Switch-Toolbox/Switch_FileFormatsMain/FileFormats/Collision/KCL.cs
2019-05-01 15:38:14 -04:00

954 lines
33 KiB
C#

using System;
using System.Collections.Generic;
using System.IO;
using System.Windows.Forms;
using Switch_Toolbox.Library;
using GL_EditorFramework.Interfaces;
using OpenTK.Graphics.OpenGL;
using OpenTK;
using Switch_Toolbox.Library.Rendering;
using GL_EditorFramework.GL_Core;
using System.Drawing;
using Switch_Toolbox.Library.IO;
using Switch_Toolbox.Library.Forms;
using GL_EditorFramework.EditorDrawables;
using FirstPlugin.Forms;
using static GL_EditorFramework.EditorDrawables.EditorSceneBase;
namespace FirstPlugin
{
public class KCL : TreeNodeFile, IFileFormat
{
public bool CanSave { get; set; }
public string[] Description { get; set; } = new string[] { "KCL" };
public string[] Extension { get; set; } = new string[] { "*.kcl" };
public string FileName { get; set; }
public string FilePath { get; set; }
public IFileInfo IFileInfo { get; set; }
public bool Identify(System.IO.Stream stream)
{
using (var reader = new Switch_Toolbox.Library.IO.FileReader(stream, true))
{
reader.ByteOrder = Syroot.BinaryData.ByteOrder.BigEndian;
return reader.ReadUInt32() == 0x02020000;
}
}
public Type[] Types
{
get
{
List<Type> types = new List<Type>();
types.Add(typeof(MenuExt));
return types.ToArray();
}
}
byte[] data;
STToolStripItem EndiannessToolstrip;
STToolStripItem OdysseyPresetToolstrip;
STToolStripItem Mk8PresetToolstrip;
STToolStripItem Splatoon2PresetToolstrip;
STToolStripItem SplatoonPresetToolstrip;
STToolStripItem OtherPresetToolstrip;
public KCL()
{
ContextMenuStrip = new STContextMenuStrip();
ContextMenuStrip.Items.Add(new STToolStripItem("Save", Save));
ContextMenuStrip.Items.Add(new STToolStripItem("Export", Export));
ContextMenuStrip.Items.Add(new STToolStripItem("Replace", Replace));
ContextMenuStrip.Items.Add(new STToolStripItem("Open Material Editor", OpenMaterialEditor));
EndiannessToolstrip = new STToolStripItem("Big Endian Mode", SwapEndianess) { Checked = true };
ContextMenuStrip.Items.Add(EndiannessToolstrip);
CanSave = true;
IFileInfo = new IFileInfo();
}
public void OpenMaterialEditor(object sender, EventArgs args)
{
CollisionMaterialEditor editor = new CollisionMaterialEditor();
editor.LoadCollisionValues(kcl, Renderer);
if (editor.ShowDialog() == DialogResult.OK)
{
}
}
public void Load(System.IO.Stream stream)
{
Text = FileName;
Renderer = new KCLRendering();
stream.Position = 0;
data = stream.ToArray();
Read(data);
}
class MenuExt : IFileMenuExtension
{
public STToolStripItem[] NewFileMenuExtensions => null;
public STToolStripItem[] NewFromFileMenuExtensions => newFileExt;
public STToolStripItem[] ToolsMenuExtensions => null;
public STToolStripItem[] TitleBarExtensions => null;
public STToolStripItem[] CompressionMenuExtensions => null;
public STToolStripItem[] ExperimentalMenuExtensions => null;
public STToolStripItem[] EditMenuExtensions => null;
public ToolStripButton[] IconButtonMenuExtensions => null;
STToolStripItem[] newFileExt = new STToolStripItem[2];
public MenuExt()
{
newFileExt[0] = new STToolStripItem("KCL (Switch)", CreateNew);
newFileExt[1] = new STToolStripItem("KCL (Wii U)", CreateNew);
}
public void CreateNew(object sender, EventArgs args)
{
var ByteOrder = Syroot.BinaryData.ByteOrder.LittleEndian;
if (sender.ToString() == "KCL (Wii U)")
ByteOrder = Syroot.BinaryData.ByteOrder.BigEndian;
OpenFileDialog opn = new OpenFileDialog();
if (opn.ShowDialog() != DialogResult.OK) return;
var mod = EditorCore.Common.OBJ.Read(new MemoryStream(File.ReadAllBytes(opn.FileName)), null);
var f = MarioKart.MK7.KCL.FromOBJ(mod);
string name = System.IO.Path.GetFileNameWithoutExtension(opn.FileName);
KCL kcl = new KCL();
kcl.Text = name;
kcl.IFileInfo = new IFileInfo();
kcl.FileName = name;
kcl.Renderer = new KCLRendering();
kcl.Read(f.Write(ByteOrder));
ObjectEditor editor = new ObjectEditor();
editor.Text = name;
editor.AddNode(kcl);
LibraryGUI.Instance.CreateMdiWindow(editor);
}
}
public void Unload()
{
}
public byte[] Save()
{
return data;
}
public enum GameSet : ushort
{
MarioOdyssey = 0x0,
MarioKart8D = 0x1,
Splatoon2 = 0x2,
}
public enum CollisionType_MarioOdssey : ushort
{
}
public enum CollisionType_MK8D : ushort
{
Road_Default = 0,
Road_Bumpy = 2,
Road_Sand = 4,
Offroad_Sand = 6,
Road_HeavySand = 8,
Road_IcyRoad = 9,
OrangeBooster = 10,
AntiGravityPanel = 11,
Latiku = 16,
Wall5 = 17,
Wall4 = 19,
Wall = 23,
Latiku2 = 28,
Glider = 31,
SidewalkSlope = 32,
Road_Dirt = 33,
Unsolid = 56,
Water = 60,
Road_Stone = 64,
Wall1 = 81,
Wall2 = 84,
FinishLine = 93,
RedFlowerEffect = 95,
Wall3 = 113,
WhiteFlowerEffect = 127,
Road_Metal = 128,
Road_3DS_MP_Piano = 129,
Road_RoyalR_Grass = 134,
TopPillar = 135,
YoshiCuiruit_Grass = 144,
YellowFlowerEffect = 159,
Road_MetalGating = 160,
Road_3DS_MP_Xylophone = 161,
Road_3DS_MP_Vibraphone = 193,
SNES_RR_road = 227,
Offroad_Mud = 230,
Trick = 4096,
BoosterStunt = 4106,
TrickEndOfRamp = 4108,
Trick3 = 4130,
Trick6 = 4160,
Trick4 = 4224,
Trick5 = 8192,
BoostTrick = 8202,
}
public void Save(object sender, EventArgs args)
{
SaveFileDialog sfd = new SaveFileDialog();
sfd.Filter = "Supported Formats|*.kcl";
sfd.FileName = Text;
sfd.DefaultExt = ".kcl";
if (sfd.ShowDialog() == DialogResult.OK)
{
STFileSaver.SaveFileFormat(this, sfd.FileName);
}
}
private Syroot.BinaryData.ByteOrder endianness;
public Syroot.BinaryData.ByteOrder Endianness
{
get
{
return endianness;
}
set
{
endianness = value;
if (value == Syroot.BinaryData.ByteOrder.BigEndian)
EndiannessToolstrip.Checked = true;
else
EndiannessToolstrip.Checked = false;
}
}
public void Export(object sender, EventArgs args)
{
if (kcl == null)
return;
SaveFileDialog sfd = new SaveFileDialog();
sfd.Filter = "Supported Formats|*.obj";
sfd.FileName = Text;
sfd.DefaultExt = ".obj";
if (sfd.ShowDialog() == DialogResult.OK)
{
kcl.ToOBJ().toWritableObj().WriteObj(sfd.FileName + ".obj");
}
}
public void Replace(object sender, EventArgs args)
{
OpenFileDialog ofd = new OpenFileDialog();
ofd.Filter = "Supported Formats|*.obj";
if (ofd.ShowDialog() == DialogResult.OK)
{
var mod = EditorCore.Common.OBJ.Read(new MemoryStream(File.ReadAllBytes(ofd.FileName)), null);
if (mod.Faces.Count > 65535)
{
MessageBox.Show("this model has too many faces, only models with less than 65535 triangles can be converted");
return;
}
kcl = MarioKart.MK7.KCL.FromOBJ(mod);
data = kcl.Write(Endianness);
Read(data);
Renderer.UpdateVertexData();
}
}
public void SwapEndianess(object sender, EventArgs args)
{
if (EndiannessToolstrip.Checked)
{
EndiannessToolstrip.Checked = false;
Endianness = Syroot.BinaryData.ByteOrder.LittleEndian;
}
else
{
EndiannessToolstrip.Checked = true;
Endianness = Syroot.BinaryData.ByteOrder.BigEndian;
}
}
Viewport viewport
{
get
{
var editor = LibraryGUI.Instance.GetObjectEditor();
return editor.GetViewport();
}
set
{
var editor = LibraryGUI.Instance.GetObjectEditor();
editor.LoadViewport(value);
}
}
public KCLRendering Renderer;
bool IsLoaded = false;
public override void OnClick(TreeView treeView)
{
if (Runtime.UseOpenGL)
{
if (viewport == null)
{
viewport = new Viewport();
viewport.Dock = DockStyle.Fill;
}
LibraryGUI.Instance.LoadEditor(viewport);
viewport.Text = Text;
if (!IsLoaded)
{
viewport.AddDrawable(Renderer);
viewport.LoadObjects();
}
IsLoaded = true;
}
}
public MarioKart.MK7.KCL kcl = null;
public void Read(byte[] file_data)
{
data = file_data;
try
{
Endianness = Syroot.BinaryData.ByteOrder.LittleEndian;
kcl = new MarioKart.MK7.KCL(file_data, Syroot.BinaryData.ByteOrder.LittleEndian);
}
catch
{
Endianness = Syroot.BinaryData.ByteOrder.BigEndian;
kcl = new MarioKart.MK7.KCL(file_data, Syroot.BinaryData.ByteOrder.BigEndian);
}
Read(kcl);
}
public void Read(MarioKart.MK7.KCL kcl)
{
Vector3 min = new Vector3();
Vector3 max = new Vector3();
Nodes.Clear();
Renderer.models.Clear();
int CurModelIndx = 0;
foreach (MarioKart.MK7.KCL.KCLModel mdl in kcl.Models)
{
KCLModel kclmodel = new KCLModel();
kclmodel.Text = "Model " + CurModelIndx;
int ft = 0;
foreach (var plane in mdl.Planes)
{
var triangle = mdl.GetTriangle(plane);
var normal = triangle.Normal;
var pointA = triangle.PointA;
var pointB = triangle.PointB;
var pointC = triangle.PointC;
Vertex vtx = new Vertex();
Vertex vtx2 = new Vertex();
Vertex vtx3 = new Vertex();
vtx.pos = new Vector3(Vec3D_To_Vec3(pointA));
vtx2.pos = new Vector3(Vec3D_To_Vec3(pointB));
vtx3.pos = new Vector3(Vec3D_To_Vec3(pointC));
vtx.nrm = new Vector3(Vec3D_To_Vec3(normal));
vtx2.nrm = new Vector3(Vec3D_To_Vec3(normal));
vtx3.nrm = new Vector3(Vec3D_To_Vec3(normal));
KCLModel.Face face = new KCLModel.Face();
face.Text = triangle.Collision.ToString();
face.MaterialFlag = triangle.Collision;
var col = MarioKart.MK7.KCLColors.GetMaterialColor(plane.CollisionType);
Vector3 ColorSet = new Vector3(col.R, col.G, col.B);
vtx.col = new Vector4(ColorSet, 1);
vtx2.col = new Vector4(ColorSet, 1);
vtx3.col = new Vector4(ColorSet, 1);
kclmodel.faces.Add(ft);
kclmodel.faces.Add(ft + 1);
kclmodel.faces.Add(ft + 2);
ft += 3;
kclmodel.vertices.Add(vtx);
kclmodel.vertices.Add(vtx2);
kclmodel.vertices.Add(vtx3);
#region FindMaxMin
if (triangle.PointA.X < min.X) min.X = (float)triangle.PointA.X;
if (triangle.PointA.Y < min.Y) min.Y = (float)triangle.PointA.Y;
if (triangle.PointA.Z < min.Z) min.Z = (float)triangle.PointA.Z;
if (triangle.PointA.X > max.X) max.X = (float)triangle.PointA.X;
if (triangle.PointA.Y > max.Y) max.Y = (float)triangle.PointA.Y;
if (triangle.PointA.Z > max.Z) max.Z = (float)triangle.PointA.Z;
if (triangle.PointB.X < min.X) min.X = (float)triangle.PointB.X;
if (triangle.PointB.Y < min.Y) min.Y = (float)triangle.PointB.Y;
if (triangle.PointB.Z < min.Z) min.Z = (float)triangle.PointB.Z;
if (triangle.PointB.X > max.X) max.X = (float)triangle.PointB.X;
if (triangle.PointB.Y > max.Y) max.Y = (float)triangle.PointB.Y;
if (triangle.PointB.Z > max.Z) max.Z = (float)triangle.PointB.Z;
if (triangle.PointC.X < min.X) min.X = (float)triangle.PointC.X;
if (triangle.PointC.Y < min.Y) min.Y = (float)triangle.PointC.Y;
if (triangle.PointC.Z < min.Z) min.Z = (float)triangle.PointC.Z;
if (triangle.PointC.X > max.X) max.X = (float)triangle.PointC.X;
if (triangle.PointC.Y > max.Y) max.Y = (float)triangle.PointC.Y;
if (triangle.PointC.Z > max.Z) max.Z = (float)triangle.PointC.Z;
#endregion
}
Renderer.Max = max;
Renderer.Min = min;
Renderer.models.Add(kclmodel);
Nodes.Add(kclmodel);
CurModelIndx++;
}
}
public class KCLRendering : AbstractGlDrawable
{
public Vector3 Max = new Vector3(0);
public Vector3 Min = new Vector3(0);
public List<ushort> SelectedTypes = new List<ushort>();
public Vector3 position = new Vector3(0, 0, 0);
protected bool Selected = false;
protected bool Hovered = false;
// public override bool IsSelected() => Selected;
// public override bool IsSelected(int partIndex) => Selected;
public bool IsHovered() => Selected;
// gl buffer objects
int vbo_position;
int ibo_elements;
//Set the game's material list
public GameSet GameMaterialSet = GameSet.MarioKart8D;
public List<KCLModel> models = new List<KCLModel>();
private void GenerateBuffers()
{
GL.GenBuffers(1, out vbo_position);
GL.GenBuffers(1, out ibo_elements);
}
public void Destroy()
{
GL.DeleteBuffer(vbo_position);
GL.DeleteBuffer(ibo_elements);
}
public void UpdateVertexData()
{
if (!Runtime.OpenTKInitialized)
return;
DisplayVertex[] Vertices;
int[] Faces;
int poffset = 0;
int voffset = 0;
List<DisplayVertex> Vs = new List<DisplayVertex>();
List<int> Ds = new List<int>();
foreach (KCLModel m in models)
{
m.Offset = poffset * 4;
List<DisplayVertex> pv = m.CreateDisplayVertices();
Vs.AddRange(pv);
for (int i = 0; i < m.displayFaceSize; i++)
{
Ds.Add(m.display[i] + voffset);
}
poffset += m.displayFaceSize;
voffset += pv.Count;
}
// Binds
Vertices = Vs.ToArray();
Faces = Ds.ToArray();
// Bind only once!
GL.BindBuffer(BufferTarget.ArrayBuffer, vbo_position);
GL.BufferData<DisplayVertex>(BufferTarget.ArrayBuffer, (IntPtr)(Vertices.Length * DisplayVertex.Size), Vertices, BufferUsageHint.StaticDraw);
GL.BindBuffer(BufferTarget.ElementArrayBuffer, ibo_elements);
GL.BufferData<int>(BufferTarget.ElementArrayBuffer, (IntPtr)(Faces.Length * sizeof(int)), Faces, BufferUsageHint.StaticDraw);
LibraryGUI.Instance.UpdateViewport();
}
public void DrawGlobalOctree()
{
var size = Max - Min;
var BoxSize = size / 2f;
for (int k = 0; k < 2; k++)
{
for (int l = 0; l < 2; l++)
{
for (int m = 0; m < 2; m++)
{
var Boxmin = Min + new Vector3(BoxSize.X * m, BoxSize.Y * l, BoxSize.Z * k);
var pos = new Vector3(BoxSize.X * m, BoxSize.Y * l, BoxSize.Z * k);
}
}
}
}
public ShaderProgram defaultShaderProgram;
public ShaderProgram solidColorShaderProgram;
public override void Prepare(GL_ControlModern control)
{
string pathFrag = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader") + "\\KCL.frag";
string pathVert = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader") + "\\KCL.vert";
var defaultFrag = new FragmentShader(File.ReadAllText(pathFrag));
var defaultVert = new VertexShader(File.ReadAllText(pathVert));
var solidColorFrag = new FragmentShader(
@"#version 330
uniform vec4 color;
out vec4 FragColor;
void main(){
FragColor = color;
}");
var solidColorVert = new VertexShader(
@"#version 330
in vec3 vPosition;
in vec3 vNormal;
in vec3 vColor;
out vec3 normal;
out vec3 color;
out vec3 position;
uniform mat4 mtxMdl;
uniform mat4 mtxCam;
void main(){
normal = vNormal;
color = vColor;
position = vPosition;
gl_Position = mtxMdl * mtxCam * vec4(vPosition.xyz, 1.0);
}");
defaultShaderProgram = new ShaderProgram(defaultFrag, defaultVert);
solidColorShaderProgram = new ShaderProgram(solidColorFrag, solidColorVert);
}
public override void Prepare(GL_ControlLegacy control)
{
string pathFrag = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader", "Legacy") + "\\KCL.frag";
string pathVert = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader", "Legacy") + "\\KCL.vert";
var defaultFrag = new FragmentShader(File.ReadAllText(pathFrag));
var defaultVert = new VertexShader(File.ReadAllText(pathVert));
var solidColorFrag = new FragmentShader(
@"#version 330
uniform vec4 color;
out vec4 FragColor;
void main(){
FragColor = color;
}");
var solidColorVert = new VertexShader(
@"#version 330
in vec3 vPosition;
in vec3 vNormal;
in vec3 vColor;
out vec3 normal;
out vec3 color;
out vec3 position;
void main(){
normal = vNormal;
color = vColor;
position = vPosition;
gl_Position = mvpMatrix * vec4(vPosition.xyz, 1.0);
}");
defaultShaderProgram = new ShaderProgram(defaultFrag, defaultVert);
solidColorShaderProgram = new ShaderProgram(solidColorFrag, solidColorVert);
}
private void CheckBuffers()
{
if (!Runtime.OpenTKInitialized)
return;
bool buffersWereInitialized = ibo_elements != 0 && vbo_position != 0;
if (!buffersWereInitialized)
{
GenerateBuffers();
UpdateVertexData();
}
}
public override void Draw(GL_ControlLegacy control, Pass pass)
{
CheckBuffers();
if (!Runtime.OpenTKInitialized)
return;
}
public override void Draw(GL_ControlModern control, Pass pass)
{
CheckBuffers();
if (!Runtime.OpenTKInitialized)
return;
control.CurrentShader = defaultShaderProgram;
// control.UpdateModelMatrix(
// Matrix4.CreateScale(Runtime.previewScale) *
// Matrix4.CreateTranslation(Selected ? editorScene.CurrentAction.NewPos(position) : position));
SetRenderSettings(defaultShaderProgram);
Matrix4 camMat = control.ModelMatrix * control.CameraMatrix * control.ProjectionMatrix;
GL.Disable(EnableCap.CullFace);
GL.Uniform3(defaultShaderProgram["difLightDirection"], Vector3.TransformNormal(new Vector3(0f, 0f, -1f), camMat.Inverted()).Normalized());
GL.Uniform3(defaultShaderProgram["difLightColor"], new Vector3(1));
GL.Uniform3(defaultShaderProgram["ambLightColor"], new Vector3(1));
defaultShaderProgram.EnableVertexAttributes();
foreach (KCLModel mdl in models)
{
DrawModel(mdl, defaultShaderProgram);
}
defaultShaderProgram.DisableVertexAttributes();
GL.UseProgram(0);
GL.Disable(EnableCap.DepthTest);
GL.Enable(EnableCap.DepthTest);
GL.Enable(EnableCap.CullFace);
}
private void SetRenderSettings(ShaderProgram shader)
{
shader.SetBoolToInt("renderVertColor", Runtime.renderVertColor);
GL.Uniform1(defaultShaderProgram["renderType"], (int)Runtime.viewportShading);
}
private void DrawModel(KCLModel m, ShaderProgram shader, bool drawSelection = false)
{
if (m.faces.Count <= 3)
return;
SetVertexAttributes(m, shader);
if (m.Checked)
{
if ((m.IsSelected))
{
DrawModelSelection(m, shader);
}
else
{
if (Runtime.RenderModelWireframe)
{
DrawModelWireframe(m, shader);
}
if (Runtime.RenderModels)
{
GL.DrawElements(PrimitiveType.Triangles, m.displayFaceSize, DrawElementsType.UnsignedInt, m.Offset);
}
}
}
}
private static void DrawModelSelection(KCLModel p, ShaderProgram shader)
{
//This part needs to be reworked for proper outline. Currently would make model disappear
GL.DrawElements(PrimitiveType.Triangles, p.displayFaceSize, DrawElementsType.UnsignedInt, p.Offset);
GL.Enable(EnableCap.StencilTest);
// use vertex color for wireframe color
GL.Uniform1(shader["colorOverride"], 1);
GL.PolygonMode(MaterialFace.Front, PolygonMode.Line);
GL.Enable(EnableCap.LineSmooth);
GL.LineWidth(1.5f);
GL.DrawElements(PrimitiveType.Triangles, p.displayFaceSize, DrawElementsType.UnsignedInt, p.Offset);
GL.PolygonMode(MaterialFace.FrontAndBack, PolygonMode.Fill);
GL.Uniform1(shader["colorOverride"], 0);
GL.Enable(EnableCap.DepthTest);
}
private void SetVertexAttributes(KCLModel m, ShaderProgram shader)
{
GL.BindBuffer(BufferTarget.ArrayBuffer, vbo_position);
GL.VertexAttribPointer(shader.GetAttribute("vPosition"), 3, VertexAttribPointerType.Float, false, DisplayVertex.Size, 0);
GL.VertexAttribPointer(shader.GetAttribute("vNormal"), 3, VertexAttribPointerType.Float, false, DisplayVertex.Size, 12);
GL.VertexAttribPointer(shader.GetAttribute("vColor"), 3, VertexAttribPointerType.Float, false, DisplayVertex.Size, 24);
GL.BindBuffer(BufferTarget.ElementArrayBuffer, ibo_elements);
}
private static void DrawModelWireframe(KCLModel p, ShaderProgram shader)
{
// use vertex color for wireframe color
GL.Uniform1(shader["colorOverride"], 1);
GL.PolygonMode(MaterialFace.Front, PolygonMode.Line);
GL.Enable(EnableCap.LineSmooth);
GL.LineWidth(1.5f);
GL.DrawElements(PrimitiveType.Triangles, p.displayFaceSize, DrawElementsType.UnsignedInt, p.Offset);
GL.PolygonMode(MaterialFace.FrontAndBack, PolygonMode.Fill);
GL.Uniform1(shader["colorOverride"], 0);
}
/* public override BoundingBox GetSelectionBox()
{
Vector3 Min = new Vector3(0);
Vector3 Max = new Vector3(0);
foreach (var model in models)
{
foreach (var vertex in model.vertices)
{
Min.X = Math.Min(Min.X, vertex.pos.X);
Min.Y = Math.Min(Min.Y, vertex.pos.Y);
Min.Z = Math.Min(Min.Z, vertex.pos.Z);
Max.X = Math.Max(Max.X, vertex.pos.X);
Max.Y = Math.Max(Max.Y, vertex.pos.Y);
Max.Z = Math.Max(Max.Z, vertex.pos.Z);
}
}
return new BoundingBox()
{
minX = Min.X,
minY = Min.Y,
minZ = Min.Z,
maxX = Max.X,
maxY = Max.Y,
maxZ = Max.Z,
};
}
public override LocalOrientation GetLocalOrientation(int partIndex)
{
return new LocalOrientation(position);
}
public override bool TryStartDragging(DragActionType actionType, int hoveredPart, out LocalOrientation localOrientation, out bool dragExclusively)
{
localOrientation = new LocalOrientation(position);
dragExclusively = false;
return Selected;
}
public override bool IsInRange(float range, float rangeSquared, Vector3 pos)
{
range = 20000; //Make the range large for now. Todo go back to this
BoundingBox box = GetSelectionBox();
if (pos.X < box.maxX + range && pos.X > box.minX - range &&
pos.Y < box.maxY + range && pos.Y > box.minY - range &&
pos.Z < box.maxZ + range && pos.Z > box.minZ - range)
return true;
return false;
}
public override uint SelectAll(GL_ControlBase control)
{
Selected = true;
return REDRAW;
}
public override uint SelectDefault(GL_ControlBase control)
{
Selected = true;
return REDRAW;
}
public override uint Select(int partIndex, GL_ControlBase control)
{
Selected = true;
return REDRAW;
}
public override uint Deselect(int partIndex, GL_ControlBase control)
{
Selected = false;
return REDRAW;
}
public override uint DeselectAll(GL_ControlBase control)
{
Selected = false;
return REDRAW;
}
public override Vector3 Position
{
get
{
return position;
}
set
{
position = value;
}
}*/
}
//Convert KCL lib vec3 to opentk one so i can use the cross and dot methods
public static Vector3 Vec3D_To_Vec3(System.Windows.Media.Media3D.Vector3D v)
{
return new Vector3((float)v.X, (float)v.Y, (float)v.Z);
}
public struct DisplayVertex
{
// Used for rendering.
public Vector3 pos;
public Vector3 nrm;
public Vector3 col;
public static int Size = 4 * (3 + 3 + 3);
}
public class KCLModel : STGenericObject
{
public KCLModel()
{
ImageKey = "mesh";
SelectedImageKey = "mesh";
Checked = true;
}
public int[] display;
public int Offset; // For Rendering
public int strip = 0x40;
public int displayFaceSize = 0;
public class Face : TreeNode
{
public int MaterialFlag = 0;
}
public List<DisplayVertex> CreateDisplayVertices()
{
// rearrange faces
display = getDisplayFace().ToArray();
List<DisplayVertex> displayVertList = new List<DisplayVertex>();
if (faces.Count <= 3)
return displayVertList;
foreach (Vertex v in vertices)
{
DisplayVertex displayVert = new DisplayVertex()
{
pos = v.pos,
nrm = v.nrm,
col = v.col.Xyz,
};
displayVertList.Add(displayVert);
}
return displayVertList;
}
public List<int> getDisplayFace()
{
if ((strip >> 4) == 4)
{
displayFaceSize = faces.Count;
return faces;
}
else
{
List<int> f = new List<int>();
int startDirection = 1;
int p = 0;
int f1 = faces[p++];
int f2 = faces[p++];
int faceDirection = startDirection;
int f3;
do
{
f3 = faces[p++];
if (f3 == 0xFFFF)
{
f1 = faces[p++];
f2 = faces[p++];
faceDirection = startDirection;
}
else
{
faceDirection *= -1;
if ((f1 != f2) && (f2 != f3) && (f3 != f1))
{
if (faceDirection > 0)
{
f.Add(f3);
f.Add(f2);
f.Add(f1);
}
else
{
f.Add(f2);
f.Add(f3);
f.Add(f1);
}
}
f1 = f2;
f2 = f3;
}
} while (p < faces.Count);
displayFaceSize = f.Count;
return f;
}
}
}
}
}