private static void CreateTouchElement(ElementsGroup Group, Vector3 Position, Vector3 Size, int ScreenIndex, int[] SoundIndices, TrainManager.CommandEntry[] CommandEntries)
{
Vertex t0 = new Vertex(Size.X, Size.Y, -Size.Z);
Vertex t1 = new Vertex(Size.X, -Size.Y, -Size.Z);
Vertex t2 = new Vertex(-Size.X, -Size.Y, -Size.Z);
Vertex t3 = new Vertex(-Size.X, Size.Y, -Size.Z);
Vertex t4 = new Vertex(Size.X, Size.Y, Size.Z);
Vertex t5 = new Vertex(Size.X, -Size.Y, Size.Z);
Vertex t6 = new Vertex(-Size.X, -Size.Y, Size.Z);
Vertex t7 = new Vertex(-Size.X, Size.Y, Size.Z);
StaticObject Object = new StaticObject(Program.CurrentHost);
Object.Mesh.Vertices = new VertexTemplate[] { t0, t1, t2, t3, t4, t5, t6, t7 };
Object.Mesh.Faces = new MeshFace[] { new MeshFace(new int[] { 0, 1, 2, 3 }), new MeshFace(new int[] { 0, 4, 5, 1 }), new MeshFace(new int[] { 0, 3, 7, 4 }), new MeshFace(new int[] { 6, 5, 4, 7 }), new MeshFace(new int[] { 6, 7, 3, 2 }), new MeshFace(new int[] { 6, 2, 1, 5 }) };
Object.Mesh.Materials = new MeshMaterial[1];
Object.Mesh.Materials[0].Flags = 0;
Object.Mesh.Materials[0].Color = Color32.White;
Object.Mesh.Materials[0].TransparentColor = Color24.Blue;
Object.Mesh.Materials[0].DaytimeTexture = null;
Object.Mesh.Materials[0].NighttimeTexture = null;
Object.Dynamic = true;
if (Group.TouchElements == null)
{
Group.TouchElements = new TouchElement[0];
}
int n = Group.TouchElements.Length;
Array.Resize(ref Group.TouchElements, n + 1);
Group.TouchElements[n] = new TouchElement
{
Element = new AnimatedObject(Program.CurrentHost),
JumpScreenIndex = ScreenIndex,
SoundIndices = SoundIndices,
ControlIndices = new int[CommandEntries.Length]
};
Group.TouchElements[n].Element.States = new [] { new ObjectState() };
Group.TouchElements[n].Element.States[0].Translation = Matrix4D.CreateTranslation(Position.X, Position.Y, -Position.Z);
Group.TouchElements[n].Element.States[0].Prototype = Object;
Group.TouchElements[n].Element.CurrentState = 0;
Group.TouchElements[n].Element.internalObject = new ObjectState {
Prototype = Object
};
Program.CurrentHost.CreateDynamicObject(ref Group.TouchElements[n].Element.internalObject);
int m = Interface.CurrentControls.Length;
Array.Resize(ref Interface.CurrentControls, m + CommandEntries.Length);
for (int i = 0; i < CommandEntries.Length; i++)
{
Interface.CurrentControls[m + i].Command = CommandEntries[i].Command;
Interface.CurrentControls[m + i].Method = Interface.ControlMethod.Touch;
Interface.CurrentControls[m + i].Option = CommandEntries[i].Option;
Group.TouchElements[n].ControlIndices[i] = m + i;
}
}
public static void Freeze(ModelMesh model, FreezeComponents flags)
{
bool freezePos = flags.HasFlag(FreezeComponents.Position);
bool freezeRot = flags.HasFlag(FreezeComponents.Rotation);
bool freezeSca = flags.HasFlag(FreezeComponents.Scale);
Matrix4D mPosition = Matrix4D.CreateTranslation(model.Parent.Transform.ExtractTranslation());
Matrix4D mRotation = Matrix4D.CreateFromQuaternion(model.Parent.Transform.ExtractRotation());
Matrix4D mScale = Matrix4D.CreateScale(model.Parent.Transform.ExtractScale());
if (freezePos)
{
model.Parent.Transform = model.Parent.Transform.ClearTranslation();
}
if (freezeRot)
{
model.Parent.Transform = model.Parent.Transform.ClearRotation();
}
if (freezeSca)
{
model.Parent.Transform = model.Parent.Transform.ClearScale();
}
foreach (ModelMeshPart meshpart in model.MeshParts)
{
for (int i = 0; i < meshpart.VertexCount; i++)
{
if (freezePos)
{
meshpart.VertexBuffer.ModifyVertexPosition(i, Vector3.TransformVector(meshpart.VertexBuffer.Data[i].Position, mPosition));
}
if (freezeRot)
{
meshpart.VertexBuffer.ModifyVertexPosition(i, Vector3.TransformVector(meshpart.VertexBuffer.Data[i].Position, mRotation));
meshpart.VertexBuffer.ModifyVertexNormal(i, Vector3.TransformNormal(meshpart.VertexBuffer.Data[i].Normal, mRotation));
}
if (freezeSca)
{
meshpart.VertexBuffer.ModifyVertexPosition(i, Vector3.TransformVector(meshpart.VertexBuffer.Data[i].Position, mScale));
}
}
meshpart.VertexBuffer.Initialise();
}
model.BoundingBox.Calculate(model);
}
public void Draw()
{
if (model == null)
{
model = new Model();
Sphere sphere = new Sphere(0.025f, 7, 7);
ModelManipulator.SetVertexColour(sphere, 0, 255, 0, 255);
model.AddMesh(sphere);
model.SetRenderStyle(RenderStyle.Wireframe);
}
Matrix4D parentTransform = LinkedBone.CombinedTransform;
Transform = Matrix4D.Identity;
Vector3 v = parentTransform.ExtractTranslation();
parentTransform.Normalise();
parentTransform.M41 = v.X;
parentTransform.M42 = v.Y;
parentTransform.M43 = v.Z;
Transform *= Matrix4D.CreateFromQuaternion(parentTransform.ExtractRotation());
Transform *= Matrix4D.CreateTranslation(parentTransform.ExtractTranslation());
Matrix4D mS = SceneManager.Current.Transform;
Matrix4D mT = Transform;
SceneManager.Current.Renderer.PushMatrix();
SceneManager.Current.Renderer.MultMatrix(ref mS);
SceneManager.Current.Renderer.MultMatrix(ref mT);
model.Draw();
SceneManager.Current.Renderer.PopMatrix();
}
public static void ProcessLevelForCarmageddonMaxDamage()
{
if (SceneManager.Current.Models.Count == 0)
{
return;
}
ModelBoneCollection bones = SceneManager.Current.Models[0].Bones[0].AllChildren();
SceneManager.Current.UpdateProgress("Applying Carmageddon: Max Damage scale");
ModelManipulator.Scale(bones, Matrix4D.CreateScale(6.9f, 6.9f, -6.9f), true);
ModelManipulator.FlipFaces(bones, true);
SceneManager.Current.UpdateProgress("Fixing material names");
foreach (Material material in SceneManager.Current.Materials)
{
if (material.Name.Contains("."))
{
material.Name = material.Name.Substring(0, material.Name.IndexOf("."));
}
material.Name = material.Name.Replace("\\", "");
MATMaterial m = (material.SupportingDocuments["Source"] as MATMaterial);
if (!m.HasTexture)
{
using (Bitmap bmp = new Bitmap(16, 16))
using (Graphics g = Graphics.FromImage(bmp))
{
g.FillRectangle(new SolidBrush(Color.FromArgb(m.DiffuseColour[3], m.DiffuseColour[0], m.DiffuseColour[1], m.DiffuseColour[2])), 0, 0, 16, 16);
Texture t = new Texture();
t.CreateFromBitmap(bmp, string.Format("{4}_R{0:x2}G{1:x2}B{2:x2}A{3:x2}", m.DiffuseColour[0], m.DiffuseColour[1], m.DiffuseColour[2], m.DiffuseColour[3], material.Name));
material.Texture = t;
}
}
}
SceneManager.Current.UpdateProgress("Processing powerups and accessories");
for (int i = bones.Count - 1; i >= 0; i--)
{
ModelBone bone = bones[i];
if (bone.Name.StartsWith("&"))
{
if (bone.Name.StartsWith("&£"))
{
C2Powerup pup = Powerups.LookupID(int.Parse(bone.Name.Substring(2, 2)));
Powerup powerup = new Powerup();
if (pup.InMD)
{
powerup.Name = $"pup_{pup.Name}";
powerup.Tag = pup.Model;
}
else
{
powerup.Name = "pup_Credits";
powerup.Tag = pup.Model;
}
powerup.Transform = bone.CombinedTransform;
SceneManager.Current.Entities.Add(powerup);
}
else
{
Accessory accessory = new Accessory
{
Name = $"C2_{bone.Mesh.Name.Substring(3)}"
};
SceneManager.Current.Entities.Add(accessory);
}
SceneManager.Current.Models[0].RemoveBone(bone.Index);
}
}
if (SceneManager.Current.Models[0].SupportingDocuments.ContainsKey("TXT"))
{
Map map = SceneManager.Current.Models[0].GetSupportingDocument <Map>("TXT");
StartingGrid grid = new StartingGrid
{
Transform = Matrix4D.CreateTranslation(map.GridPosition.X * 6.9f, map.GridPosition.Y * 6.9f, map.GridPosition.Z * -6.9f)
};
SceneManager.Current.Entities.Add(grid);
}
SceneManager.Current.UpdateProgress("Processing complete!");
SceneManager.Current.SetCoordinateSystem(CoordinateSystem.LeftHanded);
SceneManager.Current.Change(ChangeType.Munge, ChangeContext.Model, -1);
SceneManager.Current.SetContext("Carmageddon Max Damage", ContextMode.Level);
}
public int CreateStaticObject(StaticObject Prototype, Vector3 Position, Transformation BaseTransformation, Transformation AuxTransformation, bool AccurateObjectDisposal, double AccurateObjectDisposalZOffset, double StartingDistance, double EndingDistance, double BlockLength, double TrackPosition, double Brightness)
{
if (Prototype == null)
{
return(-1);
}
float startingDistance = float.MaxValue;
float endingDistance = float.MinValue;
if (AccurateObjectDisposal)
{
foreach (VertexTemplate vertex in Prototype.Mesh.Vertices)
{
Vector3 Coordinates = new Vector3(vertex.Coordinates);
Coordinates.Rotate(AuxTransformation);
if (Coordinates.Z < startingDistance)
{
startingDistance = (float)Coordinates.Z;
}
if (Coordinates.Z > endingDistance)
{
endingDistance = (float)Coordinates.Z;
}
}
startingDistance += (float)AccurateObjectDisposalZOffset;
endingDistance += (float)AccurateObjectDisposalZOffset;
}
const double minBlockLength = 20.0;
if (BlockLength < minBlockLength)
{
BlockLength *= Math.Ceiling(minBlockLength / BlockLength);
}
if (AccurateObjectDisposal)
{
startingDistance += (float)TrackPosition;
endingDistance += (float)TrackPosition;
double z = BlockLength * Math.Floor(TrackPosition / BlockLength);
StartingDistance = Math.Min(z - BlockLength, startingDistance);
EndingDistance = Math.Max(z + 2.0 * BlockLength, endingDistance);
startingDistance = (float)(BlockLength * Math.Floor(StartingDistance / BlockLength));
endingDistance = (float)(BlockLength * Math.Ceiling(EndingDistance / BlockLength));
}
else
{
startingDistance = (float)StartingDistance;
endingDistance = (float)EndingDistance;
}
StaticObjectStates.Add(new ObjectState
{
Prototype = Prototype,
Translation = Matrix4D.CreateTranslation(Position.X, Position.Y, -Position.Z),
//FIXME: This seems to need to be the 'wrong' way around. Need to standardise on Matrices throughout?
Rotate = (Matrix4D) new Transformation(AuxTransformation, BaseTransformation),
Brightness = Brightness,
StartingDistance = startingDistance,
EndingDistance = endingDistance
});
foreach (MeshFace face in Prototype.Mesh.Faces)
{
switch (face.Flags & MeshFace.FaceTypeMask)
{
case MeshFace.FaceTypeTriangles:
InfoTotalTriangles++;
break;
case MeshFace.FaceTypeTriangleStrip:
InfoTotalTriangleStrip++;
break;
case MeshFace.FaceTypeQuads:
InfoTotalQuads++;
break;
case MeshFace.FaceTypeQuadStrip:
InfoTotalQuadStrip++;
break;
case MeshFace.FaceTypePolygon:
InfoTotalPolygon++;
break;
}
}
return(StaticObjectStates.Count - 1);
}
public void Draw()
{
if (asset == null)
{
ModelMeshPart sprite = new ModelMeshPart();
sprite.AddVertex(new Vector3(-0.25f, -0.25f, 0.0f), Vector3.UnitY, new Vector2(0, 1));
sprite.AddVertex(new Vector3(-0.25f, 0.25f, 0.0f), Vector3.UnitY, new Vector2(0, 0));
sprite.AddVertex(new Vector3(0.25f, 0.25f, 0.0f), Vector3.UnitY, new Vector2(1, 0));
sprite.AddVertex(new Vector3(0.25f, -0.25f, 0.0f), Vector3.UnitY, new Vector2(1, 1));
sprite.AddVertex(new Vector3(0.25f, -0.25f, 0.0f), Vector3.UnitY, new Vector2(0, 1));
sprite.AddVertex(new Vector3(0.25f, 0.25f, 0.0f), Vector3.UnitY, new Vector2(0, 0));
sprite.AddVertex(new Vector3(-0.25f, 0.25f, 0.0f), Vector3.UnitY, new Vector2(1, 0));
sprite.AddVertex(new Vector3(-0.25f, -0.25f, 0.0f), Vector3.UnitY, new Vector2(1, 1));
sprite.IndexBuffer.Initialise();
sprite.VertexBuffer.Initialise();
sprite.Material = new Material {
Name = "Entity.Asset", Texture = SceneManager.Current.Content.Load <Texture, PNGImporter>(IconFilename)
};
sprite.PrimitiveType = PrimitiveType.Quads;
ModelMesh spritemesh = new ModelMesh();
spritemesh.AddModelMeshPart(sprite);
Model spritemodel = new Model();
spritemodel.AddMesh(spritemesh);
asset = spritemodel;
}
if (Linked)
{
Matrix4D parentTransform = ((ModelBone)Link).CombinedTransform;
if (LinkType == LinkType.All)
{
Transform = parentTransform;
}
else
{
Transform = Matrix4D.Identity;
Vector3 v = parentTransform.ExtractTranslation();
parentTransform.Normalise();
parentTransform.M41 = v.X;
parentTransform.M42 = v.Y;
parentTransform.M43 = v.Z;
if (LinkType.HasFlag(LinkType.Rotation))
{
Transform *= Matrix4D.CreateFromQuaternion(parentTransform.ExtractRotation());
}
if (LinkType.HasFlag(LinkType.Scale))
{
Transform *= Matrix4D.CreateScale(parentTransform.ExtractScale());
}
if (LinkType.HasFlag(LinkType.Position))
{
Transform *= Matrix4D.CreateTranslation(parentTransform.ExtractTranslation());
}
}
}
Matrix4D mS = SceneManager.Current.Transform;
Matrix4D mT = Transform;
SceneManager.Current.Renderer.PushMatrix();
Matrix4D position = Matrix4D.CreateTranslation(mT.ExtractTranslation());
SceneManager.Current.Renderer.MultMatrix(ref mS);
SceneManager.Current.Renderer.MultMatrix(ref position);
if (Lollipop)
{
Matrix4D rotation = ViewportManager.Current.Active.Camera.Rotation;
Matrix4D scale = Matrix4D.CreateScale(0.1f);
SceneManager.Current.Renderer.MultMatrix(ref rotation);
SceneManager.Current.Renderer.MultMatrix(ref scale);
}
SceneManager.Current.Renderer.Enable("Blend");
SceneManager.Current.Renderer.BlendFunc("SrcAlpha", "OneMinusSrcAlpha");
((Model)asset).Draw();
SceneManager.Current.Renderer.Disable("Blend");
SceneManager.Current.Renderer.PopMatrix();
}
/// <summary> Updates the position and state of the animated object</summary>
/// <param name="IsPartOfTrain">Whether this object forms part of a train</param>
/// <param name="Train">The train, or a null reference otherwise</param>
/// <param name="CarIndex">If this object forms part of a train, the car index it refers to</param>
/// <param name="SectionIndex">If this object has been placed via Track.Sig, the index of the section it is attached to</param>
/// <param name="TrackPosition"></param>
/// <param name="Position"></param>
/// <param name="Direction"></param>
/// <param name="Up"></param>
/// <param name="Side"></param>
/// <param name="UpdateFunctions">Whether the functions associated with this object should be re-evaluated</param>
/// <param name="Show"></param>
/// <param name="TimeElapsed">The time elapsed since this object was last updated</param>
/// <param name="EnableDamping">Whether damping is to be applied for this call</param>
/// <param name="IsTouch">Whether Animated Object belonging to TouchElement class.</param>
/// <param name="Camera"></param>
public void Update(bool IsPartOfTrain, AbstractTrain Train, int CarIndex, int SectionIndex, double TrackPosition, Vector3 Position, Vector3 Direction, Vector3 Up, Vector3 Side, bool UpdateFunctions, bool Show, double TimeElapsed, bool EnableDamping, bool IsTouch = false, dynamic Camera = null)
{
// state change
if (StateFunction != null & UpdateFunctions)
{
double sd = StateFunction.Perform(Train, CarIndex, Position, TrackPosition, SectionIndex, IsPartOfTrain, TimeElapsed, CurrentState);
int si = (int)System.Math.Round(sd);
if (si < 0 | si >= States.Length)
{
si = -1;
}
if (CurrentState != si)
{
ObjectType type = ObjectType.Dynamic;
if (Camera != null)
{
type = ObjectType.Overlay;
}
Initialize(si, type, Show);
CurrentState = si;
}
}
if (CurrentState == -1)
{
return; //not visible state, so don't bother updating
}
// translation
if (TranslateXFunction != null)
{
double x = TranslateXFunction.LastResult;
if (UpdateFunctions)
{
x = TranslateXFunction.Perform(Train, CarIndex, Position, TrackPosition, SectionIndex, IsPartOfTrain, TimeElapsed, CurrentState);
}
Vector3 translationVector = new Vector3(TranslateXDirection); //Must clone
translationVector.Rotate(Direction, Up, Side);
translationVector *= x;
Position += translationVector;
}
else if (TranslateXScriptFile != null)
{
//Translate X Script
if (TranslateXAnimationScript == null)
{
//Load the script if required
try
{
CSScript.GlobalSettings.TargetFramework = "v4.0";
TranslateXAnimationScript = CSScript.LoadCode(File.ReadAllText(TranslateXScriptFile))
.CreateObject("OpenBVEScript")
.AlignToInterface <AnimationScript>(true);
}
catch
{
currentHost.AddMessage(MessageType.Error, false,
"An error occcured whilst parsing script " + TranslateXScriptFile);
TranslateXScriptFile = null;
return;
}
}
double x = TranslateXAnimationScript.ExecuteScript(Train, Position, TrackPosition, SectionIndex,
IsPartOfTrain, TimeElapsed);
Vector3 translationVector = new Vector3(TranslateXDirection); //Must clone
translationVector.Rotate(Direction, Up, Side);
translationVector *= x;
Position += translationVector;
}
if (TranslateYFunction != null)
{
double y = TranslateYFunction.LastResult;
if (UpdateFunctions)
{
y = TranslateYFunction.Perform(Train, CarIndex, Position, TrackPosition, SectionIndex, IsPartOfTrain, TimeElapsed, CurrentState);
}
Vector3 translationVector = new Vector3(TranslateYDirection); //Must clone
translationVector.Rotate(Direction, Up, Side);
translationVector *= y;
Position += translationVector;
}
else if (TranslateYScriptFile != null)
{
//Translate X Script
if (TranslateYAnimationScript == null)
{
//Load the script if required
try
{
CSScript.GlobalSettings.TargetFramework = "v4.0";
TranslateYAnimationScript = CSScript.LoadCode(File.ReadAllText(TranslateYScriptFile))
.CreateObject("OpenBVEScript")
.AlignToInterface <AnimationScript>(true);
}
catch
{
currentHost.AddMessage(MessageType.Error, false,
"An error occcured whilst parsing script " + TranslateYScriptFile);
TranslateYScriptFile = null;
return;
}
}
double y = TranslateYAnimationScript.ExecuteScript(Train, Position, TrackPosition, SectionIndex,
IsPartOfTrain, TimeElapsed);
Vector3 translationVector = new Vector3(TranslateYDirection); //Must clone
translationVector.Rotate(Direction, Up, Side);
translationVector *= y;
Position += translationVector;
}
if (TranslateZFunction != null)
{
double z = TranslateZFunction.LastResult;
if (UpdateFunctions)
{
z = TranslateZFunction.Perform(Train, CarIndex, Position, TrackPosition, SectionIndex, IsPartOfTrain, TimeElapsed, CurrentState);
}
Vector3 translationVector = new Vector3(TranslateZDirection); //Must clone
translationVector.Rotate(Direction, Up, Side);
translationVector *= z;
Position += translationVector;
}
else if (TranslateZScriptFile != null)
{
//Translate X Script
if (TranslateZAnimationScript == null)
{
//Load the script if required
try
{
CSScript.GlobalSettings.TargetFramework = "v4.0";
TranslateZAnimationScript = CSScript.LoadCode(File.ReadAllText(TranslateZScriptFile))
.CreateObject("OpenBVEScript")
.AlignToInterface <AnimationScript>(true);
}
catch
{
currentHost.AddMessage(MessageType.Error, false,
"An error occcured whilst parsing script " + TranslateZScriptFile);
TranslateZScriptFile = null;
return;
}
}
double z = TranslateZAnimationScript.ExecuteScript(Train, Position, TrackPosition, SectionIndex,
IsPartOfTrain, TimeElapsed);
Vector3 translationVector = new Vector3(TranslateZDirection); //Must clone
translationVector.Rotate(Direction, Up, Side);
translationVector *= z;
Position += translationVector;
}
// rotation
bool rotateX = RotateXFunction != null;
bool rotateY = RotateYFunction != null;
bool rotateZ = RotateZFunction != null;
double radianX = 0.0;
if (rotateX)
{
radianX = RotateXFunction.LastResult;
if (UpdateFunctions)
{
radianX = RotateXFunction.Perform(Train, CarIndex, Position, TrackPosition, SectionIndex, IsPartOfTrain, TimeElapsed, CurrentState);
}
if (RotateXDamping != null)
{
RotateXDamping.Update(TimeElapsed, ref radianX, EnableDamping);
}
}
double radianY = 0.0;
if (rotateY)
{
radianY = RotateYFunction.LastResult;
if (UpdateFunctions)
{
radianY = RotateYFunction.Perform(Train, CarIndex, Position, TrackPosition, SectionIndex, IsPartOfTrain, TimeElapsed, CurrentState);
}
if (RotateYDamping != null)
{
RotateYDamping.Update(TimeElapsed, ref radianY, EnableDamping);
}
}
double radianZ = 0.0;
if (rotateZ)
{
radianZ = RotateZFunction.LastResult;
if (UpdateFunctions)
{
radianZ = RotateZFunction.Perform(Train, CarIndex, Position, TrackPosition, SectionIndex, IsPartOfTrain, TimeElapsed, CurrentState);
}
if (RotateZDamping != null)
{
RotateZDamping.Update(TimeElapsed, ref radianZ, EnableDamping);
}
}
// texture shift
bool shiftx = TextureShiftXFunction != null;
bool shifty = TextureShiftYFunction != null;
internalObject.TextureTranslation = Matrix4D.Identity;
if (shiftx | shifty)
{
if (shiftx)
{
double x = TextureShiftXFunction.LastResult;
if (UpdateFunctions)
{
x = TextureShiftXFunction.Perform(Train, CarIndex, Position, TrackPosition, SectionIndex, IsPartOfTrain, TimeElapsed, CurrentState);
}
x -= System.Math.Floor(x);
internalObject.TextureTranslation *= Matrix4D.CreateTranslation(x * TextureShiftXDirection.X, x * TextureShiftXDirection.Y, 1.0);
}
if (shifty)
{
double y = TextureShiftYFunction.LastResult;
if (UpdateFunctions)
{
y = TextureShiftYFunction.Perform(Train, CarIndex, Position, TrackPosition, SectionIndex, IsPartOfTrain, TimeElapsed, CurrentState);
}
y -= System.Math.Floor(y);
internalObject.TextureTranslation *= Matrix4D.CreateTranslation(y * TextureShiftYDirection.X, y * TextureShiftYDirection.Y, 1.0);
}
}
// led
bool led = LEDFunction != null;
double ledangle = 0.0;
if (led)
{
ledangle = LEDFunction.LastResult;
if (UpdateFunctions)
{
ledangle = LEDFunction.Perform(Train, CarIndex, Position, TrackPosition, SectionIndex, IsPartOfTrain, TimeElapsed, CurrentState);
}
}
// null object
if (States[CurrentState].Prototype == null)
{
return;
}
// led
if (led)
{
/*
* Edges: Vertices:
* 0 - bottom 0 - bottom-left
* 1 - left 1 - top-left
* 2 - top 2 - top-right
* 3 - right 3 - bottom-right
* 4 - center
* */
int v = 1;
if (LEDClockwiseWinding)
{
/* winding is clockwise*/
if (ledangle < LEDInitialAngle)
{
ledangle = LEDInitialAngle;
}
if (ledangle < LEDLastAngle)
{
double currentEdgeFloat = System.Math.Floor(0.636619772367582 * (ledangle + 0.785398163397449));
int currentEdge = ((int)currentEdgeFloat % 4 + 4) % 4;
double lastEdgeFloat = System.Math.Floor(0.636619772367582 * (LEDLastAngle + 0.785398163397449));
int lastEdge = ((int)lastEdgeFloat % 4 + 4) % 4;
if (lastEdge < currentEdge | lastEdge == currentEdge & System.Math.Abs(currentEdgeFloat - lastEdgeFloat) > 2.0)
{
lastEdge += 4;
}
if (currentEdge == lastEdge)
{
/* current angle to last angle */
{
double t = 0.5 + 0.636619772367582 * ledangle - currentEdgeFloat;
if (t < 0.0)
{
t = 0.0;
}
else if (t > 1.0)
{
t = 1.0;
}
t = 0.5 * (1.0 - System.Math.Tan(0.25 * (System.Math.PI - 2.0 * System.Math.PI * t)));
double cx = (1.0 - t) * LEDVectors[(currentEdge + 3) % 4].X + t * LEDVectors[currentEdge].X;
double cy = (1.0 - t) * LEDVectors[(currentEdge + 3) % 4].Y + t * LEDVectors[currentEdge].Y;
double cz = (1.0 - t) * LEDVectors[(currentEdge + 3) % 4].Z + t * LEDVectors[currentEdge].Z;
States[CurrentState].Prototype.Mesh.Vertices[v].Coordinates = new Vector3(cx, cy, cz);
v++;
}
{
double t = 0.5 + 0.636619772367582 * LEDLastAngle - lastEdgeFloat;
if (t < 0.0)
{
t = 0.0;
}
else if (t > 1.0)
{
t = 1.0;
}
t = 0.5 * (1.0 - System.Math.Tan(0.25 * (System.Math.PI - 2.0 * System.Math.PI * t)));
double lx = (1.0 - t) * LEDVectors[(lastEdge + 3) % 4].X + t * LEDVectors[lastEdge].X;
double ly = (1.0 - t) * LEDVectors[(lastEdge + 3) % 4].Y + t * LEDVectors[lastEdge].Y;
double lz = (1.0 - t) * LEDVectors[(lastEdge + 3) % 4].Z + t * LEDVectors[lastEdge].Z;
States[CurrentState].Prototype.Mesh.Vertices[v].Coordinates = new Vector3(lx, ly, lz);
v++;
}
}
else
{
{
/* current angle to square vertex */
double t = 0.5 + 0.636619772367582 * ledangle - currentEdgeFloat;
if (t < 0.0)
{
t = 0.0;
}
else if (t > 1.0)
{
t = 1.0;
}
t = 0.5 * (1.0 - System.Math.Tan(0.25 * (System.Math.PI - 2.0 * System.Math.PI * t)));
double cx = (1.0 - t) * LEDVectors[(currentEdge + 3) % 4].X + t * LEDVectors[currentEdge].X;
double cy = (1.0 - t) * LEDVectors[(currentEdge + 3) % 4].Y + t * LEDVectors[currentEdge].Y;
double cz = (1.0 - t) * LEDVectors[(currentEdge + 3) % 4].Z + t * LEDVectors[currentEdge].Z;
States[CurrentState].Prototype.Mesh.Vertices[v + 0].Coordinates = new Vector3(cx, cy, cz);
States[CurrentState].Prototype.Mesh.Vertices[v + 1].Coordinates = LEDVectors[currentEdge];
v += 2;
}
for (int j = currentEdge + 1; j < lastEdge; j++)
{
/* square-vertex to square-vertex */
States[CurrentState].Prototype.Mesh.Vertices[v + 0].Coordinates = LEDVectors[(j + 3) % 4];
States[CurrentState].Prototype.Mesh.Vertices[v + 1].Coordinates = LEDVectors[j % 4];
v += 2;
}
{
/* square vertex to last angle */
double t = 0.5 + 0.636619772367582 * LEDLastAngle - lastEdgeFloat;
if (t < 0.0)
{
t = 0.0;
}
else if (t > 1.0)
{
t = 1.0;
}
t = 0.5 * (1.0 - System.Math.Tan(0.25 * (System.Math.PI - 2.0 * System.Math.PI * t)));
double lx = (1.0 - t) * LEDVectors[(lastEdge + 3) % 4].X + t * LEDVectors[lastEdge % 4].X;
double ly = (1.0 - t) * LEDVectors[(lastEdge + 3) % 4].Y + t * LEDVectors[lastEdge % 4].Y;
double lz = (1.0 - t) * LEDVectors[(lastEdge + 3) % 4].Z + t * LEDVectors[lastEdge % 4].Z;
States[CurrentState].Prototype.Mesh.Vertices[v + 0].Coordinates = LEDVectors[(lastEdge + 3) % 4];
States[CurrentState].Prototype.Mesh.Vertices[v + 1].Coordinates = new Vector3(lx, ly, lz);
v += 2;
}
}
}
}
else
{
/* winding is counter-clockwise*/
if (ledangle > LEDInitialAngle)
{
ledangle = LEDInitialAngle;
}
if (ledangle > LEDLastAngle)
{
double currentEdgeFloat = System.Math.Floor(0.636619772367582 * (ledangle + 0.785398163397449));
int currentEdge = ((int)currentEdgeFloat % 4 + 4) % 4;
double lastEdgeFloat = System.Math.Floor(0.636619772367582 * (LEDLastAngle + 0.785398163397449));
int lastEdge = ((int)lastEdgeFloat % 4 + 4) % 4;
if (currentEdge < lastEdge | lastEdge == currentEdge & System.Math.Abs(currentEdgeFloat - lastEdgeFloat) > 2.0)
{
currentEdge += 4;
}
if (currentEdge == lastEdge)
{
/* current angle to last angle */
{
double t = 0.5 + 0.636619772367582 * LEDLastAngle - lastEdgeFloat;
if (t < 0.0)
{
t = 0.0;
}
else if (t > 1.0)
{
t = 1.0;
}
t = 0.5 * (1.0 - System.Math.Tan(0.25 * (System.Math.PI - 2.0 * System.Math.PI * t)));
double lx = (1.0 - t) * LEDVectors[(lastEdge + 3) % 4].X + t * LEDVectors[lastEdge].X;
double ly = (1.0 - t) * LEDVectors[(lastEdge + 3) % 4].Y + t * LEDVectors[lastEdge].Y;
double lz = (1.0 - t) * LEDVectors[(lastEdge + 3) % 4].Z + t * LEDVectors[lastEdge].Z;
States[CurrentState].Prototype.Mesh.Vertices[v].Coordinates = new Vector3(lx, ly, lz);
v++;
}
{
double t = 0.5 + 0.636619772367582 * ledangle - currentEdgeFloat;
if (t < 0.0)
{
t = 0.0;
}
else if (t > 1.0)
{
t = 1.0;
}
t = t - System.Math.Floor(t);
t = 0.5 * (1.0 - System.Math.Tan(0.25 * (System.Math.PI - 2.0 * System.Math.PI * t)));
double cx = (1.0 - t) * LEDVectors[(currentEdge + 3) % 4].X + t * LEDVectors[currentEdge].X;
double cy = (1.0 - t) * LEDVectors[(currentEdge + 3) % 4].Y + t * LEDVectors[currentEdge].Y;
double cz = (1.0 - t) * LEDVectors[(currentEdge + 3) % 4].Z + t * LEDVectors[currentEdge].Z;
States[CurrentState].Prototype.Mesh.Vertices[v].Coordinates = new Vector3(cx, cy, cz);
v++;
}
}
else
{
{
/* current angle to square vertex */
double t = 0.5 + 0.636619772367582 * ledangle - currentEdgeFloat;
if (t < 0.0)
{
t = 0.0;
}
else if (t > 1.0)
{
t = 1.0;
}
t = 0.5 * (1.0 - System.Math.Tan(0.25 * (System.Math.PI - 2.0 * System.Math.PI * t)));
double cx = (1.0 - t) * LEDVectors[(currentEdge + 3) % 4].X + t * LEDVectors[currentEdge % 4].X;
double cy = (1.0 - t) * LEDVectors[(currentEdge + 3) % 4].Y + t * LEDVectors[currentEdge % 4].Y;
double cz = (1.0 - t) * LEDVectors[(currentEdge + 3) % 4].Z + t * LEDVectors[currentEdge % 4].Z;
States[CurrentState].Prototype.Mesh.Vertices[v + 0].Coordinates = LEDVectors[(currentEdge + 3) % 4];
States[CurrentState].Prototype.Mesh.Vertices[v + 1].Coordinates = new Vector3(cx, cy, cz);
v += 2;
}
for (int j = currentEdge - 1; j > lastEdge; j--)
{
/* square-vertex to square-vertex */
States[CurrentState].Prototype.Mesh.Vertices[v + 0].Coordinates = LEDVectors[(j + 3) % 4];
States[CurrentState].Prototype.Mesh.Vertices[v + 1].Coordinates = LEDVectors[j % 4];
v += 2;
}
{
/* square vertex to last angle */
double t = 0.5 + 0.636619772367582 * LEDLastAngle - lastEdgeFloat;
if (t < 0.0)
{
t = 0.0;
}
else if (t > 1.0)
{
t = 1.0;
}
t = 0.5 * (1.0 - System.Math.Tan(0.25 * (System.Math.PI - 2.0 * System.Math.PI * t)));
double lx = (1.0 - t) * LEDVectors[(lastEdge + 3) % 4].X + t * LEDVectors[lastEdge].X;
double ly = (1.0 - t) * LEDVectors[(lastEdge + 3) % 4].Y + t * LEDVectors[lastEdge].Y;
double lz = (1.0 - t) * LEDVectors[(lastEdge + 3) % 4].Z + t * LEDVectors[lastEdge].Z;
States[CurrentState].Prototype.Mesh.Vertices[v + 0].Coordinates = new Vector3(lx, ly, lz);
States[CurrentState].Prototype.Mesh.Vertices[v + 1].Coordinates = LEDVectors[lastEdge % 4];
v += 2;
}
}
}
}
for (int j = v; v < 11; v++)
{
States[CurrentState].Prototype.Mesh.Vertices[j].Coordinates = LEDVectors[4];
}
}
// update prototype
internalObject.Prototype = States[CurrentState].Prototype;
// update VAO for led if required
UpdateVAO = led;
// update state
// rotate
internalObject.Rotate = Matrix4D.Identity;
if (rotateX)
{
internalObject.Rotate *= Matrix4D.CreateFromAxisAngle(new Vector3(RotateXDirection.X, RotateXDirection.Y, -RotateXDirection.Z), 2.0 * System.Math.PI - radianX);
}
if (rotateY)
{
internalObject.Rotate *= Matrix4D.CreateFromAxisAngle(new Vector3(RotateYDirection.X, RotateYDirection.Y, -RotateYDirection.Z), 2.0 * System.Math.PI - radianY);
}
if (rotateZ)
{
internalObject.Rotate *= Matrix4D.CreateFromAxisAngle(new Vector3(RotateZDirection.X, RotateZDirection.Y, -RotateZDirection.Z), 2.0 * System.Math.PI - radianZ);
}
if (Camera != null && Camera.CurrentRestriction != CameraRestrictionMode.NotAvailable && Camera.CurrentRestriction != CameraRestrictionMode.Restricted3D)
{
internalObject.Rotate *= States[CurrentState].Translation * Matrix4D.CreateTranslation(-Position.X, -Position.Y, Position.Z);
internalObject.Rotate *= (Matrix4D) new Transformation((Vector3)Camera.AbsoluteDirection, (Vector3)Camera.AbsoluteUp, (Vector3)Camera.AbsoluteSide);
// translate
double dx = -System.Math.Tan(Camera.Alignment.Yaw) - Camera.Alignment.Position.X;
double dy = -System.Math.Tan(Camera.Alignment.Pitch) - Camera.Alignment.Position.Y;
double dz = -Camera.Alignment.Position.Z;
Vector3 add = Camera.AbsolutePosition + dx * Camera.AbsoluteSide + dy * Camera.AbsoluteUp + dz * Camera.AbsoluteDirection;
internalObject.Translation = Matrix4D.CreateTranslation(add.X, add.Y, -add.Z);
}
else
{
internalObject.Rotate *= States[CurrentState].Translation;
internalObject.Rotate *= (Matrix4D) new Transformation(Direction, Up, Side);
// translate
internalObject.Translation = Matrix4D.CreateTranslation(Position.X, Position.Y, -Position.Z);
}
// visibility changed
// TouchElement is handled by another function.
if (!IsTouch)
{
if (Show)
{
if (Camera != null)
{
currentHost.ShowObject(internalObject, ObjectType.Overlay);
}
else
{
currentHost.ShowObject(internalObject, ObjectType.Dynamic);
}
}
else
{
currentHost.HideObject(internalObject);
}
}
}
public override Asset Import(string path)
{
FBX fbx = FBX.Load(path);
Model model = new Model();
Dictionary <long, object> components = new Dictionary <long, object>();
Dictionary <long, Matrix4D> transforms = new Dictionary <long, Matrix4D>();
Dictionary <long, string> triangulationErrors = new Dictionary <long, string>();
string name = Path.GetFileNameWithoutExtension(path);
if (fbx == null)
{
SceneManager.Current.RaiseError($"File \"{name}\" could not be opened. Please ensure this is a binary FBX file.");
return(null);
}
FBXElem objects = fbx.Elements.Find(e => e.ID == "Objects");
Matrix4D worldMatrix = createTransformFor(fbx.Elements.Find(e => e.ID == "GlobalSettings").Children[1], out Quaternion.RotationOrder order);
foreach (FBXElem material in objects.Children.Where(e => e.ID == "Material"))
{
string matName = material.Properties[1].Value.ToString();
matName = matName.Substring(0, matName.IndexOf("::"));
Material m = new Material {
Name = matName
};
components.Add((long)material.Properties[0].Value, m);
Console.WriteLine($"Added material \"{matName}\" ({material.Properties[0].Value})");
}
foreach (FBXElem video in objects.Children.Where(e => e.ID == "Video"))
{
FBXElem content = video.Children.Find(e => e.ID == "Content");
if (content.Properties[0].Size > 4)
{
components.Add((long)video.Properties[0].Value, (byte[])content.Properties[0].Value);
}
}
IEnumerable <FBXElem> textures = objects.Children.Where(e => e.ID == "Texture");
foreach (FBXElem texture in textures)
{
string fullFile = texture.Children.Find(e => e.ID == "FileName").Properties[0].Value.ToString();
if (fullFile.IndexOf('.') == -1)
{
continue;
}
string file = Path.GetFileName(fullFile);
Texture t = new Texture();
long videoKey = (long)fbx.Elements.Find(e => e.ID == "Connections").Children.Where(c => (long)c.Properties[2].Value == (long)texture.Properties[0].Value).First().Properties[1].Value;
if (components.ContainsKey(videoKey))
{
using (FileStream fs = new FileStream(Path.Combine(Path.GetDirectoryName(path), file), FileMode.Create))
using (BinaryWriter bw = new BinaryWriter(fs))
{
bw.Write((byte[])components[videoKey]);
}
}
t = SceneManager.Current.Content.Load(Path.GetFileName(file));
switch (fbx.Elements.Find(e => e.ID == "Connections").Children.Where(c => (long)c.Properties[1].Value == (long)texture.Properties[0].Value).First().Properties.Last().Value.ToString())
{
case "NormalMap":
t.Type = Texture.TextureType.Normal;
break;
case "SpecularColor":
t.Type = Texture.TextureType.Specular;
break;
}
if (!components.ContainsKey((long)texture.Properties[0].Value))
{
components.Add((long)texture.Properties[0].Value, t);
Console.WriteLine($"Added texture \"{file}\" ({texture.Properties[0].Value})");
}
}
foreach (FBXElem element in objects.Children.Where(e => e.ID == "Model"))
{
string modelName = element.Properties[1].Value.ToString();
modelName = modelName.Substring(0, modelName.IndexOf("::"));
components.Add((long)element.Properties[0].Value, new ModelMesh {
Name = modelName, Tag = (long)element.Properties[0].Value
});
Console.WriteLine("Added model \"{0}\" ({1})", modelName, element.Properties[0].Value);
FBXElem properties = element.Children.Find(c => c.ID == "Properties70");
Matrix4D m = Matrix4D.Identity;
bool bRotationActive = false;
Vector3 lclTranslation = Vector3.Zero;
Quaternion lclRotation = Quaternion.Identity;
Quaternion preRotation = Quaternion.Identity;
Quaternion postRotation = Quaternion.Identity;
Vector3 rotationPivot = Vector3.Zero;
Vector3 rotationOffset = Vector3.Zero;
Vector3 lclScaling = Vector3.One;
Vector3 scalingPivot = Vector3.Zero;
Vector3 scalingOffset = Vector3.Zero;
Vector3 geoPosition = Vector3.Zero;
Quaternion geoRotation = Quaternion.Identity;
Vector3 geoScale = Vector3.One;
FBXElem property;
property = properties.Children.GetProperty("RotationActive");
if (property != null)
{
bRotationActive = ((int)property.Properties[4].Value == 1);
}
property = properties.Children.GetProperty("ScalingPivot");
if (property != null)
{
scalingPivot = new Vector3(
Convert.ToSingle(property.Properties[4].Value),
Convert.ToSingle(property.Properties[5].Value),
Convert.ToSingle(property.Properties[6].Value)
);
}
property = properties.Children.GetProperty("Lcl Scaling");
if (property != null)
{
lclScaling = new Vector3(
Convert.ToSingle(property.Properties[4].Value),
Convert.ToSingle(property.Properties[5].Value),
Convert.ToSingle(property.Properties[6].Value)
);
}
property = properties.Children.GetProperty("ScalingOffset");
if (property != null)
{
scalingOffset = new Vector3(
Convert.ToSingle(property.Properties[4].Value),
Convert.ToSingle(property.Properties[5].Value),
Convert.ToSingle(property.Properties[6].Value)
);
}
property = properties.Children.GetProperty("RotationPivot");
if (property != null)
{
rotationPivot = new Vector3(
Convert.ToSingle(property.Properties[4].Value),
Convert.ToSingle(property.Properties[5].Value),
Convert.ToSingle(property.Properties[6].Value)
);
}
property = properties.Children.GetProperty("PostRotation");
if (property != null)
{
postRotation = MakeQuaternion(
Convert.ToSingle(property.Properties[4].Value),
Convert.ToSingle(property.Properties[5].Value),
Convert.ToSingle(property.Properties[6].Value),
order
);
}
property = properties.Children.GetProperty("Lcl Rotation");
if (property != null)
{
lclRotation = MakeQuaternion(
Convert.ToSingle(property.Properties[4].Value),
Convert.ToSingle(property.Properties[5].Value),
Convert.ToSingle(property.Properties[6].Value),
order
);
}
property = properties.Children.GetProperty("PreRotation");
if (property != null)
{
preRotation = MakeQuaternion(
Convert.ToSingle(property.Properties[4].Value),
Convert.ToSingle(property.Properties[5].Value),
Convert.ToSingle(property.Properties[6].Value),
order
);
}
property = properties.Children.GetProperty("RotationOffset");
if (property != null)
{
rotationOffset = new Vector3(
Convert.ToSingle(property.Properties[4].Value),
Convert.ToSingle(property.Properties[5].Value),
Convert.ToSingle(property.Properties[6].Value)
);
}
property = properties.Children.GetProperty("Lcl Translation");
if (property != null)
{
lclTranslation = new Vector3(
Convert.ToSingle(property.Properties[4].Value),
Convert.ToSingle(property.Properties[5].Value),
Convert.ToSingle(property.Properties[6].Value)
);
}
property = properties.Children.GetProperty("GeometricTranslation");
if (property != null)
{
geoPosition = new Vector3(
Convert.ToSingle(property.Properties[4].Value),
Convert.ToSingle(property.Properties[5].Value),
Convert.ToSingle(property.Properties[6].Value)
);
}
property = properties.Children.GetProperty("GeometricRotation");
if (property != null)
{
geoRotation = MakeQuaternion(
Convert.ToSingle(property.Properties[4].Value),
Convert.ToSingle(property.Properties[5].Value),
Convert.ToSingle(property.Properties[6].Value),
order
);
}
property = properties.Children.GetProperty("GeometricScaling");
if (property != null)
{
geoScale = new Vector3(
Convert.ToSingle(property.Properties[4].Value),
Convert.ToSingle(property.Properties[5].Value),
Convert.ToSingle(property.Properties[6].Value)
);
}
m =
Matrix4D.CreateTranslation(scalingPivot).Inverted() *
Matrix4D.CreateScale(lclScaling) *
Matrix4D.CreateTranslation(scalingPivot) *
Matrix4D.CreateTranslation(scalingOffset) *
Matrix4D.CreateTranslation(rotationPivot).Inverted() *
Matrix4D.CreateFromQuaternion(postRotation) *
Matrix4D.CreateFromQuaternion(lclRotation) *
Matrix4D.CreateFromQuaternion(preRotation) *
Matrix4D.CreateTranslation(rotationPivot) *
Matrix4D.CreateTranslation(rotationOffset) *
Matrix4D.CreateTranslation(lclTranslation);
if (m != Matrix4D.Identity)
{
transforms.Add((long)element.Properties[0].Value, m);
}
}
foreach (FBXElem element in objects.Children.Where(e => e.ID == "Geometry"))
{
bool bUVs = true;
bool bNorms = true;
bool bColours = true;
bool bUseIndexNorm = false;
bool bNeedsTriangulating = false;
string geometryName = element.Properties[1].Value.ToString();
geometryName = geometryName.Substring(0, geometryName.IndexOf("::"));
List <Vector3> verts = new List <Vector3>();
List <Vector3> norms = new List <Vector3>();
List <Vector2> uvs = new List <Vector2>();
List <Colour> colours = new List <Colour>();
double[] vertParts = (double[])element.Children.Find(e => e.ID == "Vertices").Properties[0].Value;
for (int i = 0; i < vertParts.Length; i += 3)
{
verts.Add(new Vector3((float)vertParts[i + 0], (float)vertParts[i + 1], (float)vertParts[i + 2]));
}
SceneManager.Current.UpdateProgress($"Processed {element.Properties[1].Value}->Vertices");
FBXElem normElem = element.Children.Find(e => e.ID == "LayerElementNormal");
if (normElem != null)
{
double[] normParts = (double[])normElem.Children.Find(e => e.ID == "Normals").Properties[0].Value;
for (int i = 0; i < normParts.Length; i += 3)
{
norms.Add(new Vector3((float)normParts[i + 0], (float)normParts[i + 1], (float)normParts[i + 2]));
}
bUseIndexNorm = (normElem.Children.Find(e => e.ID == "MappingInformationType").Properties[0].Value.ToString() == "ByVertice");
SceneManager.Current.UpdateProgress($"Processed {element.Properties[1].Value}->Normals");
}
else
{
bNorms = false;
}
FBXElem colourElem = element.Children.Find(e => e.ID == "LayerElementColor");
if (colourElem != null)
{
double[] colourParts = (double[])colourElem.Children.Find(e => e.ID == "Colors").Properties[0].Value;
FBXElem colourReferenceType = colourElem.Children.Find(e => e.ID == "ReferenceInformationType");
switch (colourReferenceType.Properties[0].Value.ToString())
{
case "IndexToDirect":
int[] colourIndicies = (int[])colourElem.Children.Find(e => e.ID == "ColorIndex").Properties[0].Value;
for (int i = 0; i < colourIndicies.Length; i++)
{
int offset = colourIndicies[i] * 4;
colours.Add(new Colour(
(float)colourParts[offset + 0],
(float)colourParts[offset + 1],
(float)colourParts[offset + 2],
(float)colourParts[offset + 3])
);
}
break;
case "Direct":
bColours = false;
break;
default:
throw new NotImplementedException($"Unsupported Colour Reference Type: {colourReferenceType.Properties[0].Value}");
}
SceneManager.Current.UpdateProgress($"Processed {element.Properties[1].Value}->Colours");
}
else
{
bColours = false;
}
FBXElem uvElem = element.Children.Find(e => e.ID == "LayerElementUV");
if (uvElem != null)
{
double[] uvParts = (double[])uvElem.Children.Find(e => e.ID == "UV").Properties[0].Value;
FBXElem uvReferenceType = uvElem.Children.Find(e => e.ID == "ReferenceInformationType");
if (uvReferenceType.Properties[0].Value.ToString() == "IndexToDirect")
{
List <Vector2> luvs = new List <Vector2>();
for (int i = 0; i < uvParts.Length; i += 2)
{
luvs.Add(new Vector2((float)uvParts[i + 0], 1 - (float)uvParts[i + 1]));
}
int[] uvindicies = (int[])uvElem.Children.Find(e => e.ID == "UVIndex").Properties[0].Value;
for (int i = 0; i < uvindicies.Length; i++)
{
if (uvindicies[i] == -1)
{
uvs.Add(Vector2.Zero);
}
else
{
uvs.Add(luvs[uvindicies[i]]);
}
}
}
else
{
for (int i = 0; i < uvParts.Length; i += 2)
{
uvs.Add(new Vector2((float)uvParts[i + 0], (float)uvParts[i + 1]));
}
}
SceneManager.Current.UpdateProgress($"Processed {element.Properties[1].Value}->UVs");
}
else
{
bUVs = false;
}
int[] indicies = (int[])element.Children.Find(e => e.ID == "PolygonVertexIndex").Properties[0].Value;
List <FBXFace> faces = new List <FBXFace>();
FBXFace face = new FBXFace();
int j = 0;
for (int i = 0; i < indicies.Length; i++)
{
bool bFace = false;
int index = indicies[i];
if (index < 0)
{
bFace = true;
index = (index * -1) - 1;
}
j++;
face.AddVertex(verts[index], bNorms ? norms[bUseIndexNorm ? index : i] : Vector3.Zero, bUVs ? uvs[i] : Vector2.Zero, bColours ? colours[i] : Colour.White);
if (bFace)
{
if (j > 3)
{
triangulationErrors.Add((long)element.Properties[0].Value, geometryName);
bNeedsTriangulating = true;
break;
}
faces.Add(face);
face = new FBXFace();
j = 0;
}
}
List <ModelMeshPart> parts = new List <ModelMeshPart>();
if (!bNeedsTriangulating)
{
SceneManager.Current.UpdateProgress($"Processed {element.Properties[1].Value}->Faces");
FBXElem elemMaterial = element.Children.Find(e => e.ID == "LayerElementMaterial");
if (elemMaterial != null)
{
int[] faceMaterials = (int[])elemMaterial.Children.Find(e => e.ID == "Materials").Properties[0].Value;
for (int i = 0; i < faceMaterials.Length; i++)
{
faces[i].MaterialID = faceMaterials[i];
}
SceneManager.Current.UpdateProgress($"Processed {element.Properties[1].Value}->Materials");
}
IEnumerable <IGrouping <int, FBXFace> > materialGroups = faces.GroupBy(f => f.MaterialID);
int processedFaceCount = 0,
processedGroupCount = 0;
foreach (IGrouping <int, FBXFace> materialGroup in materialGroups)
{
IEnumerable <IGrouping <int, FBXFace> > smoothingGroups = materialGroup.GroupBy(f => f.SmoothingGroup);
foreach (IGrouping <int, FBXFace> smoothingGroup in smoothingGroups)
{
ModelMeshPart meshpart = new ModelMeshPart {
PrimitiveType = Flummery.Core.PrimitiveType.Triangles
};
processedFaceCount = 0;
foreach (FBXFace groupface in smoothingGroup)
{
foreach (Vertex vert in groupface.Vertices)
{
meshpart.AddVertex(vert.Position, vert.Normal, vert.UV, vert.Colour);
}
processedFaceCount++;
if (processedFaceCount % 250 == 0)
{
SceneManager.Current.UpdateProgress($"Processed {element.Properties[1].Value}->MeshPart[{processedGroupCount}]->Face[{processedFaceCount}]");
}
}
meshpart.Key = materialGroup.Key;
parts.Add(meshpart);
SceneManager.Current.UpdateProgress($"Processed {element.Properties[1].Value}->MeshPart");
processedGroupCount++;
}
}
}
components.Add((long)element.Properties[0].Value, parts);
SceneManager.Current.UpdateProgress($"Processed {element.Properties[1].Value}");
}
Dictionary <long, BoneType> nodeAttributes = new Dictionary <long, BoneType>();
Dictionary <long, object> nodeAttachments = new Dictionary <long, object>();
foreach (FBXElem nodeAttribute in objects.Children.Where(e => e.ID == "NodeAttribute"))
{
FBXElem typeFlags = nodeAttribute.Children.Find(e => e.ID == "TypeFlags");
if (typeFlags != null)
{
switch (typeFlags.Properties[0].Value.ToString().ToLower())
{
case "light":
LIGHT light = new LIGHT();
FBXElem lightType = nodeAttribute.Children.Find(c => c.ID == "Properties70").Children.GetProperty("LightType");
light.Type = (LIGHT.LightType)(lightType == null ? 0 : lightType.Properties[4].Value);
nodeAttributes.Add((long)nodeAttribute.Properties[0].Value, BoneType.Light);
nodeAttachments.Add((long)nodeAttribute.Properties[0].Value, light);
break;
default:
// null node
break;
}
}
}
string[] connectionOrder = new string[] { "System.Collections.Generic.List`1[Flummery.Core.ModelMeshPart]", "Flummery.Core.Texture", "Flummery.Core.Material", "Flummery.Core.ModelMesh" };
FBXElem connections = fbx.Elements.Find(e => e.ID == "Connections");
HashSet <long> loaded = new HashSet <long>();
foreach (string connectionType in connectionOrder)
{
IEnumerable <FBXElem> connectionsOfType = connections.Children.Where(c => components.ContainsKey((long)c.Properties[1].Value) && components[(long)c.Properties[1].Value].GetType().ToString() == connectionType);
foreach (FBXElem connection in connectionsOfType)
{
long keyA = (long)connection.Properties[1].Value;
long keyB = (long)connection.Properties[2].Value;
Console.WriteLine("{0} is connected to {1} :: {2}", keyA, keyB, connectionType);
switch (connectionType)
{
case "Flummery.Core.ModelMesh":
int boneID;
if (keyB == 0)
{
boneID = model.AddMesh((ModelMesh)components[keyA]);
model.SetName(((ModelMesh)components[keyA]).Name, boneID);
if (transforms.ContainsKey(keyA))
{
model.SetTransform(transforms[keyA], boneID);
}
FBXElem attribute = connections.Children.FirstOrDefault(c => nodeAttributes.ContainsKey((long)c.Properties[1].Value) && (long)c.Properties[2].Value == keyA);
if (attribute != null)
{
keyA = (long)attribute.Properties[1].Value;
if (nodeAttributes.ContainsKey(keyA))
{
model.Bones[boneID].Type = nodeAttributes[keyA];
}
if (nodeAttachments.ContainsKey(keyA))
{
model.Bones[boneID].Attachment = nodeAttachments[keyA];
}
}
}
else
{
ModelMesh parent = model.FindMesh(keyB);
if (parent != null)
{
boneID = model.AddMesh((ModelMesh)components[keyA], parent.Parent.Index);
model.SetName(((ModelMesh)components[keyA]).Name, boneID);
if (transforms.ContainsKey(keyA))
{
model.SetTransform(transforms[keyA], boneID);
}
}
else
{
if (!components.ContainsKey(keyB))
{
Console.WriteLine("Components doesn't contain {0}", keyB);
}
else
{
Console.WriteLine("Couldn't find {0}", ((ModelMesh)components[keyB]).Name);
}
}
}
break;
case "Flummery.Core.Texture":
if (components.ContainsKey(keyB) && components[keyB].GetType().ToString() == "Flummery.Core.Material")
{
if (loaded.Add(keyA))
{
((Material)components[keyB]).Texture = (Texture)components[keyA];
//SceneManager.Current.Add((Material)components[keyB]);
}
}
else
{
Console.WriteLine("{0} is of unknown type {1}", keyA, components[keyA].GetType().ToString());
Console.WriteLine("{0} is of unknown type {1}", keyB, components[keyB].GetType().ToString());
}
break;
case "System.Collections.Generic.List`1[Flummery.Core.ModelMeshPart]":
if (components.ContainsKey(keyB) && components[keyB].GetType().ToString() == "Flummery.Core.ModelMesh")
{
if (triangulationErrors.ContainsKey(keyA))
{
triangulationErrors[keyA] += " (geometry of " + ((ModelMesh)components[keyB]).Name + ")";
}
foreach (ModelMeshPart part in (List <ModelMeshPart>)components[keyA])
{
((ModelMesh)components[keyB]).AddModelMeshPart(part);
}
}
break;
case "Flummery.Core.Material":
if (components.ContainsKey(keyB) && components[keyB].GetType().ToString() == "Flummery.Core.ModelMesh")
{
List <FBXElem> materialLookup = connections.Children.Where(c => (long)c.Properties[2].Value == keyB).ToList();
for (int i = materialLookup.Count - 1; i > -1; i--)
{
if (!connectionsOfType.Any(c => (long)c.Properties[1].Value == (long)materialLookup[i].Properties[1].Value))
{
materialLookup.RemoveAt(i);
}
}
foreach (ModelMeshPart part in ((ModelMesh)components[keyB]).MeshParts)
{
if ((long)materialLookup[(int)part.Key].Properties[1].Value == keyA)
{
part.Material = (Material)components[keyA];
SceneManager.Current.Add(part.Material);
}
}
}
break;
default:
Console.WriteLine("{0} is of unknown type {1}", keyA, components[keyA].GetType().ToString());
if (components.ContainsKey(keyB))
{
Console.WriteLine("{0} is of unknown type {1}", keyB, components[keyB].GetType().ToString());
}
Console.WriteLine("===");
break;
}
}
}
if (triangulationErrors.Count > 0)
{
SceneManager.Current.UpdateProgress($"Failed to load {name}");
string error = $"File \"{name}\" has part{(triangulationErrors.Count > 1 ? "s" : "")} that need been triangulating! Please triangulate the following:";
foreach (KeyValuePair <long, string> kvp in triangulationErrors)
{
error += $"\r\n{kvp.Value}";
}
SceneManager.Current.RaiseError(error);
return(null);
}
else
{
SceneManager.Current.UpdateProgress($"Loaded {name}");
model.Santise();
//if (worldMatrix != Matrix4D.Identity) { ModelManipulator.Freeze(model, worldMatrix); }
ModelManipulator.FlipAxis(model, Axis.Z, true);
return(model);
}
}
public void RenderFace(Shader Shader, ObjectState State, MeshFace Face, Vector3 EyePosition, bool IsDebugTouchMode = false)
{
if (State.Prototype.Mesh.Vertices.Length < 1)
{
return;
}
VertexTemplate[] vertices = State.Prototype.Mesh.Vertices;
MeshMaterial material = State.Prototype.Mesh.Materials[Face.Material];
VertexArrayObject VAO = (VertexArrayObject)State.Prototype.Mesh.VAO;
VertexArrayObject NormalsVAO = (VertexArrayObject)State.Prototype.Mesh.NormalsVAO;
if (!OptionBackFaceCulling || (Face.Flags & MeshFace.Face2Mask) != 0)
{
GL.Disable(EnableCap.CullFace);
}
else if (OptionBackFaceCulling)
{
if ((Face.Flags & MeshFace.Face2Mask) == 0)
{
GL.Enable(EnableCap.CullFace);
}
}
// matrix
Matrix4D modelMatrix = State.Scale * State.Rotate * State.Translation * Matrix4D.CreateTranslation(-EyePosition);
Matrix4D modelViewMatrix = modelMatrix * CurrentViewMatrix;
Shader.SetCurrentProjectionMatrix(CurrentProjectionMatrix);
Shader.SetCurrentModelViewMatrix(modelViewMatrix);
Shader.SetCurrentNormalMatrix(Matrix4D.Transpose(Matrix4D.Invert(modelViewMatrix)));
Shader.SetCurrentTextureMatrix(State.TextureTranslation);
if (OptionWireFrame || IsDebugTouchMode)
{
VAO.Bind();
VAO.Draw(Shader.VertexLayout, PrimitiveType.LineLoop, Face.IboStartIndex, Face.Vertices.Length);
VAO.UnBind();
return;
}
// lighting
if (material.NighttimeTexture == null)
{
if (OptionLighting)
{
Shader.SetIsLight(true);
Shader.SetLightPosition(new Vector3(Lighting.OptionLightPosition.X, Lighting.OptionLightPosition.Y, -Lighting.OptionLightPosition.Z));
Shader.SetLightAmbient(new Color4(Lighting.OptionAmbientColor.R, Lighting.OptionAmbientColor.G, Lighting.OptionAmbientColor.B, 255));
Shader.SetLightDiffuse(new Color4(Lighting.OptionDiffuseColor.R, Lighting.OptionDiffuseColor.G, Lighting.OptionDiffuseColor.B, 255));
Shader.SetLightSpecular(new Color4(Lighting.OptionSpecularColor.R, Lighting.OptionSpecularColor.G, Lighting.OptionSpecularColor.B, 255));
Shader.SetMaterialAmbient(new Color4(material.Color.R, material.Color.G, material.Color.B, material.Color.A)); // TODO
Shader.SetMaterialDiffuse(new Color4(material.Color.R, material.Color.G, material.Color.B, material.Color.A));
Shader.SetMaterialSpecular(new Color4(material.Color.R, material.Color.G, material.Color.B, material.Color.A)); // TODO
if ((material.Flags & MeshMaterial.EmissiveColorMask) != 0)
{
Shader.SetMaterialEmission(new Color4(material.EmissiveColor.R, material.EmissiveColor.G, material.EmissiveColor.B, 255));
}
else
{
Shader.SetMaterialEmission(new Color4(0.0f, 0.0f, 0.0f, 1.0f));
}
Shader.SetMaterialShininess(1.0f);
Lighting.OptionLightingResultingAmount = (Lighting.OptionAmbientColor.R + Lighting.OptionAmbientColor.G + Lighting.OptionAmbientColor.B) / 480.0f;
if (Lighting.OptionLightingResultingAmount > 1.0f)
{
Lighting.OptionLightingResultingAmount = 1.0f;
}
}
else
{
Shader.SetMaterialAmbient(new Color4(material.Color.R, material.Color.G, material.Color.B, material.Color.A)); // TODO
}
}
else
{
Shader.SetMaterialAmbient(new Color4(material.Color.R, material.Color.G, material.Color.B, material.Color.A)); // TODO
}
// fog
if (OptionFog)
{
Shader.SetIsFog(true);
Shader.SetFogStart(Fog.Start);
Shader.SetFogEnd(Fog.End);
Shader.SetFogColor(new Color4(Fog.Color.R, Fog.Color.G, Fog.Color.B, 255));
}
PrimitiveType DrawMode;
switch (Face.Flags & MeshFace.FaceTypeMask)
{
case MeshFace.FaceTypeTriangles:
DrawMode = PrimitiveType.Triangles;
break;
case MeshFace.FaceTypeTriangleStrip:
DrawMode = PrimitiveType.TriangleStrip;
break;
case MeshFace.FaceTypeQuads:
DrawMode = PrimitiveType.Quads;
break;
case MeshFace.FaceTypeQuadStrip:
DrawMode = PrimitiveType.QuadStrip;
break;
default:
DrawMode = PrimitiveType.Polygon;
break;
}
// daytime polygon
{
// texture
if (material.DaytimeTexture != null)
{
if (currentHost.LoadTexture(material.DaytimeTexture, (OpenGlTextureWrapMode)material.WrapMode))
{
GL.Enable(EnableCap.Texture2D);
Shader.SetIsTexture(true);
Shader.SetTexture(0);
GL.BindTexture(TextureTarget.Texture2D, material.DaytimeTexture.OpenGlTextures[(int)material.WrapMode].Name);
}
}
// blend mode
float factor;
if (material.BlendMode == MeshMaterialBlendMode.Additive)
{
factor = 1.0f;
GL.Enable(EnableCap.Blend);
GL.BlendFunc(BlendingFactor.SrcAlpha, BlendingFactor.One);
Shader.SetIsFog(false);
}
else if (material.NighttimeTexture == null)
{
float blend = inv255 * material.DaytimeNighttimeBlend + 1.0f - Lighting.OptionLightingResultingAmount;
if (blend > 1.0f)
{
blend = 1.0f;
}
factor = 1.0f - 0.7f * blend;
}
else
{
factor = 1.0f;
}
Shader.SetBrightness(factor);
float alphaFactor;
if (material.GlowAttenuationData != 0)
{
alphaFactor = (float)Glow.GetDistanceFactor(modelMatrix, vertices, ref Face, material.GlowAttenuationData);
}
else
{
alphaFactor = 1.0f;
}
Shader.SetOpacity(inv255 * material.Color.A * alphaFactor);
// render polygon
VAO.Bind();
VAO.Draw(Shader.VertexLayout, DrawMode, Face.IboStartIndex, Face.Vertices.Length);
VAO.UnBind();
GL.BindTexture(TextureTarget.Texture2D, 0);
}
// nighttime polygon
if (material.NighttimeTexture != null && currentHost.LoadTexture(material.NighttimeTexture, (OpenGlTextureWrapMode)material.WrapMode))
{
// texture
GL.Enable(EnableCap.Texture2D);
Shader.SetIsTexture(true);
Shader.SetTexture(0);
GL.BindTexture(TextureTarget.Texture2D, material.NighttimeTexture.OpenGlTextures[(int)material.WrapMode].Name);
GL.Enable(EnableCap.Blend);
// alpha test
GL.Enable(EnableCap.AlphaTest);
GL.AlphaFunc(AlphaFunction.Greater, 0.0f);
// blend mode
float alphaFactor;
if (material.GlowAttenuationData != 0)
{
alphaFactor = (float)Glow.GetDistanceFactor(modelMatrix, vertices, ref Face, material.GlowAttenuationData);
float blend = inv255 * material.DaytimeNighttimeBlend + 1.0f - Lighting.OptionLightingResultingAmount;
if (blend > 1.0f)
{
blend = 1.0f;
}
alphaFactor *= blend;
}
else
{
alphaFactor = inv255 * material.DaytimeNighttimeBlend + 1.0f - Lighting.OptionLightingResultingAmount;
if (alphaFactor > 1.0f)
{
alphaFactor = 1.0f;
}
}
Shader.SetOpacity(alphaFactor);
// render polygon
VAO.Bind();
VAO.Draw(Shader.VertexLayout, DrawMode, Face.IboStartIndex, Face.Vertices.Length);
VAO.UnBind();
GL.BindTexture(TextureTarget.Texture2D, 0);
RestoreBlendFunc();
RestoreAlphaFunc();
}
GL.Disable(EnableCap.Texture2D);
// normals
if (OptionNormals)
{
Shader.SetIsTexture(false);
Shader.SetBrightness(1.0f);
Shader.SetOpacity(1.0f);
NormalsVAO.Bind();
NormalsVAO.Draw(Shader.VertexLayout, PrimitiveType.Lines, Face.NormalsIboStartIndex, Face.Vertices.Length * 2);
NormalsVAO.UnBind();
}
// finalize
if (material.BlendMode == MeshMaterialBlendMode.Additive)
{
RestoreBlendFunc();
}
}
public void RenderFaceImmediateMode(ObjectState State, MeshFace Face, Vector3 EyePosition, bool IsDebugTouchMode = false)
{
if (State.Prototype.Mesh.Vertices.Length < 1)
{
return;
}
VertexTemplate[] vertices = State.Prototype.Mesh.Vertices;
MeshMaterial material = State.Prototype.Mesh.Materials[Face.Material];
if (!OptionBackFaceCulling || (Face.Flags & MeshFace.Face2Mask) != 0)
{
GL.Disable(EnableCap.CullFace);
}
else if (OptionBackFaceCulling)
{
if ((Face.Flags & MeshFace.Face2Mask) == 0)
{
GL.Enable(EnableCap.CullFace);
}
}
Matrix4D modelMatrix = State.Scale * State.Rotate * State.Translation * Matrix4D.CreateTranslation(-EyePosition);
// matrix
unsafe
{
GL.MatrixMode(MatrixMode.Projection);
GL.PushMatrix();
fixed(double *matrixPointer = &CurrentProjectionMatrix.Row0.X)
{
GL.LoadMatrix(matrixPointer);
}
GL.MatrixMode(MatrixMode.Modelview);
GL.PushMatrix();
fixed(double *matrixPointer = &CurrentViewMatrix.Row0.X)
{
GL.LoadMatrix(matrixPointer);
}
double *matrixPointer2 = &modelMatrix.Row0.X;
{
GL.MultMatrix(matrixPointer2);
}
GL.MatrixMode(MatrixMode.Texture);
GL.PushMatrix();
fixed(double *matrixPointer = &State.TextureTranslation.Row0.X)
{
GL.LoadMatrix(matrixPointer);
}
}
if (OptionWireFrame)
{
GL.PolygonMode(MaterialFace.FrontAndBack, PolygonMode.Line);
}
// lighting
if (material.NighttimeTexture == null)
{
if (OptionLighting)
{
GL.Enable(EnableCap.Lighting);
if ((material.Flags & MeshMaterial.EmissiveColorMask) != 0)
{
GL.Material(MaterialFace.FrontAndBack, MaterialParameter.Emission, new Color4(material.EmissiveColor.R, material.EmissiveColor.G, material.EmissiveColor.B, 255));
}
else
{
GL.Material(MaterialFace.FrontAndBack, MaterialParameter.Emission, new Color4(0.0f, 0.0f, 0.0f, 1.0f));
}
}
}
// fog
if (OptionFog)
{
GL.Enable(EnableCap.Fog);
}
PrimitiveType DrawMode;
switch (Face.Flags & MeshFace.FaceTypeMask)
{
case MeshFace.FaceTypeTriangles:
DrawMode = PrimitiveType.Triangles;
break;
case MeshFace.FaceTypeTriangleStrip:
DrawMode = PrimitiveType.TriangleStrip;
break;
case MeshFace.FaceTypeQuads:
DrawMode = PrimitiveType.Quads;
break;
case MeshFace.FaceTypeQuadStrip:
DrawMode = PrimitiveType.QuadStrip;
break;
default:
DrawMode = PrimitiveType.Polygon;
break;
}
// daytime polygon
{
// texture
if (material.DaytimeTexture != null)
{
if (currentHost.LoadTexture(material.DaytimeTexture, (OpenGlTextureWrapMode)material.WrapMode))
{
GL.Enable(EnableCap.Texture2D);
GL.BindTexture(TextureTarget.Texture2D, material.DaytimeTexture.OpenGlTextures[(int)material.WrapMode].Name);
}
}
// blend mode
float factor;
if (material.BlendMode == MeshMaterialBlendMode.Additive)
{
factor = 1.0f;
GL.Enable(EnableCap.Blend);
GL.BlendFunc(BlendingFactor.SrcAlpha, BlendingFactor.One);
GL.Disable(EnableCap.Fog);
}
else if (material.NighttimeTexture == null)
{
float blend = inv255 * material.DaytimeNighttimeBlend + 1.0f - Lighting.OptionLightingResultingAmount;
if (blend > 1.0f)
{
blend = 1.0f;
}
factor = 1.0f - 0.7f * blend;
}
else
{
factor = 1.0f;
}
float alphaFactor;
if (material.GlowAttenuationData != 0)
{
alphaFactor = (float)Glow.GetDistanceFactor(modelMatrix, vertices, ref Face, material.GlowAttenuationData);
}
else
{
alphaFactor = 1.0f;
}
GL.Begin(DrawMode);
if (OptionWireFrame)
{
GL.Color4(inv255 * material.Color.R * factor, inv255 * material.Color.G * factor, inv255 * material.Color.B * factor, 1.0f);
}
else
{
GL.Color4(inv255 * material.Color.R * factor, inv255 * material.Color.G * factor, inv255 * material.Color.B * factor, inv255 * material.Color.A * alphaFactor);
}
for (int i = 0; i < Face.Vertices.Length; i++)
{
GL.Normal3(Face.Vertices[i].Normal.X, Face.Vertices[i].Normal.Y, -Face.Vertices[i].Normal.Z);
GL.TexCoord2(vertices[Face.Vertices[i].Index].TextureCoordinates.X, vertices[Face.Vertices[i].Index].TextureCoordinates.Y);
if (vertices[Face.Vertices[i].Index] is ColoredVertex)
{
ColoredVertex v = (ColoredVertex)vertices[Face.Vertices[i].Index];
GL.Color3(v.Color.R, v.Color.G, v.Color.B);
}
GL.Vertex3(vertices[Face.Vertices[i].Index].Coordinates.X, vertices[Face.Vertices[i].Index].Coordinates.Y, -vertices[Face.Vertices[i].Index].Coordinates.Z);
}
GL.End();
GL.BindTexture(TextureTarget.Texture2D, 0);
}
// nighttime polygon
if (material.NighttimeTexture != null && currentHost.LoadTexture(material.NighttimeTexture, (OpenGlTextureWrapMode)material.WrapMode))
{
// texture
GL.Enable(EnableCap.Texture2D);
GL.BindTexture(TextureTarget.Texture2D, material.NighttimeTexture.OpenGlTextures[(int)material.WrapMode].Name);
GL.Enable(EnableCap.Blend);
// alpha test
GL.Enable(EnableCap.AlphaTest);
GL.AlphaFunc(AlphaFunction.Greater, 0.0f);
// blend mode
float alphaFactor;
if (material.GlowAttenuationData != 0)
{
alphaFactor = (float)Glow.GetDistanceFactor(modelMatrix, vertices, ref Face, material.GlowAttenuationData);
float blend = inv255 * material.DaytimeNighttimeBlend + 1.0f - Lighting.OptionLightingResultingAmount;
if (blend > 1.0f)
{
blend = 1.0f;
}
alphaFactor *= blend;
}
else
{
alphaFactor = inv255 * material.DaytimeNighttimeBlend + 1.0f - Lighting.OptionLightingResultingAmount;
if (alphaFactor > 1.0f)
{
alphaFactor = 1.0f;
}
}
GL.Begin(DrawMode);
if (OptionWireFrame)
{
GL.Color4(inv255 * material.Color.R, inv255 * material.Color.G, inv255 * material.Color.B, 1.0f);
}
else
{
GL.Color4(inv255 * material.Color.R, inv255 * material.Color.G, inv255 * material.Color.B, inv255 * material.Color.A * alphaFactor);
}
for (int i = 0; i < Face.Vertices.Length; i++)
{
GL.Normal3(Face.Vertices[i].Normal.X, Face.Vertices[i].Normal.Y, -Face.Vertices[i].Normal.Z);
GL.TexCoord2(vertices[Face.Vertices[i].Index].TextureCoordinates.X, vertices[Face.Vertices[i].Index].TextureCoordinates.Y);
if (vertices[Face.Vertices[i].Index] is ColoredVertex)
{
ColoredVertex v = (ColoredVertex)vertices[Face.Vertices[i].Index];
GL.Color3(v.Color.R, v.Color.G, v.Color.B);
}
GL.Vertex3(vertices[Face.Vertices[i].Index].Coordinates.X, vertices[Face.Vertices[i].Index].Coordinates.Y, -vertices[Face.Vertices[i].Index].Coordinates.Z);
}
GL.End();
GL.BindTexture(TextureTarget.Texture2D, 0);
RestoreBlendFunc();
RestoreAlphaFunc();
}
GL.Disable(EnableCap.Texture2D);
// normals
if (OptionNormals)
{
for (int i = 0; i < Face.Vertices.Length; i++)
{
GL.Begin(PrimitiveType.Lines);
GL.Color4(new Color4(material.Color.R, material.Color.G, material.Color.B, 255));
GL.Vertex3(vertices[Face.Vertices[i].Index].Coordinates.X, vertices[Face.Vertices[i].Index].Coordinates.Y, -vertices[Face.Vertices[i].Index].Coordinates.Z);
GL.Vertex3(vertices[Face.Vertices[i].Index].Coordinates.X + Face.Vertices[i].Normal.X, vertices[Face.Vertices[i].Index].Coordinates.Y + +Face.Vertices[i].Normal.Z, -(vertices[Face.Vertices[i].Index].Coordinates.Z + Face.Vertices[i].Normal.Z));
GL.End();
}
}
// finalize
if (OptionWireFrame)
{
GL.PolygonMode(MaterialFace.FrontAndBack, PolygonMode.Fill);
}
if (material.BlendMode == MeshMaterialBlendMode.Additive)
{
RestoreBlendFunc();
}
GL.PopMatrix();
GL.MatrixMode(MatrixMode.Modelview);
GL.PopMatrix();
GL.MatrixMode(MatrixMode.Projection);
GL.PopMatrix();
}
