static ColladaGeometry GetGeometry(CL.UpAxisType up, CL.geometry geo, CL.library_materials matlib, CL.library_effects fxlib) { var conv = new ColladaGeometry() { FVF = D3DFVF.XYZ }; conv.Name = string.IsNullOrEmpty(geo.name) ? geo.id : geo.name; var msh = geo.Item as CL.mesh; if (msh == null) { return(null); } List <VertexPositionNormalDiffuseTextureTwo> vertices = new List <VertexPositionNormalDiffuseTextureTwo>(); List <int> hashes = new List <int>(); List <ushort> indices = new List <ushort>(); List <ColladaDrawcall> drawcalls = new List <ColladaDrawcall>(); Dictionary <string, GeometrySource> sources = new Dictionary <string, GeometrySource>(); Dictionary <string, float[]> arrays = new Dictionary <string, float[]>(); Dictionary <string, GeometrySource> verticesRefs = new Dictionary <string, GeometrySource>(); int placeHolderIdx = 0; //Get arrays foreach (var acc in msh.source) { var arr = acc.Item as CL.float_array; arrays.Add(arr.id, FloatArray(arr.Text)); } //Accessors foreach (var acc in msh.source) { sources.Add(acc.id, new GeometrySource(acc, arrays)); } //Process geometry foreach (var item in msh.Items) { if (!(item is CL.triangles || item is CL.polylist || item is CL.polygons)) { FLLog.Warning("Collada", "Ignoring " + item.GetType().Name + " element."); } } int totalTriangles = 0; foreach (var item in msh.Items.Where(x => x is CL.triangles || x is CL.polylist || x is CL.polygons)) { if (item is CL.triangles) { totalTriangles += (int)((CL.triangles)item).count; } else if (item is CL.polylist plist) { totalTriangles += (int)plist.count; } else { totalTriangles += (int)((CL.polygons)item).count; } } if (totalTriangles > 21845) { throw new Exception(string.Format( "Overflow!\nCollada geometry {0} has {1} triangles\nVMeshData has limit of 21845", string.IsNullOrEmpty(geo.name) ? geo.id : geo.name, totalTriangles)); } foreach (var item in msh.Items.Where(x => x is CL.triangles || x is CL.polylist || x is CL.polygons)) { CL.InputLocalOffset[] inputs; int[] pRefs; int indexCount; string materialRef; ColladaMaterial material; if (item is CL.triangles) { var triangles = (CL.triangles)item; indexCount = (int)(triangles.count * 3); pRefs = IntArray(triangles.p); inputs = triangles.input; materialRef = triangles.material; } else if (item is CL.polygons polygons) { indexCount = (int)(polygons.count * 3); int j = 0; pRefs = new int[indexCount]; foreach (var arr in polygons.Items) { if (!(arr is string)) { throw new Exception("Polygons: ph element unsupported"); } var ints = IntArray((string)arr); if (ints.Length != 3) { throw new Exception("Polygons: non-triangle geometry not supported"); } pRefs[j] = ints[0]; pRefs[j + 1] = ints[1]; pRefs[j + 2] = ints[2]; j += 3; } inputs = polygons.input; materialRef = polygons.material; } else { var plist = (CL.polylist)item; pRefs = IntArray(plist.p); foreach (var c in IntArray(plist.vcount)) { if (c != 3) { throw new Exception("Polylist: non-triangle geometry"); } } materialRef = plist.material; inputs = plist.input; indexCount = (int)(plist.count * 3); } if (indexCount == 0) { continue; //Skip empty } material = ParseMaterial(materialRef, matlib, fxlib); int pStride = 0; foreach (var input in inputs) { pStride = Math.Max((int)input.offset, pStride); } pStride++; GeometrySource sourceXYZ = null; int offXYZ = int.MinValue; GeometrySource sourceNORMAL = null; int offNORMAL = int.MinValue; GeometrySource sourceCOLOR = null; int offCOLOR = int.MinValue; GeometrySource sourceUV1 = null; int offUV1 = int.MinValue; GeometrySource sourceUV2 = null; int offUV2 = int.MinValue; int texCount = 0; int startIdx = indices.Count; foreach (var input in inputs) { switch (input.semantic) { case SEM_VERTEX: if (CheckURI(input.source) != msh.vertices.id) { throw new Exception("VERTEX doesn't match mesh vertices"); } foreach (var ip2 in msh.vertices.input) { switch (ip2.semantic) { case SEM_POSITION: offXYZ = (int)input.offset; sourceXYZ = sources[CheckURI(ip2.source)]; break; case SEM_NORMAL: offNORMAL = (int)input.offset; sourceNORMAL = sources[CheckURI(ip2.source)]; conv.FVF |= D3DFVF.NORMAL; break; case SEM_COLOR: offCOLOR = (int)input.offset; sourceCOLOR = sources[CheckURI(ip2.source)]; conv.FVF |= D3DFVF.DIFFUSE; break; case SEM_TEXCOORD: if (texCount == 2) { throw new Exception("Too many texcoords!"); } if (texCount == 1) { offUV2 = (int)input.offset; sourceUV2 = sources[CheckURI(ip2.source)]; conv.FVF &= ~D3DFVF.TEX1; conv.FVF |= D3DFVF.TEX2; } else { offUV1 = (int)input.offset; sourceUV1 = sources[CheckURI(ip2.source)]; if ((conv.FVF & D3DFVF.TEX2) != D3DFVF.TEX2) { conv.FVF |= D3DFVF.TEX1; } } texCount++; break; } } break; case SEM_POSITION: offXYZ = (int)input.offset; sourceXYZ = sources[CheckURI(input.source)]; break; case SEM_NORMAL: offNORMAL = (int)input.offset; sourceNORMAL = sources[CheckURI(input.source)]; conv.FVF |= D3DFVF.NORMAL; break; case SEM_COLOR: offCOLOR = (int)input.offset; sourceCOLOR = sources[CheckURI(input.source)]; conv.FVF |= D3DFVF.DIFFUSE; break; case SEM_TEXCOORD: if (texCount == 2) { throw new Exception("Too many texcoords!"); } if (texCount == 1) { offUV2 = (int)input.offset; sourceUV2 = sources[CheckURI(input.source)]; conv.FVF &= ~D3DFVF.TEX1; conv.FVF |= D3DFVF.TEX2; } else { offUV1 = (int)input.offset; sourceUV1 = sources[CheckURI(input.source)]; if ((conv.FVF & D3DFVF.TEX2) != D3DFVF.TEX2) { conv.FVF |= D3DFVF.TEX1; } } texCount++; break; } } int vertexOffset = vertices.Count; for (int i = 0; i < indexCount; i++) { int idx = i * pStride; var vert = new VertexPositionNormalDiffuseTextureTwo( VecAxis(up, sourceXYZ.GetXYZ(pRefs[idx + offXYZ])), offNORMAL == int.MinValue ? Vector3.Zero : VecAxis(up, sourceNORMAL.GetXYZ(pRefs[idx + offNORMAL])), offCOLOR == int.MinValue ? (uint)Color4.White.ToRgba() : (uint)sourceCOLOR.GetColor(pRefs[idx + offCOLOR]).ToRgba(), offUV1 == int.MinValue ? Vector2.Zero : sourceUV1.GetUV(pRefs[idx + offUV1]), offUV2 == int.MinValue ? Vector2.Zero : sourceUV2.GetUV(pRefs[idx + offUV2]) ); var hash = HashVert(ref vert); var vertIdx = FindDuplicate(hashes, vertices, vertexOffset, ref vert, hash); if (indices.Count >= ushort.MaxValue) { throw new Exception("Too many indices"); } if (vertIdx == -1) { if (vertices.Count + 1 >= ushort.MaxValue) { throw new Exception("Too many vertices"); } indices.Add((ushort)(vertices.Count - vertexOffset)); vertices.Add(vert); hashes.Add(hash); } else { indices.Add((ushort)(vertIdx - vertexOffset)); } } drawcalls.Add(new ColladaDrawcall() { StartIndex = startIdx, StartVertex = vertexOffset, EndVertex = vertices.Count - 1, TriCount = (indices.Count - startIdx) / 3, Material = material }); } conv.Indices = indices.ToArray(); conv.Vertices = vertices.ToArray(); conv.Drawcalls = drawcalls.ToArray(); conv.CalculateDimensions(); return(conv); }
public static EditableUtf Generate(string iconName, LUtfNode textureNode, bool alpha) { var modelFile = new EditableUtf(); var unique = IdSalt.New(); string textureName = $"data.icon.{iconName}.{unique}.tga"; string materialName = $"data.icon.{iconName}.{unique}"; string meshName = $"data.icon.{iconName}.lod0-{unique}.vms"; //VMeshLibrary var geom = new ColladaGeometry(); geom.Vertices = vertices; geom.Indices = indices; geom.FVF = D3DFVF.NORMAL | D3DFVF.XYZ | D3DFVF.TEX1; geom.Drawcalls = new[] { new ColladaDrawcall() { StartVertex = 0, EndVertex = 3, Material = new ColladaMaterial() { Name = materialName }, StartIndex = 0, TriCount = 2 } }; geom.CalculateDimensions(); var vmsLib = new LUtfNode() { Name = "VMeshLibrary", Parent = modelFile.Root, Children = new List <LUtfNode>() }; modelFile.Root.Children.Add(vmsLib); var vmsName = new LUtfNode() { Name = meshName, Parent = vmsLib, Children = new List <LUtfNode>() }; vmsLib.Children.Add(vmsName); vmsName.Children.Add(new LUtfNode() { Name = "VMeshData", Parent = vmsName, Data = geom.VMeshData() }); //VMeshPart var vmeshPart = new LUtfNode() { Name = "VMeshPart", Parent = modelFile.Root, Children = new List <LUtfNode>() }; modelFile.Root.Children.Add(vmeshPart); vmeshPart.Children.Add(new LUtfNode() { Name = "VMeshRef", Parent = vmeshPart, Data = geom.VMeshRef(meshName) }); //Texture var textureLibrary = new LUtfNode() { Name = "Texture Library", Parent = modelFile.Root }; textureLibrary.Children = new List <LUtfNode>(); var clonedTex = textureNode.MakeCopy(); clonedTex.Parent = textureLibrary; clonedTex.Name = textureName; textureLibrary.Children.Add(clonedTex); modelFile.Root.Children.Add(textureLibrary); //Material var materialLibrary = new LUtfNode() { Name = "Material Library", Parent = modelFile.Root }; materialLibrary.Children = new List <LUtfNode>(); var material = new LUtfNode() { Name = materialName, Parent = materialLibrary }; material.Children = new List <LUtfNode>(); material.Children.Add(new LUtfNode() { Name = "Type", Parent = material, Data = Encoding.ASCII.GetBytes(alpha ? "DcDtOcOt" : "DcDt") }); material.Children.Add(new LUtfNode() { Name = "Dt_name", Parent = material, Data = Encoding.ASCII.GetBytes(textureName) }); material.Children.Add(new LUtfNode() { Name = "Dt_flags", Parent = material, Data = BitConverter.GetBytes((int)SamplerFlags.Default) }); materialLibrary.Children.Add(material); modelFile.Root.Children.Add(materialLibrary); return(modelFile); }