenCars = min;
Train.Couplers[n].MaximumDistanceBetweenCars = max;
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "An argument-separating comma is expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
default:
Interface.AddMessage(Interface.MessageType.Warning, false, "Unsupported key-value pair " + a + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName);
break;
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "Invalid statement " + Lines[i] + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
}
i++;
}
i--;
}
else
{
Interface.AddMessage(Interface.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(Interface.MessageType.Error, false, "The coupler index is expected to be an integer at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
}
else
{
// default
Interface.AddMessage(Interface.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])
{
{
// reverse axle positions
double temp = Train.Cars[i].FrontAxlePosition;
Train.Cars[i].FrontAxlePosition = -Train.Cars[i].RearAxlePosition;
Train.Cars[i].RearAxlePosition = -temp;
}
if (CarObjects[i] is ObjectManager.StaticObject)
{
ObjectManager.StaticObject obj = (ObjectManager.StaticObject)CarObjects[i];
CsvB3dObjectParser.ApplyScale(obj, -1.0, 1.0, -1.0);
}
else if (CarObjects[i] is ObjectManager.AnimatedObjectCollection)
{
ObjectManager.AnimatedObjectCollection obj = (ObjectManager.AnimatedObjectCollection)CarObjects[i];
for (int j = 0; j < obj.Objects.Length; j++)
{
for (int h = 0; h < obj.Objects[j].States.Length; h++)
{
CsvB3dObjectParser.ApplyScale(obj.Objects[j].States[h].Object, -1.0, 1.0, -1.0);
obj.Objects[j].States[h].Position.X *= -1.0;
obj.Objects[j].States[h].Position.Z *= -1.0;
}
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(Interface.MessageType.Warning, false, "An incomplete set of exterior objects was provided in file " + FileName);
}
}
}
//The XML Parser Class will allow loading of an object with more advanced
//properties than are currently available with the CSV and B3D formats, whilst
//not requiring backwards incompatible changes
public static UnifiedObject ReadObject(string fileName, Encoding encoding)
{
//The current XML file to load
XmlDocument currentXML = new XmlDocument();
ObjectManager.StaticObject Object = null;
//Load the object's XML file
currentXML.Load(fileName);
//Check for null
if (currentXML.DocumentElement != null)
{
XmlNodeList DocumentNodes = currentXML.DocumentElement.SelectNodes("/openbve/object");
//Check this file actually contains OpenBVE object nodes
if (DocumentNodes != null)
{
foreach (XmlNode node in DocumentNodes)
{
string objectPath;
try
{
var fn = System.IO.Path.GetDirectoryName(fileName);
var InnerNode = node.SelectSingleNode("filename").InnerText;
InnerNode = InnerNode.Trim();
objectPath = OpenBveApi.Path.CombineFile(fn, InnerNode);
}
catch (Exception)
{
Interface.AddMessage(MessageType.Error, false,
"The XML does not contain a valid object path: " + fileName);
return(null);
}
if (objectPath != null && System.IO.File.Exists(objectPath))
{
switch (System.IO.Path.GetExtension(objectPath).ToLowerInvariant())
{
case ".csv":
case ".b3d":
Object = CsvB3dObjectParser.ReadObject(objectPath, encoding);
break;
case ".x":
Object = XObjectParser.ReadObject(objectPath, encoding);
break;
case ".animated":
//Not currently working.
//Object = AnimatedObjectParser.ReadObject(objectPath, encoding, LoadMode);
break;
}
try
{
var BoundingBoxUpper = node.SelectSingleNode("boundingboxupper").InnerText;
var BoundingBoxLower = node.SelectSingleNode("boundingboxlower").InnerText;
Object.Mesh.BoundingBox = new Vector3[2];
var splitStrings = BoundingBoxUpper.Split(',');
if (splitStrings.Length != 3)
{
//Throw exception, as this isn't a valid 3D point
throw new Exception();
}
Object.Mesh.BoundingBox[0].X = Double.Parse(splitStrings[0]);
Object.Mesh.BoundingBox[0].Y = Double.Parse(splitStrings[1]);
Object.Mesh.BoundingBox[0].Z = Double.Parse(splitStrings[2]);
splitStrings = BoundingBoxLower.Split(',');
if (splitStrings.Length != 3)
{
//Throw exception, as this isn't a valid 3D point
throw new Exception();
}
Object.Mesh.BoundingBox[1].X = Double.Parse(splitStrings[0]);
Object.Mesh.BoundingBox[1].Y = Double.Parse(splitStrings[1]);
Object.Mesh.BoundingBox[1].Y = Double.Parse(splitStrings[2]);
}
catch (Exception)
{
Interface.AddMessage(MessageType.Error, false,
"The XML contained an invalid bounding box entry: " + fileName);
}
var selectSingleNode = node.SelectSingleNode("author");
if (selectSingleNode != null)
{
//Attempt to load author information from XML
Object.Author = selectSingleNode.InnerText.Trim();
}
selectSingleNode = node.SelectSingleNode("copyright");
if (selectSingleNode != null)
{
//Attempt to load copyright information from XML
Object.Copyright = selectSingleNode.InnerText.Trim();
}
return(Object);
}
Interface.AddMessage(MessageType.Error, false,
"The file extension is not supported: " + objectPath);
return(null);
}
}
}
//We couldn't find any valid XML, so return a null object
return(null);
}
/// <summary>Loads an object</summary>
/// <param name="FileName">The file to load</param>
/// <param name="Encoding">The text endcoding of the base file (Used if the encoding cannot be auto-detected)</param>
/// <param name="PreserveVertices">Whether object should be optimized to remove duplicate vertices</param>
/// <param name="ForceTextureRepeatX">Whether texture repeat is forced on the X-axis</param>
/// <param name="ForceTextureRepeatY">Whether texture repeat is forced on the Y-axis</param>
/// <returns>The new object, or a null reference if loading fails</returns>
/*
* Notes for refactoring:
* * Unused vertices must only be preserved in deformable objects (e.g. Crack and Form)
* * ForceTextureRepeatX / Y is only used for animated objects using the TextureShiftFunction
* * TODO / BUG: ForceTextureRepeat is only supported by the B3D / CSV parser
* * TODO / BUG: No detection of actual file contents, which will make all parsers barf
*/
internal static UnifiedObject LoadObject(string FileName, Encoding Encoding, bool PreserveVertices, bool ForceTextureRepeatX, bool ForceTextureRepeatY)
{
if (String.IsNullOrEmpty(FileName))
{
return(null);
}
#if !DEBUG
try {
#endif
if (!System.IO.Path.HasExtension(FileName))
{
while (true)
{
var f = OpenBveApi.Path.CombineFile(System.IO.Path.GetDirectoryName(FileName), System.IO.Path.GetFileName(FileName) + ".x");
if (System.IO.File.Exists(f))
{
FileName = f;
break;
}
f = OpenBveApi.Path.CombineFile(System.IO.Path.GetDirectoryName(FileName), System.IO.Path.GetFileName(FileName) + ".csv");
if (System.IO.File.Exists(f))
{
FileName = f;
break;
}
f = OpenBveApi.Path.CombineFile(System.IO.Path.GetDirectoryName(FileName), System.IO.Path.GetFileName(FileName) + ".b3d");
if (System.IO.File.Exists(f))
{
FileName = f;
break;
}
f = OpenBveApi.Path.CombineFile(System.IO.Path.GetDirectoryName(FileName), System.IO.Path.GetFileName(FileName) + ".xml");
if (System.IO.File.Exists(f))
{
FileName = f;
break;
}
f = OpenBveApi.Path.CombineFile(System.IO.Path.GetDirectoryName(FileName), System.IO.Path.GetFileName(FileName) + ".l3dgrp");
if (System.IO.File.Exists(f))
{
FileName = f;
break;
}
f = OpenBveApi.Path.CombineFile(System.IO.Path.GetDirectoryName(FileName), System.IO.Path.GetFileName(FileName) + ".l3dobj");
if (System.IO.File.Exists(f))
{
FileName = f;
break;
}
}
}
UnifiedObject Result;
TextEncoding.Encoding newEncoding = TextEncoding.GetEncodingFromFile(FileName);
if (newEncoding != TextEncoding.Encoding.Unknown)
{
switch (newEncoding)
{
case TextEncoding.Encoding.Utf7:
Encoding = System.Text.Encoding.UTF7;
break;
case TextEncoding.Encoding.Utf8:
Encoding = System.Text.Encoding.UTF8;
break;
case TextEncoding.Encoding.Utf16Le:
Encoding = System.Text.Encoding.Unicode;
break;
case TextEncoding.Encoding.Utf16Be:
Encoding = System.Text.Encoding.BigEndianUnicode;
break;
case TextEncoding.Encoding.Utf32Le:
Encoding = System.Text.Encoding.UTF32;
break;
case TextEncoding.Encoding.Utf32Be:
Encoding = System.Text.Encoding.GetEncoding(12001);
break;
case TextEncoding.Encoding.Shift_JIS:
Encoding = System.Text.Encoding.GetEncoding(932);
break;
case TextEncoding.Encoding.Windows1252:
Encoding = System.Text.Encoding.GetEncoding(1252);
break;
case TextEncoding.Encoding.Big5:
Encoding = System.Text.Encoding.GetEncoding(950);
break;
case TextEncoding.Encoding.EUC_KR:
Encoding = System.Text.Encoding.GetEncoding(949);
break;
}
}
string e = System.IO.Path.GetExtension(FileName);
if (e == null)
{
Interface.AddMessage(MessageType.Error, false, "The file " + FileName + " does not have a recognised extension.");
return(null);
}
switch (e.ToLowerInvariant())
{
case ".csv":
case ".b3d":
Result = CsvB3dObjectParser.ReadObject(FileName, Encoding);
break;
case ".x":
if (Interface.CurrentOptions.CurrentXParser != Interface.XParsers.Original)
{
try
{
if (Interface.CurrentOptions.CurrentXParser == Interface.XParsers.NewXParser)
{
Result = NewXParser.ReadObject(FileName, Encoding);
}
else
{
Result = AssimpXParser.ReadObject(FileName);
}
}
catch (Exception ex)
{
Interface.AddMessage(MessageType.Error, false, "The new X parser raised the following exception: " + ex);
Result = XObjectParser.ReadObject(FileName, Encoding);
}
}
else
{
Result = XObjectParser.ReadObject(FileName, Encoding);
}
break;
case ".animated":
Result = AnimatedObjectParser.ReadObject(FileName, Encoding);
break;
case ".xml":
Result = XMLParser.ReadObject(FileName, Encoding);
break;
case ".l3dgrp":
Result = Ls3DGrpParser.ReadObject(FileName, Encoding, new Vector3());
break;
case ".l3dobj":
Result = Ls3DObjectParser.ReadObject(FileName, new Vector3());
break;
case ".obj":
if (Interface.CurrentOptions.CurrentObjParser == Interface.ObjParsers.Assimp)
{
try
{
Result = AssimpObjParser.ReadObject(FileName);
}
catch (Exception ex)
{
Interface.AddMessage(MessageType.Error, false, "The new Obj parser raised the following exception: " + ex);
Result = WavefrontObjParser.ReadObject(FileName, Encoding);
}
}
else
{
Result = WavefrontObjParser.ReadObject(FileName, Encoding);
}
break;
case ".s":
Result = MsTsShapeParser.ReadObject(FileName);
break;
default:
Interface.AddMessage(MessageType.Error, false, "The file extension is not supported: " + FileName);
return(null);
}
if (Result != null)
{
Result.OptimizeObject(PreserveVertices);
}
return(Result);
#if !DEBUG
}
catch (Exception ex) {
Interface.AddMessage(MessageType.Error, true, "An unexpected error occured (" + ex.Message + ") while attempting to load the file " + FileName);
return(null);
}
#endif
}
internal static StaticObject LoadStaticObject(string FileName, Encoding Encoding, bool PreserveVertices)
{
if (String.IsNullOrEmpty(FileName))
{
return(null);
}
#if !DEBUG
try {
#endif
if (!System.IO.Path.HasExtension(FileName))
{
while (true)
{
string f = OpenBveApi.Path.CombineFile(System.IO.Path.GetDirectoryName(FileName), System.IO.Path.GetFileName(FileName) + ".x");
if (System.IO.File.Exists(f))
{
FileName = f;
break;
}
f = OpenBveApi.Path.CombineFile(System.IO.Path.GetDirectoryName(FileName), System.IO.Path.GetFileName(FileName) + ".csv");
if (System.IO.File.Exists(f))
{
FileName = f;
break;
}
f = OpenBveApi.Path.CombineFile(System.IO.Path.GetDirectoryName(FileName), System.IO.Path.GetFileName(FileName) + ".b3d");
if (System.IO.File.Exists(f))
{
FileName = f;
}
break;
}
}
StaticObject Result;
string e = System.IO.Path.GetExtension(FileName);
if (e == null)
{
Interface.AddMessage(MessageType.Error, false, "The file " + FileName + " does not have a recognised extension.");
return(null);
}
switch (e.ToLowerInvariant())
{
case ".csv":
case ".b3d":
Result = CsvB3dObjectParser.ReadObject(FileName, Encoding);
break;
case ".x":
if (Interface.CurrentOptions.CurrentXParser != Interface.XParsers.Original)
{
try
{
if (Interface.CurrentOptions.CurrentXParser == Interface.XParsers.NewXParser)
{
Result = NewXParser.ReadObject(FileName, Encoding);
}
else
{
Result = AssimpXParser.ReadObject(FileName);
}
}
catch (Exception ex)
{
Interface.AddMessage(MessageType.Error, false, "The new X parser raised the following exception: " + ex);
Result = XObjectParser.ReadObject(FileName, Encoding);
}
}
else
{
Result = XObjectParser.ReadObject(FileName, Encoding);
}
break;
case ".animated":
case ".s":
Interface.AddMessage(MessageType.Error, false, "Tried to load an animated object even though only static objects are allowed: " + FileName);
return(null);
case ".obj":
if (Interface.CurrentOptions.CurrentObjParser == Interface.ObjParsers.Assimp)
{
try
{
Result = AssimpObjParser.ReadObject(FileName);
}
catch (Exception ex)
{
Interface.AddMessage(MessageType.Error, false, "The new Obj parser raised the following exception: " + ex);
Result = WavefrontObjParser.ReadObject(FileName, Encoding);
}
}
else
{
Result = WavefrontObjParser.ReadObject(FileName, Encoding);
}
break;
/*
* This will require implementing a specific static object load function- Leave alone for the moment
*
* case ".xml":
* Result = XMLParser.ReadObject(FileName, Encoding, ForceTextureRepeatX, ForceTextureRepeatY);
* break;
*/
default:
Interface.AddMessage(MessageType.Error, false, "The file extension is not supported: " + FileName);
return(null);
}
if (Result != null)
{
Result.OptimizeObject(PreserveVertices);
}
return(Result);
#if !DEBUG
}
catch (Exception ex) {
Interface.AddMessage(MessageType.Error, true, "An unexpected error occured (" + ex.Message + ") while attempting to load the file " + FileName);
return(null);
}
#endif
}
public static StaticObject LoadStaticObject(Node parent, string fileName, Encoding fileEncoding, bool preserveVertices, bool forceTextureRepeatX, bool forceTextureRepeatY)
{
if (!System.IO.Path.HasExtension(fileName))
{
// Try to add extension
while (true)
{
if (TryAddedExtensionLoad(ref fileName, ".x"))
{
break;
}
if (TryAddedExtensionLoad(ref fileName, ".csv"))
{
break;
}
if (TryAddedExtensionLoad(ref fileName, ".b3d"))
{
break;
}
if (TryAddedExtensionLoad(ref fileName, ".x"))
{
break;
}
break;
}
}
StaticObject loadedObject = new StaticObject();
loadedObject.SourceFile = fileName;
switch (System.IO.Path.GetExtension(fileName).ToLowerInvariant())
{
case ".csv":
case ".b3d":
loadedObject.ObjectMeshInstance = CsvB3dObjectParser.LoadFromFile(fileName, fileEncoding, forceTextureRepeatX, forceTextureRepeatY);
break;
case ".x":
//Result = XObjectParser.ReadObject(FileName, Encoding, LoadMode, ForceTextureRepeatX, ForceTextureRepeatY);
//Debug.LogWarningFormat(".x files not yet supported {0}", fileName);
break;
case ".animated":
//Debug.LogErrorFormat("Tried to load an animated object even though only static objects are allowed: {0}", fileName);
return(null);
default:
//Debug.LogErrorFormat("The file extension '{0}' is not supported: {1}", Path.GetExtension(fileName), fileName);
return(null);
}
// if (loadedObject != null)
// loadedObject.gameObject.SetActive(false);
//To disable only the renderer
//MeshRenderer render = loadedObject.GetComponentInChildren<MeshRenderer>();
//render.enabled = false;
return(loadedObject);
}
internal static void Parse(string fileName, TrainManager.Train Train, ref ObjectManager.UnifiedObject[] CarObjects, ref ObjectManager.UnifiedObject[] BogieObjects)
{
//The current XML file to load
XmlDocument currentXML = new XmlDocument();
//Load the marker's XML file
currentXML.Load(fileName);
currentPath = System.IO.Path.GetDirectoryName(fileName);
CarObjectsReversed = new bool[Train.Cars.Length];
BogieObjectsReversed = new bool[Train.Cars.Length * 2];
if (currentXML.DocumentElement != null)
{
XmlNodeList DocumentNodes = currentXML.DocumentElement.SelectNodes("/openBVE/Train/Car");
if (DocumentNodes == null || DocumentNodes.Count == 0)
{
Interface.AddMessage(Interface.MessageType.Error, false, "No car nodes defined in XML file " + fileName);
//If we have no appropriate nodes specified, return false and fallback to loading the legacy Sound.cfg file
throw new Exception("Empty train.xml file");
}
//Use the index here for easy access to the car count
for (int i = 0; i < DocumentNodes.Count; i++)
{
if (i > Train.Cars.Length)
{
Interface.AddMessage(Interface.MessageType.Warning, false, "WARNING: A total of " + DocumentNodes.Count + " cars were specified in XML file " + fileName + " whilst only " + Train.Cars.Length + " were specified in the train.dat file.");
break;
}
if (DocumentNodes[i].ChildNodes.OfType <XmlElement>().Any())
{
ParseCarNode(DocumentNodes[i], fileName, i, ref Train, ref CarObjects, ref BogieObjects);
}
else if (!String.IsNullOrEmpty(DocumentNodes[i].InnerText))
{
try
{
string childFile = OpenBveApi.Path.CombineFile(currentPath, DocumentNodes[i].InnerText);
XmlDocument childXML = new XmlDocument();
childXML.Load(childFile);
XmlNodeList childNodes = childXML.DocumentElement.SelectNodes("/openBVE/Car");
//We need to save and restore the current path to make relative paths within the child file work correctly
string savedPath = currentPath;
currentPath = System.IO.Path.GetDirectoryName(childFile);
ParseCarNode(childNodes[0], fileName, i, ref Train, ref CarObjects, ref BogieObjects);
currentPath = savedPath;
}
catch
{
Interface.AddMessage(Interface.MessageType.Error, false, "Failed to load the child Car XML file specified in " + DocumentNodes[i].InnerText);
}
}
if (i == DocumentNodes.Count && i < Train.Cars.Length)
{
//If this is the case, the number of motor cars is the primary thing which may get confused....
//Not a lot to be done about this until a full replacement is built for the train.dat file & we can dump it entirely
Interface.AddMessage(Interface.MessageType.Warning, false, "WARNING: The number of cars specified in the train.xml file does not match that in the train.dat- Some properties may be invalid.");
}
}
if (Train.Cars[Train.DriverCar].CameraRestrictionMode != World.CameraRestrictionMode.NotSpecified)
{
World.CameraRestriction = Train.Cars[Train.DriverCar].CameraRestrictionMode;
World.UpdateViewingDistances();
}
DocumentNodes = currentXML.DocumentElement.SelectNodes("/openBVE/Train/NotchDescriptions");
if (DocumentNodes != null && DocumentNodes.Count > 0)
{
//Optional section
for (int i = 0; i < DocumentNodes.Count; i++)
{
if (DocumentNodes[i].ChildNodes.OfType <XmlElement>().Any())
{
foreach (XmlNode c in DocumentNodes[i].ChildNodes)
{
switch (c.Name.ToLowerInvariant())
{
case "power":
Train.PowerNotchDescriptions = c.InnerText.Split(';');
for (int j = 0; j < Train.PowerNotchDescriptions.Length; j++)
{
Size s = Renderer.MeasureString(Fonts.NormalFont, Train.PowerNotchDescriptions[j]);
if (s.Width > Train.MaxPowerNotchWidth)
{
Train.MaxPowerNotchWidth = s.Width;
}
}
break;
case "brake":
Train.BrakeNotchDescriptions = c.InnerText.Split(';');
for (int j = 0; j < Train.BrakeNotchDescriptions.Length; j++)
{
Size s = Renderer.MeasureString(Fonts.NormalFont, Train.BrakeNotchDescriptions[j]);
if (s.Width > Train.MaxBrakeNotchWidth)
{
Train.MaxBrakeNotchWidth = s.Width;
}
}
break;
case "reverser":
Train.ReverserDescriptions = c.InnerText.Split(';');
for (int j = 0; j < Train.ReverserDescriptions.Length; j++)
{
Size s = Renderer.MeasureString(Fonts.NormalFont, Train.ReverserDescriptions[j]);
if (s.Width > Train.MaxReverserWidth)
{
Train.MaxReverserWidth = s.Width;
}
}
break;
}
}
}
}
}
for (int i = 0; i < Train.Cars.Length; i++)
{
if (CarObjects[i] != null)
{
if (CarObjectsReversed[i])
{
{
// 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 ObjectManager.StaticObject)
{
ObjectManager.StaticObject obj = (ObjectManager.StaticObject)CarObjects[i];
CsvB3dObjectParser.ApplyScale(obj, -1.0, 1.0, -1.0);
}
else if (CarObjects[i] is ObjectManager.AnimatedObjectCollection)
{
ObjectManager.AnimatedObjectCollection obj = (ObjectManager.AnimatedObjectCollection)CarObjects[i];
for (int j = 0; j < obj.Objects.Length; j++)
{
for (int h = 0; h < obj.Objects[j].States.Length; h++)
{
CsvB3dObjectParser.ApplyScale(obj.Objects[j].States[h].Object, -1.0, 1.0, -1.0);
obj.Objects[j].States[h].Position.X *= -1.0;
obj.Objects[j].States[h].Position.Z *= -1.0;
}
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])
{
{
// 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 ObjectManager.StaticObject)
{
ObjectManager.StaticObject obj = (ObjectManager.StaticObject)BogieObjects[i];
CsvB3dObjectParser.ApplyScale(obj, -1.0, 1.0, -1.0);
}
else if (BogieObjects[i] is ObjectManager.AnimatedObjectCollection)
{
ObjectManager.AnimatedObjectCollection obj = (ObjectManager.AnimatedObjectCollection)BogieObjects[i];
for (int j = 0; j < obj.Objects.Length; j++)
{
for (int h = 0; h < obj.Objects[j].States.Length; h++)
{
CsvB3dObjectParser.ApplyScale(obj.Objects[j].States[h].Object, -1.0, 1.0, -1.0);
obj.Objects[j].States[h].Position.X *= -1.0;
obj.Objects[j].States[h].Position.Z *= -1.0;
}
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();
}
}
}
}
}
}