public static object ParseMetadata(string filename) { Obj obj = new Obj(); obj.LoadObj(filename); return(null); }
protected override void SolveInstance(IGH_DataAccess DA) { Mesh m = new Mesh(); DA.GetData(0, ref m); string NGonPath = ""; DA.GetData(1, ref NGonPath); bool isOriented; bool hasBoundary; Mesh M = m.DuplicateMesh(); M.Faces.ConvertQuadsToTriangles(); if (M.IsValid && M.IsManifold(true, out isOriented, out hasBoundary)) { //write obj file var objInput = new ObjParser.Obj(); var assembly = System.Reflection.Assembly.GetAssembly(typeof(ObjParser.Obj)).Location; string assemblyPath = System.IO.Path.GetDirectoryName(assembly); //Print(theDirectory); //string assemblyLocation = System.Reflection.Assembly.GetExecutingAssembly().Location; //string assemblyPath = System.IO.Path.GetDirectoryName(assemblyLocation); if (NGonPath != null) { if (NGonPath != "") { assemblyPath = NGonPath; } } string tempfilepath = assemblyPath + @"\windows\in.obj"; if (System.IO.File.Exists(tempfilepath)) { System.IO.File.Delete(tempfilepath); } // string tempfilepath = @"C:\Users\petra\New folder\test.obj"; string[] headers = new string[] { "ObjParser" }; List <string> objFile = new List <string>(); foreach (Point3f p in M.Vertices) { objFile.Add("v" + " " + p.X.ToString() + " " + p.Y.ToString() + " " + p.Z.ToString()); } foreach (MeshFace mf in M.Faces) { objFile.Add("f" + " " + (mf.A + 1).ToString() + " " + (mf.B + 1).ToString() + " " + (mf.C + 1).ToString()); } objInput.LoadObj(objFile.ToArray()); objInput.WriteObjFile(tempfilepath, headers); string filename = assemblyPath + @"\windows\bff-command-line.exe"; string workingDirectory = assemblyPath + @"\windows\"; var proc = new System.Diagnostics.Process { StartInfo = new System.Diagnostics.ProcessStartInfo { FileName = filename, Arguments = "in.obj out.obj", UseShellExecute = false, RedirectStandardOutput = true, CreateNoWindow = true, WorkingDirectory = workingDirectory } }; proc.Start(); proc.WaitForExit(); //Outputs Mesh mesh3D = new Mesh(); Mesh mesh2D = new Mesh(); List <Point3d> points3D = new List <Point3d>(); List <Point3d> points2D = new List <Point3d>(); List <MeshFace> faces3D = new List <MeshFace>(); List <MeshFace> faces2D = new List <MeshFace>(); // Initialize var obj = new ObjParser.Obj(); // Read Wavefront OBJ file //obj.LoadObj(@"C:\libs\windows\out.obj"); obj.LoadObj(assemblyPath + @"\windows\out.obj"); //Rhino.RhinoApp.WriteLine(assemblyPath + @"\windows\out.obj"); foreach (ObjParser.Types.Vertex v in obj.VertexList) { mesh3D.Vertices.Add(new Point3d(v.X, v.Y, v.Z)); } foreach (ObjParser.Types.TextureVertex v in obj.TextureList) { mesh2D.Vertices.Add(new Point3d(v.X, v.Y, 0)); } foreach (ObjParser.Types.Face f in obj.FaceList) { string[] lineData = f.ToString().Split(' '); string[] v0 = lineData[1].Split('/'); string[] v1 = lineData[2].Split('/'); string[] v2 = lineData[3].Split('/'); MeshFace mf3D = new MeshFace(Convert.ToInt32(v0[0]) - 1, Convert.ToInt32(v1[0]) - 1, Convert.ToInt32(v2[0]) - 1); MeshFace mf2D = new MeshFace(Convert.ToInt32(v0[1]) - 1, Convert.ToInt32(v1[1]) - 1, Convert.ToInt32(v2[1]) - 1); mesh3D.Faces.AddFace(mf3D); mesh2D.Faces.AddFace(mf2D); } mesh2D.RebuildNormals(); mesh3D.RebuildNormals(); BoundingBox bbox = mesh2D.GetBoundingBox(false); Vector3d vec = M.Vertices[0] - mesh3D.Vertices[0]; mesh3D.Translate(vec); //mesh2D.Transform(Transform.Translation(bbox.PointAt(0.5, 0, 0) - bbox.PointAt(0, 0, 0))); // DA.SetData(0, mesh3D); // DA.SetData(1, mesh2D); DA.SetData(0, mesh3D); DA.SetData(1, mesh2D); //M2D = mesh2D; //M3D = mesh3D; } }