Пример #1
0
        public void TriangulateFace(Autodesk.Revit.DB.Face vFace, Transform instTransform)
        {
            try
            {
                //setup utility class
                LuxExporter.UnitConverter Converter = new UnitConverter();

                //process face
                Mesh vMesh = vFace.Triangulate();

                //check if we have a quad mesh (4 edges to a face)
                if (vMesh.Vertices.Count == 4)
                {
                    //increase face counter
                    iNumberOfFaces++;

                    //found quad
                    Data.NumberOfVerticesinFace = 4;
                    //loop through all vertices and add
                    foreach (XYZ ii in vMesh.Vertices)
                    {
                        XYZ point = ii;
                        XYZ transformedPoint;

                        //transform geometry (only required in nested families / or elements like baluster
                        if (instTransform == null)
                        {
                            transformedPoint = point;
                        }
                        else
                        {
                            transformedPoint = instTransform.OfPoint(point);
                        }

                        //get the normal
                        XYZ NormalAtPoint;

                        IntersectionResult IntResult= vFace.Project(ii);

                        if (IntResult != null)
                        {
                            UV UVatPoint = IntResult.UVPoint;
                            NormalAtPoint = new XYZ(vFace.ComputeNormal(UVatPoint).X, vFace.ComputeNormal(UVatPoint).Y, vFace.ComputeNormal(UVatPoint).Z);
                        }
                        else
                        {
                            //this needs fixing!!!
                            NormalAtPoint = new XYZ(0, 0, 0);
                        }

                        //convert to meter
                        transformedPoint = Converter.ConvertPointCoordToMeter(transformedPoint);
                        //NormalAtPoint = Converter.ConvertPointCoordToMeter(NormalAtPoint);

                        //add to ply class
                        Data.AddVertice(transformedPoint,NormalAtPoint);

                    }

                }
                else
                {
                    // set pointer
                    Data.NumberOfVerticesinFace = 3;

                    //export all triangles in face
                    for (int i = 0; i < vMesh.NumTriangles; i++)
                    {
                        //increase face counter
                        iNumberOfFaces++;

                        MeshTriangle objTriangular = vMesh.get_Triangle(i);

                        for (int iPointsCounter = 0; iPointsCounter < 3; iPointsCounter++)
                        {
                            XYZ point = objTriangular.get_Vertex(iPointsCounter);
                            XYZ transformedPoint;
                            //transform geometry (only required in nested families / or elements like baluster
                            if (instTransform == null)
                            {
                                transformedPoint = point;
                            }
                            else
                            {
                                transformedPoint = instTransform.OfPoint(point);
                            }

                            XYZ NormalAtPoint;

                            //get the normal
                            IntersectionResult IntResult = vFace.Project(point);
                            if (IntResult!=null)
                            {
                                UV UVatPoint = IntResult.UVPoint;
                                NormalAtPoint = new XYZ(vFace.ComputeNormal(UVatPoint).X,vFace.ComputeNormal(UVatPoint).Y,vFace.ComputeNormal(UVatPoint).Z);
                            }
                            else
                            {
                                //this needs fixing
                                NormalAtPoint = new XYZ(0, 0, 0);
                            }

                            //convert to meter
                            transformedPoint = Converter.ConvertPointCoordToMeter(transformedPoint);
                            //NormalAtPoint = Converter.ConvertPointCoordToMeter(NormalAtPoint);
                            //add to ply class
                            Data.AddVertice(transformedPoint,NormalAtPoint);
                        }

                    }
                }

            }
            catch (Exception ex)
            {
                System.Windows.Forms.MessageBox.Show("Error in module PLY_by_material::TriangulateMesh "+ex.Message);
                throw;
            }
        }
Пример #2
0
        public static Surface ExtractSurface(Autodesk.Revit.DB.RevolvedFace face, IEnumerable<PolyCurve> edgeLoops)
        {
            var crv = face.Curve.ToProtoType(false);

            var axis = face.Axis.ToVector(false);
            var o = face.Origin.ToVector(false);
            var x = face.get_Radius(0).ToVector(false);
            var y = face.get_Radius(1).ToVector(false);

            // Note: The profile curve is represented in the coordinate system of the revolve
            //       so we need to transform it into the global coordinate system
            var revolveCs = CoordinateSystem.Identity();
            var globalCs = CoordinateSystem.ByOriginVectors(o.AsPoint(), x, y);

            var crvTrf = (Autodesk.DesignScript.Geometry.Curve)crv.Transform(revolveCs, globalCs);

            var srf =
                Surface.ByRevolve(crvTrf, o.AsPoint(), axis.Normalized(), 0, 360)
                    .FlipNormalDirection();

            var ptOnSrf = srf.PointAtParameter(0.5, 0.5);
            var projRes = face.Project(ptOnSrf.ToXyz());

            if (projRes == null) return srf;

            var uvOnFace = projRes.UVPoint;

            var normOnFace = face.ComputeNormal(uvOnFace).ToVector();
            var normOnSrf = srf.NormalAtParameter(0.5, 0.5);

            // if the normal is reversed, reverse the surface
            if (normOnFace.Dot(normOnSrf) < 0) return srf.FlipNormalDirection();

            return srf;

        }