using System; using System.Collections.Generic; using System.IO; using System.Windows.Forms; using Switch_Toolbox.Library; using SFGraphics.GLObjects.Shaders; using Smash_Forge.Rendering; using GL_Core.Interfaces; using OpenTK.Graphics.OpenGL; using OpenTK; using Switch_Toolbox.Library.Rendering; using WeifenLuo.WinFormsUI.Docking; using GL_Core; using System.Drawing; using Switch_Toolbox.Library.IO; namespace FirstPlugin { public class KCL : IFileFormat { public bool CanSave { get; set; } = false; public bool FileIsEdited { get; set; } = false; public bool FileIsCompressed { get; set; } = false; public string[] Description { get; set; } = new string[] { "KCL" }; public string[] Extension { get; set; } = new string[] { "*.kcl" }; public string Magic { get; set; } = ""; public CompressionType CompressionType { get; set; } = CompressionType.None; public byte[] Data { get; set; } public string FileName { get; set; } public TreeNodeFile EditorRoot { get; set; } public bool IsActive { get; set; } = false; public bool UseEditMenu { get; set; } = false; public string FilePath { get; set; } public IFileInfo IFileInfo { get; set; } public Type[] Types { get { List types = new List(); return types.ToArray(); } } public void Load() { IsActive = true; EditorRoot = new KCLRoot(FileName, this); IFileInfo = new IFileInfo(); } public void Unload() { } public byte[] Save() { return Data; } private static void SaveCompressFile(byte[] data, string FileName, CompressionType CompressionType, int Alignment = 0, bool EnableDialog = true) { if (EnableDialog && CompressionType != CompressionType.None) { DialogResult save = MessageBox.Show($"Compress file as {CompressionType}?", "File Save", MessageBoxButtons.YesNo); if (save == DialogResult.Yes) { switch (CompressionType) { case CompressionType.Yaz0: data = EveryFileExplorer.YAZ0.Compress(data, Runtime.Yaz0CompressionLevel, (uint)Alignment); break; case CompressionType.Lz4f: data = STLibraryCompression.Type_LZ4F.Compress(data); break; case CompressionType.Lz4: break; } } } File.WriteAllBytes(FileName, data); MessageBox.Show($"File has been saved to {FileName}"); Cursor.Current = Cursors.Default; } 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 class KCLRoot : TreeNodeFile { public KCLRoot(string Name, IFileFormat handler) { Text = Name; FileHandler = handler; Renderer = new KCLRendering(); Read(handler.Data); ContextMenu = new ContextMenu(); MenuItem save = new MenuItem("Save"); ContextMenu.MenuItems.Add(save); save.Click += Save; MenuItem export = new MenuItem("Export"); ContextMenu.MenuItems.Add(export); export.Click += Export; MenuItem replace = new MenuItem("Replace"); ContextMenu.MenuItems.Add(replace); replace.Click += Replace; } 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) { int Alignment = FileHandler.IFileInfo.Alignment; SaveCompressFile(FileHandler.Save(), sfd.FileName, FileHandler.CompressionType, Alignment); } } 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); FileHandler.Data = kcl.Write(Syroot.BinaryData.ByteOrder.LittleEndian); Read(FileHandler.Data); } } KCLRendering Renderer; public override void OnClick(TreeView treeView) { LibraryGUI.Instance.LoadViewport(Viewport.Instance); Viewport.Instance.gL_ControlModern1.MainDrawable = Renderer; Renderer.UpdateVertexData(); } public MarioKart.MK7.KCL kcl = null; public void Read(byte[] file_data) { try { kcl = new MarioKart.MK7.KCL(file_data, Syroot.BinaryData.ByteOrder.LittleEndian); } catch { kcl = new MarioKart.MK7.KCL(file_data, Syroot.BinaryData.ByteOrder.BigEndian); } Read(kcl); Renderer.UpdateVertexData(); } public void Read(MarioKart.MK7.KCL kcl) { 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); } Renderer.models.Add(kclmodel); Nodes.Add(kclmodel); CurModelIndx++; } } } public class KCLRendering : AbstractGlDrawable { // gl buffer objects int vbo_position; int ibo_elements; //Set the game's material list public GameSet GameMaterialSet = GameSet.MarioKart8D; public List models = new List(); public Shader shader = null; 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 (OpenTKSharedResources.SetupStatus == OpenTKSharedResources.SharedResourceStatus.Unitialized) return; DisplayVertex[] Vertices; int[] Faces; int poffset = 0; int voffset = 0; List Vs = new List(); List Ds = new List(); foreach (KCLModel m in models) { m.Offset = poffset * 4; List 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(BufferTarget.ArrayBuffer, (IntPtr)(Vertices.Length * DisplayVertex.Size), Vertices, BufferUsageHint.StaticDraw); GL.BindBuffer(BufferTarget.ElementArrayBuffer, ibo_elements); GL.BufferData(BufferTarget.ElementArrayBuffer, (IntPtr)(Faces.Length * sizeof(int)), Faces, BufferUsageHint.StaticDraw); Viewport.Instance.UpdateViewport(); } string FileName; public bool EditorIsViewportActive(DockContent dock) { if (dock is Viewport) { dock.Text = FileName; ((Viewport)dock).gL_ControlModern1.MainDrawable = this; return true; } return false; } public override void Prepare(GL_ControlModern control) { } public override void Prepare(GL_ControlLegacy control) { } public override void Draw(GL_ControlLegacy control) { } public override void Draw(GL_ControlModern control) { bool buffersWereInitialized = ibo_elements != 0 && vbo_position != 0; if (!buffersWereInitialized) GenerateBuffers(); if (OpenTKSharedResources.SetupStatus == OpenTKSharedResources.SharedResourceStatus.Unitialized) return; shader = OpenTKSharedResources.shaders["KCL"]; shader.UseProgram(); shader.EnableVertexAttributes(); SetRenderSettings(shader); Matrix4 previewScale = Utils.TransformValues(Vector3.Zero, Vector3.Zero, Runtime.previewScale); Matrix4 camMat = previewScale * control.mtxCam * control.mtxProj; shader.SetVector3("difLightDirection", Vector3.TransformNormal(new Vector3(0f, 0f, -1f), camMat.Inverted()).Normalized()); shader.SetVector3("difLightColor", new Vector3(1)); shader.SetVector3("ambLightColor", new Vector3(1)); shader.EnableVertexAttributes(); SetRenderSettings(shader); shader.SetMatrix4x4("mvpMatrix", ref camMat); foreach (KCLModel mdl in models) { DrawModel(mdl, shader); } shader.DisableVertexAttributes(); } private void SetRenderSettings(Shader shader) { shader.SetBoolToInt("renderVertColor", Runtime.renderVertColor); shader.SetInt("renderType", (int)Runtime.viewportShading); } private void DrawModel(KCLModel m, Shader 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, Shader 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 shader.SetInt("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); shader.SetInt("colorOverride", 0); GL.Enable(EnableCap.DepthTest); } private void SetVertexAttributes(KCLModel m, Shader shader) { GL.BindBuffer(BufferTarget.ArrayBuffer, vbo_position); GL.VertexAttribPointer(shader.GetAttribLocation("vPosition"), 3, VertexAttribPointerType.Float, false, DisplayVertex.Size, 0); GL.VertexAttribPointer(shader.GetAttribLocation("vNormal"), 3, VertexAttribPointerType.Float, false, DisplayVertex.Size, 12); GL.VertexAttribPointer(shader.GetAttribLocation("vColor"), 3, VertexAttribPointerType.Float, false, DisplayVertex.Size, 24); GL.BindBuffer(BufferTarget.ElementArrayBuffer, ibo_elements); } private static void DrawModelWireframe(KCLModel p, Shader shader) { // use vertex color for wireframe color shader.SetInt("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); shader.SetInt("colorOverride", 0); } } //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 CreateDisplayVertices() { // rearrange faces display = getDisplayFace().ToArray(); List displayVertList = new List(); 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 getDisplayFace() { if ((strip >> 4) == 4) { displayFaceSize = faces.Count; return faces; } else { List f = new List(); 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; } } } } }