Exemplo n.º 1
0
        public virtual bool Trim()
        {
            if (Spatial == null)
            {
                Spatial = new DMeshAABBTree3(new DMesh3(Mesh, false, MeshComponents.None));
                Spatial.Build();
            }

            if (seed_tri == -1)
            {
                seed_tri = Spatial.FindNearestTriangle(seed_pt);
            }

            var loop = new MeshFacesFromLoop(Mesh, TrimLine, Spatial, seed_tri);

            MeshFaceSelection selection = loop.ToSelection();

            selection.LocalOptimize(true, true);
            var editor = new MeshEditor(Mesh);

            editor.RemoveTriangles(selection, true);

            var components = new MeshConnectedComponents(Mesh);

            components.FindConnectedT();
            if (components.Count > 1)
            {
                int keep = components.LargestByCount;
                for (int i = 0; i < components.Count; ++i)
                {
                    if (i != keep)
                    {
                        editor.RemoveTriangles(components[i].Indices, true);
                    }
                }
            }
            editor.RemoveAllBowtieVertices(true);

            var  loops   = new MeshBoundaryLoops(Mesh);
            bool loopsOK = false;

            try
            {
                loopsOK = loops.Compute();
            }
            catch (Exception)
            {
                return(false);
            }
            if (!loopsOK)
            {
                return(false);
            }


            // [TODO] to support trimming mesh w/ existing holes, we need to figure out which
            // loop we created in RemoveTriangles above!
            if (loops.Count > 1)
            {
                return(false);
            }

            int[] loopVerts = loops[0].Vertices;

            var borderTris = new MeshFaceSelection(Mesh);

            borderTris.SelectVertexOneRings(loopVerts);
            borderTris.ExpandToOneRingNeighbours(RemeshBorderRings);

            var remesh = new RegionRemesher(Mesh, borderTris.ToArray());

            remesh.Region.MapVerticesToSubmesh(loopVerts);

            double target_len = TargetEdgeLength;

            if (target_len <= 0)
            {
                double mine, maxe, avge;
                MeshQueries.EdgeLengthStatsFromEdges(Mesh, loops[0].Edges, out mine, out maxe, out avge);
                target_len = avge;
            }

            var meshTarget = new MeshProjectionTarget(Spatial.Mesh, Spatial);

            remesh.SetProjectionTarget(meshTarget);
            remesh.SetTargetEdgeLength(target_len);
            remesh.SmoothSpeedT = SmoothingAlpha;

            var curveTarget = new DCurveProjectionTarget(TrimLine);
            var multiTarget = new SequentialProjectionTarget(curveTarget, meshTarget);

            int set_id = 3;

            MeshConstraintUtil.ConstrainVtxLoopTo(remesh, loopVerts, multiTarget, set_id);

            for (int i = 0; i < RemeshRounds; ++i)
            {
                remesh.BasicRemeshPass();
            }

            remesh.BackPropropagate();

            // [TODO] output loop somehow...use MeshConstraints.FindConstrainedEdgesBySetID(set_id)...

            return(true);
        }         // Trim()
Exemplo n.º 2
0
        public virtual bool Cut()
        {
            double invalidDist = double.MinValue;

            MeshEdgeSelection   CutEdgeSet   = null;
            MeshVertexSelection CutVertexSet = null;

            if (CutFaceSet != null)
            {
                CutEdgeSet   = new MeshEdgeSelection(Mesh, CutFaceSet);
                CutVertexSet = new MeshVertexSelection(Mesh, CutEdgeSet);
            }

            // compute signs
            int MaxVID = Mesh.MaxVertexID;

            double[] signs = new double[MaxVID];
            gParallel.ForEach(Interval1i.Range(MaxVID), (vid) => {
                if (Mesh.IsVertex(vid))
                {
                    Vector3d v = Mesh.GetVertex(vid);
                    signs[vid] = (v - PlaneOrigin).Dot(PlaneNormal);
                }
                else
                {
                    signs[vid] = invalidDist;
                }
            });

            HashSet <int> ZeroEdges    = new HashSet <int>();
            HashSet <int> ZeroVertices = new HashSet <int>();
            HashSet <int> OnCutEdges   = new HashSet <int>();

            // have to skip processing of new edges. If edge id
            // is > max at start, is new. Otherwise if in NewEdges list, also new.
            int           MaxEID   = Mesh.MaxEdgeID;
            HashSet <int> NewEdges = new HashSet <int>();

            IEnumerable <int> edgeItr = Interval1i.Range(MaxEID);

            if (CutEdgeSet != null)
            {
                edgeItr = CutEdgeSet;
            }

            // cut existing edges with plane, using edge split
            foreach (int eid in edgeItr)
            {
                if (Mesh.IsEdge(eid) == false)
                {
                    continue;
                }
                if (eid >= MaxEID || NewEdges.Contains(eid))
                {
                    continue;
                }

                Index2i ev = Mesh.GetEdgeV(eid);
                double  f0 = signs[ev.a];
                double  f1 = signs[ev.b];

                // If both signs are 0, this edge is on-contour
                // If one sign is 0, that vertex is on-contour
                int n0 = (Math.Abs(f0) < MathUtil.Epsilon) ? 1 : 0;
                int n1 = (Math.Abs(f1) < MathUtil.Epsilon) ? 1 : 0;
                if (n0 + n1 > 0)
                {
                    if (n0 + n1 == 2)
                    {
                        ZeroEdges.Add(eid);
                    }
                    else
                    {
                        ZeroVertices.Add((n0 == 1) ? ev[0] : ev[1]);
                    }
                    continue;
                }

                // no crossing
                if (f0 * f1 > 0)
                {
                    continue;
                }

                DMesh3.EdgeSplitInfo splitInfo;
                MeshResult           result = Mesh.SplitEdge(eid, out splitInfo);
                if (result != MeshResult.Ok)
                {
                    throw new Exception("MeshPlaneCut.Cut: failed in SplitEdge");
                    //return false;
                }

                // SplitEdge just bisects edge - use plane intersection instead
                double   t      = f0 / (f0 - f1);
                Vector3d newPos = (1 - t) * Mesh.GetVertex(ev.a) + (t) * Mesh.GetVertex(ev.b);
                Mesh.SetVertex(splitInfo.vNew, newPos);

                NewEdges.Add(splitInfo.eNewBN);
                NewEdges.Add(splitInfo.eNewCN);  OnCutEdges.Add(splitInfo.eNewCN);
                if (splitInfo.eNewDN != DMesh3.InvalidID)
                {
                    NewEdges.Add(splitInfo.eNewDN);
                    OnCutEdges.Add(splitInfo.eNewDN);
                }
            }

            // remove one-rings of all positive-side vertices.
            IEnumerable <int> vertexSet = Interval1i.Range(MaxVID);

            if (CutVertexSet != null)
            {
                vertexSet = CutVertexSet;
            }
            foreach (int vid in vertexSet)
            {
                if (signs[vid] > 0 && Mesh.IsVertex(vid))
                {
                    Mesh.RemoveVertex(vid, true, false);
                }
            }

            // ok now we extract boundary loops, but restricted
            // to either the zero-edges we found, or the edges we created! bang!!
            Func <int, bool> CutEdgeFilterF = (eid) => {
                if (OnCutEdges.Contains(eid) || ZeroEdges.Contains(eid))
                {
                    return(true);
                }
                return(false);
            };

            try {
                MeshBoundaryLoops loops = new MeshBoundaryLoops(Mesh, false);
                loops.EdgeFilterF = CutEdgeFilterF;
                loops.Compute();

                CutLoops       = loops.Loops;
                CutSpans       = loops.Spans;
                CutLoopsFailed = false;
                FoundOpenSpans = CutSpans.Count > 0;
            } catch {
                CutLoops       = new List <EdgeLoop>();
                CutLoopsFailed = true;
            }

            return(true);
        }         // Cut()