Exemplo n.º 1
0
        public static Segment3d OutFrame(this Segment2d _seg2d, Frame3f _frame)
        {
            var seg3f = new Segment3f
                            (_frame.FromPlaneUV((Vector2f)_seg2d.P0, 2),
                            _frame.FromPlaneUV((Vector2f)_seg2d.P1, 2));

            return(new Segment3d(seg3f.P0, seg3f.P1));
        }
Exemplo n.º 2
0
        /// <summary>
        /// available after call to UpdateSection()
        /// </summary>
        public DMesh3 GetSectionMesh(double simplifyTol = 0.01)
        {
            DMesh3 mesh = new DMesh3();

            if (localCurves.Loops == null)
            {
                return(mesh);
            }

            List <GeneralPolygon2d> solids = GetSolids();

            foreach (GeneralPolygon2d poly in solids)
            {
                poly.Simplify(simplifyTol, simplifyTol / 10, true);
                TriangulatedPolygonGenerator gen = new TriangulatedPolygonGenerator()
                {
                    Polygon = poly
                };
                DMesh3 polyMesh = gen.Generate().MakeDMesh();
                MeshTransforms.PerVertexTransform(polyMesh, (uv) => {
                    return(frameL.FromPlaneUV((Vector2f)uv.xy, 2));
                });
                MeshEditor.Append(mesh, polyMesh);
            }

            if (OutputSpace != CoordSpace.ObjectCoords)
            {
                MeshTransforms.PerVertexTransform(mesh, (v) => {
                    return(SceneTransforms.TransformTo((Vector3f)v, SO, CoordSpace.ObjectCoords, OutputSpace));
                });
            }

            return(mesh);
        }
Exemplo n.º 3
0
        public DMesh3 CreateMesh(List <Vector3d> path,
                                 List <Polygon2d> polys,
                                 VectorArray3d seam)
        {
            // Ignore first and last path/polys for mesh generation.
            // We just need the extra path positions to calculate a
            // continuous tangent at the seams.
            List <Vector3d> pathXZ = new List <Vector3d>();

            for (int i = 0; i < path.Count; i++)
            {
                pathXZ.Add(new Vector3d(path[i].x, 0, path[i].z));
            }

            int nVerts = path.Count - 2;
            int nPolys = polys.Count - 2;
            // Same VertexCount for all Polygons.
            int nSlices   = polys[0].VertexCount;
            int nPolySize = nSlices + 1;
            int nVecs     = nVerts * nPolySize;

            vertices = new VectorArray3d(nVecs);
            normals  = new VectorArray3f(nVecs);
            uv       = new VectorArray2f(nVecs);

            int quad_strips = nVerts - 1;
            int nSpanTris   = quad_strips * (2 * nSlices);

            triangles = new IndexArray3i(nSpanTris);

            Frame3f fCur         = new Frame3f(frame);
            double  pathLength   = CurveUtils.ArcLength(path.GetRange(1, nVerts));
            double  accum_path_u = 0;

            for (int ri = 0; ri < nPolys; ++ri)
            {
                int      si      = ri + 1; // actual path/polys index for mesh
                Vector3d tangent = CurveUtils.GetTangent(pathXZ, si);
                fCur.Origin = (Vector3f)path[si];
                fCur.AlignAxis(2, (Vector3f)tangent);

                int    nStartR      = ri * nPolySize;
                double accum_ring_v = 0;
                bool   copy         = ri == nPolys - 1;
                bool   paste        = ri == 0;

                for (int j = 0; j < nPolySize; ++j)
                {
                    int      k      = nStartR + j;
                    Vector2d pv     = polys[si].Vertices[j % nSlices];
                    Vector2d pvNext = polys[si].Vertices[(j + 1) % nSlices];
                    Vector3d v      = fCur.FromPlaneUV((Vector2f)pv, 2);
                    vertices[k] = v;
                    Vector3f n = (Vector3f)(v - fCur.Origin).Normalized;
                    normals[k]    = n;
                    uv[k]         = new Vector2f(accum_path_u, accum_ring_v);
                    accum_ring_v += (pv.Distance(pvNext) / polys[si].ArcLength);
                    if (copy)
                    {
                        Seam[j] = vertices[k];
                    }
                    else if (paste)
                    {
                        vertices[k] = seam[j];
                    }
                }
                double d = path[si].Distance(path[si + 1]);
                accum_path_u += d / pathLength;
            }

            int nStop = nVerts - 1;
            int ti    = 0;

            for (int ri = 0; ri < nStop; ++ri)
            {
                int r0 = ri * nPolySize;
                int r1 = r0 + nPolySize;
                for (int k = 0; k < nPolySize - 1; ++k)
                {
                    triangles.Set(ti++, r0 + k, r0 + k + 1, r1 + k + 1, Clockwise);
                    triangles.Set(ti++, r0 + k, r1 + k + 1, r1 + k, Clockwise);
                }
            }
            return(MakeDMesh());
        }