/// <summary>Creates a mirrored copy of the prototype object (Animated objects)</summary>
/// <param name="Prototype">The prototype</param>
/// <returns>The mirrored copy</returns>
private static UnifiedObject GetMirroredObject(UnifiedObject Prototype)
{
if (Prototype is ObjectManager.StaticObject)
{
ObjectManager.StaticObject s = (ObjectManager.StaticObject)Prototype;
return(GetMirroredStaticObject(s));
}
if (Prototype is ObjectManager.AnimatedObjectCollection)
{
ObjectManager.AnimatedObjectCollection a = (ObjectManager.AnimatedObjectCollection)Prototype;
ObjectManager.AnimatedObjectCollection Result = new ObjectManager.AnimatedObjectCollection
{
Objects = new ObjectManager.AnimatedObject[a.Objects.Length]
};
for (int i = 0; i < a.Objects.Length; i++)
{
Result.Objects[i] = a.Objects[i].Clone();
for (int j = 0; j < a.Objects[i].States.Length; j++)
{
Result.Objects[i].States[j].Object = GetMirroredStaticObject(a.Objects[i].States[j].Object);
}
Result.Objects[i].TranslateXDirection.X *= -1.0;
Result.Objects[i].TranslateYDirection.X *= -1.0;
Result.Objects[i].TranslateZDirection.X *= -1.0;
Result.Objects[i].RotateXDirection.X *= -1.0;
Result.Objects[i].RotateYDirection.X *= -1.0;
Result.Objects[i].RotateZDirection.X *= -1.0;
}
return(Result);
}
return(null);
}
internal void LoadCarSections(UnifiedObject currentObject)
{
int j = CarSections.Length;
Array.Resize(ref CarSections, j + 1);
CarSections[j] = new CarSection();
if (currentObject is ObjectManager.StaticObject)
{
ObjectManager.StaticObject s = (ObjectManager.StaticObject)currentObject;
CarSections[j].Elements = new ObjectManager.AnimatedObject[1];
CarSections[j].Elements[0] = new ObjectManager.AnimatedObject
{
States = new ObjectManager.AnimatedObjectState[1]
};
CarSections[j].Elements[0].States[0].Position = Vector3.Zero;
CarSections[j].Elements[0].States[0].Object = s;
CarSections[j].Elements[0].CurrentState = 0;
CarSections[j].Elements[0].ObjectIndex = ObjectManager.CreateDynamicObject();
}
else if (currentObject is ObjectManager.AnimatedObjectCollection)
{
ObjectManager.AnimatedObjectCollection a = (ObjectManager.AnimatedObjectCollection)currentObject;
CarSections[j].Elements = new ObjectManager.AnimatedObject[a.Objects.Length];
for (int h = 0; h < a.Objects.Length; h++)
{
CarSections[j].Elements[h] = a.Objects[h].Clone();
CarSections[j].Elements[h].ObjectIndex = ObjectManager.CreateDynamicObject();
}
}
}
// parse animated object config
/// <summary>Loads a collection of animated objects from a file.</summary>
/// <param name="FileName">The text file to load the animated object from. Must be an absolute file name.</param>
/// <param name="Encoding">The encoding the file is saved in. If the file uses a byte order mark, the encoding indicated by the byte order mark is used and the Encoding parameter is ignored.</param>
/// <param name="LoadMode">The texture load mode.</param>
/// <returns>The collection of animated objects.</returns>
internal static ObjectManager.AnimatedObjectCollection ReadObject(string FileName, System.Text.Encoding Encoding, ObjectManager.ObjectLoadMode LoadMode)
{
System.Globalization.CultureInfo Culture = System.Globalization.CultureInfo.InvariantCulture;
ObjectManager.AnimatedObjectCollection Result = new ObjectManager.AnimatedObjectCollection();
Result.Objects = new ObjectManager.AnimatedObject[4];
int ObjectCount = 0;
// load file
string[] Lines = System.IO.File.ReadAllLines(FileName, Encoding);
bool rpnUsed = false;
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();
}
if (Program.CurrentProgramType == Program.ProgramType.ObjectViewer | Program.CurrentProgramType == Program.ProgramType.RouteViewer) {
if (Lines[i].IndexOf("functionrpn", StringComparison.OrdinalIgnoreCase) >= 0) {
rpnUsed = true;
}
}
}
if (rpnUsed) {
Interface.AddMessage(Interface.MessageType.Warning, false, "An animated object file contains non-official RPN functions. Please get rid of them in file " + FileName);
}
for (int i = 0; i < Lines.Length; i++) {
if (Lines[i].Length != 0) {
switch (Lines[i].ToLowerInvariant()) {
case "[include]":
{
i++;
World.Vector3D position = new World.Vector3D(0.0, 0.0, 0.0);
ObjectManager.UnifiedObject[] obj = new OpenBve.ObjectManager.UnifiedObject[4];
int objCount = 0;
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 "position":
{
string[] s = b.Split(',');
if (s.Length == 3) {
double x, y, z;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x)) {
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y)) {
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (!double.TryParse(s[2], System.Globalization.NumberStyles.Float, Culture, out z)) {
Interface.AddMessage(Interface.MessageType.Error, false, "Z is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else {
position = new World.Vector3D(x, y, z);
}
} else {
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 3 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
default:
Interface.AddMessage(Interface.MessageType.Error, false, "The attribute " + a + " is not supported at line " + (i + 1).ToString(Culture) + " in file " + FileName);
break;
}
} else {
string Folder = System.IO.Path.GetDirectoryName(FileName);
if (Interface.ContainsInvalidPathChars(Lines[i])) {
Interface.AddMessage(Interface.MessageType.Error, false, Lines[i] + " contains illegal characters at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else {
string file = Interface.GetCombinedFileName(Folder, Lines[i]);
if (System.IO.File.Exists(file)) {
if (obj.Length == objCount) {
Array.Resize<ObjectManager.UnifiedObject>(ref obj, obj.Length << 1);
}
obj[objCount] = ObjectManager.LoadObject(file, Encoding, LoadMode, false, false, false);
objCount++;
} else {
Interface.AddMessage(Interface.MessageType.Error, true, "File " + file + " not found at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
}
}
}
i++;
}
i--;
for (int j = 0; j < objCount; j++) {
if (obj[j] != null) {
if (obj[j] is ObjectManager.StaticObject) {
ObjectManager.StaticObject s = (ObjectManager.StaticObject)obj[j];
s.Dynamic = 1;
if (ObjectCount >= Result.Objects.Length) {
Array.Resize<ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
ObjectManager.AnimatedObject a = new ObjectManager.AnimatedObject();
ObjectManager.AnimatedObjectState aos = new ObjectManager.AnimatedObjectState();
aos.Object = s;
aos.Position = position;
a.States = new ObjectManager.AnimatedObjectState[] { aos };
Result.Objects[ObjectCount] = a;
ObjectCount++;
} else if (obj[j] is ObjectManager.AnimatedObjectCollection) {
ObjectManager.AnimatedObjectCollection a = (ObjectManager.AnimatedObjectCollection)obj[j];
for (int k = 0; k < a.Objects.Length; k++) {
if (ObjectCount >= Result.Objects.Length) {
Array.Resize<ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
for (int h = 0; h < a.Objects[k].States.Length; h++) {
a.Objects[k].States[h].Position.X += position.X;
a.Objects[k].States[h].Position.Y += position.Y;
a.Objects[k].States[h].Position.Z += position.Z;
}
Result.Objects[ObjectCount] = a.Objects[k];
ObjectCount++;
}
}
}
}
}
break;
case "[object]":
{
i++;
if (Result.Objects.Length == ObjectCount) {
Array.Resize<ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
Result.Objects[ObjectCount] = new ObjectManager.AnimatedObject();
Result.Objects[ObjectCount].States = new ObjectManager.AnimatedObjectState[] { };
Result.Objects[ObjectCount].CurrentState = -1;
Result.Objects[ObjectCount].TranslateXDirection = new World.Vector3D(1.0, 0.0, 0.0);
Result.Objects[ObjectCount].TranslateYDirection = new World.Vector3D(0.0, 1.0, 0.0);
Result.Objects[ObjectCount].TranslateZDirection = new World.Vector3D(0.0, 0.0, 1.0);
Result.Objects[ObjectCount].RotateXDirection = new World.Vector3D(1.0, 0.0, 0.0);
Result.Objects[ObjectCount].RotateYDirection = new World.Vector3D(0.0, 1.0, 0.0);
Result.Objects[ObjectCount].RotateZDirection = new World.Vector3D(0.0, 0.0, 1.0);
Result.Objects[ObjectCount].TextureShiftXDirection = new World.Vector2D(1.0, 0.0);
Result.Objects[ObjectCount].TextureShiftYDirection = new World.Vector2D(0.0, 1.0);
Result.Objects[ObjectCount].RefreshRate = 0.0;
Result.Objects[ObjectCount].ObjectIndex = -1;
World.Vector3D Position = new World.Vector3D(0.0, 0.0, 0.0);
string[] StateFiles = null;
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 "position":
{
string[] s = b.Split(',');
if (s.Length == 3) {
double x, y, z;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x)) {
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y)) {
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (!double.TryParse(s[2], System.Globalization.NumberStyles.Float, Culture, out z)) {
Interface.AddMessage(Interface.MessageType.Error, false, "Z is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else {
Position = new World.Vector3D(x, y, z);
}
} else {
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 3 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "states":
{
string[] s = b.Split(',');
if (s.Length >= 1) {
string Folder = System.IO.Path.GetDirectoryName(FileName);
StateFiles = new string[s.Length];
for (int k = 0; k < s.Length; k++) {
s[k] = s[k].Trim();
if (Interface.ContainsInvalidPathChars(s[k])) {
Interface.AddMessage(Interface.MessageType.Error, false, "File" + k.ToString(Culture) + " contains illegal characters in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
StateFiles[k] = null;
} else {
StateFiles[k] = Interface.GetCombinedFileName(Folder, s[k]);
if (!System.IO.File.Exists(StateFiles[k])) {
Interface.AddMessage(Interface.MessageType.Error, true, "File " + StateFiles[k] + " not found in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
StateFiles[k] = null;
}
}
}
} else {
Interface.AddMessage(Interface.MessageType.Error, false, "At least one argument is expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
return null;
}
} break;
case "statefunction":
try {
Result.Objects[ObjectCount].StateFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "statefunctionrpn":
try {
Result.Objects[ObjectCount].StateFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translatexdirection":
case "translateydirection":
case "translatezdirection":
{
string[] s = b.Split(',');
if (s.Length == 3) {
double x, y, z;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x)) {
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y)) {
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (!double.TryParse(s[2], System.Globalization.NumberStyles.Float, Culture, out z)) {
Interface.AddMessage(Interface.MessageType.Error, false, "Z is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else {
switch (a.ToLowerInvariant()) {
case "translatexdirection":
Result.Objects[ObjectCount].TranslateXDirection = new World.Vector3D(x, y, z);
break;
case "translateydirection":
Result.Objects[ObjectCount].TranslateYDirection = new World.Vector3D(x, y, z);
break;
case "translatezdirection":
Result.Objects[ObjectCount].TranslateZDirection = new World.Vector3D(x, y, z);
break;
}
}
} else {
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 3 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "translatexfunction":
try {
Result.Objects[ObjectCount].TranslateXFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translateyfunction":
try {
Result.Objects[ObjectCount].TranslateYFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translatezfunction":
try {
Result.Objects[ObjectCount].TranslateZFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translatexfunctionrpn":
try {
Result.Objects[ObjectCount].TranslateXFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translateyfunctionrpn":
try {
Result.Objects[ObjectCount].TranslateYFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translatezfunctionrpn":
try {
Result.Objects[ObjectCount].TranslateZFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatexdirection":
case "rotateydirection":
case "rotatezdirection":
{
string[] s = b.Split(',');
if (s.Length == 3) {
double x, y, z;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x)) {
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y)) {
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (!double.TryParse(s[2], System.Globalization.NumberStyles.Float, Culture, out z)) {
Interface.AddMessage(Interface.MessageType.Error, false, "Z is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (x == 0.0 & y == 0.0 & z == 0.0) {
Interface.AddMessage(Interface.MessageType.Error, false, "The direction indicated by X, Y and Z is expected to be non-zero in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else {
switch (a.ToLowerInvariant()) {
case "rotatexdirection":
Result.Objects[ObjectCount].RotateXDirection = new World.Vector3D(x, y, z);
break;
case "rotateydirection":
Result.Objects[ObjectCount].RotateYDirection = new World.Vector3D(x, y, z);
break;
case "rotatezdirection":
Result.Objects[ObjectCount].RotateZDirection = new World.Vector3D(x, y, z);
break;
}
}
} else {
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 3 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "rotatexfunction":
try {
Result.Objects[ObjectCount].RotateXFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotateyfunction":
try {
Result.Objects[ObjectCount].RotateYFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatezfunction":
try {
Result.Objects[ObjectCount].RotateZFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatexfunctionrpn":
try {
Result.Objects[ObjectCount].RotateXFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotateyfunctionrpn":
try {
Result.Objects[ObjectCount].RotateYFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatezfunctionrpn":
try {
Result.Objects[ObjectCount].RotateZFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatexdamping":
case "rotateydamping":
case "rotatezdamping":
{
string[] s = b.Split(',');
if (s.Length == 2) {
double nf, dr;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out nf)) {
Interface.AddMessage(Interface.MessageType.Error, false, "NaturalFrequency is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out dr)) {
Interface.AddMessage(Interface.MessageType.Error, false, "DampingRatio is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (nf <= 0.0) {
Interface.AddMessage(Interface.MessageType.Error, false, "NaturalFrequency is expected to be positive in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (dr <= 0.0) {
Interface.AddMessage(Interface.MessageType.Error, false, "DampingRatio is expected to be positive in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else {
switch (a.ToLowerInvariant()) {
case "rotatexdamping":
Result.Objects[ObjectCount].RotateXDamping = new ObjectManager.Damping(nf, dr);
break;
case "rotateydamping":
Result.Objects[ObjectCount].RotateYDamping = new ObjectManager.Damping(nf, dr);
break;
case "rotatezdamping":
Result.Objects[ObjectCount].RotateZDamping = new ObjectManager.Damping(nf, dr);
break;
}
}
} else {
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 2 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "textureshiftxdirection":
case "textureshiftydirection":
{
string[] s = b.Split(',');
if (s.Length == 2) {
double x, y;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x)) {
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y)) {
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else {
switch (a.ToLowerInvariant()) {
case "textureshiftxdirection":
Result.Objects[ObjectCount].TextureShiftXDirection = new World.Vector2D(x, y);
break;
case "textureshiftydirection":
Result.Objects[ObjectCount].TextureShiftYDirection = new World.Vector2D(x, y);
break;
}
}
} else {
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 2 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "textureshiftxfunction":
try {
Result.Objects[ObjectCount].TextureShiftXFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "textureshiftyfunction":
try {
Result.Objects[ObjectCount].TextureShiftYFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "textureshiftxfunctionrpn":
try {
Result.Objects[ObjectCount].TextureShiftXFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "textureshiftyfunctionrpn":
try {
Result.Objects[ObjectCount].TextureShiftYFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "refreshrate":
{
double r;
if (!double.TryParse(b, System.Globalization.NumberStyles.Float, Culture, out r)) {
Interface.AddMessage(Interface.MessageType.Error, false, "Value is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (r < 0.0) {
Interface.AddMessage(Interface.MessageType.Error, false, "Value is expected to be non-negative in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else {
Result.Objects[ObjectCount].RefreshRate = r;
}
} break;
default:
Interface.AddMessage(Interface.MessageType.Error, false, "The attribute " + a + " is not supported 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);
return null;
}
}
i++;
}
i--;
if (StateFiles != null) {
Result.Objects[ObjectCount].States = new ObjectManager.AnimatedObjectState[StateFiles.Length];
bool ForceTextureRepeatX = Result.Objects[ObjectCount].TextureShiftXFunction != null & Result.Objects[ObjectCount].TextureShiftXDirection.X != 0.0 |
Result.Objects[ObjectCount].TextureShiftYFunction != null & Result.Objects[ObjectCount].TextureShiftYDirection.Y != 0.0;
bool ForceTextureRepeatY = Result.Objects[ObjectCount].TextureShiftXFunction != null & Result.Objects[ObjectCount].TextureShiftXDirection.X != 0.0 |
Result.Objects[ObjectCount].TextureShiftYFunction != null & Result.Objects[ObjectCount].TextureShiftYDirection.Y != 0.0;
for (int k = 0; k < StateFiles.Length; k++) {
Result.Objects[ObjectCount].States[k].Position = new World.Vector3D(0.0, 0.0, 0.0);
if (StateFiles[k] != null) {
Result.Objects[ObjectCount].States[k].Object = ObjectManager.LoadStaticObject(StateFiles[k], Encoding, LoadMode, false, ForceTextureRepeatX, ForceTextureRepeatY);
Result.Objects[ObjectCount].States[k].Object.Dynamic = 1;
} else {
Result.Objects[ObjectCount].States[k].Object = null;
}
for (int j = 0; j < Result.Objects[ObjectCount].States.Length; j++) {
Result.Objects[ObjectCount].States[j].Position = Position;
}
}
} else {
Result.Objects[ObjectCount].States = new ObjectManager.AnimatedObjectState[] { };
}
ObjectCount++;
}
break;
default:
Interface.AddMessage(Interface.MessageType.Error, false, "Invalid statement " + Lines[i] + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName);
return null;
}
}
}
Array.Resize<ObjectManager.AnimatedObject>(ref Result.Objects, ObjectCount);
return Result;
}
internal static ObjectManager.AnimatedObjectCollection ReadObject(string fileName)
{
MsTsShape shape = new MsTsShape();
ObjectManager.AnimatedObjectCollection Result = new ObjectManager.AnimatedObjectCollection
{
Objects = new ObjectManager.AnimatedObject[4]
};
currentFolder = Path.GetDirectoryName(fileName);
Stream fb = new FileStream(fileName, FileMode.Open, FileAccess.Read);
byte[] buffer = new byte[34];
fb.Read(buffer, 0, 2);
bool unicode = (buffer[0] == 0xFF && buffer[1] == 0xFE);
string headerString;
if (unicode)
{
fb.Read(buffer, 0, 32);
headerString = Encoding.Unicode.GetString(buffer, 0, 16);
}
else
{
fb.Read(buffer, 2, 14);
headerString = Encoding.ASCII.GetString(buffer, 0, 8);
}
// SIMISA@F means compressed
// SIMISA@@ means uncompressed
if (headerString.StartsWith("SIMISA@F"))
{
fb = new ZlibStream(fb, CompressionMode.Decompress);
}
else if (headerString.StartsWith("\r\nSIMISA"))
{
// ie us1rd2l1000r10d.s, we are going to allow this but warn
Console.Error.WriteLine("Improper header in " + fileName);
fb.Read(buffer, 0, 4);
}
else if (!headerString.StartsWith("SIMISA@@"))
{
throw new Exception("Unrecognized shape file header " + headerString + " in " + fileName);
}
string subHeader;
if (unicode)
{
fb.Read(buffer, 0, 32);
subHeader = Encoding.Unicode.GetString(buffer, 0, 16);
}
else
{
fb.Read(buffer, 0, 16);
subHeader = Encoding.ASCII.GetString(buffer, 0, 8);
}
if (subHeader[7] == 't')
{
using (BinaryReader reader = new BinaryReader(fb))
{
byte[] newBytes = reader.ReadBytes((int)(fb.Length - fb.Position));
string s;
if (unicode)
{
s = Encoding.Unicode.GetString(newBytes);
}
else
{
s = Encoding.ASCII.GetString(newBytes);
}
s = s.Replace("\r\n", " ").Replace("\n", " ").Replace("\r", " ").Replace("\t", " ").Trim();
if (!s.StartsWith("shape", StringComparison.InvariantCultureIgnoreCase))
{
throw new Exception(); //Shape definition
}
TextualBlock block = new TextualBlock(s, KujuTokenID.shape);
ParseBlock(block, ref shape);
}
}
else if (subHeader[7] != 'b')
{
throw new Exception("Unrecognized subHeader \"" + subHeader + "\" in " + fileName);
}
else
{
using (BinaryReader reader = new BinaryReader(fb))
{
KujuTokenID currentToken = (KujuTokenID)reader.ReadUInt16();
if (currentToken != KujuTokenID.shape)
{
throw new Exception(); //Shape definition
}
reader.ReadUInt16();
uint remainingBytes = reader.ReadUInt32();
byte[] newBytes = reader.ReadBytes((int)remainingBytes);
BinaryBlock block = new BinaryBlock(newBytes, KujuTokenID.shape);
ParseBlock(block, ref shape);
}
}
Array.Resize(ref Result.Objects, shape.totalObjects);
int idx = 0;
double[] previousLODs = new double[shape.totalObjects];
for (int i = 0; i < shape.LODs.Count; i++)
{
for (int j = 0; j < shape.LODs[i].subObjects.Count; j++)
{
Result.Objects[idx] = new ObjectManager.AnimatedObject();
Result.Objects[idx].States = new AnimatedObjectState[1];
AnimatedObjectState aos = new AnimatedObjectState(null, Vector3.Zero);
shape.LODs[i].subObjects[j].Apply(out aos.Object);
aos.Position = new Vector3(0, 0, 0);
Result.Objects[idx].States[0] = aos;
previousLODs[idx] = shape.LODs[i].viewingDistance;
int k = idx;
while (k > 0)
{
if (previousLODs[k] < shape.LODs[i].viewingDistance)
{
break;
}
k--;
}
if (k != 0)
{
Result.Objects[idx].StateFunction = new FunctionScript(Program.CurrentHost, "if[cameraDistance <" + shape.LODs[i].viewingDistance + ",if[cameraDistance >" + previousLODs[k] + ",0,-1],-1]", true);
}
else
{
Result.Objects[idx].StateFunction = new FunctionScript(Program.CurrentHost, "if[cameraDistance <" + shape.LODs[i].viewingDistance + ",0,-1]", true);
}
idx++;
}
}
return(Result);
}
// apply route data
private static void ApplyRouteData(string FileName, System.Text.Encoding Encoding, ref RouteData Data, bool PreviewOnly)
{
string SignalPath, LimitPath, LimitGraphicsPath, TransponderPath;
ObjectManager.StaticObject SignalPost, LimitPostStraight, LimitPostLeft, LimitPostRight, LimitPostInfinite;
ObjectManager.StaticObject LimitOneDigit, LimitTwoDigits, LimitThreeDigits, StopPost;
ObjectManager.StaticObject TransponderS, TransponderSN, TransponderFalseStart, TransponderPOrigin, TransponderPStop;
if (!PreviewOnly) {
string CompatibilityFolder = Program.FileSystem.GetDataFolder("Compatibility");
// load compatibility objects
SignalPath = OpenBveApi.Path.CombineDirectory(CompatibilityFolder, "Signals");
SignalPost = ObjectManager.LoadStaticObject(OpenBveApi.Path.CombineFile(SignalPath, "signal_post.csv"), Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
LimitPath = OpenBveApi.Path.CombineDirectory(CompatibilityFolder, "Limits");
LimitGraphicsPath = OpenBveApi.Path.CombineDirectory(LimitPath, "Graphics");
LimitPostStraight = ObjectManager.LoadStaticObject(OpenBveApi.Path.CombineFile(LimitPath, "limit_straight.csv"), Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
LimitPostLeft = ObjectManager.LoadStaticObject(OpenBveApi.Path.CombineFile(LimitPath, "limit_left.csv"), Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
LimitPostRight = ObjectManager.LoadStaticObject(OpenBveApi.Path.CombineFile(LimitPath, "limit_right.csv"), Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
LimitPostInfinite = ObjectManager.LoadStaticObject(OpenBveApi.Path.CombineFile(LimitPath, "limit_infinite.csv"), Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
LimitOneDigit = ObjectManager.LoadStaticObject(OpenBveApi.Path.CombineFile(LimitPath, "limit_1_digit.csv"), Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
LimitTwoDigits = ObjectManager.LoadStaticObject(OpenBveApi.Path.CombineFile(LimitPath, "limit_2_digits.csv"), Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
LimitThreeDigits = ObjectManager.LoadStaticObject(OpenBveApi.Path.CombineFile(LimitPath, "limit_3_digits.csv"), Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
StopPost = ObjectManager.LoadStaticObject(OpenBveApi.Path.CombineFile(CompatibilityFolder, "stop.csv"), Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
TransponderPath = OpenBveApi.Path.CombineDirectory(CompatibilityFolder, "Transponders");
TransponderS = ObjectManager.LoadStaticObject(OpenBveApi.Path.CombineFile(TransponderPath, "s.csv"), Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
TransponderSN = ObjectManager.LoadStaticObject(OpenBveApi.Path.CombineFile(TransponderPath, "sn.csv"), Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
TransponderFalseStart = ObjectManager.LoadStaticObject(OpenBveApi.Path.CombineFile(TransponderPath, "falsestart.csv"), Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
TransponderPOrigin = ObjectManager.LoadStaticObject(OpenBveApi.Path.CombineFile(TransponderPath, "porigin.csv"), Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
TransponderPStop = ObjectManager.LoadStaticObject(OpenBveApi.Path.CombineFile(TransponderPath, "pstop.csv"), Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
} else {
SignalPath = null;
LimitPath = null;
LimitGraphicsPath = null;
TransponderPath = null;
SignalPost = null;
LimitPostStraight = null;
LimitPostLeft = null;
LimitPostRight = null;
LimitPostInfinite = null;
LimitOneDigit = null;
LimitTwoDigits = null;
LimitThreeDigits = null;
StopPost = null;
TransponderS = null;
TransponderSN = null;
TransponderFalseStart = null;
TransponderPOrigin = null;
TransponderPStop = null;
}
// initialize
System.Globalization.CultureInfo Culture = System.Globalization.CultureInfo.InvariantCulture;
int LastBlock = (int)Math.Floor((Data.TrackPosition + 600.0) / Data.BlockInterval + 0.001) + 1;
int BlocksUsed = Data.Blocks.Length;
CreateMissingBlocks(ref Data, ref BlocksUsed, LastBlock, PreviewOnly);
Array.Resize<Block>(ref Data.Blocks, BlocksUsed);
// interpolate height
if (!PreviewOnly) {
int z = 0;
for (int i = 0; i < Data.Blocks.Length; i++) {
if (!double.IsNaN(Data.Blocks[i].Height)) {
for (int j = i - 1; j >= 0; j--) {
if (!double.IsNaN(Data.Blocks[j].Height)) {
double a = Data.Blocks[j].Height;
double b = Data.Blocks[i].Height;
double d = (b - a) / (double)(i - j);
for (int k = j + 1; k < i; k++) {
a += d;
Data.Blocks[k].Height = a;
}
break;
}
}
z = i;
}
}
for (int i = z + 1; i < Data.Blocks.Length; i++) {
Data.Blocks[i].Height = Data.Blocks[z].Height;
}
}
// background
if (!PreviewOnly) {
if (Data.Blocks[0].Background >= 0 & Data.Blocks[0].Background < Data.Backgrounds.Length) {
World.CurrentBackground = Data.Backgrounds[Data.Blocks[0].Background];
} else {
World.CurrentBackground = new World.Background(null, 6, false);
}
World.TargetBackground = World.CurrentBackground;
}
// brightness
int CurrentBrightnessElement = -1;
int CurrentBrightnessEvent = -1;
float CurrentBrightnessValue = 1.0f;
double CurrentBrightnessTrackPosition = (double)Data.FirstUsedBlock * Data.BlockInterval;
if (!PreviewOnly) {
for (int i = Data.FirstUsedBlock; i < Data.Blocks.Length; i++) {
if (Data.Blocks[i].Brightness != null && Data.Blocks[i].Brightness.Length != 0) {
CurrentBrightnessValue = Data.Blocks[i].Brightness[0].Value;
CurrentBrightnessTrackPosition = Data.Blocks[i].Brightness[0].Value;
break;
}
}
}
// create objects and track
Vector3 Position = new Vector3(0.0, 0.0, 0.0);
World.Vector2D Direction = new World.Vector2D(0.0, 1.0);
TrackManager.CurrentTrack = new TrackManager.Track();
TrackManager.CurrentTrack.Elements = new TrackManager.TrackElement[] { };
double CurrentSpeedLimit = double.PositiveInfinity;
int CurrentRunIndex = 0;
int CurrentFlangeIndex = 0;
if (Data.FirstUsedBlock < 0) Data.FirstUsedBlock = 0;
TrackManager.CurrentTrack.Elements = new TrackManager.TrackElement[256];
int CurrentTrackLength = 0;
int PreviousFogElement = -1;
int PreviousFogEvent = -1;
Game.Fog PreviousFog = new Game.Fog(Game.NoFogStart, Game.NoFogEnd, new Color24(128, 128, 128), -Data.BlockInterval);
Game.Fog CurrentFog = new Game.Fog(Game.NoFogStart, Game.NoFogEnd, new Color24(128, 128, 128), 0.0);
// process blocks
double progressFactor = Data.Blocks.Length - Data.FirstUsedBlock == 0 ? 0.5 : 0.5 / (double)(Data.Blocks.Length - Data.FirstUsedBlock);
for (int i = Data.FirstUsedBlock; i < Data.Blocks.Length; i++) {
Loading.RouteProgress = 0.6667 + (double)(i - Data.FirstUsedBlock) * progressFactor;
if ((i & 15) == 0) {
System.Threading.Thread.Sleep(1);
if (Loading.Cancel) return;
}
double StartingDistance = (double)i * Data.BlockInterval;
double EndingDistance = StartingDistance + Data.BlockInterval;
// normalize
World.Normalize(ref Direction.X, ref Direction.Y);
// track
if (!PreviewOnly) {
if (Data.Blocks[i].Cycle.Length == 1 && Data.Blocks[i].Cycle[0] == -1) {
if (Data.Structure.Cycle.Length == 0 || Data.Structure.Cycle[0] == null) {
Data.Blocks[i].Cycle = new int[] { 0 };
} else {
Data.Blocks[i].Cycle = Data.Structure.Cycle[0];
}
}
}
TrackManager.TrackElement WorldTrackElement = Data.Blocks[i].CurrentTrackState;
int n = CurrentTrackLength;
if (n >= TrackManager.CurrentTrack.Elements.Length) {
Array.Resize<TrackManager.TrackElement>(ref TrackManager.CurrentTrack.Elements, TrackManager.CurrentTrack.Elements.Length << 1);
}
CurrentTrackLength++;
TrackManager.CurrentTrack.Elements[n] = WorldTrackElement;
TrackManager.CurrentTrack.Elements[n].WorldPosition = Position;
TrackManager.CurrentTrack.Elements[n].WorldDirection = World.GetVector3(Direction, Data.Blocks[i].Pitch);
TrackManager.CurrentTrack.Elements[n].WorldSide = new Vector3(Direction.Y, 0.0, -Direction.X);
World.Cross(TrackManager.CurrentTrack.Elements[n].WorldDirection.X, TrackManager.CurrentTrack.Elements[n].WorldDirection.Y, TrackManager.CurrentTrack.Elements[n].WorldDirection.Z, TrackManager.CurrentTrack.Elements[n].WorldSide.X, TrackManager.CurrentTrack.Elements[n].WorldSide.Y, TrackManager.CurrentTrack.Elements[n].WorldSide.Z, out TrackManager.CurrentTrack.Elements[n].WorldUp.X, out TrackManager.CurrentTrack.Elements[n].WorldUp.Y, out TrackManager.CurrentTrack.Elements[n].WorldUp.Z);
TrackManager.CurrentTrack.Elements[n].StartingTrackPosition = StartingDistance;
TrackManager.CurrentTrack.Elements[n].Events = new TrackManager.GeneralEvent[] { };
TrackManager.CurrentTrack.Elements[n].AdhesionMultiplier = Data.Blocks[i].AdhesionMultiplier;
TrackManager.CurrentTrack.Elements[n].CsvRwAccuracyLevel = Data.Blocks[i].Accuracy;
// background
if (!PreviewOnly) {
if (Data.Blocks[i].Background >= 0) {
int typ;
if (i == Data.FirstUsedBlock) {
typ = Data.Blocks[i].Background;
} else {
typ = Data.Backgrounds.Length > 0 ? 0 : -1;
for (int j = i - 1; j >= Data.FirstUsedBlock; j--) {
if (Data.Blocks[j].Background >= 0) {
typ = Data.Blocks[j].Background;
break;
}
}
}
if (typ >= 0 & typ < Data.Backgrounds.Length) {
int m = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, m + 1);
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.BackgroundChangeEvent(0.0, Data.Backgrounds[typ], Data.Backgrounds[Data.Blocks[i].Background]);
}
}
}
// brightness
if (!PreviewOnly) {
for (int j = 0; j < Data.Blocks[i].Brightness.Length; j++) {
int m = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, m + 1);
double d = Data.Blocks[i].Brightness[j].TrackPosition - StartingDistance;
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.BrightnessChangeEvent(d, Data.Blocks[i].Brightness[j].Value, CurrentBrightnessValue, Data.Blocks[i].Brightness[j].TrackPosition - CurrentBrightnessTrackPosition, Data.Blocks[i].Brightness[j].Value, 0.0);
if (CurrentBrightnessElement >= 0 & CurrentBrightnessEvent >= 0) {
TrackManager.BrightnessChangeEvent bce = (TrackManager.BrightnessChangeEvent)TrackManager.CurrentTrack.Elements[CurrentBrightnessElement].Events[CurrentBrightnessEvent];
bce.NextBrightness = Data.Blocks[i].Brightness[j].Value;
bce.NextDistance = Data.Blocks[i].Brightness[j].TrackPosition - CurrentBrightnessTrackPosition;
}
CurrentBrightnessElement = n;
CurrentBrightnessEvent = m;
CurrentBrightnessValue = Data.Blocks[i].Brightness[j].Value;
CurrentBrightnessTrackPosition = Data.Blocks[i].Brightness[j].TrackPosition;
}
}
// fog
if (!PreviewOnly) {
if (Data.FogTransitionMode) {
if (Data.Blocks[i].FogDefined) {
Data.Blocks[i].Fog.TrackPosition = StartingDistance;
int m = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, m + 1);
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.FogChangeEvent(0.0, PreviousFog, Data.Blocks[i].Fog, Data.Blocks[i].Fog);
if (PreviousFogElement >= 0 & PreviousFogEvent >= 0) {
TrackManager.FogChangeEvent e = (TrackManager.FogChangeEvent)TrackManager.CurrentTrack.Elements[PreviousFogElement].Events[PreviousFogEvent];
e.NextFog = Data.Blocks[i].Fog;
} else {
Game.PreviousFog = PreviousFog;
Game.CurrentFog = PreviousFog;
Game.NextFog = Data.Blocks[i].Fog;
}
PreviousFog = Data.Blocks[i].Fog;
PreviousFogElement = n;
PreviousFogEvent = m;
}
} else {
Data.Blocks[i].Fog.TrackPosition = StartingDistance + Data.BlockInterval;
int m = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, m + 1);
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.FogChangeEvent(0.0, PreviousFog, CurrentFog, Data.Blocks[i].Fog);
PreviousFog = CurrentFog;
CurrentFog = Data.Blocks[i].Fog;
}
}
// rail sounds
if (!PreviewOnly) {
int j = Data.Blocks[i].RailType[0];
int r = j < Data.Structure.Run.Length ? Data.Structure.Run[j] : 0;
int f = j < Data.Structure.Flange.Length ? Data.Structure.Flange[j] : 0;
int m = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, m + 1);
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.RailSoundsChangeEvent(0.0, CurrentRunIndex, CurrentFlangeIndex, r, f);
CurrentRunIndex = r;
CurrentFlangeIndex = f;
}
// point sound
if (!PreviewOnly) {
if (i < Data.Blocks.Length - 1) {
bool q = false;
for (int j = 0; j < Data.Blocks[i].Rail.Length; j++) {
if (Data.Blocks[i].Rail[j].RailStart & Data.Blocks[i + 1].Rail.Length > j) {
bool qx = Math.Sign(Data.Blocks[i].Rail[j].RailStartX) != Math.Sign(Data.Blocks[i + 1].Rail[j].RailEndX);
bool qy = Data.Blocks[i].Rail[j].RailStartY * Data.Blocks[i + 1].Rail[j].RailEndY <= 0.0;
if (qx & qy) {
q = true;
break;
}
}
}
if (q) {
int m = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, m + 1);
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.SoundEvent(0.0, null, false, false, true, new Vector3(0.0, 0.0, 0.0), 12.5);
}
}
}
// station
if (Data.Blocks[i].Station >= 0) {
// station
int s = Data.Blocks[i].Station;
int m = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, m + 1);
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.StationStartEvent(0.0, s);
double dx, dy = 3.0;
if (Game.Stations[s].OpenLeftDoors & !Game.Stations[s].OpenRightDoors) {
dx = -5.0;
} else if (!Game.Stations[s].OpenLeftDoors & Game.Stations[s].OpenRightDoors) {
dx = 5.0;
} else {
dx = 0.0;
}
Game.Stations[s].SoundOrigin.X = Position.X + dx * TrackManager.CurrentTrack.Elements[n].WorldSide.X + dy * TrackManager.CurrentTrack.Elements[n].WorldUp.X;
Game.Stations[s].SoundOrigin.Y = Position.Y + dx * TrackManager.CurrentTrack.Elements[n].WorldSide.Y + dy * TrackManager.CurrentTrack.Elements[n].WorldUp.Y;
Game.Stations[s].SoundOrigin.Z = Position.Z + dx * TrackManager.CurrentTrack.Elements[n].WorldSide.Z + dy * TrackManager.CurrentTrack.Elements[n].WorldUp.Z;
// passalarm
if (!PreviewOnly) {
if (Data.Blocks[i].StationPassAlarm) {
int b = i - 6;
if (b >= 0) {
int j = b - Data.FirstUsedBlock;
if (j >= 0) {
m = TrackManager.CurrentTrack.Elements[j].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[j].Events, m + 1);
TrackManager.CurrentTrack.Elements[j].Events[m] = new TrackManager.StationPassAlarmEvent(0.0);
}
}
}
}
}
// stop
for (int j = 0; j < Data.Blocks[i].Stop.Length; j++) {
int s = Data.Blocks[i].Stop[j].Station;
int t = Game.Stations[s].Stops.Length;
Array.Resize<Game.StationStop>(ref Game.Stations[s].Stops, t + 1);
Game.Stations[s].Stops[t].TrackPosition = Data.Blocks[i].Stop[j].TrackPosition;
Game.Stations[s].Stops[t].ForwardTolerance = Data.Blocks[i].Stop[j].ForwardTolerance;
Game.Stations[s].Stops[t].BackwardTolerance = Data.Blocks[i].Stop[j].BackwardTolerance;
Game.Stations[s].Stops[t].Cars = Data.Blocks[i].Stop[j].Cars;
double dx, dy = 2.0;
if (Game.Stations[s].OpenLeftDoors & !Game.Stations[s].OpenRightDoors) {
dx = -5.0;
} else if (!Game.Stations[s].OpenLeftDoors & Game.Stations[s].OpenRightDoors) {
dx = 5.0;
} else {
dx = 0.0;
}
Game.Stations[s].SoundOrigin.X = Position.X + dx * TrackManager.CurrentTrack.Elements[n].WorldSide.X + dy * TrackManager.CurrentTrack.Elements[n].WorldUp.X;
Game.Stations[s].SoundOrigin.Y = Position.Y + dx * TrackManager.CurrentTrack.Elements[n].WorldSide.Y + dy * TrackManager.CurrentTrack.Elements[n].WorldUp.Y;
Game.Stations[s].SoundOrigin.Z = Position.Z + dx * TrackManager.CurrentTrack.Elements[n].WorldSide.Z + dy * TrackManager.CurrentTrack.Elements[n].WorldUp.Z;
}
// limit
for (int j = 0; j < Data.Blocks[i].Limit.Length; j++) {
int m = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, m + 1);
double d = Data.Blocks[i].Limit[j].TrackPosition - StartingDistance;
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.LimitChangeEvent(d, CurrentSpeedLimit, Data.Blocks[i].Limit[j].Speed);
CurrentSpeedLimit = Data.Blocks[i].Limit[j].Speed;
}
// marker
if (!PreviewOnly) {
for (int j = 0; j < Data.Markers.Length; j++) {
if (Data.Markers[j].StartingPosition >= StartingDistance & Data.Markers[j].StartingPosition < EndingDistance) {
int m = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, m + 1);
double d = Data.Markers[j].StartingPosition - StartingDistance;
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.MarkerStartEvent(d, Data.Markers[j].Texture);
}
if (Data.Markers[j].EndingPosition >= StartingDistance & Data.Markers[j].EndingPosition < EndingDistance) {
int m = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, m + 1);
double d = Data.Markers[j].EndingPosition - StartingDistance;
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.MarkerEndEvent(d, Data.Markers[j].Texture);
}
}
}
// sound
if (!PreviewOnly) {
for (int j = 0; j < Data.Blocks[i].Sound.Length; j++) {
if (Data.Blocks[i].Sound[j].Type == SoundType.TrainStatic | Data.Blocks[i].Sound[j].Type == SoundType.TrainDynamic) {
int m = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, m + 1);
double d = Data.Blocks[i].Sound[j].TrackPosition - StartingDistance;
switch (Data.Blocks[i].Sound[j].Type) {
case SoundType.TrainStatic:
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.SoundEvent(d, Data.Blocks[i].Sound[j].SoundBuffer, true, true, false, new Vector3(0.0, 0.0, 0.0), 0.0);
break;
case SoundType.TrainDynamic:
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.SoundEvent(d, Data.Blocks[i].Sound[j].SoundBuffer, false, false, true, new Vector3(0.0, 0.0, 0.0), Data.Blocks[i].Sound[j].Speed);
break;
}
}
}
}
// turn
if (Data.Blocks[i].Turn != 0.0) {
double ag = -Math.Atan(Data.Blocks[i].Turn);
double cosag = Math.Cos(ag);
double sinag = Math.Sin(ag);
World.Rotate(ref Direction, cosag, sinag);
World.RotatePlane(ref TrackManager.CurrentTrack.Elements[n].WorldDirection, cosag, sinag);
World.RotatePlane(ref TrackManager.CurrentTrack.Elements[n].WorldSide, cosag, sinag);
World.Cross(TrackManager.CurrentTrack.Elements[n].WorldDirection.X, TrackManager.CurrentTrack.Elements[n].WorldDirection.Y, TrackManager.CurrentTrack.Elements[n].WorldDirection.Z, TrackManager.CurrentTrack.Elements[n].WorldSide.X, TrackManager.CurrentTrack.Elements[n].WorldSide.Y, TrackManager.CurrentTrack.Elements[n].WorldSide.Z, out TrackManager.CurrentTrack.Elements[n].WorldUp.X, out TrackManager.CurrentTrack.Elements[n].WorldUp.Y, out TrackManager.CurrentTrack.Elements[n].WorldUp.Z);
}
// curves
double a = 0.0;
double c = Data.BlockInterval;
double h = 0.0;
if (WorldTrackElement.CurveRadius != 0.0 & Data.Blocks[i].Pitch != 0.0) {
double d = Data.BlockInterval;
double p = Data.Blocks[i].Pitch;
double r = WorldTrackElement.CurveRadius;
double s = d / Math.Sqrt(1.0 + p * p);
h = s * p;
double b = s / Math.Abs(r);
c = Math.Sqrt(2.0 * r * r * (1.0 - Math.Cos(b)));
a = 0.5 * (double)Math.Sign(r) * b;
World.Rotate(ref Direction, Math.Cos(-a), Math.Sin(-a));
} else if (WorldTrackElement.CurveRadius != 0.0) {
double d = Data.BlockInterval;
double r = WorldTrackElement.CurveRadius;
double b = d / Math.Abs(r);
c = Math.Sqrt(2.0 * r * r * (1.0 - Math.Cos(b)));
a = 0.5 * (double)Math.Sign(r) * b;
World.Rotate(ref Direction, Math.Cos(-a), Math.Sin(-a));
} else if (Data.Blocks[i].Pitch != 0.0) {
double p = Data.Blocks[i].Pitch;
double d = Data.BlockInterval;
c = d / Math.Sqrt(1.0 + p * p);
h = c * p;
}
double TrackYaw = Math.Atan2(Direction.X, Direction.Y);
double TrackPitch = Math.Atan(Data.Blocks[i].Pitch);
World.Transformation GroundTransformation = new World.Transformation(TrackYaw, 0.0, 0.0);
World.Transformation TrackTransformation = new World.Transformation(TrackYaw, TrackPitch, 0.0);
World.Transformation NullTransformation = new World.Transformation(0.0, 0.0, 0.0);
// ground
if (!PreviewOnly) {
int cb = (int)Math.Floor((double)i + 0.001);
int ci = (cb % Data.Blocks[i].Cycle.Length + Data.Blocks[i].Cycle.Length) % Data.Blocks[i].Cycle.Length;
int gi = Data.Blocks[i].Cycle[ci];
if (gi >= 0 & gi < Data.Structure.Ground.Length) {
if (Data.Structure.Ground[gi] != null) {
ObjectManager.CreateObject(Data.Structure.Ground[Data.Blocks[i].Cycle[ci]], Position + new Vector3(0.0, -Data.Blocks[i].Height, 0.0), GroundTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
}
}
// ground-aligned free objects
if (!PreviewOnly) {
for (int j = 0; j < Data.Blocks[i].GroundFreeObj.Length; j++) {
int sttype = Data.Blocks[i].GroundFreeObj[j].Type;
double d = Data.Blocks[i].GroundFreeObj[j].TrackPosition - StartingDistance;
double dx = Data.Blocks[i].GroundFreeObj[j].X;
double dy = Data.Blocks[i].GroundFreeObj[j].Y;
Vector3 wpos = Position + new Vector3(Direction.X * d + Direction.Y * dx, dy - Data.Blocks[i].Height, Direction.Y * d - Direction.X * dx);
double tpos = Data.Blocks[i].GroundFreeObj[j].TrackPosition;
ObjectManager.CreateObject(Data.Structure.FreeObj[sttype], wpos, GroundTransformation, new World.Transformation(Data.Blocks[i].GroundFreeObj[j].Yaw, Data.Blocks[i].GroundFreeObj[j].Pitch, Data.Blocks[i].GroundFreeObj[j].Roll), Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, tpos);
}
}
// rail-aligned objects
if (!PreviewOnly) {
for (int j = 0; j < Data.Blocks[i].Rail.Length; j++) {
if (j > 0 && !Data.Blocks[i].Rail[j].RailStart) continue;
// rail
Vector3 pos;
World.Transformation RailTransformation;
double planar, updown;
if (j == 0) {
// rail 0
pos = Position;
planar = 0.0;
updown = 0.0;
RailTransformation = new World.Transformation(TrackTransformation, planar, updown, 0.0);
pos = Position;
} else {
// rails 1-infinity
double x = Data.Blocks[i].Rail[j].RailStartX;
double y = Data.Blocks[i].Rail[j].RailStartY;
Vector3 offset = new Vector3(Direction.Y * x, y, -Direction.X * x);
pos = Position + offset;
double dh;
if (i < Data.Blocks.Length - 1 && Data.Blocks[i + 1].Rail.Length > j) {
// take orientation of upcoming block into account
World.Vector2D Direction2 = Direction;
Vector3 Position2 = Position;
Position2.X += Direction.X * c;
Position2.Y += h;
Position2.Z += Direction.Y * c;
if (a != 0.0) {
World.Rotate(ref Direction2, Math.Cos(-a), Math.Sin(-a));
}
if (Data.Blocks[i + 1].Turn != 0.0) {
double ag = -Math.Atan(Data.Blocks[i + 1].Turn);
double cosag = Math.Cos(ag);
double sinag = Math.Sin(ag);
World.Rotate(ref Direction2, cosag, sinag);
}
double a2 = 0.0;
double c2 = Data.BlockInterval;
double h2 = 0.0;
if (Data.Blocks[i + 1].CurrentTrackState.CurveRadius != 0.0 & Data.Blocks[i + 1].Pitch != 0.0) {
double d2 = Data.BlockInterval;
double p2 = Data.Blocks[i + 1].Pitch;
double r2 = Data.Blocks[i + 1].CurrentTrackState.CurveRadius;
double s2 = d2 / Math.Sqrt(1.0 + p2 * p2);
h2 = s2 * p2;
double b2 = s2 / Math.Abs(r2);
c2 = Math.Sqrt(2.0 * r2 * r2 * (1.0 - Math.Cos(b2)));
a2 = 0.5 * (double)Math.Sign(r2) * b2;
World.Rotate(ref Direction2, Math.Cos(-a2), Math.Sin(-a2));
} else if (Data.Blocks[i + 1].CurrentTrackState.CurveRadius != 0.0) {
double d2 = Data.BlockInterval;
double r2 = Data.Blocks[i + 1].CurrentTrackState.CurveRadius;
double b2 = d2 / Math.Abs(r2);
c2 = Math.Sqrt(2.0 * r2 * r2 * (1.0 - Math.Cos(b2)));
a2 = 0.5 * (double)Math.Sign(r2) * b2;
World.Rotate(ref Direction2, Math.Cos(-a2), Math.Sin(-a2));
} else if (Data.Blocks[i + 1].Pitch != 0.0) {
double p2 = Data.Blocks[i + 1].Pitch;
double d2 = Data.BlockInterval;
c2 = d2 / Math.Sqrt(1.0 + p2 * p2);
h2 = c2 * p2;
}
double TrackYaw2 = Math.Atan2(Direction2.X, Direction2.Y);
double TrackPitch2 = Math.Atan(Data.Blocks[i + 1].Pitch);
World.Transformation GroundTransformation2 = new World.Transformation(TrackYaw2, 0.0, 0.0);
World.Transformation TrackTransformation2 = new World.Transformation(TrackYaw2, TrackPitch2, 0.0);
double x2 = Data.Blocks[i + 1].Rail[j].RailEndX;
double y2 = Data.Blocks[i + 1].Rail[j].RailEndY;
Vector3 offset2 = new Vector3(Direction2.Y * x2, y2, -Direction2.X * x2);
Vector3 pos2 = Position2 + offset2;
double rx = pos2.X - pos.X;
double ry = pos2.Y - pos.Y;
double rz = pos2.Z - pos.Z;
World.Normalize(ref rx, ref ry, ref rz);
RailTransformation.Z = new Vector3(rx, ry, rz);
RailTransformation.X = new Vector3(rz, 0.0, -rx);
World.Normalize(ref RailTransformation.X.X, ref RailTransformation.X.Z);
RailTransformation.Y = Vector3.Cross(RailTransformation.Z, RailTransformation.X);
double dx = Data.Blocks[i + 1].Rail[j].RailEndX - Data.Blocks[i].Rail[j].RailStartX;
double dy = Data.Blocks[i + 1].Rail[j].RailEndY - Data.Blocks[i].Rail[j].RailStartY;
planar = Math.Atan(dx / c);
dh = dy / c;
updown = Math.Atan(dh);
} else {
planar = 0.0;
dh = 0.0;
updown = 0.0;
RailTransformation = new World.Transformation(TrackTransformation, 0.0, 0.0, 0.0);
}
}
if (Data.Blocks[i].RailType[j] < Data.Structure.Rail.Length) {
if (Data.Structure.Rail[Data.Blocks[i].RailType[j]] != null) {
ObjectManager.CreateObject(Data.Structure.Rail[Data.Blocks[i].RailType[j]], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
}
// points of interest
for (int k = 0; k < Data.Blocks[i].PointsOfInterest.Length; k++) {
if (Data.Blocks[i].PointsOfInterest[k].RailIndex == j) {
double d = Data.Blocks[i].PointsOfInterest[k].TrackPosition - StartingDistance;
double x = Data.Blocks[i].PointsOfInterest[k].X;
double y = Data.Blocks[i].PointsOfInterest[k].Y;
int m = Game.PointsOfInterest.Length;
Array.Resize<Game.PointOfInterest>(ref Game.PointsOfInterest, m + 1);
Game.PointsOfInterest[m].TrackPosition = Data.Blocks[i].PointsOfInterest[k].TrackPosition;
if (i < Data.Blocks.Length - 1 && Data.Blocks[i + 1].Rail.Length > j) {
double dx = Data.Blocks[i + 1].Rail[j].RailEndX - Data.Blocks[i].Rail[j].RailStartX;
double dy = Data.Blocks[i + 1].Rail[j].RailEndY - Data.Blocks[i].Rail[j].RailStartY;
dx = Data.Blocks[i].Rail[j].RailStartX + d / Data.BlockInterval * dx;
dy = Data.Blocks[i].Rail[j].RailStartY + d / Data.BlockInterval * dy;
Game.PointsOfInterest[m].TrackOffset = new Vector3(x + dx, y + dy, 0.0);
} else {
double dx = Data.Blocks[i].Rail[j].RailStartX;
double dy = Data.Blocks[i].Rail[j].RailStartY;
Game.PointsOfInterest[m].TrackOffset = new Vector3(x + dx, y + dy, 0.0);
}
Game.PointsOfInterest[m].TrackYaw = Data.Blocks[i].PointsOfInterest[k].Yaw + planar;
Game.PointsOfInterest[m].TrackPitch = Data.Blocks[i].PointsOfInterest[k].Pitch + updown;
Game.PointsOfInterest[m].TrackRoll = Data.Blocks[i].PointsOfInterest[k].Roll;
Game.PointsOfInterest[m].Text = Data.Blocks[i].PointsOfInterest[k].Text;
}
}
// poles
if (Data.Blocks[i].RailPole.Length > j && Data.Blocks[i].RailPole[j].Exists) {
double dz = StartingDistance / Data.Blocks[i].RailPole[j].Interval;
dz -= Math.Floor(dz + 0.5);
if (dz >= -0.01 & dz <= 0.01) {
if (Data.Blocks[i].RailPole[j].Mode == 0) {
if (Data.Blocks[i].RailPole[j].Location <= 0.0) {
ObjectManager.CreateObject(Data.Structure.Poles[0][Data.Blocks[i].RailPole[j].Type], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
} else {
ObjectManager.UnifiedObject Pole = GetMirroredObject(Data.Structure.Poles[0][Data.Blocks[i].RailPole[j].Type]);
ObjectManager.CreateObject(Pole, pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
} else {
int m = Data.Blocks[i].RailPole[j].Mode;
double dx = -Data.Blocks[i].RailPole[j].Location * 3.8;
double wa = Math.Atan2(Direction.Y, Direction.X) - planar;
double wx = Math.Cos(wa);
double wy = Math.Tan(updown);
double wz = Math.Sin(wa);
World.Normalize(ref wx, ref wy, ref wz);
double sx = Direction.Y;
double sy = 0.0;
double sz = -Direction.X;
Vector3 wpos = pos + new Vector3(sx * dx + wx * dz, sy * dx + wy * dz, sz * dx + wz * dz);
int type = Data.Blocks[i].RailPole[j].Type;
ObjectManager.CreateObject(Data.Structure.Poles[m][type], wpos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
}
}
// walls
if (Data.Blocks[i].RailWall.Length > j && Data.Blocks[i].RailWall[j].Exists) {
if (Data.Blocks[i].RailWall[j].Direction <= 0) {
ObjectManager.CreateObject(Data.Structure.WallL[Data.Blocks[i].RailWall[j].Type], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].RailWall[j].Direction >= 0) {
ObjectManager.CreateObject(Data.Structure.WallR[Data.Blocks[i].RailWall[j].Type], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
}
// dikes
if (Data.Blocks[i].RailDike.Length > j && Data.Blocks[i].RailDike[j].Exists) {
if (Data.Blocks[i].RailDike[j].Direction <= 0) {
ObjectManager.CreateObject(Data.Structure.DikeL[Data.Blocks[i].RailDike[j].Type], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].RailDike[j].Direction >= 0) {
ObjectManager.CreateObject(Data.Structure.DikeR[Data.Blocks[i].RailDike[j].Type], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
}
// sounds
if (j == 0) {
for (int k = 0; k < Data.Blocks[i].Sound.Length; k++) {
if (Data.Blocks[i].Sound[k].Type == SoundType.World) {
if (Data.Blocks[i].Sound[k].SoundBuffer != null) {
double d = Data.Blocks[i].Sound[k].TrackPosition - StartingDistance;
double dx = Data.Blocks[i].Sound[k].X;
double dy = Data.Blocks[i].Sound[k].Y;
double wa = Math.Atan2(Direction.Y, Direction.X) - planar;
double wx = Math.Cos(wa);
double wy = Math.Tan(updown);
double wz = Math.Sin(wa);
World.Normalize(ref wx, ref wy, ref wz);
double sx = Direction.Y;
double sy = 0.0;
double sz = -Direction.X;
double ux, uy, uz;
World.Cross(wx, wy, wz, sx, sy, sz, out ux, out uy, out uz);
Vector3 wpos = pos + new Vector3(sx * dx + ux * dy + wx * d, sy * dx + uy * dy + wy * d, sz * dx + uz * dy + wz * d);
Sounds.PlaySound(Data.Blocks[i].Sound[k].SoundBuffer, 1.0, 1.0, wpos, true);
}
}
}
}
// forms
for (int k = 0; k < Data.Blocks[i].Form.Length; k++) {
// primary rail
if (Data.Blocks[i].Form[k].PrimaryRail == j) {
if (Data.Blocks[i].Form[k].SecondaryRail == Form.SecondaryRailStub) {
if (Data.Blocks[i].Form[k].FormType >= Data.Structure.FormL.Length || Data.Structure.FormL[Data.Blocks[i].Form[k].FormType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "FormStructureIndex references a FormL not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateObject(Data.Structure.FormL[Data.Blocks[i].Form[k].FormType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
if (Data.Blocks[i].Form[k].RoofType > 0) {
if (Data.Blocks[i].Form[k].RoofType >= Data.Structure.RoofL.Length || Data.Structure.RoofL[Data.Blocks[i].Form[k].RoofType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "RoofStructureIndex references a RoofL not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateObject(Data.Structure.RoofL[Data.Blocks[i].Form[k].RoofType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
}
}
} else if (Data.Blocks[i].Form[k].SecondaryRail == Form.SecondaryRailL) {
if (Data.Blocks[i].Form[k].FormType >= Data.Structure.FormL.Length || Data.Structure.FormL[Data.Blocks[i].Form[k].FormType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "FormStructureIndex references a FormL not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateObject(Data.Structure.FormL[Data.Blocks[i].Form[k].FormType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].Form[k].FormType >= Data.Structure.FormCL.Length || Data.Structure.FormCL[Data.Blocks[i].Form[k].FormType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "FormStructureIndex references a FormCL not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateStaticObject(Data.Structure.FormCL[Data.Blocks[i].Form[k].FormType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].Form[k].RoofType > 0) {
if (Data.Blocks[i].Form[k].RoofType >= Data.Structure.RoofL.Length || Data.Structure.RoofL[Data.Blocks[i].Form[k].RoofType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "RoofStructureIndex references a RoofL not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateObject(Data.Structure.RoofL[Data.Blocks[i].Form[k].RoofType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].Form[k].RoofType >= Data.Structure.RoofCL.Length || Data.Structure.RoofCL[Data.Blocks[i].Form[k].RoofType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "RoofStructureIndex references a RoofCL not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateStaticObject(Data.Structure.RoofCL[Data.Blocks[i].Form[k].RoofType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
}
} else if (Data.Blocks[i].Form[k].SecondaryRail == Form.SecondaryRailR) {
if (Data.Blocks[i].Form[k].FormType >= Data.Structure.FormR.Length || Data.Structure.FormR[Data.Blocks[i].Form[k].FormType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "FormStructureIndex references a FormR not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateObject(Data.Structure.FormR[Data.Blocks[i].Form[k].FormType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].Form[k].FormType >= Data.Structure.FormCR.Length || Data.Structure.FormCR[Data.Blocks[i].Form[k].FormType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "FormStructureIndex references a FormCR not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateStaticObject(Data.Structure.FormCR[Data.Blocks[i].Form[k].FormType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].Form[k].RoofType > 0) {
if (Data.Blocks[i].Form[k].RoofType >= Data.Structure.RoofR.Length || Data.Structure.RoofR[Data.Blocks[i].Form[k].RoofType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "RoofStructureIndex references a RoofR not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateObject(Data.Structure.RoofR[Data.Blocks[i].Form[k].RoofType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].Form[k].RoofType >= Data.Structure.RoofCR.Length || Data.Structure.RoofCR[Data.Blocks[i].Form[k].RoofType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "RoofStructureIndex references a RoofCR not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateStaticObject(Data.Structure.RoofCR[Data.Blocks[i].Form[k].RoofType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
}
} else if (Data.Blocks[i].Form[k].SecondaryRail > 0) {
int p = Data.Blocks[i].Form[k].PrimaryRail;
double px0 = p > 0 ? Data.Blocks[i].Rail[p].RailStartX : 0.0;
double px1 = p > 0 ? Data.Blocks[i + 1].Rail[p].RailEndX : 0.0;
int s = Data.Blocks[i].Form[k].SecondaryRail;
if (s < 0 || s >= Data.Blocks[i].Rail.Length || !Data.Blocks[i].Rail[s].RailStart) {
Interface.AddMessage(Interface.MessageType.Error, false, "RailIndex2 is out of range in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName);
} else {
double sx0 = Data.Blocks[i].Rail[s].RailStartX;
double sx1 = Data.Blocks[i + 1].Rail[s].RailEndX;
double d0 = sx0 - px0;
double d1 = sx1 - px1;
if (d0 < 0.0) {
if (Data.Blocks[i].Form[k].FormType >= Data.Structure.FormL.Length || Data.Structure.FormL[Data.Blocks[i].Form[k].FormType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "FormStructureIndex references a FormL not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateObject(Data.Structure.FormL[Data.Blocks[i].Form[k].FormType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].Form[k].FormType >= Data.Structure.FormCL.Length || Data.Structure.FormCL[Data.Blocks[i].Form[k].FormType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "FormStructureIndex references a FormCL not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.StaticObject FormC = GetTransformedStaticObject(Data.Structure.FormCL[Data.Blocks[i].Form[k].FormType], d0, d1);
ObjectManager.CreateStaticObject(FormC, pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].Form[k].RoofType > 0) {
if (Data.Blocks[i].Form[k].RoofType >= Data.Structure.RoofL.Length || Data.Structure.RoofL[Data.Blocks[i].Form[k].RoofType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "RoofStructureIndex references a RoofL not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateObject(Data.Structure.RoofL[Data.Blocks[i].Form[k].RoofType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].Form[k].RoofType >= Data.Structure.RoofCL.Length || Data.Structure.RoofCL[Data.Blocks[i].Form[k].RoofType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "RoofStructureIndex references a RoofCL not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.StaticObject RoofC = GetTransformedStaticObject(Data.Structure.RoofCL[Data.Blocks[i].Form[k].RoofType], d0, d1);
ObjectManager.CreateStaticObject(RoofC, pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
}
} else if (d0 > 0.0) {
if (Data.Blocks[i].Form[k].FormType >= Data.Structure.FormR.Length || Data.Structure.FormR[Data.Blocks[i].Form[k].FormType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "FormStructureIndex references a FormR not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateObject(Data.Structure.FormR[Data.Blocks[i].Form[k].FormType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].Form[k].FormType >= Data.Structure.FormCR.Length || Data.Structure.FormCR[Data.Blocks[i].Form[k].FormType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "FormStructureIndex references a FormCR not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.StaticObject FormC = GetTransformedStaticObject(Data.Structure.FormCR[Data.Blocks[i].Form[k].FormType], d0, d1);
ObjectManager.CreateStaticObject(FormC, pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].Form[k].RoofType > 0) {
if (Data.Blocks[i].Form[k].RoofType >= Data.Structure.RoofR.Length || Data.Structure.RoofR[Data.Blocks[i].Form[k].RoofType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "RoofStructureIndex references a RoofR not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateObject(Data.Structure.RoofR[Data.Blocks[i].Form[k].RoofType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].Form[k].RoofType >= Data.Structure.RoofCR.Length || Data.Structure.RoofCR[Data.Blocks[i].Form[k].RoofType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "RoofStructureIndex references a RoofCR not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.StaticObject RoofC = GetTransformedStaticObject(Data.Structure.RoofCR[Data.Blocks[i].Form[k].RoofType], d0, d1);
ObjectManager.CreateStaticObject(RoofC, pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
}
}
}
}
}
// secondary rail
if (Data.Blocks[i].Form[k].SecondaryRail == j) {
int p = Data.Blocks[i].Form[k].PrimaryRail;
double px = p > 0 ? Data.Blocks[i].Rail[p].RailStartX : 0.0;
int s = Data.Blocks[i].Form[k].SecondaryRail;
double sx = Data.Blocks[i].Rail[s].RailStartX;
double d = px - sx;
if (d < 0.0) {
if (Data.Blocks[i].Form[k].FormType >= Data.Structure.FormL.Length || Data.Structure.FormL[Data.Blocks[i].Form[k].FormType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "FormStructureIndex references a FormL not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateObject(Data.Structure.FormL[Data.Blocks[i].Form[k].FormType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].Form[k].RoofType > 0) {
if (Data.Blocks[i].Form[k].RoofType >= Data.Structure.RoofL.Length || Data.Structure.RoofL[Data.Blocks[i].Form[k].RoofType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "RoofStructureIndex references a RoofL not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateObject(Data.Structure.RoofL[Data.Blocks[i].Form[k].RoofType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
}
} else {
if (Data.Blocks[i].Form[k].FormType >= Data.Structure.FormR.Length || Data.Structure.FormR[Data.Blocks[i].Form[k].FormType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "FormStructureIndex references a FormR not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateObject(Data.Structure.FormR[Data.Blocks[i].Form[k].FormType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
if (Data.Blocks[i].Form[k].RoofType > 0) {
if (Data.Blocks[i].Form[k].RoofType >= Data.Structure.RoofR.Length || Data.Structure.RoofR[Data.Blocks[i].Form[k].RoofType] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "RoofStructureIndex references a RoofR not loaded in Track.Form at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.CreateObject(Data.Structure.RoofR[Data.Blocks[i].Form[k].RoofType], pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
}
}
}
}
// cracks
for (int k = 0; k < Data.Blocks[i].Crack.Length; k++) {
if (Data.Blocks[i].Crack[k].PrimaryRail == j) {
int p = Data.Blocks[i].Crack[k].PrimaryRail;
double px0 = p > 0 ? Data.Blocks[i].Rail[p].RailStartX : 0.0;
double px1 = p > 0 ? Data.Blocks[i + 1].Rail[p].RailEndX : 0.0;
int s = Data.Blocks[i].Crack[k].SecondaryRail;
if (s < 0 || s >= Data.Blocks[i].Rail.Length || !Data.Blocks[i].Rail[s].RailStart) {
Interface.AddMessage(Interface.MessageType.Error, false, "RailIndex2 is out of range in Track.Crack at track position " + StartingDistance.ToString(Culture) + " in file " + FileName);
} else {
double sx0 = Data.Blocks[i].Rail[s].RailStartX;
double sx1 = Data.Blocks[i + 1].Rail[s].RailEndX;
double d0 = sx0 - px0;
double d1 = sx1 - px1;
if (d0 < 0.0) {
if (Data.Blocks[i].Crack[k].Type >= Data.Structure.CrackL.Length || Data.Structure.CrackL[Data.Blocks[i].Crack[k].Type] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "CrackStructureIndex references a CrackL not loaded in Track.Crack at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.StaticObject Crack = GetTransformedStaticObject(Data.Structure.CrackL[Data.Blocks[i].Crack[k].Type], d0, d1);
ObjectManager.CreateStaticObject(Crack, pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
} else if (d0 > 0.0) {
if (Data.Blocks[i].Crack[k].Type >= Data.Structure.CrackR.Length || Data.Structure.CrackR[Data.Blocks[i].Crack[k].Type] == null) {
Interface.AddMessage(Interface.MessageType.Error, false, "CrackStructureIndex references a CrackR not loaded in Track.Crack at track position " + StartingDistance.ToString(Culture) + " in file " + FileName + ".");
} else {
ObjectManager.StaticObject Crack = GetTransformedStaticObject(Data.Structure.CrackR[Data.Blocks[i].Crack[k].Type], d0, d1);
ObjectManager.CreateStaticObject(Crack, pos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, StartingDistance);
}
}
}
}
}
// free objects
if (Data.Blocks[i].RailFreeObj.Length > j && Data.Blocks[i].RailFreeObj[j] != null) {
for (int k = 0; k < Data.Blocks[i].RailFreeObj[j].Length; k++) {
int sttype = Data.Blocks[i].RailFreeObj[j][k].Type;
double dx = Data.Blocks[i].RailFreeObj[j][k].X;
double dy = Data.Blocks[i].RailFreeObj[j][k].Y;
double dz = Data.Blocks[i].RailFreeObj[j][k].TrackPosition - StartingDistance;
Vector3 wpos = pos;
wpos.X += dx * RailTransformation.X.X + dy * RailTransformation.Y.X + dz * RailTransformation.Z.X;
wpos.Y += dx * RailTransformation.X.Y + dy * RailTransformation.Y.Y + dz * RailTransformation.Z.Y;
wpos.Z += dx * RailTransformation.X.Z + dy * RailTransformation.Y.Z + dz * RailTransformation.Z.Z;
double tpos = Data.Blocks[i].RailFreeObj[j][k].TrackPosition;
ObjectManager.CreateObject(Data.Structure.FreeObj[sttype], wpos, RailTransformation, new World.Transformation(Data.Blocks[i].RailFreeObj[j][k].Yaw, Data.Blocks[i].RailFreeObj[j][k].Pitch, Data.Blocks[i].RailFreeObj[j][k].Roll), -1, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, tpos, 1.0, false);
}
}
// transponder objects
if (j == 0) {
for (int k = 0; k < Data.Blocks[i].Transponder.Length; k++) {
ObjectManager.UnifiedObject obj = null;
if (Data.Blocks[i].Transponder[k].ShowDefaultObject) {
switch (Data.Blocks[i].Transponder[k].Type) {
case 0: obj = TransponderS; break;
case 1: obj = TransponderSN; break;
case 2: obj = TransponderFalseStart; break;
case 3: obj = TransponderPOrigin; break;
case 4: obj = TransponderPStop; break;
}
} else {
int b = Data.Blocks[i].Transponder[k].BeaconStructureIndex;
if (b >= 0 & b < Data.Structure.Beacon.Length) {
obj = Data.Structure.Beacon[b];
}
}
if (obj != null) {
double dx = Data.Blocks[i].Transponder[k].X;
double dy = Data.Blocks[i].Transponder[k].Y;
double dz = Data.Blocks[i].Transponder[k].TrackPosition - StartingDistance;
Vector3 wpos = pos;
wpos.X += dx * RailTransformation.X.X + dy * RailTransformation.Y.X + dz * RailTransformation.Z.X;
wpos.Y += dx * RailTransformation.X.Y + dy * RailTransformation.Y.Y + dz * RailTransformation.Z.Y;
wpos.Z += dx * RailTransformation.X.Z + dy * RailTransformation.Y.Z + dz * RailTransformation.Z.Z;
double tpos = Data.Blocks[i].Transponder[k].TrackPosition;
if (Data.Blocks[i].Transponder[k].ShowDefaultObject) {
double b = 0.25 + 0.75 * GetBrightness(ref Data, tpos);
ObjectManager.CreateObject(obj, wpos, RailTransformation, new World.Transformation(Data.Blocks[i].Transponder[k].Yaw, Data.Blocks[i].Transponder[k].Pitch, Data.Blocks[i].Transponder[k].Roll), -1, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, tpos, b, false);
} else {
ObjectManager.CreateObject(obj, wpos, RailTransformation, new World.Transformation(Data.Blocks[i].Transponder[k].Yaw, Data.Blocks[i].Transponder[k].Pitch, Data.Blocks[i].Transponder[k].Roll), Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, tpos);
}
}
}
}
// sections/signals/transponders
if (j == 0) {
// signals
for (int k = 0; k < Data.Blocks[i].Signal.Length; k++) {
SignalData sd;
if (Data.Blocks[i].Signal[k].SignalCompatibilityObjectIndex >= 0) {
sd = Data.CompatibilitySignalData[Data.Blocks[i].Signal[k].SignalCompatibilityObjectIndex];
} else {
sd = Data.SignalData[Data.Blocks[i].Signal[k].SignalObjectIndex];
}
// objects
double dz = Data.Blocks[i].Signal[k].TrackPosition - StartingDistance;
if (Data.Blocks[i].Signal[k].ShowPost) {
// post
double dx = Data.Blocks[i].Signal[k].X;
Vector3 wpos = pos;
wpos.X += dx * RailTransformation.X.X + dz * RailTransformation.Z.X;
wpos.Y += dx * RailTransformation.X.Y + dz * RailTransformation.Z.Y;
wpos.Z += dx * RailTransformation.X.Z + dz * RailTransformation.Z.Z;
double tpos = Data.Blocks[i].Signal[k].TrackPosition;
double b = 0.25 + 0.75 * GetBrightness(ref Data, tpos);
ObjectManager.CreateStaticObject(SignalPost, wpos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, 0.0, StartingDistance, EndingDistance, Data.BlockInterval, tpos, b, false);
}
if (Data.Blocks[i].Signal[k].ShowObject) {
// signal object
double dx = Data.Blocks[i].Signal[k].X;
double dy = Data.Blocks[i].Signal[k].Y;
Vector3 wpos = pos;
wpos.X += dx * RailTransformation.X.X + dy * RailTransformation.Y.X + dz * RailTransformation.Z.X;
wpos.Y += dx * RailTransformation.X.Y + dy * RailTransformation.Y.Y + dz * RailTransformation.Z.Y;
wpos.Z += dx * RailTransformation.X.Z + dy * RailTransformation.Y.Z + dz * RailTransformation.Z.Z;
double tpos = Data.Blocks[i].Signal[k].TrackPosition;
if (sd is AnimatedObjectSignalData) {
AnimatedObjectSignalData aosd = (AnimatedObjectSignalData)sd;
ObjectManager.CreateObject(aosd.Objects, wpos, RailTransformation, new World.Transformation(Data.Blocks[i].Signal[k].Yaw, Data.Blocks[i].Signal[k].Pitch, Data.Blocks[i].Signal[k].Roll), Data.Blocks[i].Signal[k].Section, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, tpos, 1.0, false);
} else if (sd is CompatibilitySignalData) {
CompatibilitySignalData csd = (CompatibilitySignalData)sd;
if (csd.Numbers.Length != 0) {
double brightness = 0.25 + 0.75 * GetBrightness(ref Data, tpos);
ObjectManager.AnimatedObjectCollection aoc = new ObjectManager.AnimatedObjectCollection();
aoc.Objects = new ObjectManager.AnimatedObject[1];
aoc.Objects[0] = new ObjectManager.AnimatedObject();
aoc.Objects[0].States = new ObjectManager.AnimatedObjectState[csd.Numbers.Length];
for (int l = 0; l < csd.Numbers.Length; l++) {
aoc.Objects[0].States[l].Object = ObjectManager.CloneObject(csd.Objects[l]);
}
string expr = "";
for (int l = 0; l < csd.Numbers.Length - 1; l++) {
expr += "section " + csd.Numbers[l].ToString(Culture) + " <= " + l.ToString(Culture) + " ";
}
expr += (csd.Numbers.Length - 1).ToString(Culture);
for (int l = 0; l < csd.Numbers.Length - 1; l++) {
expr += " ?";
}
aoc.Objects[0].StateFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(expr);
aoc.Objects[0].RefreshRate = 1.0 + 0.01 * Program.RandomNumberGenerator.NextDouble();
ObjectManager.CreateObject(aoc, wpos, RailTransformation, new World.Transformation(Data.Blocks[i].Signal[k].Yaw, Data.Blocks[i].Signal[k].Pitch, Data.Blocks[i].Signal[k].Roll), Data.Blocks[i].Signal[k].Section, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, tpos, brightness, false);
}
} else if (sd is Bve4SignalData) {
Bve4SignalData b4sd = (Bve4SignalData)sd;
if (b4sd.SignalTextures.Length != 0) {
int m = Math.Max(b4sd.SignalTextures.Length, b4sd.GlowTextures.Length);
int zn = 0;
for (int l = 0; l < m; l++) {
if (l < b4sd.SignalTextures.Length && b4sd.SignalTextures[l] != null || l < b4sd.GlowTextures.Length && b4sd.GlowTextures[l] != null) {
zn++;
}
}
ObjectManager.AnimatedObjectCollection aoc = new ObjectManager.AnimatedObjectCollection();
aoc.Objects = new ObjectManager.AnimatedObject[1];
aoc.Objects[0] = new ObjectManager.AnimatedObject();
aoc.Objects[0].States = new ObjectManager.AnimatedObjectState[zn];
int zi = 0;
string expr = "";
for (int l = 0; l < m; l++) {
bool qs = l < b4sd.SignalTextures.Length && b4sd.SignalTextures[l] != null;
bool qg = l < b4sd.GlowTextures.Length && b4sd.GlowTextures[l] != null;
if (qs & qg) {
ObjectManager.StaticObject so = ObjectManager.CloneObject(b4sd.BaseObject, b4sd.SignalTextures[l], null);
ObjectManager.StaticObject go = ObjectManager.CloneObject(b4sd.GlowObject, b4sd.GlowTextures[l], null);
ObjectManager.JoinObjects(ref so, go);
aoc.Objects[0].States[zi].Object = so;
} else if (qs) {
ObjectManager.StaticObject so = ObjectManager.CloneObject(b4sd.BaseObject, b4sd.SignalTextures[l], null);
aoc.Objects[0].States[zi].Object = so;
} else if (qg) {
ObjectManager.StaticObject go = ObjectManager.CloneObject(b4sd.GlowObject, b4sd.GlowTextures[l], null);
aoc.Objects[0].States[zi].Object = go;
}
if (qs | qg) {
if (zi < zn - 1) {
expr += "section " + l.ToString(Culture) + " <= " + zi.ToString(Culture) + " ";
} else {
expr += zi.ToString(Culture);
}
zi++;
}
}
for (int l = 0; l < zn - 1; l++) {
expr += " ?";
}
aoc.Objects[0].StateFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(expr);
aoc.Objects[0].RefreshRate = 1.0 + 0.01 * Program.RandomNumberGenerator.NextDouble();
ObjectManager.CreateObject(aoc, wpos, RailTransformation, new World.Transformation(Data.Blocks[i].Signal[k].Yaw, Data.Blocks[i].Signal[k].Pitch, Data.Blocks[i].Signal[k].Roll), Data.Blocks[i].Signal[k].Section, Data.AccurateObjectDisposal, StartingDistance, EndingDistance, Data.BlockInterval, tpos, 1.0, false);
}
}
}
}
// sections
for (int k = 0; k < Data.Blocks[i].Section.Length; k++) {
int m = Game.Sections.Length;
Array.Resize<Game.Section>(ref Game.Sections, m + 1);
Game.Sections[m].SignalIndices = new int[] { };
// create associated transponders
for (int g = 0; g <= i; g++) {
for (int l = 0; l < Data.Blocks[g].Transponder.Length; l++) {
if (Data.Blocks[g].Transponder[l].Type != -1 & Data.Blocks[g].Transponder[l].Section == m) {
int o = TrackManager.CurrentTrack.Elements[n - i + g].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n - i + g].Events, o + 1);
double dt = Data.Blocks[g].Transponder[l].TrackPosition - StartingDistance + (double)(i - g) * Data.BlockInterval;
TrackManager.CurrentTrack.Elements[n - i + g].Events[o] = new TrackManager.TransponderEvent(dt, Data.Blocks[g].Transponder[l].Type, Data.Blocks[g].Transponder[l].Data, m);
Data.Blocks[g].Transponder[l].Type = -1;
}
}
}
// create section
Game.Sections[m].TrackPosition = Data.Blocks[i].Section[k].TrackPosition;
Game.Sections[m].Aspects = new Game.SectionAspect[Data.Blocks[i].Section[k].Aspects.Length];
for (int l = 0; l < Data.Blocks[i].Section[k].Aspects.Length; l++) {
Game.Sections[m].Aspects[l].Number = Data.Blocks[i].Section[k].Aspects[l];
if (Data.Blocks[i].Section[k].Aspects[l] >= 0 & Data.Blocks[i].Section[k].Aspects[l] < Data.SignalSpeeds.Length) {
Game.Sections[m].Aspects[l].Speed = Data.SignalSpeeds[Data.Blocks[i].Section[k].Aspects[l]];
} else {
Game.Sections[m].Aspects[l].Speed = double.PositiveInfinity;
}
}
Game.Sections[m].Type = Data.Blocks[i].Section[k].Type;
Game.Sections[m].CurrentAspect = -1;
if (m > 0) {
Game.Sections[m].PreviousSection = m - 1;
Game.Sections[m - 1].NextSection = m;
} else {
Game.Sections[m].PreviousSection = -1;
}
Game.Sections[m].NextSection = -1;
Game.Sections[m].StationIndex = Data.Blocks[i].Section[k].DepartureStationIndex;
Game.Sections[m].Invisible = Data.Blocks[i].Section[k].Invisible;
Game.Sections[m].Trains = new TrainManager.Train[] { };
// create section change event
double d = Data.Blocks[i].Section[k].TrackPosition - StartingDistance;
int p = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, p + 1);
TrackManager.CurrentTrack.Elements[n].Events[p] = new TrackManager.SectionChangeEvent(d, m - 1, m);
}
// transponders introduced after corresponding sections
for (int l = 0; l < Data.Blocks[i].Transponder.Length; l++) {
if (Data.Blocks[i].Transponder[l].Type != -1) {
int t = Data.Blocks[i].Transponder[l].Section;
if (t >= 0 & t < Game.Sections.Length) {
int m = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, m + 1);
double dt = Data.Blocks[i].Transponder[l].TrackPosition - StartingDistance;
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.TransponderEvent(dt, Data.Blocks[i].Transponder[l].Type, Data.Blocks[i].Transponder[l].Data, t);
Data.Blocks[i].Transponder[l].Type = -1;
}
}
}
}
// limit
if (j == 0) {
for (int k = 0; k < Data.Blocks[i].Limit.Length; k++) {
if (Data.Blocks[i].Limit[k].Direction != 0) {
double dx = 2.2 * (double)Data.Blocks[i].Limit[k].Direction;
double dz = Data.Blocks[i].Limit[k].TrackPosition - StartingDistance;
Vector3 wpos = pos;
wpos.X += dx * RailTransformation.X.X + dz * RailTransformation.Z.X;
wpos.Y += dx * RailTransformation.X.Y + dz * RailTransformation.Z.Y;
wpos.Z += dx * RailTransformation.X.Z + dz * RailTransformation.Z.Z;
double tpos = Data.Blocks[i].Limit[k].TrackPosition;
double b = 0.25 + 0.75 * GetBrightness(ref Data, tpos);
if (Data.Blocks[i].Limit[k].Speed <= 0.0 | Data.Blocks[i].Limit[k].Speed >= 1000.0) {
ObjectManager.CreateStaticObject(LimitPostInfinite, wpos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, 0.0, StartingDistance, EndingDistance, Data.BlockInterval, tpos, b, false);
} else {
if (Data.Blocks[i].Limit[k].Cource < 0) {
ObjectManager.CreateStaticObject(LimitPostLeft, wpos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, 0.0, StartingDistance, EndingDistance, Data.BlockInterval, tpos, b, false);
} else if (Data.Blocks[i].Limit[k].Cource > 0) {
ObjectManager.CreateStaticObject(LimitPostRight, wpos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, 0.0, StartingDistance, EndingDistance, Data.BlockInterval, tpos, b, false);
} else {
ObjectManager.CreateStaticObject(LimitPostStraight, wpos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, 0.0, StartingDistance, EndingDistance, Data.BlockInterval, tpos, b, false);
}
double lim = Data.Blocks[i].Limit[k].Speed / Data.UnitOfSpeed;
if (lim < 10.0) {
int d0 = (int)Math.Round(lim);
int o = ObjectManager.CreateStaticObject(LimitOneDigit, wpos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, 0.0, StartingDistance, EndingDistance, Data.BlockInterval, tpos, b, true);
if (ObjectManager.Objects[o].Mesh.Materials.Length >= 1) {
Textures.RegisterTexture(OpenBveApi.Path.CombineFile(LimitGraphicsPath, "limit_" + d0 + ".png"), out ObjectManager.Objects[o].Mesh.Materials[0].DaytimeTexture);
}
} else if (lim < 100.0) {
int d1 = (int)Math.Round(lim);
int d0 = d1 % 10;
d1 /= 10;
int o = ObjectManager.CreateStaticObject(LimitTwoDigits, wpos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, 0.0, StartingDistance, EndingDistance, Data.BlockInterval, tpos, b, true);
if (ObjectManager.Objects[o].Mesh.Materials.Length >= 1) {
Textures.RegisterTexture(OpenBveApi.Path.CombineFile(LimitGraphicsPath, "limit_" + d1 + ".png"), out ObjectManager.Objects[o].Mesh.Materials[0].DaytimeTexture);
}
if (ObjectManager.Objects[o].Mesh.Materials.Length >= 2) {
Textures.RegisterTexture(OpenBveApi.Path.CombineFile(LimitGraphicsPath, "limit_" + d0 + ".png"), out ObjectManager.Objects[o].Mesh.Materials[1].DaytimeTexture);
}
} else {
int d2 = (int)Math.Round(lim);
int d0 = d2 % 10;
int d1 = (d2 / 10) % 10;
d2 /= 100;
int o = ObjectManager.CreateStaticObject(LimitThreeDigits, wpos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, 0.0, StartingDistance, EndingDistance, Data.BlockInterval, tpos, b, true);
if (ObjectManager.Objects[o].Mesh.Materials.Length >= 1) {
Textures.RegisterTexture(OpenBveApi.Path.CombineFile(LimitGraphicsPath, "limit_" + d2 + ".png"), out ObjectManager.Objects[o].Mesh.Materials[0].DaytimeTexture);
}
if (ObjectManager.Objects[o].Mesh.Materials.Length >= 2) {
Textures.RegisterTexture(OpenBveApi.Path.CombineFile(LimitGraphicsPath, "limit_" + d1 + ".png"), out ObjectManager.Objects[o].Mesh.Materials[1].DaytimeTexture);
}
if (ObjectManager.Objects[o].Mesh.Materials.Length >= 3) {
Textures.RegisterTexture(OpenBveApi.Path.CombineFile(LimitGraphicsPath, "limit_" + d0 + ".png"), out ObjectManager.Objects[o].Mesh.Materials[2].DaytimeTexture);
}
}
}
}
}
}
// stop
if (j == 0) {
for (int k = 0; k < Data.Blocks[i].Stop.Length; k++) {
if (Data.Blocks[i].Stop[k].Direction != 0) {
double dx = 1.8 * (double)Data.Blocks[i].Stop[k].Direction;
double dz = Data.Blocks[i].Stop[k].TrackPosition - StartingDistance;
Vector3 wpos = pos;
wpos.X += dx * RailTransformation.X.X + dz * RailTransformation.Z.X;
wpos.Y += dx * RailTransformation.X.Y + dz * RailTransformation.Z.Y;
wpos.Z += dx * RailTransformation.X.Z + dz * RailTransformation.Z.Z;
double tpos = Data.Blocks[i].Stop[k].TrackPosition;
double b = 0.25 + 0.75 * GetBrightness(ref Data, tpos);
ObjectManager.CreateStaticObject(StopPost, wpos, RailTransformation, NullTransformation, Data.AccurateObjectDisposal, 0.0, StartingDistance, EndingDistance, Data.BlockInterval, tpos, b, false);
}
}
}
}
}
// finalize block
Position.X += Direction.X * c;
Position.Y += h;
Position.Z += Direction.Y * c;
if (a != 0.0) {
World.Rotate(ref Direction, Math.Cos(-a), Math.Sin(-a));
}
}
// orphaned transponders
if (!PreviewOnly) {
for (int i = Data.FirstUsedBlock; i < Data.Blocks.Length; i++) {
for (int j = 0; j < Data.Blocks[i].Transponder.Length; j++) {
if (Data.Blocks[i].Transponder[j].Type != -1) {
int n = i - Data.FirstUsedBlock;
int m = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, m + 1);
double d = Data.Blocks[i].Transponder[j].TrackPosition - TrackManager.CurrentTrack.Elements[n].StartingTrackPosition;
int s = Data.Blocks[i].Transponder[j].Section;
if (s >= 0) s = -1;
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.TransponderEvent(d, Data.Blocks[i].Transponder[j].Type, Data.Blocks[i].Transponder[j].Data, s);
Data.Blocks[i].Transponder[j].Type = -1;
}
}
}
}
// insert station end events
for (int i = 0; i < Game.Stations.Length; i++) {
int j = Game.Stations[i].Stops.Length - 1;
if (j >= 0) {
double p = Game.Stations[i].Stops[j].TrackPosition + Game.Stations[i].Stops[j].ForwardTolerance + Data.BlockInterval;
int k = (int)Math.Floor(p / (double)Data.BlockInterval) - Data.FirstUsedBlock;
if (k >= 0 & k < Data.Blocks.Length) {
double d = p - (double)(k + Data.FirstUsedBlock) * (double)Data.BlockInterval;
int m = TrackManager.CurrentTrack.Elements[k].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[k].Events, m + 1);
TrackManager.CurrentTrack.Elements[k].Events[m] = new TrackManager.StationEndEvent(d, i);
}
}
}
// create default point of interests
if (Game.PointsOfInterest.Length == 0) {
Game.PointsOfInterest = new OpenBve.Game.PointOfInterest[Game.Stations.Length];
int n = 0;
for (int i = 0; i < Game.Stations.Length; i++) {
if (Game.Stations[i].Stops.Length != 0) {
Game.PointsOfInterest[n].Text = Game.Stations[i].Name;
Game.PointsOfInterest[n].TrackPosition = Game.Stations[i].Stops[0].TrackPosition;
Game.PointsOfInterest[n].TrackOffset = new Vector3(0.0, 2.8, 0.0);
if (Game.Stations[i].OpenLeftDoors & !Game.Stations[i].OpenRightDoors) {
Game.PointsOfInterest[n].TrackOffset.X = -2.5;
} else if (!Game.Stations[i].OpenLeftDoors & Game.Stations[i].OpenRightDoors) {
Game.PointsOfInterest[n].TrackOffset.X = 2.5;
}
n++;
}
}
Array.Resize<Game.PointOfInterest>(ref Game.PointsOfInterest, n);
}
// convert block-based cant into point-based cant
for (int i = CurrentTrackLength - 1; i >= 1; i--) {
if (TrackManager.CurrentTrack.Elements[i].CurveCant == 0.0) {
TrackManager.CurrentTrack.Elements[i].CurveCant = TrackManager.CurrentTrack.Elements[i - 1].CurveCant;
} else if (TrackManager.CurrentTrack.Elements[i - 1].CurveCant != 0.0) {
if (Math.Sign(TrackManager.CurrentTrack.Elements[i - 1].CurveCant) == Math.Sign(TrackManager.CurrentTrack.Elements[i].CurveCant)) {
if (Math.Abs(TrackManager.CurrentTrack.Elements[i - 1].CurveCant) > Math.Abs(TrackManager.CurrentTrack.Elements[i].CurveCant)) {
TrackManager.CurrentTrack.Elements[i].CurveCant = TrackManager.CurrentTrack.Elements[i - 1].CurveCant;
}
} else {
TrackManager.CurrentTrack.Elements[i].CurveCant = 0.5 * (TrackManager.CurrentTrack.Elements[i].CurveCant + TrackManager.CurrentTrack.Elements[i - 1].CurveCant);
}
}
}
// finalize
Array.Resize<TrackManager.TrackElement>(ref TrackManager.CurrentTrack.Elements, CurrentTrackLength);
for (int i = 0; i < Game.Stations.Length; i++) {
if (Game.Stations[i].Stops.Length == 0 & Game.Stations[i].StopMode != Game.StationStopMode.AllPass) {
Interface.AddMessage(Interface.MessageType.Warning, false, "Station " + Game.Stations[i].Name + " expects trains to stop but does not define stop points at track position " + Game.Stations[i].DefaultTrackPosition.ToString(Culture) + " in file " + FileName);
Game.Stations[i].StopMode = Game.StationStopMode.AllPass;
}
if (Game.Stations[i].StationType == Game.StationType.ChangeEnds) {
if (i < Game.Stations.Length - 1) {
if (Game.Stations[i + 1].StopMode != Game.StationStopMode.AllStop) {
Interface.AddMessage(Interface.MessageType.Warning, false, "Station " + Game.Stations[i].Name + " is marked as \"change ends\" but the subsequent station does not expect all trains to stop in file " + FileName);
Game.Stations[i + 1].StopMode = Game.StationStopMode.AllStop;
}
} else {
Interface.AddMessage(Interface.MessageType.Warning, false, "Station " + Game.Stations[i].Name + " is marked as \"change ends\" but there is no subsequent station defined in file " + FileName);
Game.Stations[i].StationType = Game.StationType.Terminal;
}
}
}
if (Game.Stations.Length != 0) {
Game.Stations[Game.Stations.Length - 1].StationType = Game.StationType.Terminal;
}
if (TrackManager.CurrentTrack.Elements.Length != 0) {
int n = TrackManager.CurrentTrack.Elements.Length - 1;
int m = TrackManager.CurrentTrack.Elements[n].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[n].Events, m + 1);
TrackManager.CurrentTrack.Elements[n].Events[m] = new TrackManager.TrackEndEvent(Data.BlockInterval);
}
// insert compatibility beacons
if (!PreviewOnly) {
List<TrackManager.TransponderEvent> transponders = new List<TrackManager.TransponderEvent>();
bool atc = false;
for (int i = 0; i < TrackManager.CurrentTrack.Elements.Length; i++) {
for (int j = 0; j < TrackManager.CurrentTrack.Elements[i].Events.Length; j++) {
if (!atc) {
if (TrackManager.CurrentTrack.Elements[i].Events[j] is TrackManager.StationStartEvent) {
TrackManager.StationStartEvent station = (TrackManager.StationStartEvent)TrackManager.CurrentTrack.Elements[i].Events[j];
if (Game.Stations[station.StationIndex].SafetySystem == Game.SafetySystem.Atc) {
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[i].Events, TrackManager.CurrentTrack.Elements[i].Events.Length + 2);
TrackManager.CurrentTrack.Elements[i].Events[TrackManager.CurrentTrack.Elements[i].Events.Length - 2] = new TrackManager.TransponderEvent(0.0, TrackManager.SpecialTransponderTypes.AtcTrackStatus, 0, 0);
TrackManager.CurrentTrack.Elements[i].Events[TrackManager.CurrentTrack.Elements[i].Events.Length - 1] = new TrackManager.TransponderEvent(0.0, TrackManager.SpecialTransponderTypes.AtcTrackStatus, 1, 0);
atc = true;
}
}
} else {
if (TrackManager.CurrentTrack.Elements[i].Events[j] is TrackManager.StationStartEvent) {
TrackManager.StationStartEvent station = (TrackManager.StationStartEvent)TrackManager.CurrentTrack.Elements[i].Events[j];
if (Game.Stations[station.StationIndex].SafetySystem == Game.SafetySystem.Ats) {
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[i].Events, TrackManager.CurrentTrack.Elements[i].Events.Length + 2);
TrackManager.CurrentTrack.Elements[i].Events[TrackManager.CurrentTrack.Elements[i].Events.Length - 2] = new TrackManager.TransponderEvent(0.0, TrackManager.SpecialTransponderTypes.AtcTrackStatus, 2, 0);
TrackManager.CurrentTrack.Elements[i].Events[TrackManager.CurrentTrack.Elements[i].Events.Length - 1] = new TrackManager.TransponderEvent(0.0, TrackManager.SpecialTransponderTypes.AtcTrackStatus, 3, 0);
}
} else if (TrackManager.CurrentTrack.Elements[i].Events[j] is TrackManager.StationEndEvent) {
TrackManager.StationEndEvent station = (TrackManager.StationEndEvent)TrackManager.CurrentTrack.Elements[i].Events[j];
if (Game.Stations[station.StationIndex].SafetySystem == Game.SafetySystem.Atc) {
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[i].Events, TrackManager.CurrentTrack.Elements[i].Events.Length + 2);
TrackManager.CurrentTrack.Elements[i].Events[TrackManager.CurrentTrack.Elements[i].Events.Length - 2] = new TrackManager.TransponderEvent(0.0, TrackManager.SpecialTransponderTypes.AtcTrackStatus, 1, 0);
TrackManager.CurrentTrack.Elements[i].Events[TrackManager.CurrentTrack.Elements[i].Events.Length - 1] = new TrackManager.TransponderEvent(0.0, TrackManager.SpecialTransponderTypes.AtcTrackStatus, 2, 0);
} else if (Game.Stations[station.StationIndex].SafetySystem == Game.SafetySystem.Ats) {
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[i].Events, TrackManager.CurrentTrack.Elements[i].Events.Length + 2);
TrackManager.CurrentTrack.Elements[i].Events[TrackManager.CurrentTrack.Elements[i].Events.Length - 2] = new TrackManager.TransponderEvent(0.0, TrackManager.SpecialTransponderTypes.AtcTrackStatus, 3, 0);
TrackManager.CurrentTrack.Elements[i].Events[TrackManager.CurrentTrack.Elements[i].Events.Length - 1] = new TrackManager.TransponderEvent(0.0, TrackManager.SpecialTransponderTypes.AtcTrackStatus, 0, 0);
atc = false;
}
} else if (TrackManager.CurrentTrack.Elements[i].Events[j] is TrackManager.LimitChangeEvent) {
TrackManager.LimitChangeEvent limit = (TrackManager.LimitChangeEvent)TrackManager.CurrentTrack.Elements[i].Events[j];
int speed = (int)Math.Round(Math.Min(4095.0, 3.6 * limit.NextSpeedLimit));
int distance = Math.Min(1048575, (int)Math.Round(TrackManager.CurrentTrack.Elements[i].StartingTrackPosition + limit.TrackPositionDelta));
unchecked {
int value = (int)((uint)speed | ((uint)distance << 12));
transponders.Add(new TrackManager.TransponderEvent(0.0, TrackManager.SpecialTransponderTypes.AtcSpeedLimit, value, 0));
}
}
}
if (TrackManager.CurrentTrack.Elements[i].Events[j] is TrackManager.TransponderEvent) {
TrackManager.TransponderEvent transponder = TrackManager.CurrentTrack.Elements[i].Events[j] as TrackManager.TransponderEvent;
if (transponder.Type == TrackManager.SpecialTransponderTypes.InternalAtsPTemporarySpeedLimit) {
int speed = Math.Min(4095, transponder.Data);
int distance = Math.Min(1048575, (int)Math.Round(TrackManager.CurrentTrack.Elements[i].StartingTrackPosition + transponder.TrackPositionDelta));
unchecked {
int value = (int)((uint)speed | ((uint)distance << 12));
transponder.DontTriggerAnymore = true;
}
}
}
}
}
int n = TrackManager.CurrentTrack.Elements[0].Events.Length;
Array.Resize<TrackManager.GeneralEvent>(ref TrackManager.CurrentTrack.Elements[0].Events, n + transponders.Count);
for (int i = 0; i < transponders.Count; i++) {
TrackManager.CurrentTrack.Elements[0].Events[n + i] = transponders[i];
}
}
// cant
if (!PreviewOnly) {
ComputeCantTangents();
int subdivisions = (int)Math.Floor(Data.BlockInterval / 5.0);
if (subdivisions >= 2) {
SmoothenOutTurns(subdivisions);
ComputeCantTangents();
}
}
}
// parse animated object config
/// <summary>Loads a collection of animated objects from a file.</summary>
/// <param name="FileName">The text file to load the animated object from. Must be an absolute file name.</param>
/// <param name="Encoding">The encoding the file is saved in. If the file uses a byte order mark, the encoding indicated by the byte order mark is used and the Encoding parameter is ignored.</param>
/// <param name="LoadMode">The texture load mode.</param>
/// <returns>The collection of animated objects.</returns>
internal static ObjectManager.AnimatedObjectCollection ReadObject(string FileName, System.Text.Encoding Encoding, ObjectManager.ObjectLoadMode LoadMode) {
ObjectManager.AnimatedObjectCollection Result = new ObjectManager.AnimatedObjectCollection();
Result.Objects = new ObjectManager.AnimatedObject[4];
int ObjectCount = 0;
// load file
string[] Lines = System.IO.File.ReadAllLines(FileName, Encoding);
bool rpnUsed = false;
for (int i = 0; i < Lines.Length; i++) {
int j = Lines[i].IndexOf(';');
// cut comments out
Lines[i] = j >= 0 ? Lines[i].Substring(0, j).Trim() : Lines[i].Trim();
rpnUsed = Lines[i].IndexOf("functionrpn", StringComparison.OrdinalIgnoreCase) >= 0;
}
if (rpnUsed) {
Debug.AddMessage(Debug.MessageType.Error, false, "An animated object file contains RPN functions. These were never meant to be used directly, only for debugging. They won't be supported indefinately. Please get rid of them in file " + FileName);
}
for (int i = 0; i < Lines.Length; i++) {
if (Lines[i].Length != 0) {
switch (Lines[i].ToLowerInvariant()) {
case "[include]":
{
i++;
Vector3D position = new Vector3D(0.0, 0.0, 0.0);
ObjectManager.UnifiedObject[] obj = new ObjectManager.UnifiedObject[4];
int objCount = 0;
while (i < Lines.Length && !(Lines[i].StartsWith("[", StringComparison.Ordinal) && Lines[i].EndsWith("]", StringComparison.Ordinal))) {
if (Lines[i].Length != 0) {
int equals = Lines[i].IndexOf("=", StringComparison.Ordinal);
if (equals > 0) {
/*
* Process key-value pair, the only supported key is position.
*/
string before = Lines[i].Substring(0, equals).TrimEnd();
string after = Lines[i].Substring(equals + 1).TrimStart();
switch (before.ToLowerInvariant()) {
case "position":
ParsePosition(after, ref position, before, i + 1, FileName);
break;
default:
Debug.AddMessage(Debug.MessageType.Error, false, "The attribute " + before + " is not supported at line " + (i + 1).ToString(Culture) + " in file " + FileName);
break;
}
} else {
/*
* Process object with file name relative to the location of this ANIMATED file.
*/
string Folder = System.IO.Path.GetDirectoryName(FileName);
if (Path.ContainsInvalidPathChars(Lines[i])) {
Debug.AddMessage(Debug.MessageType.Error, false, Lines[i] + " contains illegal characters at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else {
string file = OpenBveApi.Path.CombineFile(Folder, Lines[i]);
if (System.IO.File.Exists(file)) {
if (obj.Length == objCount) {
Array.Resize<ObjectManager.UnifiedObject>(ref obj, obj.Length << 1);
}
obj[objCount] = ObjectManager.LoadObject(file, Encoding, LoadMode, false, false, false);
objCount++;
} else {
Debug.AddMessage(Debug.MessageType.Error, true, "File " + file + " not found at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
}
}
}
i++;
}
i--;
for (int j = 0; j < objCount; j++) {
if (obj[j] != null) {
if (obj[j] is ObjectManager.StaticObject) {
ObjectManager.StaticObject s = (ObjectManager.StaticObject)obj[j];
s.Dynamic = true;
if (ObjectCount >= Result.Objects.Length) {
Array.Resize<ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
ObjectManager.AnimatedObject a = new ObjectManager.AnimatedObject();
ObjectManager.AnimatedObjectState aos = new ObjectManager.AnimatedObjectState();
aos.Object = s;
aos.Position = position;
a.States = new[] { aos };
Result.Objects[ObjectCount] = a;
ObjectCount++;
} else if (obj[j] is ObjectManager.AnimatedObjectCollection) {
ObjectManager.AnimatedObjectCollection a = (ObjectManager.AnimatedObjectCollection)obj[j];
for (int k = 0; k < a.Objects.Length; k++) {
if (ObjectCount >= Result.Objects.Length) {
Array.Resize<ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
for (int h = 0; h < a.Objects[k].States.Length; h++) {
a.Objects[k].States[h].Position.X += position.X;
a.Objects[k].States[h].Position.Y += position.Y;
a.Objects[k].States[h].Position.Z += position.Z;
}
Result.Objects[ObjectCount] = a.Objects[k];
ObjectCount++;
}
}
}
}
}
break;
case "[object]":
{
i++;
if (Result.Objects.Length == ObjectCount) {
Array.Resize<ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
Result.Objects[ObjectCount] = new ObjectManager.AnimatedObject();
Result.Objects[ObjectCount].States = new ObjectManager.AnimatedObjectState[] { };
Result.Objects[ObjectCount].CurrentState = -1;
Result.Objects[ObjectCount].TranslateXDirection = new Vector3D(1.0, 0.0, 0.0);
Result.Objects[ObjectCount].TranslateYDirection = new Vector3D(0.0, 1.0, 0.0);
Result.Objects[ObjectCount].TranslateZDirection = new Vector3D(0.0, 0.0, 1.0);
Result.Objects[ObjectCount].RotateXDirection = new Vector3D(1.0, 0.0, 0.0);
Result.Objects[ObjectCount].RotateYDirection = new Vector3D(0.0, 1.0, 0.0);
Result.Objects[ObjectCount].RotateZDirection = new Vector3D(0.0, 0.0, 1.0);
Result.Objects[ObjectCount].TextureShiftXDirection = new Vector2D(1.0, 0.0);
Result.Objects[ObjectCount].TextureShiftYDirection = new Vector2D(0.0, 1.0);
Result.Objects[ObjectCount].RefreshRate = 0.0;
Result.Objects[ObjectCount].ObjectIndex = -1;
Vector3D Position = new Vector3D(0.0, 0.0, 0.0);
bool timetableUsed = false;
string[] StateFiles = null;
string StateFunctionRpn = null;
int StateFunctionLine = -1;
while (i < Lines.Length && !(Lines[i].StartsWith("[", StringComparison.Ordinal) && Lines[i].EndsWith("]", StringComparison.Ordinal))) {
if (Lines[i].Length != 0) {
int equals = Lines[i].IndexOf("=", StringComparison.Ordinal);
if (equals > 0) {
string before = Lines[i].Substring(0, equals).TrimEnd();
string after = Lines[i].Substring(equals + 1).TrimStart();
switch (before.ToLowerInvariant()) {
case "position":
ParsePosition(after, ref Position, before, i + 1, FileName);
break;
case "states":
if (!ParseState(after, ref StateFiles, before, i + 1, FileName))
return null;
break;
case "statefunction":
try {
StateFunctionLine = i;
StateFunctionRpn = FunctionScripts.GetPostfixNotationFromInfixNotation(after);
} catch (Exception ex) {
Debug.AddMessage(Debug.MessageType.Error, false, ex.Message + " in " + before + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "statefunctionrpn":
{
StateFunctionLine = i;
StateFunctionRpn = after;
} break;
case "translatexdirection":
ParseTranslateDirection(after, ref Result.Objects[ObjectCount].TranslateXDirection,
before, i + 1, FileName);
break;
case "translateydirection":
ParseTranslateDirection(after, ref Result.Objects[ObjectCount].TranslateYDirection,
before, i + 1, FileName);
break;
case "translatezdirection":
ParseTranslateDirection(after, ref Result.Objects[ObjectCount].TranslateZDirection,
before, i + 1, FileName);
break;
case "translatexfunction":
ParseInfixFunc(after, ref Result.Objects[ObjectCount].TranslateXFunction, before, i + 1, FileName);
break;
case "translateyfunction":
ParseInfixFunc(after, ref Result.Objects[ObjectCount].TranslateYFunction, before, i + 1, FileName);
break;
case "translatezfunction":
ParseInfixFunc(after, ref Result.Objects[ObjectCount].TranslateZFunction, before, i + 1, FileName);
break;
case "translatexfunctionrpn":
ParsePostfixFunc(after, ref Result.Objects[ObjectCount].TranslateXFunction, before, i + 1, FileName);
break;
case "translateyfunctionrpn":
ParsePostfixFunc(after, ref Result.Objects[ObjectCount].TranslateYFunction, before, i + 1, FileName);
break;
case "translatezfunctionrpn":
ParsePostfixFunc(after, ref Result.Objects[ObjectCount].TranslateZFunction, before, i + 1, FileName);
break;
case "rotatexdirection":
ParseRotateDirection(after, ref Result.Objects[ObjectCount].RotateXDirection, before, i + 1, FileName);
break;
case "rotateydirection":
ParseRotateDirection(after, ref Result.Objects[ObjectCount].RotateYDirection, before, i + 1, FileName);
break;
case "rotatezdirection":
ParseRotateDirection(after, ref Result.Objects[ObjectCount].RotateZDirection, before, i + 1, FileName);
break;
case "rotatexfunction":
ParseInfixFunc(after,ref Result.Objects[ObjectCount].RotateXFunction, before,i+1,FileName);
break;
case "rotateyfunction":
ParseInfixFunc(after,ref Result.Objects[ObjectCount].RotateYFunction, before,i+1,FileName);
break;
case "rotatezfunction":
ParseInfixFunc(after,ref Result.Objects[ObjectCount].RotateZFunction, before,i+1,FileName);
break;
case "rotatexfunctionrpn":
ParsePostfixFunc(after,ref Result.Objects[ObjectCount].RotateXFunction, before,i+1,FileName);
break;
case "rotateyfunctionrpn":
ParsePostfixFunc(after,ref Result.Objects[ObjectCount].RotateYFunction, before,i+1,FileName);
break;
case "rotatezfunctionrpn":
ParsePostfixFunc(after,ref Result.Objects[ObjectCount].RotateZFunction, before,i+1,FileName);
break;
case "rotatexdamping":
ParseRotateDamping(after, ref Result.Objects[ObjectCount].RotateXDamping,before, i + 1, FileName);
break;
case "rotateydamping":
ParseRotateDamping(after, ref Result.Objects[ObjectCount].RotateYDamping,before, i + 1, FileName);
break;
case "rotatezdamping":
ParseRotateDamping(after, ref Result.Objects[ObjectCount].RotateZDamping,before, i + 1, FileName);
break;
case "textureshiftxdirection":
ParseTextureShift(after, ref Result.Objects[ObjectCount].TextureShiftXDirection, before, i + 1, FileName);
break;
case "textureshiftydirection":
ParseTextureShift(after, ref Result.Objects[ObjectCount].TextureShiftYDirection, before, i + 1, FileName);
break;
case "textureshiftxfunction":
ParseInfixFunc(after, ref Result.Objects[ObjectCount].TextureShiftXFunction, before, i + 1, FileName);
break;
case "textureshiftyfunction":
ParseInfixFunc(after, ref Result.Objects[ObjectCount].TextureShiftYFunction, before, i + 1, FileName);
break;
case "textureshiftxfunctionrpn":
ParsePostfixFunc(after, ref Result.Objects[ObjectCount].TextureShiftXFunction, before, i + 1, FileName);
break;
case "textureshiftyfunctionrpn":
ParsePostfixFunc(after, ref Result.Objects[ObjectCount].TextureShiftYFunction, before, i + 1, FileName);
break;
case "textureoverride":
switch (after.ToLowerInvariant()) {
case "none":
break;
case "timetable":
if (!timetableUsed) {
Timetable.AddObjectForCustomTimetable(Result.Objects[ObjectCount]);
timetableUsed = true;
}
break;
default:
Debug.AddMessage(Debug.MessageType.Error, false, "Unrecognized value in " + before + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
break;
}
break;
case "refreshrate":
{
double r;
if (!double.TryParse(after, System.Globalization.NumberStyles.Float, Culture, out r)) {
Debug.AddMessage(Debug.MessageType.Error, false, "Value is invalid in " + before + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else if (r < 0.0) {
Debug.AddMessage(Debug.MessageType.Error, false, "Value is expected to be non-negative in " + before + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} else {
Result.Objects[ObjectCount].RefreshRate = r;
}
} break;
default:
Debug.AddMessage(Debug.MessageType.Error, false, "The attribute " + before + " is not supported at line " + (i + 1).ToString(Culture) + " in file " + FileName);
break;
}
} else {
Debug.AddMessage(Debug.MessageType.Error, false, "Invalid statement " + Lines[i] + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName);
return null;
}
}
i++;
}
i--;
if (StateFiles != null) {
// create the object
if (timetableUsed) {
if (StateFunctionRpn != null) {
StateFunctionRpn = "timetable 0 == " + StateFunctionRpn + " -1 ?";
} else {
StateFunctionRpn = "timetable";
}
}
if (StateFunctionRpn != null) {
try {
Result.Objects[ObjectCount].StateFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(StateFunctionRpn);
} catch (Exception ex) {
Debug.AddMessage(Debug.MessageType.Error, false, ex.Message + " in StateFunction at line " + (StateFunctionLine + 1).ToString(Culture) + " in file " + FileName);
}
}
Result.Objects[ObjectCount].States = new ObjectManager.AnimatedObjectState[StateFiles.Length];
bool ForceTextureRepeatX = Result.Objects[ObjectCount].TextureShiftXFunction != null && Result.Objects[ObjectCount].TextureShiftXDirection.X != 0.0 ||
Result.Objects[ObjectCount].TextureShiftYFunction != null && Result.Objects[ObjectCount].TextureShiftYDirection.Y != 0.0;
bool ForceTextureRepeatY = Result.Objects[ObjectCount].TextureShiftXFunction != null && Result.Objects[ObjectCount].TextureShiftXDirection.X != 0.0 ||
Result.Objects[ObjectCount].TextureShiftYFunction != null && Result.Objects[ObjectCount].TextureShiftYDirection.Y != 0.0;
for (int k = 0; k < StateFiles.Length; k++) {
Result.Objects[ObjectCount].States[k].Position = new Vector3D(0.0, 0.0, 0.0);
if (StateFiles[k] != null) {
Result.Objects[ObjectCount].States[k].Object = ObjectManager.LoadStaticObject(StateFiles[k], Encoding, LoadMode, false, ForceTextureRepeatX, ForceTextureRepeatY);
if (Result.Objects[ObjectCount].States[k].Object != null) {
Result.Objects[ObjectCount].States[k].Object.Dynamic = true;
}
} else {
Result.Objects[ObjectCount].States[k].Object = null;
}
for (int j = 0; j < Result.Objects[ObjectCount].States.Length; j++) {
Result.Objects[ObjectCount].States[j].Position = Position;
}
}
} else {
Result.Objects[ObjectCount].States = new ObjectManager.AnimatedObjectState[] { };
}
ObjectCount++;
}
break;
default:
Debug.AddMessage(Debug.MessageType.Error, false, "Invalid statement " + Lines[i] + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName);
return null;
}
}
}
Array.Resize<ObjectManager.AnimatedObject>(ref Result.Objects, ObjectCount);
return Result;
}
/// <summary>Loads a Loksim3D GruppenObject</summary>
/// <param name="FileName">The filename to load</param>
/// <param name="Encoding">The text encoding of the containing file (Currently ignored, REMOVE??)</param>
/// <param name="Rotation">A three-dimemsional vector describing the rotation to be applied</param>
/// <returns>A new animated object collection, containing the GruppenObject's meshes etc.</returns>
internal static ObjectManager.AnimatedObjectCollection ReadObject(string FileName, Encoding Encoding, Vector3 Rotation)
{
XmlDocument currentXML = new XmlDocument();
ObjectManager.AnimatedObjectCollection Result = new ObjectManager.AnimatedObjectCollection();
Result.Objects = new ObjectManager.AnimatedObject[0];
try
{
currentXML.Load(FileName);
}
catch (Exception ex)
{
//The XML is not strictly valid
string[] Lines = File.ReadAllLines(FileName);
using (var stringReader = new StringReader(Lines[0]))
{
var settings = new XmlReaderSettings {
ConformanceLevel = ConformanceLevel.Fragment
};
using (var xmlReader = XmlReader.Create(stringReader, settings))
{
if (xmlReader.Read())
{
//Attempt to find the text encoding and re-read the file
var result = xmlReader.GetAttribute("encoding");
if (result != null)
{
var e = System.Text.Encoding.GetEncoding(result);
Lines = File.ReadAllLines(FileName, e);
//Turf out the old encoding, as our string array should now be UTF-8
Lines[0] = "<?xml version=\"1.0\"?>";
}
}
}
}
for (int i = 0; i < Lines.Length; i++)
{
while (Lines[i].IndexOf("\"\"", StringComparison.InvariantCulture) != -1)
{
//Loksim parser tolerates multiple quotes, strict XML does not
Lines[i] = Lines[i].Replace("\"\"", "\"");
}
while (Lines[i].IndexOf(" ", StringComparison.InvariantCulture) != -1)
{
//Replace double-spaces with singles
Lines[i] = Lines[i].Replace(" ", " ");
}
}
bool tryLoad = false;
try
{
//Horrible hack: Write out our string array to a new memory stream, then load from this stream
//Why can't XmlDocument.Load() just take a string array......
using (var stream = new MemoryStream())
{
var sw = new StreamWriter(stream);
foreach (var line in Lines)
{
sw.Write(line);
sw.Flush();
}
sw.Flush();
stream.Position = 0;
currentXML.Load(stream);
tryLoad = true;
}
}
catch
{
//Generic catch-all clause
}
if (!tryLoad)
{
//Pass out the *original* XML error, not anything generated when we've tried to correct it
Interface.AddMessage(MessageType.Error, false, "Error parsing Loksim3D XML: " + ex.Message);
return(null);
}
}
string BaseDir = System.IO.Path.GetDirectoryName(FileName);
GruppenObject[] CurrentObjects = new GruppenObject[0];
//Check for null
if (currentXML.DocumentElement != null)
{
UnifiedObject[] obj = new UnifiedObject[0];
XmlNodeList DocumentNodes = currentXML.DocumentElement.SelectNodes("/GRUPPENOBJECT");
if (DocumentNodes != null)
{
foreach (XmlNode outerNode in DocumentNodes)
{
if (outerNode.ChildNodes.OfType <XmlElement>().Any())
{
foreach (XmlNode node in outerNode.ChildNodes)
{
if (node.Name == "Object" && node.ChildNodes.OfType <XmlElement>().Any())
{
foreach (XmlNode childNode in node.ChildNodes)
{
if (childNode.Name == "Props" && childNode.Attributes != null)
{
GruppenObject Object = new GruppenObject
{
Rotation = Rotation
};
foreach (XmlAttribute attribute in childNode.Attributes)
{
switch (attribute.Name)
{
case "Name":
string ObjectFile = OpenBveApi.Path.Loksim3D.CombineFile(BaseDir, attribute.Value, Program.FileSystem.LoksimPackageInstallationDirectory);
if (!File.Exists(ObjectFile))
{
Object.Name = null;
Interface.AddMessage(MessageType.Warning, true, "Ls3d Object file " + attribute.Value + " not found.");
}
else
{
Object.Name = ObjectFile;
}
break;
case "Position":
string[] SplitPosition = attribute.Value.Split(';');
double.TryParse(SplitPosition[0], out Object.Position.X);
double.TryParse(SplitPosition[1], out Object.Position.Y);
double.TryParse(SplitPosition[2], out Object.Position.Z);
break;
case "Rotation":
string[] SplitRotation = attribute.Value.Split(';');
Vector3 r;
double.TryParse(SplitRotation[0], out r.X);
double.TryParse(SplitRotation[1], out r.Y);
double.TryParse(SplitRotation[2], out r.Z);
Object.Rotation += r;
break;
case "ShowOn":
//Defines when the object should be shown
Object.FunctionScript = FunctionScriptNotation.GetPostfixNotationFromInfixNotation(GetAnimatedFunction(attribute.Value, false));
break;
case "HideOn":
//Defines when the object should be hidden
Object.FunctionScript = FunctionScriptNotation.GetPostfixNotationFromInfixNotation(GetAnimatedFunction(attribute.Value, true));
break;
case "FixedDynamicVisibility":
if (attribute.Value.ToLowerInvariant() == "true")
{
Object.FixedDynamicVisibility = true;
}
else
{
Object.FixedDynamicVisibility = false;
}
break;
case "DynamicVisibility":
if (Object.FixedDynamicVisibility)
{
Object.FunctionScript = FunctionScriptNotation.GetPostfixNotationFromInfixNotation(GetDynamicFunction(attribute.Value));
}
break;
}
}
if (Object.Name != null)
{
Array.Resize <GruppenObject>(ref CurrentObjects, CurrentObjects.Length + 1);
CurrentObjects[CurrentObjects.Length - 1] = Object;
}
}
}
}
}
}
}
//We've loaded the XML references, now load the objects into memory
//Single mesh object, containing all static components of the LS3D object
//If we use multiples, the Z-sorting throws a wobbly
StaticObject staticObject = null;
for (int i = 0; i < CurrentObjects.Length; i++)
{
if (CurrentObjects[i] == null || string.IsNullOrEmpty(CurrentObjects[i].Name))
{
continue;
}
StaticObject Object = null;
ObjectManager.AnimatedObjectCollection AnimatedObject = null;
try
{
if (CurrentObjects[i].Name.ToLowerInvariant().EndsWith(".l3dgrp"))
{
AnimatedObject = ReadObject(CurrentObjects[i].Name, Encoding, CurrentObjects[i].Rotation);
}
else if (CurrentObjects[i].Name.ToLowerInvariant().EndsWith(".l3dobj"))
{
Object = (StaticObject)ObjectManager.LoadObject(CurrentObjects[i].Name, Encoding, false, false, false, CurrentObjects[i].Rotation);
}
else
{
throw new Exception("Format " + System.IO.Path.GetExtension(CurrentObjects[i].Name) + " is not currently supported by the Loksim3D object parser");
}
}
catch (Exception ex) {
Interface.AddMessage(MessageType.Error, false, ex.Message);
}
if (Object != null)
{
if (!string.IsNullOrEmpty(CurrentObjects[i].FunctionScript))
{
//If the function script is not empty, this is a new animated object bit
Array.Resize <UnifiedObject>(ref obj, obj.Length + 1);
obj[obj.Length - 1] = Object;
int aL = Result.Objects.Length;
Array.Resize <ObjectManager.AnimatedObject>(ref Result.Objects, aL + 1);
ObjectManager.AnimatedObject a = new ObjectManager.AnimatedObject();
AnimatedObjectState aos = new AnimatedObjectState(Object, CurrentObjects[i].Position);
a.States = new AnimatedObjectState[] { aos };
Result.Objects[aL] = a;
Result.Objects[aL].StateFunction = new FunctionScript(Program.CurrentHost, CurrentObjects[i].FunctionScript + " 1 == --", false);
}
else
{
//Otherwise, join to the main static mesh & update co-ords
for (int j = 0; j < Object.Mesh.Vertices.Length; j++)
{
Object.Mesh.Vertices[j].Coordinates += CurrentObjects[i].Position;
}
staticObject.JoinObjects(Object);
}
}
else if (AnimatedObject != null)
{
int rl = Result.Objects.Length;
int l = AnimatedObject.Objects.Length;
Array.Resize <ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length + l);
for (int o = rl; o < rl + l; o++)
{
if (AnimatedObject.Objects[o - rl] != null)
{
Result.Objects[o] = AnimatedObject.Objects[o - rl].Clone();
for (int si = 0; si < Result.Objects[o].States.Length; si++)
{
Result.Objects[o].States[si].Position += CurrentObjects[i].Position;
}
}
else
{
Result.Objects[o] = new ObjectManager.AnimatedObject();
Result.Objects[o].States = new AnimatedObjectState[0];
}
}
}
}
if (staticObject != null)
{
Array.Resize <ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length + 1);
ObjectManager.AnimatedObject a = new ObjectManager.AnimatedObject();
AnimatedObjectState aos = new AnimatedObjectState(staticObject, Vector3.Zero);
a.States = new AnimatedObjectState[] { aos };
Result.Objects[Result.Objects.Length - 1] = a;
}
}
return(Result);
}
//Didn't find an acceptable XML object
//Probably will cause things to throw an absolute wobbly somewhere....
return(null);
}
// parse animated object config
/// <summary>Loads a collection of animated objects from a file.</summary>
/// <param name="FileName">The text file to load the animated object from. Must be an absolute file name.</param>
/// <param name="Encoding">The encoding the file is saved in. If the file uses a byte order mark, the encoding indicated by the byte order mark is used and the Encoding parameter is ignored.</param>
/// <param name="LoadMode">The texture load mode.</param>
/// <returns>The collection of animated objects.</returns>
internal static ObjectManager.AnimatedObjectCollection ReadObject(string FileName, System.Text.Encoding Encoding, ObjectManager.ObjectLoadMode LoadMode)
{
System.Globalization.CultureInfo Culture = System.Globalization.CultureInfo.InvariantCulture;
ObjectManager.AnimatedObjectCollection Result = new ObjectManager.AnimatedObjectCollection
{
Objects = new ObjectManager.AnimatedObject[4]
};
int ObjectCount = 0;
// load file
string[] Lines = System.IO.File.ReadAllLines(FileName, Encoding);
bool rpnUsed = false;
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();
}
if (Lines[i].IndexOf("functionrpn", StringComparison.OrdinalIgnoreCase) >= 0)
{
rpnUsed = true;
}
}
if (rpnUsed)
{
Interface.AddMessage(Interface.MessageType.Error, false, "An animated object file contains RPN functions. These were never meant to be used directly, only for debugging. They won't be supported indefinately. Please get rid of them in file " + FileName);
}
for (int i = 0; i < Lines.Length; i++)
{
if (Lines[i].Length != 0)
{
switch (Lines[i].ToLowerInvariant())
{
case "[include]":
{
i++;
Vector3 position = new Vector3(0.0, 0.0, 0.0);
ObjectManager.UnifiedObject[] obj = new OpenBve.ObjectManager.UnifiedObject[4];
int objCount = 0;
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 "position":
{
string[] s = b.Split(',');
if (s.Length == 3)
{
double x, y, z;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x))
{
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[2], System.Globalization.NumberStyles.Float, Culture, out z))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Z is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
position = new Vector3(x, y, z);
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 3 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
default:
Interface.AddMessage(Interface.MessageType.Error, false, "The attribute " + a + " is not supported at line " + (i + 1).ToString(Culture) + " in file " + FileName);
break;
}
}
else
{
string Folder = System.IO.Path.GetDirectoryName(FileName);
if (Path.ContainsInvalidChars(Lines[i]))
{
Interface.AddMessage(Interface.MessageType.Error, false, Lines[i] + " contains illegal characters at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
string file = OpenBveApi.Path.CombineFile(Folder, Lines[i]);
if (System.IO.File.Exists(file))
{
if (obj.Length == objCount)
{
Array.Resize <ObjectManager.UnifiedObject>(ref obj, obj.Length << 1);
}
obj[objCount] = ObjectManager.LoadObject(file, Encoding, LoadMode, false, false, false);
objCount++;
}
else
{
Interface.AddMessage(Interface.MessageType.Error, true, "File " + file + " not found at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
}
}
}
i++;
}
i--;
for (int j = 0; j < objCount; j++)
{
if (obj[j] != null)
{
if (obj[j] is ObjectManager.StaticObject)
{
ObjectManager.StaticObject s = (ObjectManager.StaticObject)obj[j];
s.Dynamic = true;
if (ObjectCount >= Result.Objects.Length)
{
Array.Resize <ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
ObjectManager.AnimatedObject a = new ObjectManager.AnimatedObject();
ObjectManager.AnimatedObjectState aos = new ObjectManager.AnimatedObjectState
{
Object = s,
Position = position
};
a.States = new ObjectManager.AnimatedObjectState[] { aos };
Result.Objects[ObjectCount] = a;
ObjectCount++;
}
else if (obj[j] is ObjectManager.AnimatedObjectCollection)
{
ObjectManager.AnimatedObjectCollection a = (ObjectManager.AnimatedObjectCollection)obj[j];
for (int k = 0; k < a.Objects.Length; k++)
{
if (ObjectCount >= Result.Objects.Length)
{
Array.Resize <ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
for (int h = 0; h < a.Objects[k].States.Length; h++)
{
a.Objects[k].States[h].Position.X += position.X;
a.Objects[k].States[h].Position.Y += position.Y;
a.Objects[k].States[h].Position.Z += position.Z;
}
Result.Objects[ObjectCount] = a.Objects[k];
ObjectCount++;
}
}
}
}
}
break;
case "[object]":
{
i++;
if (Result.Objects.Length == ObjectCount)
{
Array.Resize <ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
Result.Objects[ObjectCount] = new ObjectManager.AnimatedObject
{
States = new ObjectManager.AnimatedObjectState[] {},
CurrentState = -1,
TranslateXDirection = new Vector3(1.0, 0.0, 0.0),
TranslateYDirection = new Vector3(0.0, 1.0, 0.0),
TranslateZDirection = new Vector3(0.0, 0.0, 1.0),
RotateXDirection = new Vector3(1.0, 0.0, 0.0),
RotateYDirection = new Vector3(0.0, 1.0, 0.0),
RotateZDirection = new Vector3(0.0, 0.0, 1.0),
TextureShiftXDirection = new Vector2(1.0, 0.0),
TextureShiftYDirection = new Vector2(0.0, 1.0),
RefreshRate = 0.0,
ObjectIndex = -1
};
Vector3 Position = new Vector3(0.0, 0.0, 0.0);
bool timetableUsed = false;
string[] StateFiles = null;
string StateFunctionRpn = null;
int StateFunctionLine = -1;
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 "position":
{
string[] s = b.Split(',');
if (s.Length == 3)
{
double x, y, z;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x))
{
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[2], System.Globalization.NumberStyles.Float, Culture, out z))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Z is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
Position = new Vector3(x, y, z);
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 3 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "states":
{
string[] s = b.Split(',');
if (s.Length >= 1)
{
string Folder = System.IO.Path.GetDirectoryName(FileName);
StateFiles = new string[s.Length];
for (int k = 0; k < s.Length; k++)
{
s[k] = s[k].Trim();
if (s[k].Length == 0)
{
Interface.AddMessage(Interface.MessageType.Error, false, "File" + k.ToString(Culture) + " is an empty string - did you mean something else? - in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
StateFiles[k] = null;
}
else if (Path.ContainsInvalidChars(s[k]))
{
Interface.AddMessage(Interface.MessageType.Error, false, "File" + k.ToString(Culture) + " contains illegal characters in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
StateFiles[k] = null;
}
else
{
StateFiles[k] = OpenBveApi.Path.CombineFile(Folder, s[k]);
if (!System.IO.File.Exists(StateFiles[k]))
{
Interface.AddMessage(Interface.MessageType.Error, true, "File " + StateFiles[k] + " not found in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
StateFiles[k] = null;
}
}
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "At least one argument is expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
return(null);
}
} break;
case "statefunction":
try {
StateFunctionLine = i;
StateFunctionRpn = FunctionScripts.GetPostfixNotationFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "statefunctionrpn":
{
StateFunctionLine = i;
StateFunctionRpn = b;
} break;
case "translatexdirection":
case "translateydirection":
case "translatezdirection":
{
string[] s = b.Split(',');
if (s.Length == 3)
{
double x, y, z;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x))
{
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[2], System.Globalization.NumberStyles.Float, Culture, out z))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Z is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
switch (a.ToLowerInvariant())
{
case "translatexdirection":
Result.Objects[ObjectCount].TranslateXDirection = new Vector3(x, y, z);
break;
case "translateydirection":
Result.Objects[ObjectCount].TranslateYDirection = new Vector3(x, y, z);
break;
case "translatezdirection":
Result.Objects[ObjectCount].TranslateZDirection = new Vector3(x, y, z);
break;
}
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 3 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "translatexfunction":
try {
Result.Objects[ObjectCount].TranslateXFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translateyfunction":
try {
Result.Objects[ObjectCount].TranslateYFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translatezfunction":
try {
Result.Objects[ObjectCount].TranslateZFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translatexfunctionrpn":
try {
Result.Objects[ObjectCount].TranslateXFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translateyfunctionrpn":
try {
Result.Objects[ObjectCount].TranslateYFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translatezfunctionrpn":
try {
Result.Objects[ObjectCount].TranslateZFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatexdirection":
case "rotateydirection":
case "rotatezdirection":
{
string[] s = b.Split(',');
if (s.Length == 3)
{
double x, y, z;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x))
{
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[2], System.Globalization.NumberStyles.Float, Culture, out z))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Z is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (x == 0.0 & y == 0.0 & z == 0.0)
{
Interface.AddMessage(Interface.MessageType.Error, false, "The direction indicated by X, Y and Z is expected to be non-zero in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
switch (a.ToLowerInvariant())
{
case "rotatexdirection":
Result.Objects[ObjectCount].RotateXDirection = new Vector3(x, y, z);
break;
case "rotateydirection":
Result.Objects[ObjectCount].RotateYDirection = new Vector3(x, y, z);
break;
case "rotatezdirection":
Result.Objects[ObjectCount].RotateZDirection = new Vector3(x, y, z);
break;
}
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 3 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "rotatexfunction":
try {
Result.Objects[ObjectCount].RotateXFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotateyfunction":
try {
Result.Objects[ObjectCount].RotateYFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatezfunction":
try {
Result.Objects[ObjectCount].RotateZFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatexfunctionrpn":
try {
Result.Objects[ObjectCount].RotateXFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotateyfunctionrpn":
try {
Result.Objects[ObjectCount].RotateYFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatezfunctionrpn":
try {
Result.Objects[ObjectCount].RotateZFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatexdamping":
case "rotateydamping":
case "rotatezdamping":
{
string[] s = b.Split(',');
if (s.Length == 2)
{
double nf, dr;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out nf))
{
Interface.AddMessage(Interface.MessageType.Error, false, "NaturalFrequency is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out dr))
{
Interface.AddMessage(Interface.MessageType.Error, false, "DampingRatio is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (nf <= 0.0)
{
Interface.AddMessage(Interface.MessageType.Error, false, "NaturalFrequency is expected to be positive in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (dr <= 0.0)
{
Interface.AddMessage(Interface.MessageType.Error, false, "DampingRatio is expected to be positive in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
switch (a.ToLowerInvariant())
{
case "rotatexdamping":
Result.Objects[ObjectCount].RotateXDamping = new ObjectManager.Damping(nf, dr);
break;
case "rotateydamping":
Result.Objects[ObjectCount].RotateYDamping = new ObjectManager.Damping(nf, dr);
break;
case "rotatezdamping":
Result.Objects[ObjectCount].RotateZDamping = new ObjectManager.Damping(nf, dr);
break;
}
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 2 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "textureshiftxdirection":
case "textureshiftydirection":
{
string[] s = b.Split(',');
if (s.Length == 2)
{
double x, y;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x))
{
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
switch (a.ToLowerInvariant())
{
case "textureshiftxdirection":
Result.Objects[ObjectCount].TextureShiftXDirection = new Vector2(x, y);
break;
case "textureshiftydirection":
Result.Objects[ObjectCount].TextureShiftYDirection = new Vector2(x, y);
break;
}
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 2 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "textureshiftxfunction":
try {
Result.Objects[ObjectCount].TextureShiftXFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "textureshiftyfunction":
try {
Result.Objects[ObjectCount].TextureShiftYFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "textureshiftxfunctionrpn":
try {
Result.Objects[ObjectCount].TextureShiftXFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "textureshiftyfunctionrpn":
try {
Result.Objects[ObjectCount].TextureShiftYFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "textureoverride":
switch (b.ToLowerInvariant())
{
case "none":
break;
case "timetable":
if (!timetableUsed)
{
Timetable.AddObjectForCustomTimetable(Result.Objects[ObjectCount]);
timetableUsed = true;
}
break;
default:
Interface.AddMessage(Interface.MessageType.Error, false, "Unrecognized value in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
break;
}
break;
case "refreshrate":
{
double r;
if (!double.TryParse(b, System.Globalization.NumberStyles.Float, Culture, out r))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Value is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (r < 0.0)
{
Interface.AddMessage(Interface.MessageType.Error, false, "Value is expected to be non-negative in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
Result.Objects[ObjectCount].RefreshRate = r;
}
} break;
default:
Interface.AddMessage(Interface.MessageType.Error, false, "The attribute " + a + " is not supported 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);
return(null);
}
}
i++;
}
i--;
if (StateFiles != null)
{
// create the object
if (timetableUsed)
{
if (StateFunctionRpn != null)
{
StateFunctionRpn = "timetable 0 == " + StateFunctionRpn + " -1 ?";
}
else
{
StateFunctionRpn = "timetable";
}
}
if (StateFunctionRpn != null)
{
try {
Result.Objects[ObjectCount].StateFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(StateFunctionRpn);
} catch (Exception ex) {
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in StateFunction at line " + (StateFunctionLine + 1).ToString(Culture) + " in file " + FileName);
}
}
Result.Objects[ObjectCount].States = new ObjectManager.AnimatedObjectState[StateFiles.Length];
bool ForceTextureRepeatX = Result.Objects[ObjectCount].TextureShiftXFunction != null & Result.Objects[ObjectCount].TextureShiftXDirection.X != 0.0 |
Result.Objects[ObjectCount].TextureShiftYFunction != null & Result.Objects[ObjectCount].TextureShiftYDirection.X != 0.0;
bool ForceTextureRepeatY = Result.Objects[ObjectCount].TextureShiftXFunction != null & Result.Objects[ObjectCount].TextureShiftXDirection.Y != 0.0 |
Result.Objects[ObjectCount].TextureShiftYFunction != null & Result.Objects[ObjectCount].TextureShiftYDirection.Y != 0.0;
for (int k = 0; k < StateFiles.Length; k++)
{
Result.Objects[ObjectCount].States[k].Position = new Vector3(0.0, 0.0, 0.0);
if (StateFiles[k] != null)
{
Result.Objects[ObjectCount].States[k].Object = ObjectManager.LoadStaticObject(StateFiles[k], Encoding, LoadMode, false, ForceTextureRepeatX, ForceTextureRepeatY);
if (Result.Objects[ObjectCount].States[k].Object != null)
{
Result.Objects[ObjectCount].States[k].Object.Dynamic = true;
}
}
else
{
Result.Objects[ObjectCount].States[k].Object = null;
}
for (int j = 0; j < Result.Objects[ObjectCount].States.Length; j++)
{
Result.Objects[ObjectCount].States[j].Position = Position;
}
}
}
else
{
Result.Objects[ObjectCount].States = new ObjectManager.AnimatedObjectState[] { };
}
ObjectCount++;
}
break;
case "[sound]":
case "[statechangesound]":
//Only show the sound nag once per route, otherwise this could cause spam...
if (!Program.SoundError)
{
Interface.AddMessage(Interface.MessageType.Information, false, "Animated objects containing sounds are only supported in openBVE v1.5.2.4+");
Interface.AddMessage(Interface.MessageType.Information, false, "Object Viewer does not support sounds. Please use the main game to test these!");
Program.SoundError = true;
}
i++;
while (i < Lines.Length && !(Lines[i].StartsWith("[", StringComparison.Ordinal) & Lines[i].EndsWith("]", StringComparison.Ordinal)))
{
i++;
}
break;
default:
Interface.AddMessage(Interface.MessageType.Error, false, "Invalid statement " + Lines[i] + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName);
return(null);
}
}
}
Array.Resize <ObjectManager.AnimatedObject>(ref Result.Objects, ObjectCount);
return(Result);
}
/// <summary>Attempts to load and parse the current train's panel configuration file.</summary>
/// <param name="TrainPath">The absolute on-disk path to the train folder.</param>
/// <param name="Encoding">The automatically detected or manually set encoding of the panel configuration file.</param>
/// <param name="Train">The base train on which to apply the panel configuration.</param>
internal static void ParsePanelConfig(string TrainPath, System.Text.Encoding Encoding, Train Train)
{
Train.Cars[Train.DriverCar].CarSections = new CarSection[1];
Train.Cars[Train.DriverCar].CarSections[0] = new CarSection
{
Groups = new ElementsGroup[1]
};
Train.Cars[Train.DriverCar].CarSections[0].Groups[0] = new ElementsGroup
{
Elements = new ObjectManager.AnimatedObject[] { },
Overlay = true
};
string File = OpenBveApi.Path.CombineFile(TrainPath, "panel.xml");
if (!System.IO.File.Exists(File))
{
//Try animated variant too
File = OpenBveApi.Path.CombineFile(TrainPath, "panel.animated.xml");
}
if (System.IO.File.Exists(File))
{
Program.FileSystem.AppendToLogFile("Loading train panel: " + File);
try
{
/*
* First load the XML. We use this to determine
* whether this is a 2D or a 3D animated panel
*/
XDocument CurrentXML = XDocument.Load(File, LoadOptions.SetLineInfo);
// Check for null
if (CurrentXML.Root != null)
{
IEnumerable <XElement> DocumentElements = CurrentXML.Root.Elements("PanelAnimated");
if (DocumentElements.Any())
{
PanelAnimatedXmlParser.ParsePanelAnimatedXml(System.IO.Path.GetFileName(File), TrainPath, Train, Train.DriverCar);
Train.Cars[Train.DriverCar].CameraRestrictionMode = Camera.RestrictionMode.NotAvailable;
World.CameraRestriction = Camera.RestrictionMode.NotAvailable;
}
DocumentElements = CurrentXML.Root.Elements("Panel");
if (DocumentElements.Any())
{
PanelXmlParser.ParsePanelXml(System.IO.Path.GetFileName(File), TrainPath, Train, Train.DriverCar);
Train.Cars[Train.DriverCar].CameraRestrictionMode = Camera.RestrictionMode.On;
World.CameraRestriction = Camera.RestrictionMode.On;
}
}
}
catch
{
var currentError = Translations.GetInterfaceString("errors_critical_file");
currentError = currentError.Replace("[file]", "panel.xml");
MessageBox.Show(currentError, Application.ProductName, MessageBoxButtons.OK, MessageBoxIcon.Hand);
Program.RestartArguments = " ";
Loading.Cancel = true;
return;
}
if (Train.Cars[Train.DriverCar].CarSections[0].Groups[0].Elements.Any())
{
World.UpdateViewingDistances();
return;
}
Interface.AddMessage(MessageType.Error, false, "The panel.xml file " + File + " failed to load. Falling back to legacy panel.");
}
else
{
File = OpenBveApi.Path.CombineFile(TrainPath, "panel.animated");
if (System.IO.File.Exists(File))
{
Program.FileSystem.AppendToLogFile("Loading train panel: " + File);
if (System.IO.File.Exists(OpenBveApi.Path.CombineFile(TrainPath, "panel2.cfg")) || System.IO.File.Exists(OpenBveApi.Path.CombineFile(TrainPath, "panel.cfg")))
{
Program.FileSystem.AppendToLogFile("INFO: This train contains both a 2D and a 3D panel. The 3D panel will always take precedence");
}
ObjectManager.AnimatedObjectCollection a = AnimatedObjectParser.ReadObject(File, Encoding);
if (a != null)
{
//HACK: If a == null , loading our animated object completely failed (Missing objects?). Fallback to trying the panel2.cfg
try
{
for (int i = 0; i < a.Objects.Length; i++)
{
a.Objects[i].ObjectIndex = ObjectManager.CreateDynamicObject();
}
Train.Cars[Train.DriverCar].CarSections[0].Groups[0].Elements = a.Objects;
Train.Cars[Train.DriverCar].CameraRestrictionMode = Camera.RestrictionMode.NotAvailable;
World.CameraRestriction = Camera.RestrictionMode.NotAvailable;
World.UpdateViewingDistances();
return;
}
catch
{
var currentError = Translations.GetInterfaceString("errors_critical_file");
currentError = currentError.Replace("[file]", "panel.animated");
MessageBox.Show(currentError, Application.ProductName, MessageBoxButtons.OK, MessageBoxIcon.Hand);
Program.RestartArguments = " ";
Loading.Cancel = true;
return;
}
}
Interface.AddMessage(MessageType.Error, false, "The panel.animated file " + File + " failed to load. Falling back to 2D panel.");
}
}
var Panel2 = false;
try
{
File = OpenBveApi.Path.CombineFile(TrainPath, "panel2.cfg");
if (System.IO.File.Exists(File))
{
Program.FileSystem.AppendToLogFile("Loading train panel: " + File);
Panel2 = true;
Panel2CfgParser.ParsePanel2Config("panel2.cfg", TrainPath, Encoding, Train, Train.DriverCar);
Train.Cars[Train.DriverCar].CameraRestrictionMode = Camera.RestrictionMode.On;
World.CameraRestriction = Camera.RestrictionMode.On;
}
else
{
File = OpenBveApi.Path.CombineFile(TrainPath, "panel.cfg");
if (System.IO.File.Exists(File))
{
Program.FileSystem.AppendToLogFile("Loading train panel: " + File);
PanelCfgParser.ParsePanelConfig(TrainPath, Encoding, Train);
Train.Cars[Train.DriverCar].CameraRestrictionMode = Camera.RestrictionMode.On;
World.CameraRestriction = Camera.RestrictionMode.On;
}
else
{
World.CameraRestriction = Camera.RestrictionMode.NotAvailable;
}
}
}
catch
{
var currentError = Translations.GetInterfaceString("errors_critical_file");
currentError = currentError.Replace("[file]", Panel2 ? "panel2.cfg" : "panel.cfg");
MessageBox.Show(currentError, Application.ProductName, MessageBoxButtons.OK, MessageBoxIcon.Hand);
Program.RestartArguments = " ";
Loading.Cancel = true;
}
}
internal static void ParseExtensionsConfig(string filePath, Encoding encoding, out UnifiedObject[] carObjects, out UnifiedObject[] bogieObjects, out double[] axleLocations, out TrainManager.Train train, bool loadObjects)
{
CultureInfo Culture = CultureInfo.InvariantCulture;
carObjects = new UnifiedObject[] { };
bogieObjects = new UnifiedObject[] { };
axleLocations = new double[] { };
train = new TrainManager.Train();
if (!System.IO.File.Exists(filePath))
{
return;
}
train.Cars = new TrainManager.Car[] { };
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];
axleLocations = new double[train.Cars.Length * 2];
string trainPath = System.IO.Path.GetDirectoryName(filePath);
System.Globalization.CultureInfo culture = System.Globalization.CultureInfo.InvariantCulture;
TextEncoding.Encoding newEncoding = TextEncoding.GetEncodingFromFile(filePath);
if (newEncoding != TextEncoding.Encoding.Unknown)
{
switch (newEncoding)
{
case TextEncoding.Encoding.Utf7:
encoding = Encoding.UTF7;
break;
case TextEncoding.Encoding.Utf8:
encoding = Encoding.UTF8;
break;
case TextEncoding.Encoding.Utf16Le:
encoding = Encoding.Unicode;
break;
case TextEncoding.Encoding.Utf16Be:
encoding = Encoding.BigEndianUnicode;
break;
case TextEncoding.Encoding.Utf32Le:
encoding = Encoding.UTF32;
break;
case TextEncoding.Encoding.Utf32Be:
encoding = Encoding.GetEncoding(12001);
break;
case TextEncoding.Encoding.Shift_JIS:
encoding = Encoding.GetEncoding(932);
break;
}
}
string[] lines = System.IO.File.ReadAllLines(filePath, 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)
{
if (n >= train.Cars.Length)
{
Array.Resize(ref train.Cars, n + 1);
Array.Resize(ref carObjects, n + 1);
Array.Resize(ref bogieObjects, (n + 1) * 2);
Array.Resize(ref carObjectsReversed, n + 1);
Array.Resize(ref bogieObjectsReversed, (n + 1) * 2);
Array.Resize(ref carsDefined, n + 1);
Array.Resize(ref bogiesDefined, (n + 1) * 2);
}
if (Path.ContainsInvalidChars(b))
{
Interface.AddMessage(MessageType.Error, false, "File contains illegal characters at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
else
{
string file = OpenBveApi.Path.CombineFile(trainPath, b);
if (System.IO.File.Exists(file))
{
if (loadObjects)
{
carObjects[n] = ObjectManager.LoadObject(file, encoding, false, false, false);
}
}
else
{
Interface.AddMessage(MessageType.Error, true, "The car object " + file + " does not exist at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
}
}
else
{
Interface.AddMessage(MessageType.Error, false, "The car index " + a + " does not reference an existing car at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
}
else
{
Interface.AddMessage(MessageType.Error, false, "The car index is expected to be an integer at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
}
else
{
Interface.AddMessage(MessageType.Error, false, "Invalid statement " + lines[i] + " encountered at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
}
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)
{
if (n >= train.Cars.Length)
{
Array.Resize(ref train.Cars, n + 1);
Array.Resize(ref carObjects, n + 1);
Array.Resize(ref bogieObjects, (n + 1) * 2);
Array.Resize(ref carObjectsReversed, n + 1);
Array.Resize(ref bogieObjectsReversed, (n + 1) * 2);
Array.Resize(ref carsDefined, n + 1);
Array.Resize(ref bogiesDefined, (n + 1) * 2);
Array.Resize(ref axleLocations, (n + 1) * 2);
}
if (carsDefined[n])
{
Interface.AddMessage(MessageType.Error, false, "Car " + n.ToString(culture) + " has already been declared at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
carsDefined[n] = true;
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 (string.IsNullOrEmpty(b))
{
Interface.AddMessage(MessageType.Error, true, "An empty car object was supplied at line " + (i + 1).ToString(culture) + " in file " + filePath);
break;
}
if (Path.ContainsInvalidChars(b))
{
Interface.AddMessage(MessageType.Error, false, "File contains illegal characters at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
else
{
string file = OpenBveApi.Path.CombineFile(trainPath, b);
if (System.IO.File.Exists(file))
{
if (loadObjects)
{
carObjects[n] = ObjectManager.LoadObject(file, encoding, false, false, false);
}
}
else
{
Interface.AddMessage(MessageType.Error, true, "The car object " + file + " does not exist at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
}
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;
}
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 " + filePath);
}
}
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 " + filePath);
}
}
break;
case "reversed":
carObjectsReversed[n] = b.Equals("true", StringComparison.OrdinalIgnoreCase);
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(MessageType.Error, false, "Rear is expected to be a floating-point number in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + filePath);
}
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 " + filePath);
}
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 " + filePath);
}
else
{
axleLocations[n] = rear;
axleLocations[n + 1] = front;
}
}
else
{
Interface.AddMessage(MessageType.Error, false, "An argument-separating comma is expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + filePath);
}
break;
default:
Interface.AddMessage(MessageType.Warning, false, "Unsupported key-value pair " + a + " encountered at line " + (i + 1).ToString(culture) + " in file " + filePath);
break;
}
}
else
{
Interface.AddMessage(MessageType.Error, false, "Invalid statement " + lines[i] + " encountered at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
}
i++;
}
i--;
}
else
{
Interface.AddMessage(MessageType.Error, false, "The car index " + t + " does not reference an existing car at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
}
else
{
Interface.AddMessage(MessageType.Error, false, "The car index is expected to be an integer at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
}
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 >= train.Cars.Length * 2)
{
Array.Resize(ref train.Cars, n / 2 + 1);
Array.Resize(ref carObjects, n / 2 + 1);
Array.Resize(ref bogieObjects, n + 2);
Array.Resize(ref carObjectsReversed, n / 2 + 1);
Array.Resize(ref bogieObjectsReversed, n + 2);
Array.Resize(ref carsDefined, n / 2 + 1);
Array.Resize(ref bogiesDefined, n + 2);
}
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 " + filePath);
}
bogiesDefined[n] = true;
//Assuming that there are two bogies per car
if (n >= 0 & n < train.Cars.Length * 2)
{
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 (Path.ContainsInvalidChars(b))
{
Interface.AddMessage(MessageType.Error, false, "File contains illegal characters at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
else
{
if (string.IsNullOrEmpty(b))
{
Interface.AddMessage(MessageType.Error, true, "An empty bogie object was supplied at line " + (i + 1).ToString(culture) + " in file " + filePath);
break;
}
string file = OpenBveApi.Path.CombineFile(trainPath, b);
if (System.IO.File.Exists(file))
{
if (loadObjects)
{
bogieObjects[n] = ObjectManager.LoadObject(file, encoding, false, false, false);
}
}
else
{
Interface.AddMessage(MessageType.Error, true, "The bogie object " + file + " does not exist at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
}
break;
case "length":
{
Interface.AddMessage(MessageType.Error, false, "A defined length is not supported for bogies at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
break;
case "reversed":
bogieObjectsReversed[n] = b.Equals("true", StringComparison.OrdinalIgnoreCase);
break;
case "axles":
//Axles aren't used in bogie positioning, just in rotation
break;
default:
Interface.AddMessage(MessageType.Warning, false, "Unsupported key-value pair " + a + " encountered at line " + (i + 1).ToString(culture) + " in file " + filePath);
break;
}
}
else
{
Interface.AddMessage(MessageType.Error, false, "Invalid statement " + lines[i] + " encountered at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
}
i++;
}
i--;
}
else
{
Interface.AddMessage(MessageType.Error, false, "The car index " + t + " does not reference an existing car at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
}
else
{
Interface.AddMessage(MessageType.Error, false, "The car index is expected to be an integer at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
}
else if (lines[i].StartsWith("[coupler", StringComparison.OrdinalIgnoreCase) & lines[i].EndsWith("]", StringComparison.Ordinal))
{
i++;
while (i < lines.Length && !lines[i].StartsWith("[", StringComparison.Ordinal) & !lines[i].EndsWith("]", StringComparison.Ordinal))
{
/*
* Coupler statments are currently not supported in Object Viewer
*/
i++;
}
i--;
}
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(filePath, Encoding.GetEncoding(1252), out carObjects, out bogieObjects, out axleLocations, out train, loadObjects);
return;
}
Interface.AddMessage(MessageType.Error, false, "Invalid statement " + lines[i] + " encountered at line " + (i + 1).ToString(culture) + " in file " + filePath);
}
break;
}
}
}
// check for car objects and reverse if necessary
int carObjectsCount = 0;
for (int i = 0; i < train.Cars.Length; i++)
{
if (carObjects[i] != null)
{
carObjectsCount++;
if (carObjectsReversed[i] && loadObjects)
{
if (carObjects[i] is ObjectManager.StaticObject)
{
ObjectManager.StaticObject obj = (ObjectManager.StaticObject)carObjects[i];
obj.ApplyScale(-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++)
{
obj.Objects[j].States[h].Object.ApplyScale(-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 bogieObjectsCount = 0;
for (int i = 0; i < train.Cars.Length * 2; i++)
{
if (bogieObjects[i] != null)
{
bogieObjectsCount++;
if (bogieObjectsReversed[i] && loadObjects)
{
if (bogieObjects[i] is ObjectManager.StaticObject)
{
ObjectManager.StaticObject obj = (ObjectManager.StaticObject)bogieObjects[i];
obj.ApplyScale(-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++)
{
obj.Objects[j].States[h].Object.ApplyScale(-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 (carObjectsCount > 0 & carObjectsCount < train.Cars.Length)
{
Interface.AddMessage(MessageType.Warning, false, "An incomplete set of exterior objects was provided in file " + filePath);
}
if (bogieObjectsCount > 0 & bogieObjectsCount < train.Cars.Length * 2)
{
Interface.AddMessage(MessageType.Warning, false, "An incomplete set of bogie objects was provided in file " + filePath);
}
}
/// <summary>Loads a Loksim3D GruppenObject</summary>
/// <param name="FileName">The filename to load</param>
/// <param name="Encoding">The text encoding of the containing file (Currently ignored, REMOVE??)</param>
/// <param name="LoadMode">The object load mode</param>
/// <returns>A new animated object collection, containing the GruppenObject's meshes etc.</returns>
internal static ObjectManager.AnimatedObjectCollection ReadObject(string FileName, System.Text.Encoding Encoding, ObjectManager.ObjectLoadMode LoadMode)
{
XmlDocument currentXML = new XmlDocument();
//May need to be changed to use de-DE
System.Globalization.CultureInfo Culture = System.Globalization.CultureInfo.InvariantCulture;
ObjectManager.AnimatedObjectCollection Result = new ObjectManager.AnimatedObjectCollection();
Result.Objects = new ObjectManager.AnimatedObject[0];
try
{
currentXML.Load(FileName);
}
catch (Exception ex)
{
//The XML is not strictly valid
string[] Lines = File.ReadAllLines(FileName);
using (var stringReader = new StringReader(Lines[0]))
{
var settings = new XmlReaderSettings {
ConformanceLevel = ConformanceLevel.Fragment
};
using (var xmlReader = XmlReader.Create(stringReader, settings))
{
if (xmlReader.Read())
{
//Attempt to find the text encoding and re-read the file
var result = xmlReader.GetAttribute("encoding");
var e = System.Text.Encoding.GetEncoding(result);
Lines = File.ReadAllLines(FileName, e);
//Turf out the old encoding, as our string array should now be UTF-8
Lines[0] = "<?xml version=\"1.0\"?>";
}
}
}
for (int i = 0; i < Lines.Length; i++)
{
while (Lines[i].IndexOf("\"\"") != -1)
{
//Loksim parser tolerates multiple quotes, strict XML does not
Lines[i] = Lines[i].Replace("\"\"", "\"");
}
while (Lines[i].IndexOf(" ") != -1)
{
//Replace double-spaces with singles
Lines[i] = Lines[i].Replace(" ", " ");
}
}
bool tryLoad = false;
try
{
//Horrible hack: Write out our string array to a new memory stream, then load from this stream
//Why can't XmlDocument.Load() just take a string array......
using (var stream = new MemoryStream())
{
var sw = new StreamWriter(stream);
foreach (var line in Lines)
{
sw.Write(line);
sw.Flush();
}
sw.Flush();
stream.Position = 0;
currentXML.Load(stream);
tryLoad = true;
}
}
catch
{
//Generic catch-all clause
}
if (!tryLoad)
{
//Pass out the *original* XML error, not anything generated when we've tried to correct it
Interface.AddMessage(Interface.MessageType.Error, false, "Error parsing Loksim3D XML: " + ex.Message);
return(null);
}
}
string BaseDir = System.IO.Path.GetDirectoryName(FileName);
GruppenObject[] CurrentObjects = new GruppenObject[0];
//Check for null
if (currentXML.DocumentElement != null)
{
ObjectManager.UnifiedObject[] obj = new OpenBve.ObjectManager.UnifiedObject[0];
XmlNodeList DocumentNodes = currentXML.DocumentElement.SelectNodes("/GRUPPENOBJECT");
if (DocumentNodes != null)
{
foreach (XmlNode outerNode in DocumentNodes)
{
if (outerNode.HasChildNodes)
{
foreach (XmlNode node in outerNode.ChildNodes)
{
if (node.Name == "Object" && node.HasChildNodes)
{
foreach (XmlNode childNode in node.ChildNodes)
{
if (childNode.Name == "Props" && childNode.Attributes != null)
{
GruppenObject Object = new GruppenObject();
foreach (XmlAttribute attribute in childNode.Attributes)
{
switch (attribute.Name)
{
case "Name":
string ObjectFile = OpenBveApi.Path.Loksim3D.CombineFile(BaseDir, attribute.Value, Program.FileSystem.LoksimPackageInstallationDirectory);
if (!File.Exists(ObjectFile))
{
Object.Name = null;
Interface.AddMessage(Interface.MessageType.Warning, true, "Ls3d Object file " + attribute.Value + " not found.");
}
else
{
Object.Name = ObjectFile;
}
break;
case "Position":
string[] SplitPosition = attribute.Value.Split(';');
double.TryParse(SplitPosition[0], out Object.Position.X);
double.TryParse(SplitPosition[1], out Object.Position.Y);
double.TryParse(SplitPosition[2], out Object.Position.Z);
break;
case "Rotation":
string[] SplitRotation = attribute.Value.Split(';');
double.TryParse(SplitRotation[0], out Object.Rotation.X);
double.TryParse(SplitRotation[1], out Object.Rotation.Y);
double.TryParse(SplitRotation[2], out Object.Rotation.Z);
break;
case "ShowOn":
//Defines when the object should be shown
Object.FunctionScript = FunctionScripts.GetPostfixNotationFromInfixNotation(GetAnimatedFunction(attribute.Value, false));
break;
case "HideOn":
//Defines when the object should be hidden
Object.FunctionScript = FunctionScripts.GetPostfixNotationFromInfixNotation(GetAnimatedFunction(attribute.Value, true));
break;
}
}
if (Object.Name != null)
{
Array.Resize <GruppenObject>(ref CurrentObjects, CurrentObjects.Length + 1);
CurrentObjects[CurrentObjects.Length - 1] = Object;
}
}
}
}
}
}
}
//We've loaded the XML references, now load the objects into memory
for (int i = 0; i < CurrentObjects.Length; i++)
{
if (CurrentObjects[i] == null || string.IsNullOrEmpty(CurrentObjects[i].Name))
{
continue;
}
var Object = (ObjectManager.StaticObject)ObjectManager.LoadObject(CurrentObjects[i].Name, Encoding, LoadMode, false, false, false, CurrentObjects[i].Rotation);
if (Object != null)
{
Array.Resize <ObjectManager.UnifiedObject>(ref obj, obj.Length + 1);
obj[obj.Length - 1] = Object;
Array.Resize <ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length + 1);
ObjectManager.AnimatedObject a = new ObjectManager.AnimatedObject();
ObjectManager.AnimatedObjectState aos = new ObjectManager.AnimatedObjectState
{
Object = Object,
Position = CurrentObjects[i].Position,
};
a.States = new ObjectManager.AnimatedObjectState[] { aos };
Result.Objects[i] = a;
if (!string.IsNullOrEmpty(CurrentObjects[i].FunctionScript))
{
Result.Objects[i].StateFunction =
FunctionScripts.GetFunctionScriptFromPostfixNotation(CurrentObjects[i].FunctionScript + " 1 == --");
}
}
}
}
return(Result);
}
//Didn't find an acceptable XML object
//Probably will cause things to throw an absolute wobbly somewhere....
return(null);
}
internal static ObjectManager.AnimatedObjectCollection ReadObject(string FileName, System.Text.Encoding Encoding,
ObjectManager.ObjectLoadMode LoadMode)
{
XmlDocument currentXML = new XmlDocument();
//May need to be changed to use de-DE
System.Globalization.CultureInfo Culture = System.Globalization.CultureInfo.InvariantCulture;
ObjectManager.AnimatedObjectCollection Result = new ObjectManager.AnimatedObjectCollection();
Result.Objects = new ObjectManager.AnimatedObject[0];
int ObjectCount = 0;
currentXML.Load(FileName);
string BaseDir = System.IO.Path.GetDirectoryName(FileName);
GruppenObject[] CurrentObjects = new GruppenObject[0];
//Check for null
if (currentXML.DocumentElement != null)
{
ObjectManager.UnifiedObject[] obj = new OpenBve.ObjectManager.UnifiedObject[0];
XmlNodeList DocumentNodes = currentXML.DocumentElement.SelectNodes("/GRUPPENOBJECT");
if (DocumentNodes != null)
{
foreach (XmlNode outerNode in DocumentNodes)
{
if (outerNode.HasChildNodes)
{
foreach (XmlNode node in outerNode.ChildNodes)
{
if (node.Name == "Object" && node.HasChildNodes)
{
foreach (XmlNode childNode in node.ChildNodes)
{
if (childNode.Name == "Props" && childNode.Attributes != null)
{
Array.Resize <GruppenObject>(ref CurrentObjects, CurrentObjects.Length + 1);
GruppenObject Object = new GruppenObject();
foreach (XmlAttribute attribute in childNode.Attributes)
{
switch (attribute.Name)
{
case "Name":
string ObjectFile = OpenBveApi.Path.CombineFile(BaseDir, attribute.Value);
Object.Name = ObjectFile;
ObjectCount++;
break;
case "Position":
string[] SplitPosition = attribute.Value.Split(';');
double.TryParse(SplitPosition[0], out Object.Position.X);
double.TryParse(SplitPosition[1], out Object.Position.Y);
double.TryParse(SplitPosition[2], out Object.Position.Z);
break;
case "Rotation":
string[] SplitRotation = attribute.Value.Split(';');
double.TryParse(SplitRotation[0], out Object.RotationX);
double.TryParse(SplitRotation[1], out Object.RotationY);
double.TryParse(SplitRotation[2], out Object.RotationZ);
break;
}
}
CurrentObjects[CurrentObjects.Length - 1] = Object;
}
}
}
}
}
}
//We've loaded the XML references, now load the objects into memory
for (int i = 0; i < CurrentObjects.Length; i++)
{
var Object = ObjectManager.LoadObject(CurrentObjects[i].Name, Encoding, LoadMode, false, false, false, CurrentObjects[i].RotationX, CurrentObjects[i].RotationY, CurrentObjects[i].RotationZ);
if (Object != null)
{
Array.Resize <ObjectManager.UnifiedObject>(ref obj, obj.Length + 1);
obj[obj.Length - 1] = Object;
}
}
for (int j = 0; j < obj.Length; j++)
{
if (obj[j] != null)
{
Array.Resize <ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length + 1);
if (obj[j] is ObjectManager.StaticObject)
{
ObjectManager.StaticObject s = (ObjectManager.StaticObject)obj[j];
s.Dynamic = true;
ObjectManager.AnimatedObject a = new ObjectManager.AnimatedObject();
ObjectManager.AnimatedObjectState aos = new ObjectManager.AnimatedObjectState
{
Object = s,
Position = CurrentObjects[j].Position
};
a.States = new ObjectManager.AnimatedObjectState[] { aos };
Result.Objects[j] = a;
ObjectCount++;
}
else if (obj[j] is ObjectManager.AnimatedObjectCollection)
{
ObjectManager.AnimatedObjectCollection a =
(ObjectManager.AnimatedObjectCollection)obj[j];
for (int k = 0; k < a.Objects.Length; k++)
{
for (int h = 0; h < a.Objects[k].States.Length; h++)
{
a.Objects[k].States[h].Position.X += CurrentObjects[j].Position.X;
a.Objects[k].States[h].Position.Y += CurrentObjects[j].Position.Y;
a.Objects[k].States[h].Position.Z += CurrentObjects[j].Position.Z;
}
Result.Objects[j] = a.Objects[k];
ObjectCount++;
}
}
}
}
}
return(Result);
}
//Didn't find an acceptable XML object
//Probably will cause things to throw an absolute wobbly somewhere....
return(null);
}
internal static ObjectManager.AnimatedObjectCollection ReadObject(string FileName, System.Text.Encoding Encoding,
ObjectManager.ObjectLoadMode LoadMode)
{
XmlDocument currentXML = new XmlDocument();
//May need to be changed to use de-DE
System.Globalization.CultureInfo Culture = System.Globalization.CultureInfo.InvariantCulture;
ObjectManager.AnimatedObjectCollection Result = new ObjectManager.AnimatedObjectCollection();
Result.Objects = new ObjectManager.AnimatedObject[0];
int ObjectCount = 0;
currentXML.Load(FileName);
string BaseDir = System.IO.Path.GetDirectoryName(FileName);
GruppenObject[] CurrentObjects = new GruppenObject[0];
//Check for null
if (currentXML.DocumentElement != null)
{
ObjectManager.UnifiedObject[] obj = new OpenBve.ObjectManager.UnifiedObject[0];
XmlNodeList DocumentNodes = currentXML.DocumentElement.SelectNodes("/GRUPPENOBJECT");
if (DocumentNodes != null)
{
foreach (XmlNode outerNode in DocumentNodes)
{
if (outerNode.HasChildNodes)
{
foreach (XmlNode node in outerNode.ChildNodes)
{
if (node.Name == "Object" && node.HasChildNodes)
{
foreach (XmlNode childNode in node.ChildNodes)
{
if (childNode.Name == "Props" && childNode.Attributes != null)
{
Array.Resize<GruppenObject>(ref CurrentObjects, CurrentObjects.Length + 1);
GruppenObject Object = new GruppenObject();
foreach (XmlAttribute attribute in childNode.Attributes)
{
switch (attribute.Name)
{
case "Name":
string ObjectFile = OpenBveApi.Path.CombineFile(BaseDir,attribute.Value);
Object.Name = ObjectFile;
ObjectCount++;
break;
case "Position":
string[] SplitPosition = attribute.Value.Split(';');
double.TryParse(SplitPosition[0], out Object.Position.X);
double.TryParse(SplitPosition[1], out Object.Position.Y);
double.TryParse(SplitPosition[2], out Object.Position.Z);
break;
case "Rotation":
string[] SplitRotation = attribute.Value.Split(';');
double.TryParse(SplitRotation[0], out Object.RotationX);
double.TryParse(SplitRotation[1], out Object.RotationY);
double.TryParse(SplitRotation[2], out Object.RotationZ);
break;
}
}
CurrentObjects[CurrentObjects.Length - 1] = Object;
}
}
}
}
}
}
//We've loaded the XML references, now load the objects into memory
for (int i = 0; i < CurrentObjects.Length; i++)
{
var Object = ObjectManager.LoadObject(CurrentObjects[i].Name, Encoding, LoadMode, false, false, false, CurrentObjects[i].RotationX, CurrentObjects[i].RotationY, CurrentObjects[i].RotationZ);
if (Object != null)
{
Array.Resize<ObjectManager.UnifiedObject>(ref obj, obj.Length +1);
obj[obj.Length - 1] = Object;
}
}
for (int j = 0; j < obj.Length; j++)
{
if (obj[j] != null)
{
Array.Resize<ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length + 1);
if (obj[j] is ObjectManager.StaticObject)
{
ObjectManager.StaticObject s = (ObjectManager.StaticObject) obj[j];
s.Dynamic = true;
ObjectManager.AnimatedObject a = new ObjectManager.AnimatedObject();
ObjectManager.AnimatedObjectState aos = new ObjectManager.AnimatedObjectState
{
Object = s,
Position = CurrentObjects[j].Position
};
a.States = new ObjectManager.AnimatedObjectState[] {aos};
Result.Objects[j] = a;
ObjectCount++;
}
else if (obj[j] is ObjectManager.AnimatedObjectCollection)
{
ObjectManager.AnimatedObjectCollection a =
(ObjectManager.AnimatedObjectCollection) obj[j];
for (int k = 0; k < a.Objects.Length; k++)
{
for (int h = 0; h < a.Objects[k].States.Length; h++)
{
a.Objects[k].States[h].Position.X += CurrentObjects[j].Position.X;
a.Objects[k].States[h].Position.Y += CurrentObjects[j].Position.Y;
a.Objects[k].States[h].Position.Z += CurrentObjects[j].Position.Z;
}
Result.Objects[j] = a.Objects[k];
ObjectCount++;
}
}
}
}
}
return Result;
}
//Didn't find an acceptable XML object
//Probably will cause things to throw an absolute wobbly somewhere....
return null;
}
// parse animated object config
/// <summary>Loads a collection of animated objects from a file.</summary>
/// <param name="FileName">The text file to load the animated object from. Must be an absolute file name.</param>
/// <param name="Encoding">The encoding the file is saved in. If the file uses a byte order mark, the encoding indicated by the byte order mark is used and the Encoding parameter is ignored.</param>
/// <param name="LoadMode">The texture load mode.</param>
/// <returns>The collection of animated objects.</returns>
internal static ObjectManager.AnimatedObjectCollection ReadObject(string FileName, System.Text.Encoding Encoding, ObjectManager.ObjectLoadMode LoadMode)
{
ObjectManager.AnimatedObjectCollection Result = new ObjectManager.AnimatedObjectCollection();
Result.Objects = new ObjectManager.AnimatedObject[4];
int ObjectCount = 0;
// load file
string[] Lines = System.IO.File.ReadAllLines(FileName, Encoding);
bool rpnUsed = false;
for (int i = 0; i < Lines.Length; i++)
{
int j = Lines[i].IndexOf(';');
// cut comments out
Lines[i] = j >= 0 ? Lines[i].Substring(0, j).Trim() : Lines[i].Trim();
rpnUsed = Lines[i].IndexOf("functionrpn", StringComparison.OrdinalIgnoreCase) >= 0;
}
if (rpnUsed)
{
Debug.AddMessage(Debug.MessageType.Error, false, "An animated object file contains RPN functions. These were never meant to be used directly, only for debugging. They won't be supported indefinately. Please get rid of them in file " + FileName);
}
for (int i = 0; i < Lines.Length; i++)
{
if (Lines[i].Length != 0)
{
switch (Lines[i].ToLowerInvariant())
{
case "[include]":
{
i++;
Vector3D position = new Vector3D(0.0, 0.0, 0.0);
ObjectManager.UnifiedObject[] obj = new ObjectManager.UnifiedObject[4];
int objCount = 0;
while (i < Lines.Length && !(Lines[i].StartsWith("[", StringComparison.Ordinal) && Lines[i].EndsWith("]", StringComparison.Ordinal)))
{
if (Lines[i].Length != 0)
{
int equals = Lines[i].IndexOf("=", StringComparison.Ordinal);
if (equals > 0)
{
/*
* Process key-value pair, the only supported key is position.
*/
string before = Lines[i].Substring(0, equals).TrimEnd();
string after = Lines[i].Substring(equals + 1).TrimStart();
switch (before.ToLowerInvariant())
{
case "position":
ParsePosition(after, ref position, before, i + 1, FileName);
break;
default:
Debug.AddMessage(Debug.MessageType.Error, false, "The attribute " + before + " is not supported at line " + (i + 1).ToString(Culture) + " in file " + FileName);
break;
}
}
else
{
/*
* Process object with file name relative to the location of this ANIMATED file.
*/
string Folder = System.IO.Path.GetDirectoryName(FileName);
if (Path.ContainsInvalidPathChars(Lines[i]))
{
Debug.AddMessage(Debug.MessageType.Error, false, Lines[i] + " contains illegal characters at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
string file = OpenBveApi.Path.CombineFile(Folder, Lines[i]);
if (System.IO.File.Exists(file))
{
if (obj.Length == objCount)
{
Array.Resize <ObjectManager.UnifiedObject>(ref obj, obj.Length << 1);
}
obj[objCount] = ObjectManager.LoadObject(file, Encoding, LoadMode, false, false, false);
objCount++;
}
else
{
Debug.AddMessage(Debug.MessageType.Error, true, "File " + file + " not found at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
}
}
}
i++;
}
i--;
for (int j = 0; j < objCount; j++)
{
if (obj[j] != null)
{
if (obj[j] is ObjectManager.StaticObject)
{
ObjectManager.StaticObject s = (ObjectManager.StaticObject)obj[j];
s.Dynamic = true;
if (ObjectCount >= Result.Objects.Length)
{
Array.Resize <ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
ObjectManager.AnimatedObject a = new ObjectManager.AnimatedObject();
ObjectManager.AnimatedObjectState aos = new ObjectManager.AnimatedObjectState();
aos.Object = s;
aos.Position = position;
a.States = new[] { aos };
Result.Objects[ObjectCount] = a;
ObjectCount++;
}
else if (obj[j] is ObjectManager.AnimatedObjectCollection)
{
ObjectManager.AnimatedObjectCollection a = (ObjectManager.AnimatedObjectCollection)obj[j];
for (int k = 0; k < a.Objects.Length; k++)
{
if (ObjectCount >= Result.Objects.Length)
{
Array.Resize <ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
for (int h = 0; h < a.Objects[k].States.Length; h++)
{
a.Objects[k].States[h].Position.X += position.X;
a.Objects[k].States[h].Position.Y += position.Y;
a.Objects[k].States[h].Position.Z += position.Z;
}
Result.Objects[ObjectCount] = a.Objects[k];
ObjectCount++;
}
}
}
}
}
break;
case "[object]":
{
i++;
if (Result.Objects.Length == ObjectCount)
{
Array.Resize <ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
Result.Objects[ObjectCount] = new ObjectManager.AnimatedObject();
Result.Objects[ObjectCount].States = new ObjectManager.AnimatedObjectState[] { };
Result.Objects[ObjectCount].CurrentState = -1;
Result.Objects[ObjectCount].TranslateXDirection = new Vector3D(1.0, 0.0, 0.0);
Result.Objects[ObjectCount].TranslateYDirection = new Vector3D(0.0, 1.0, 0.0);
Result.Objects[ObjectCount].TranslateZDirection = new Vector3D(0.0, 0.0, 1.0);
Result.Objects[ObjectCount].RotateXDirection = new Vector3D(1.0, 0.0, 0.0);
Result.Objects[ObjectCount].RotateYDirection = new Vector3D(0.0, 1.0, 0.0);
Result.Objects[ObjectCount].RotateZDirection = new Vector3D(0.0, 0.0, 1.0);
Result.Objects[ObjectCount].TextureShiftXDirection = new Vector2D(1.0, 0.0);
Result.Objects[ObjectCount].TextureShiftYDirection = new Vector2D(0.0, 1.0);
Result.Objects[ObjectCount].RefreshRate = 0.0;
Result.Objects[ObjectCount].ObjectIndex = -1;
Vector3D Position = new Vector3D(0.0, 0.0, 0.0);
bool timetableUsed = false;
string[] StateFiles = null;
string StateFunctionRpn = null;
int StateFunctionLine = -1;
while (i < Lines.Length && !(Lines[i].StartsWith("[", StringComparison.Ordinal) && Lines[i].EndsWith("]", StringComparison.Ordinal)))
{
if (Lines[i].Length != 0)
{
int equals = Lines[i].IndexOf("=", StringComparison.Ordinal);
if (equals > 0)
{
string before = Lines[i].Substring(0, equals).TrimEnd();
string after = Lines[i].Substring(equals + 1).TrimStart();
switch (before.ToLowerInvariant())
{
case "position":
ParsePosition(after, ref Position, before, i + 1, FileName);
break;
case "states":
if (!ParseState(after, ref StateFiles, before, i + 1, FileName))
{
return(null);
}
break;
case "statefunction":
try {
StateFunctionLine = i;
StateFunctionRpn = FunctionScripts.GetPostfixNotationFromInfixNotation(after);
} catch (Exception ex) {
Debug.AddMessage(Debug.MessageType.Error, false, ex.Message + " in " + before + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "statefunctionrpn":
{
StateFunctionLine = i;
StateFunctionRpn = after;
} break;
case "translatexdirection":
ParseTranslateDirection(after, ref Result.Objects[ObjectCount].TranslateXDirection,
before, i + 1, FileName);
break;
case "translateydirection":
ParseTranslateDirection(after, ref Result.Objects[ObjectCount].TranslateYDirection,
before, i + 1, FileName);
break;
case "translatezdirection":
ParseTranslateDirection(after, ref Result.Objects[ObjectCount].TranslateZDirection,
before, i + 1, FileName);
break;
case "translatexfunction":
ParseInfixFunc(after, ref Result.Objects[ObjectCount].TranslateXFunction, before, i + 1, FileName);
break;
case "translateyfunction":
ParseInfixFunc(after, ref Result.Objects[ObjectCount].TranslateYFunction, before, i + 1, FileName);
break;
case "translatezfunction":
ParseInfixFunc(after, ref Result.Objects[ObjectCount].TranslateZFunction, before, i + 1, FileName);
break;
case "translatexfunctionrpn":
ParsePostfixFunc(after, ref Result.Objects[ObjectCount].TranslateXFunction, before, i + 1, FileName);
break;
case "translateyfunctionrpn":
ParsePostfixFunc(after, ref Result.Objects[ObjectCount].TranslateYFunction, before, i + 1, FileName);
break;
case "translatezfunctionrpn":
ParsePostfixFunc(after, ref Result.Objects[ObjectCount].TranslateZFunction, before, i + 1, FileName);
break;
case "rotatexdirection":
ParseRotateDirection(after, ref Result.Objects[ObjectCount].RotateXDirection, before, i + 1, FileName);
break;
case "rotateydirection":
ParseRotateDirection(after, ref Result.Objects[ObjectCount].RotateYDirection, before, i + 1, FileName);
break;
case "rotatezdirection":
ParseRotateDirection(after, ref Result.Objects[ObjectCount].RotateZDirection, before, i + 1, FileName);
break;
case "rotatexfunction":
ParseInfixFunc(after, ref Result.Objects[ObjectCount].RotateXFunction, before, i + 1, FileName);
break;
case "rotateyfunction":
ParseInfixFunc(after, ref Result.Objects[ObjectCount].RotateYFunction, before, i + 1, FileName);
break;
case "rotatezfunction":
ParseInfixFunc(after, ref Result.Objects[ObjectCount].RotateZFunction, before, i + 1, FileName);
break;
case "rotatexfunctionrpn":
ParsePostfixFunc(after, ref Result.Objects[ObjectCount].RotateXFunction, before, i + 1, FileName);
break;
case "rotateyfunctionrpn":
ParsePostfixFunc(after, ref Result.Objects[ObjectCount].RotateYFunction, before, i + 1, FileName);
break;
case "rotatezfunctionrpn":
ParsePostfixFunc(after, ref Result.Objects[ObjectCount].RotateZFunction, before, i + 1, FileName);
break;
case "rotatexdamping":
ParseRotateDamping(after, ref Result.Objects[ObjectCount].RotateXDamping, before, i + 1, FileName);
break;
case "rotateydamping":
ParseRotateDamping(after, ref Result.Objects[ObjectCount].RotateYDamping, before, i + 1, FileName);
break;
case "rotatezdamping":
ParseRotateDamping(after, ref Result.Objects[ObjectCount].RotateZDamping, before, i + 1, FileName);
break;
case "textureshiftxdirection":
ParseTextureShift(after, ref Result.Objects[ObjectCount].TextureShiftXDirection, before, i + 1, FileName);
break;
case "textureshiftydirection":
ParseTextureShift(after, ref Result.Objects[ObjectCount].TextureShiftYDirection, before, i + 1, FileName);
break;
case "textureshiftxfunction":
ParseInfixFunc(after, ref Result.Objects[ObjectCount].TextureShiftXFunction, before, i + 1, FileName);
break;
case "textureshiftyfunction":
ParseInfixFunc(after, ref Result.Objects[ObjectCount].TextureShiftYFunction, before, i + 1, FileName);
break;
case "textureshiftxfunctionrpn":
ParsePostfixFunc(after, ref Result.Objects[ObjectCount].TextureShiftXFunction, before, i + 1, FileName);
break;
case "textureshiftyfunctionrpn":
ParsePostfixFunc(after, ref Result.Objects[ObjectCount].TextureShiftYFunction, before, i + 1, FileName);
break;
case "textureoverride":
switch (after.ToLowerInvariant())
{
case "none":
break;
case "timetable":
if (!timetableUsed)
{
Timetable.AddObjectForCustomTimetable(Result.Objects[ObjectCount]);
timetableUsed = true;
}
break;
default:
Debug.AddMessage(Debug.MessageType.Error, false, "Unrecognized value in " + before + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
break;
}
break;
case "refreshrate":
{
double r;
if (!double.TryParse(after, System.Globalization.NumberStyles.Float, Culture, out r))
{
Debug.AddMessage(Debug.MessageType.Error, false, "Value is invalid in " + before + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (r < 0.0)
{
Debug.AddMessage(Debug.MessageType.Error, false, "Value is expected to be non-negative in " + before + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
Result.Objects[ObjectCount].RefreshRate = r;
}
} break;
default:
Debug.AddMessage(Debug.MessageType.Error, false, "The attribute " + before + " is not supported at line " + (i + 1).ToString(Culture) + " in file " + FileName);
break;
}
}
else
{
Debug.AddMessage(Debug.MessageType.Error, false, "Invalid statement " + Lines[i] + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName);
return(null);
}
}
i++;
}
i--;
if (StateFiles != null)
{
// create the object
if (timetableUsed)
{
if (StateFunctionRpn != null)
{
StateFunctionRpn = "timetable 0 == " + StateFunctionRpn + " -1 ?";
}
else
{
StateFunctionRpn = "timetable";
}
}
if (StateFunctionRpn != null)
{
try {
Result.Objects[ObjectCount].StateFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(StateFunctionRpn);
} catch (Exception ex) {
Debug.AddMessage(Debug.MessageType.Error, false, ex.Message + " in StateFunction at line " + (StateFunctionLine + 1).ToString(Culture) + " in file " + FileName);
}
}
Result.Objects[ObjectCount].States = new ObjectManager.AnimatedObjectState[StateFiles.Length];
bool ForceTextureRepeatX = Result.Objects[ObjectCount].TextureShiftXFunction != null && Result.Objects[ObjectCount].TextureShiftXDirection.X != 0.0 ||
Result.Objects[ObjectCount].TextureShiftYFunction != null && Result.Objects[ObjectCount].TextureShiftYDirection.Y != 0.0;
bool ForceTextureRepeatY = Result.Objects[ObjectCount].TextureShiftXFunction != null && Result.Objects[ObjectCount].TextureShiftXDirection.X != 0.0 ||
Result.Objects[ObjectCount].TextureShiftYFunction != null && Result.Objects[ObjectCount].TextureShiftYDirection.Y != 0.0;
for (int k = 0; k < StateFiles.Length; k++)
{
Result.Objects[ObjectCount].States[k].Position = new Vector3D(0.0, 0.0, 0.0);
if (StateFiles[k] != null)
{
Result.Objects[ObjectCount].States[k].Object = ObjectManager.LoadStaticObject(StateFiles[k], Encoding, LoadMode, false, ForceTextureRepeatX, ForceTextureRepeatY);
if (Result.Objects[ObjectCount].States[k].Object != null)
{
Result.Objects[ObjectCount].States[k].Object.Dynamic = true;
}
}
else
{
Result.Objects[ObjectCount].States[k].Object = null;
}
for (int j = 0; j < Result.Objects[ObjectCount].States.Length; j++)
{
Result.Objects[ObjectCount].States[j].Position = Position;
}
}
}
else
{
Result.Objects[ObjectCount].States = new ObjectManager.AnimatedObjectState[] { };
}
ObjectCount++;
}
break;
default:
Debug.AddMessage(Debug.MessageType.Error, false, "Invalid statement " + Lines[i] + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName);
return(null);
}
}
}
Array.Resize <ObjectManager.AnimatedObject>(ref Result.Objects, ObjectCount);
return(Result);
}
/// <summary>Attempts to load and parse the current train's panel configuration file.</summary>
/// <param name="TrainPath">The absolute on-disk path to the train folder.</param>
/// <param name="Encoding">The automatically detected or manually set encoding of the panel configuration file.</param>
/// <param name="Train">The base train on which to apply the panel configuration.</param>
internal static void ParsePanelConfig(string TrainPath, System.Text.Encoding Encoding, TrainManager.Train Train)
{
string File = OpenBveApi.Path.CombineFile(TrainPath, "panel.animated");
if (System.IO.File.Exists(File))
{
Program.AppendToLogFile("Loading train panel: " + File);
ObjectManager.AnimatedObjectCollection a = AnimatedObjectParser.ReadObject(File, Encoding, ObjectManager.ObjectLoadMode.DontAllowUnloadOfTextures);
try
{
for (int i = 0; i < a.Objects.Length; i++)
{
a.Objects[i].ObjectIndex = ObjectManager.CreateDynamicObject();
}
Train.Cars[Train.DriverCar].CarSections[0].Elements = a.Objects;
Train.Cars[Train.DriverCar].CameraRestrictionMode = World.CameraRestrictionMode.NotAvailable;
World.CameraRestriction = World.CameraRestrictionMode.NotAvailable;
World.UpdateViewingDistances();
}
catch
{
var currentError = Interface.GetInterfaceString("error_critical_file");
currentError = currentError.Replace("[file]", "panel.animated");
MessageBox.Show(currentError, Application.ProductName, MessageBoxButtons.OK, MessageBoxIcon.Hand);
Program.RestartArguments = " ";
Loading.Cancel = true;
}
}
else
{
var Panel2 = false;
try
{
File = OpenBveApi.Path.CombineFile(TrainPath, "panel2.cfg");
if (System.IO.File.Exists(File))
{
Program.AppendToLogFile("Loading train panel: " + File);
Panel2 = true;
Panel2CfgParser.ParsePanel2Config("panel2.cfg", TrainPath, Encoding, Train, Train.DriverCar);
Train.Cars[Train.DriverCar].CameraRestrictionMode = World.CameraRestrictionMode.On;
World.CameraRestriction = World.CameraRestrictionMode.On;
}
else
{
File = OpenBveApi.Path.CombineFile(TrainPath, "panel.cfg");
if (System.IO.File.Exists(File))
{
Program.AppendToLogFile("Loading train panel: " + File);
PanelCfgParser.ParsePanelConfig(TrainPath, Encoding, Train);
Train.Cars[Train.DriverCar].CameraRestrictionMode = World.CameraRestrictionMode.On;
World.CameraRestriction = World.CameraRestrictionMode.On;
}
else
{
World.CameraRestriction = World.CameraRestrictionMode.NotAvailable;
}
}
}
catch
{
var currentError = Interface.GetInterfaceString("errors_critical_file");
currentError = currentError.Replace("[file]", Panel2 == true ? "panel2.cfg" : "panel.cfg");
MessageBox.Show(currentError, Application.ProductName, MessageBoxButtons.OK, MessageBoxIcon.Hand);
Program.RestartArguments = " ";
Loading.Cancel = true;
}
}
}
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, ref ObjectManager.UnifiedObject[] CarObjects, ref ObjectManager.UnifiedObject[] BogieObjects, 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))
{
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;
}
}
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 (Path.ContainsInvalidChars(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))
{
if (LoadObjects)
{
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)
{
if (CarsDefined[n])
{
Interface.AddMessage(Interface.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();
string b = Lines[i].Substring(j + 1).TrimStart();
switch (a.ToLowerInvariant())
{
case "object":
if (string.IsNullOrEmpty(b))
{
Interface.AddMessage(Interface.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(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))
{
if (LoadObjects)
{
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].RearAxle.Position = rear;
Train.Cars[n].FrontAxle.Position = 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].RearAxle.Position = -AxleDistance;
Train.Cars[n].FrontAxle.Position = 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 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(Interface.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();
string b = Lines[i].Substring(j + 1).TrimStart();
switch (a.ToLowerInvariant())
{
case "object":
if (Path.ContainsInvalidChars(b))
{
Interface.AddMessage(Interface.MessageType.Error, false, "File contains illegal characters at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
if (string.IsNullOrEmpty(b))
{
Interface.AddMessage(Interface.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)
{
BogieObjects[n] = ObjectManager.LoadObject(File, Encoding, ObjectManager.ObjectLoadMode.Normal, false, false, false);
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, true, "The bogie object " + File + " does not exist at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
}
break;
case "length":
{
Interface.AddMessage(Interface.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();
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
{
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(Interface.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(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 (!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(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
{
// 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] && 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 ObjectManager.StaticObject)
{
ObjectManager.StaticObject obj = (ObjectManager.StaticObject)CarObjects[i];
obj.ApplyScale(-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++)
{
obj.Objects[j].States[h].Object.ApplyScale(-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] && 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 ObjectManager.StaticObject)
{
ObjectManager.StaticObject obj = (ObjectManager.StaticObject)BogieObjects[i];
obj.ApplyScale(-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++)
{
obj.Objects[j].States[h].Object.ApplyScale(-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);
}
if (bogieObjects > 0 & bogieObjects < Train.Cars.Length * 2)
{
Interface.AddMessage(Interface.MessageType.Warning, false, "An incomplete set of bogie objects was provided in file " + FileName);
}
}
}
// 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);
}
}
}
// parse animated object config
/// <summary>Loads a collection of animated objects from a file.</summary>
/// <param name="FileName">The text file to load the animated object from. Must be an absolute file name.</param>
/// <param name="Encoding">The encoding the file is saved in. If the file uses a byte order mark, the encoding indicated by the byte order mark is used and the Encoding parameter is ignored.</param>
/// <param name="LoadMode">The texture load mode.</param>
/// <returns>The collection of animated objects.</returns>
internal static ObjectManager.AnimatedObjectCollection ReadObject(string FileName, System.Text.Encoding Encoding, ObjectManager.ObjectLoadMode LoadMode)
{
System.Globalization.CultureInfo Culture = System.Globalization.CultureInfo.InvariantCulture;
ObjectManager.AnimatedObjectCollection Result = new ObjectManager.AnimatedObjectCollection
{
Objects = new ObjectManager.AnimatedObject[4]
};
int ObjectCount = 0;
// load file
string[] Lines = System.IO.File.ReadAllLines(FileName, Encoding);
bool rpnUsed = false;
for (int i = 0; i < Lines.Length; i++)
{
int j = Lines[i].IndexOf(';');
//Trim out comments
Lines[i] = j >= 0 ? Lines[i].Substring(0, j).Trim() : Lines[i].Trim();
//Test whether RPN functions have been used
rpnUsed = Lines[i].IndexOf("functionrpn", StringComparison.OrdinalIgnoreCase) >= 0;
}
if (rpnUsed)
{
Interface.AddMessage(Interface.MessageType.Error, false, "An animated object file contains RPN functions. These were never meant to be used directly, only for debugging. They won't be supported indefinately. Please get rid of them in file " + FileName);
}
for (int i = 0; i < Lines.Length; i++)
{
if (Lines[i].Length != 0)
{
switch (Lines[i].ToLowerInvariant())
{
case "[include]":
{
i++;
Vector3 position = new Vector3(0.0, 0.0, 0.0);
ObjectManager.UnifiedObject[] obj = new OpenBve.ObjectManager.UnifiedObject[4];
int objCount = 0;
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 "position":
{
string[] s = b.Split(',');
if (s.Length == 3)
{
double x, y, z;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x))
{
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[2], System.Globalization.NumberStyles.Float, Culture, out z))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Z is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
position = new Vector3(x, y, z);
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 3 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
default:
Interface.AddMessage(Interface.MessageType.Error, false, "The attribute " + a + " is not supported at line " + (i + 1).ToString(Culture) + " in file " + FileName);
break;
}
}
else
{
string Folder = System.IO.Path.GetDirectoryName(FileName);
if (Interface.ContainsInvalidPathChars(Lines[i]))
{
Interface.AddMessage(Interface.MessageType.Error, false, Lines[i] + " contains illegal characters at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
string file = OpenBveApi.Path.CombineFile(Folder, Lines[i]);
if (System.IO.File.Exists(file))
{
if (obj.Length == objCount)
{
Array.Resize<ObjectManager.UnifiedObject>(ref obj, obj.Length << 1);
}
obj[objCount] = ObjectManager.LoadObject(file, Encoding, LoadMode, false, false, false);
objCount++;
}
else
{
Interface.AddMessage(Interface.MessageType.Error, true, "File " + file + " not found at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
}
}
}
i++;
}
i--;
for (int j = 0; j < objCount; j++)
{
if (obj[j] != null)
{
if (obj[j] is ObjectManager.StaticObject)
{
ObjectManager.StaticObject s = (ObjectManager.StaticObject)obj[j];
s.Dynamic = true;
if (ObjectCount >= Result.Objects.Length)
{
Array.Resize<ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
ObjectManager.AnimatedObject a = new ObjectManager.AnimatedObject();
ObjectManager.AnimatedObjectState aos = new ObjectManager.AnimatedObjectState
{
Object = s,
Position = position
};
a.States = new ObjectManager.AnimatedObjectState[] { aos };
Result.Objects[ObjectCount] = a;
ObjectCount++;
}
else if (obj[j] is ObjectManager.AnimatedObjectCollection)
{
ObjectManager.AnimatedObjectCollection a = (ObjectManager.AnimatedObjectCollection)obj[j];
for (int k = 0; k < a.Objects.Length; k++)
{
if (ObjectCount >= Result.Objects.Length)
{
Array.Resize<ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
for (int h = 0; h < a.Objects[k].States.Length; h++)
{
a.Objects[k].States[h].Position.X += position.X;
a.Objects[k].States[h].Position.Y += position.Y;
a.Objects[k].States[h].Position.Z += position.Z;
}
Result.Objects[ObjectCount] = a.Objects[k];
ObjectCount++;
}
}
}
}
}
break;
case "[object]":
{
i++;
if (Result.Objects.Length == ObjectCount)
{
Array.Resize<ObjectManager.AnimatedObject>(ref Result.Objects, Result.Objects.Length << 1);
}
Result.Objects[ObjectCount] = new ObjectManager.AnimatedObject
{
States = new ObjectManager.AnimatedObjectState[] {},
CurrentState = -1,
TranslateXDirection = new Vector3(1.0, 0.0, 0.0),
TranslateYDirection = new Vector3(0.0, 1.0, 0.0),
TranslateZDirection = new Vector3(0.0, 0.0, 1.0),
RotateXDirection = new Vector3(1.0, 0.0, 0.0),
RotateYDirection = new Vector3(0.0, 1.0, 0.0),
RotateZDirection = new Vector3(0.0, 0.0, 1.0),
TextureShiftXDirection = new Vector2(1.0, 0.0),
TextureShiftYDirection = new Vector2(0.0, 1.0),
RefreshRate = 0.0,
ObjectIndex = -1
};
Vector3 Position = new Vector3(0.0, 0.0, 0.0);
double RotateX = 0;
bool StaticXRotation = false;
double RotateY = 0;
bool StaticYRotation = false;
double RotateZ = 0;
bool StaticZRotation = false;
bool timetableUsed = false;
string[] StateFiles = null;
string StateFunctionRpn = null;
int StateFunctionLine = -1;
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 "position":
{
string[] s = b.Split(',');
if (s.Length == 3)
{
double x, y, z;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x))
{
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[2], System.Globalization.NumberStyles.Float, Culture, out z))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Z is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
Position = new Vector3(x, y, z);
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 3 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "states":
{
string[] s = b.Split(',');
if (s.Length >= 1)
{
string Folder = System.IO.Path.GetDirectoryName(FileName);
StateFiles = new string[s.Length];
bool NullObject = true;
for (int k = 0; k < s.Length; k++)
{
s[k] = s[k].Trim();
if (s[k].Length == 0)
{
Interface.AddMessage(Interface.MessageType.Error, false, "File" + k.ToString(Culture) + " is an empty string - did you mean something else? - in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
StateFiles[k] = null;
}
else if (Interface.ContainsInvalidPathChars(s[k]))
{
Interface.AddMessage(Interface.MessageType.Error, false, "File" + k.ToString(Culture) + " contains illegal characters in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
StateFiles[k] = null;
}
else
{
StateFiles[k] = OpenBveApi.Path.CombineFile(Folder, s[k]);
if (!System.IO.File.Exists(StateFiles[k]))
{
Interface.AddMessage(Interface.MessageType.Error, true, "File " + StateFiles[k] + " not found in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
StateFiles[k] = null;
}
}
if (StateFiles[k] != null)
{
NullObject = false;
}
}
if (NullObject == true)
{
Interface.AddMessage(Interface.MessageType.Error, false, "None of the specified files were found in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
return null;
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "At least one argument is expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
return null;
}
} break;
case "statefunction":
try
{
StateFunctionLine = i;
StateFunctionRpn = FunctionScripts.GetPostfixNotationFromInfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "statefunctionrpn":
{
StateFunctionLine = i;
StateFunctionRpn = b;
} break;
case "translatexdirection":
case "translateydirection":
case "translatezdirection":
{
string[] s = b.Split(',');
if (s.Length == 3)
{
double x, y, z;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x))
{
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[2], System.Globalization.NumberStyles.Float, Culture, out z))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Z is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
switch (a.ToLowerInvariant())
{
case "translatexdirection":
Result.Objects[ObjectCount].TranslateXDirection = new Vector3(x, y, z);
break;
case "translateydirection":
Result.Objects[ObjectCount].TranslateYDirection = new Vector3(x, y, z);
break;
case "translatezdirection":
Result.Objects[ObjectCount].TranslateZDirection = new Vector3(x, y, z);
break;
}
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 3 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "translatexfunction":
try
{
double X;
if (double.TryParse(b, NumberStyles.Float, Culture, out X))
{
Position.X = X;
//A function script must be evaluated every frame, no matter if it is a constant value
//If we add this to the position instead, this gives a minor speedup
break;
}
Result.Objects[ObjectCount].TranslateXFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translatexscript":
try
{
Result.Objects[ObjectCount].TranslateXScriptFile = OpenBveApi.Path.CombineDirectory(System.IO.Path.GetDirectoryName(FileName), b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translateyfunction":
try
{
double Y;
if (double.TryParse(b, NumberStyles.Float, Culture, out Y))
{
Position.Y = Y;
//A function script must be evaluated every frame, no matter if it is a constant value
//If we add this to the position instead, this gives a minor speedup
break;
}
Result.Objects[ObjectCount].TranslateYFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translateyscript":
try
{
Result.Objects[ObjectCount].TranslateYScriptFile = OpenBveApi.Path.CombineDirectory(System.IO.Path.GetDirectoryName(FileName), b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translatezfunction":
try
{
double Z;
if (double.TryParse(b, NumberStyles.Float, Culture, out Z))
{
Position.Z = Z;
//A function script must be evaluated every frame, no matter if it is a constant value
//If we add this to the position instead, this gives a minor speedup
break;
}
Result.Objects[ObjectCount].TranslateZFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translatezscript":
try
{
Result.Objects[ObjectCount].TranslateZScriptFile = OpenBveApi.Path.CombineDirectory(System.IO.Path.GetDirectoryName(FileName), b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "trackfollowerfunction":
try
{
Result.Objects[ObjectCount].TrackFollowerFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "axles":
try
{
double FrontAxlePosition;
double RearAxlePosition;
var splitValue = b.Split(',');
Double.TryParse(splitValue[0], out FrontAxlePosition);
Double.TryParse(splitValue[1], out RearAxlePosition);
if (FrontAxlePosition > RearAxlePosition)
{
Result.Objects[ObjectCount].FrontAxlePosition = FrontAxlePosition;
Result.Objects[ObjectCount].RearAxlePosition = RearAxlePosition;
}
else if (FrontAxlePosition < RearAxlePosition)
{
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
{
Interface.AddMessage(Interface.MessageType.Error, false, "Rear must not equal Front in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
}
catch(Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
break;
/*
* RPN Functions were added by Michelle, and she stated that they should not be used other than in debugging
* Not aware of any uses, but these should stay there anyway
*
*/
case "translatexfunctionrpn":
try
{
Result.Objects[ObjectCount].TranslateXFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translateyfunctionrpn":
try
{
Result.Objects[ObjectCount].TranslateYFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "translatezfunctionrpn":
try
{
Result.Objects[ObjectCount].TranslateZFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatexdirection":
case "rotateydirection":
case "rotatezdirection":
{
string[] s = b.Split(',');
if (s.Length == 3)
{
double x, y, z;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x))
{
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[2], System.Globalization.NumberStyles.Float, Culture, out z))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Z is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (x == 0.0 & y == 0.0 & z == 0.0)
{
Interface.AddMessage(Interface.MessageType.Error, false, "The direction indicated by X, Y and Z is expected to be non-zero in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
switch (a.ToLowerInvariant())
{
case "rotatexdirection":
Result.Objects[ObjectCount].RotateXDirection = new Vector3(x, y, z);
break;
case "rotateydirection":
Result.Objects[ObjectCount].RotateYDirection = new Vector3(x, y, z);
break;
case "rotatezdirection":
Result.Objects[ObjectCount].RotateZDirection = new Vector3(x, y, z);
break;
}
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 3 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "rotatexfunction":
try
{
if (double.TryParse(b, NumberStyles.Float, Culture, out RotateX))
{
//A function script must be evaluated every frame, no matter if it is a constant value
//If we add this to the position instead, this gives a minor speedup
StaticXRotation = true;
}
Result.Objects[ObjectCount].RotateXFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotateyfunction":
try
{
if (double.TryParse(b, NumberStyles.Float, Culture, out RotateY))
{
StaticYRotation = true;
}
Result.Objects[ObjectCount].RotateYFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatezfunction":
try
{
if (double.TryParse(b, NumberStyles.Float, Culture, out RotateZ))
{
StaticZRotation = true;
}
Result.Objects[ObjectCount].RotateZFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatexfunctionrpn":
try
{
Result.Objects[ObjectCount].RotateXFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotateyfunctionrpn":
try
{
Result.Objects[ObjectCount].RotateYFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatezfunctionrpn":
try
{
Result.Objects[ObjectCount].RotateZFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "rotatexdamping":
case "rotateydamping":
case "rotatezdamping":
{
string[] s = b.Split(',');
if (s.Length == 2)
{
double nf, dr;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out nf))
{
Interface.AddMessage(Interface.MessageType.Error, false, "NaturalFrequency is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out dr))
{
Interface.AddMessage(Interface.MessageType.Error, false, "DampingRatio is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (nf <= 0.0)
{
Interface.AddMessage(Interface.MessageType.Error, false, "NaturalFrequency is expected to be positive in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (dr <= 0.0)
{
Interface.AddMessage(Interface.MessageType.Error, false, "DampingRatio is expected to be positive in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
switch (a.ToLowerInvariant())
{
case "rotatexdamping":
Result.Objects[ObjectCount].RotateXDamping = new ObjectManager.Damping(nf, dr);
break;
case "rotateydamping":
Result.Objects[ObjectCount].RotateYDamping = new ObjectManager.Damping(nf, dr);
break;
case "rotatezdamping":
Result.Objects[ObjectCount].RotateZDamping = new ObjectManager.Damping(nf, dr);
break;
}
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 2 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "textureshiftxdirection":
case "textureshiftydirection":
{
string[] s = b.Split(',');
if (s.Length == 2)
{
double x, y;
if (!double.TryParse(s[0], System.Globalization.NumberStyles.Float, Culture, out x))
{
Interface.AddMessage(Interface.MessageType.Error, false, "X is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (!double.TryParse(s[1], System.Globalization.NumberStyles.Float, Culture, out y))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Y is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
switch (a.ToLowerInvariant())
{
case "textureshiftxdirection":
Result.Objects[ObjectCount].TextureShiftXDirection = new Vector2(x, y);
break;
case "textureshiftydirection":
Result.Objects[ObjectCount].TextureShiftYDirection = new Vector2(x, y);
break;
}
}
}
else
{
Interface.AddMessage(Interface.MessageType.Error, false, "Exactly 2 arguments are expected in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
} break;
case "textureshiftxfunction":
try
{
Result.Objects[ObjectCount].TextureShiftXFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "textureshiftyfunction":
try
{
Result.Objects[ObjectCount].TextureShiftYFunction = FunctionScripts.GetFunctionScriptFromInfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "textureshiftxfunctionrpn":
try
{
Result.Objects[ObjectCount].TextureShiftXFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "textureshiftyfunctionrpn":
try
{
Result.Objects[ObjectCount].TextureShiftYFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(b);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
} break;
case "textureoverride":
switch (b.ToLowerInvariant())
{
case "none":
break;
case "timetable":
if (!timetableUsed)
{
Timetable.AddObjectForCustomTimetable(Result.Objects[ObjectCount]);
timetableUsed = true;
}
break;
default:
Interface.AddMessage(Interface.MessageType.Error, false, "Unrecognized value in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
break;
}
break;
case "refreshrate":
{
double r;
if (!double.TryParse(b, System.Globalization.NumberStyles.Float, Culture, out r))
{
Interface.AddMessage(Interface.MessageType.Error, false, "Value is invalid in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else if (r < 0.0)
{
Interface.AddMessage(Interface.MessageType.Error, false, "Value is expected to be non-negative in " + a + " at line " + (i + 1).ToString(Culture) + " in file " + FileName);
}
else
{
Result.Objects[ObjectCount].RefreshRate = r;
}
} break;
default:
Interface.AddMessage(Interface.MessageType.Error, false, "The attribute " + a + " is not supported 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);
return null;
}
}
i++;
}
i--;
if (StateFiles != null)
{
// create the object
if (timetableUsed)
{
if (StateFunctionRpn != null)
{
StateFunctionRpn = "timetable 0 == " + StateFunctionRpn + " -1 ?";
}
else
{
StateFunctionRpn = "timetable";
}
}
if (StateFunctionRpn != null)
{
try
{
Result.Objects[ObjectCount].StateFunction = FunctionScripts.GetFunctionScriptFromPostfixNotation(StateFunctionRpn);
}
catch (Exception ex)
{
Interface.AddMessage(Interface.MessageType.Error, false, ex.Message + " in StateFunction at line " + (StateFunctionLine + 1).ToString(Culture) + " in file " + FileName);
}
}
Result.Objects[ObjectCount].States = new ObjectManager.AnimatedObjectState[StateFiles.Length];
bool ForceTextureRepeatX = Result.Objects[ObjectCount].TextureShiftXFunction != null & Result.Objects[ObjectCount].TextureShiftXDirection.X != 0.0 |
Result.Objects[ObjectCount].TextureShiftYFunction != null & Result.Objects[ObjectCount].TextureShiftYDirection.Y != 0.0;
bool ForceTextureRepeatY = Result.Objects[ObjectCount].TextureShiftXFunction != null & Result.Objects[ObjectCount].TextureShiftXDirection.X != 0.0 |
Result.Objects[ObjectCount].TextureShiftYFunction != null & Result.Objects[ObjectCount].TextureShiftYDirection.Y != 0.0;
for (int k = 0; k < StateFiles.Length; k++)
{
Result.Objects[ObjectCount].States[k].Position = new Vector3(0.0, 0.0, 0.0);
if (StateFiles[k] != null)
{
Result.Objects[ObjectCount].States[k].Object = ObjectManager.LoadStaticObject(StateFiles[k], Encoding, LoadMode, false, ForceTextureRepeatX, ForceTextureRepeatY);
if (Result.Objects[ObjectCount].States[k].Object != null)
{
Result.Objects[ObjectCount].States[k].Object.Dynamic = true;
}
}
else
{
Result.Objects[ObjectCount].States[k].Object = null;
}
}
for (int j = 0; j < Result.Objects[ObjectCount].States.Length; j++)
{
//Rotate X
if (Result.Objects[ObjectCount].States[j].Object == null)
{
continue;
}
for (int l = 0; l < Result.Objects[ObjectCount].States[j].Object.Mesh.Vertices.Length; l++)
{
//Apply position
Result.Objects[ObjectCount].States[j].Position = Position;
//Test whether the object contains non static rotation functions
//If so, the results may be off so don't optimise
if (!StaticXRotation)
{
if (Result.Objects[ObjectCount].RotateXFunction != null)
{
break;
}
}
if (!StaticYRotation)
{
if (Result.Objects[ObjectCount].RotateYFunction != null)
{
break;
}
}
if (!StaticZRotation)
{
if (Result.Objects[ObjectCount].RotateZFunction != null)
{
break;
}
}
if (StaticXRotation)
{
double x = Result.Objects[ObjectCount].RotateXDirection.X;
double y = Result.Objects[ObjectCount].RotateXDirection.Y;
double z = Result.Objects[ObjectCount].RotateXDirection.Z;
double t = x * x + y * y + z * z;
if (t == 0.0)
{
x = 1.0;
y = 0.0;
z = 0.0;
t = 1.0;
}
if (RotateX != 0.0)
{
t = 1.0 / Math.Sqrt(t);
x *= t;
y *= t;
z *= t;
}
double cosX = Math.Cos(RotateX);
double sinX = Math.Sin(RotateX);
World.Rotate(ref Result.Objects[ObjectCount].States[j].Object.Mesh.Vertices[l].Coordinates, x, y, z, cosX, sinX);
Result.Objects[ObjectCount].RotateXFunction = null;
}
if (StaticYRotation)
{
double x = Result.Objects[ObjectCount].RotateYDirection.X;
double y = Result.Objects[ObjectCount].RotateYDirection.Y;
double z = Result.Objects[ObjectCount].RotateYDirection.Z;
double t = x * x + y * y + z * z;
if (t == 0.0)
{
x = 1.0;
y = 0.0;
z = 0.0;
t = 1.0;
}
if (RotateY != 0.0)
{
t = 1.0 / Math.Sqrt(t);
x *= t;
y *= t;
z *= t;
}
double cosY = Math.Cos(RotateY);
double sinY = Math.Sin(RotateY);
World.Rotate(ref Result.Objects[ObjectCount].States[j].Object.Mesh.Vertices[l].Coordinates, x, y, z, cosY, sinY);
Result.Objects[ObjectCount].RotateYFunction = null;
}
if (StaticZRotation)
{
double x = Result.Objects[ObjectCount].RotateZDirection.X;
double y = Result.Objects[ObjectCount].RotateZDirection.Y;
double z = Result.Objects[ObjectCount].RotateZDirection.Z;
double t = x * x + y * y + z * z;
if (t == 0.0)
{
x = 1.0;
y = 0.0;
z = 0.0;
t = 1.0;
}
if (RotateZ != 0.0)
{
t = 1.0 / Math.Sqrt(t);
x *= t;
y *= t;
z *= t;
}
double cosZ = Math.Cos(RotateZ);
double sinZ = Math.Sin(RotateZ);
World.Rotate(ref Result.Objects[ObjectCount].States[j].Object.Mesh.Vertices[l].Coordinates, x, y, z, cosZ, sinZ);
Result.Objects[ObjectCount].RotateZFunction = null;
}
}
}
}
else
{
Result.Objects[ObjectCount].States = new ObjectManager.AnimatedObjectState[] { };
}
ObjectCount++;
}
break;
default:
Interface.AddMessage(Interface.MessageType.Error, false, "Invalid statement " + Lines[i] + " encountered at line " + (i + 1).ToString(Culture) + " in file " + FileName);
return null;
}
}
}
Array.Resize<ObjectManager.AnimatedObject>(ref Result.Objects, ObjectCount);
return Result;
}
// get mirrored object
private static ObjectManager.UnifiedObject GetMirroredObject(ObjectManager.UnifiedObject Prototype)
{
if (Prototype is ObjectManager.StaticObject) {
ObjectManager.StaticObject s = (ObjectManager.StaticObject)Prototype;
return GetMirroredStaticObject(s);
} else if (Prototype is ObjectManager.AnimatedObjectCollection) {
ObjectManager.AnimatedObjectCollection a = (ObjectManager.AnimatedObjectCollection)Prototype;
ObjectManager.AnimatedObjectCollection Result = new ObjectManager.AnimatedObjectCollection();
Result.Objects = new ObjectManager.AnimatedObject[a.Objects.Length];
for (int i = 0; i < a.Objects.Length; i++) {
Result.Objects[i] = a.Objects[i].Clone();
for (int j = 0; j < a.Objects[i].States.Length; j++) {
Result.Objects[i].States[j].Object = GetMirroredStaticObject(a.Objects[i].States[j].Object);
}
Result.Objects[i].TranslateXDirection.X *= -1.0;
Result.Objects[i].TranslateYDirection.X *= -1.0;
Result.Objects[i].TranslateZDirection.X *= -1.0;
Result.Objects[i].RotateXDirection.X *= -1.0;
Result.Objects[i].RotateYDirection.X *= -1.0;
Result.Objects[i].RotateZDirection.X *= -1.0;
}
return Result;
} else {
return null;
}
}
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);
}
}
}
}
/// <summary>Attempts to load and parse the current train's panel configuration file.</summary>
/// <param name="TrainPath">The absolute on-disk path to the train folder.</param>
/// <param name="Encoding">The automatically detected or manually set encoding of the panel configuration file.</param>
/// <param name="Train">The base train on which to apply the panel configuration.</param>
internal static void ParsePanelConfig(string TrainPath, System.Text.Encoding Encoding, Train Train)
{
Train.Cars[Train.DriverCar].CarSections = new CarSection[1];
Train.Cars[Train.DriverCar].CarSections[0] = new CarSection
{
Elements = new ObjectManager.AnimatedObject[] { },
Overlay = true
};
string File = OpenBveApi.Path.CombineFile(TrainPath, "panel.animated");
if (System.IO.File.Exists(File))
{
Program.FileSystem.AppendToLogFile("Loading train panel: " + File);
if (System.IO.File.Exists(OpenBveApi.Path.CombineFile(TrainPath, "panel2.cfg")) || System.IO.File.Exists(OpenBveApi.Path.CombineFile(TrainPath, "panel.cfg")))
{
Program.FileSystem.AppendToLogFile("INFO: This train contains both a 2D and a 3D panel. The 3D panel will always take precedence");
}
ObjectManager.AnimatedObjectCollection a = AnimatedObjectParser.ReadObject(File, Encoding);
if (a != null)
{
//HACK: If a == null , loading our animated object completely failed (Missing objects?). Fallback to trying the panel2.cfg
try
{
for (int i = 0; i < a.Objects.Length; i++)
{
a.Objects[i].ObjectIndex = ObjectManager.CreateDynamicObject();
}
Train.Cars[Train.DriverCar].CarSections[0].Elements = a.Objects;
Train.Cars[Train.DriverCar].CameraRestrictionMode = Camera.RestrictionMode.NotAvailable;
World.CameraRestriction = Camera.RestrictionMode.NotAvailable;
World.UpdateViewingDistances();
return;
}
catch
{
var currentError = Translations.GetInterfaceString("errors_critical_file");
currentError = currentError.Replace("[file]", "panel.animated");
MessageBox.Show(currentError, Application.ProductName, MessageBoxButtons.OK, MessageBoxIcon.Hand);
Program.RestartArguments = " ";
Loading.Cancel = true;
return;
}
}
Interface.AddMessage(MessageType.Error, false, "The panel.animated file " + File + " failed to load. Falling back to 2D panel.");
}
var Panel2 = false;
try
{
File = OpenBveApi.Path.CombineFile(TrainPath, "panel2.cfg");
if (System.IO.File.Exists(File))
{
Program.FileSystem.AppendToLogFile("Loading train panel: " + File);
Panel2 = true;
Panel2CfgParser.ParsePanel2Config("panel2.cfg", TrainPath, Encoding, Train, Train.DriverCar);
Train.Cars[Train.DriverCar].CameraRestrictionMode = Camera.RestrictionMode.On;
World.CameraRestriction = Camera.RestrictionMode.On;
}
else
{
File = OpenBveApi.Path.CombineFile(TrainPath, "panel.cfg");
if (System.IO.File.Exists(File))
{
Program.FileSystem.AppendToLogFile("Loading train panel: " + File);
PanelCfgParser.ParsePanelConfig(TrainPath, Encoding, Train);
Train.Cars[Train.DriverCar].CameraRestrictionMode = Camera.RestrictionMode.On;
World.CameraRestriction = Camera.RestrictionMode.On;
}
else
{
World.CameraRestriction = Camera.RestrictionMode.NotAvailable;
}
}
}
catch
{
var currentError = Translations.GetInterfaceString("errors_critical_file");
currentError = currentError.Replace("[file]", Panel2 == true ? "panel2.cfg" : "panel.cfg");
MessageBox.Show(currentError, Application.ProductName, MessageBoxButtons.OK, MessageBoxIcon.Hand);
Program.RestartArguments = " ";
Loading.Cancel = true;
}
}