Exemplo n.º 1
0
        /// <summary>
        /// Virally infect all of the triangles of the convex hull that are not
        /// protected by subsegments. Where there are subsegments, set boundary
        /// markers as appropriate.
        /// </summary>
        private void InfectHull()
        {
            Otri   hulltri = default(Otri);
            Otri   nexttri = default(Otri);
            Otri   starttri = default(Otri);
            Osub   hullsubseg = default(Osub);
            Vertex horg, hdest;

            // Find a triangle handle on the hull.
            hulltri.triangle = Mesh.dummytri;
            hulltri.orient   = 0;
            hulltri.SymSelf();
            // Remember where we started so we know when to stop.
            hulltri.Copy(ref starttri);
            // Go once counterclockwise around the convex hull.
            do
            {
                // Ignore triangles that are already infected.
                if (!hulltri.IsInfected())
                {
                    // Is the triangle protected by a subsegment?
                    hulltri.SegPivot(ref hullsubseg);
                    if (hullsubseg.seg == Mesh.dummysub)
                    {
                        // The triangle is not protected; infect it.
                        if (!hulltri.IsInfected())
                        {
                            hulltri.Infect();
                            viri.Add(hulltri.triangle);
                        }
                    }
                    else
                    {
                        // The triangle is protected; set boundary markers if appropriate.
                        if (hullsubseg.seg.boundary == 0)
                        {
                            hullsubseg.seg.boundary = 1;
                            horg  = hulltri.Org();
                            hdest = hulltri.Dest();
                            if (horg.mark == 0)
                            {
                                horg.mark = 1;
                            }
                            if (hdest.mark == 0)
                            {
                                hdest.mark = 1;
                            }
                        }
                    }
                }
                // To find the next hull edge, go clockwise around the next vertex.
                hulltri.LnextSelf();
                hulltri.Oprev(ref nexttri);
                while (nexttri.triangle != Mesh.dummytri)
                {
                    nexttri.Copy(ref hulltri);
                    hulltri.Oprev(ref nexttri);
                }
            } while (!hulltri.Equal(starttri));
        }
Exemplo n.º 2
0
        private void ProcessRegion(Action <Triangle> func)
        {
            Otri     item     = new Otri();
            Otri     otri     = new Otri();
            Osub     osub     = new Osub();
            Behavior behavior = this.mesh.behavior;

            for (int i = 0; i < this.viri.Count; i++)
            {
                item.triangle = this.viri[i];
                item.Uninfect();
                func(item.triangle);
                item.orient = 0;
                while (item.orient < 3)
                {
                    item.Sym(ref otri);
                    item.SegPivot(ref osub);
                    if (otri.triangle != Mesh.dummytri && !otri.IsInfected() && osub.seg == Mesh.dummysub)
                    {
                        otri.Infect();
                        this.viri.Add(otri.triangle);
                    }
                    item.orient = item.orient + 1;
                }
                item.Infect();
            }
            foreach (Triangle virus in this.viri)
            {
                virus.infected = false;
            }
            this.viri.Clear();
        }
Exemplo n.º 3
0
        /// <summary>
        /// Spread regional attributes and/or area constraints (from a .poly file)
        /// throughout the mesh.
        /// </summary>
        /// <param name="attribute"></param>
        /// <param name="area"></param>
        /// <remarks>
        /// This procedure operates in two phases. The first phase spreads an
        /// attribute and/or an area constraint through a (segment-bounded) region.
        /// The triangles are marked to ensure that each triangle is added to the
        /// virus pool only once, so the procedure will terminate.
        ///
        /// The second phase uninfects all infected triangles, returning them to
        /// normal.
        /// </remarks>
        void ProcessRegion(Action <Triangle> func)
        {
            Otri testtri        = default(Otri);
            Otri neighbor       = default(Otri);
            Osub neighborsubseg = default(Osub);

            //Behavior behavior = mesh.behavior;

            // Loop through all the infected triangles, spreading the attribute
            // and/or area constraint to their neighbors, then to their neighbors'
            // neighbors.
            for (int i = 0; i < viri.Count; i++)
            {
                // WARNING: Don't use foreach, viri list gets modified.

                testtri.triangle = viri[i];
                // A triangle is marked as infected by messing with one of its pointers
                // to subsegments, setting it to an illegal value.  Hence, we have to
                // temporarily uninfect this triangle so that we can examine its
                // adjacent subsegments.
                // TODO: Not true in the C# version (so we could skip this).
                testtri.Uninfect();

                // Apply function.
                func(testtri.triangle);

                // Check each of the triangle's three neighbors.
                for (testtri.orient = 0; testtri.orient < 3; testtri.orient++)
                {
                    // Find the neighbor.
                    testtri.Sym(ref neighbor);
                    // Check for a subsegment between the triangle and its neighbor.
                    testtri.SegPivot(ref neighborsubseg);
                    // Make sure the neighbor exists, is not already infected, and
                    // isn't protected by a subsegment.
                    if ((neighbor.triangle != Mesh.dummytri) && !neighbor.IsInfected() &&
                        (neighborsubseg.seg == Mesh.dummysub))
                    {
                        // Infect the neighbor.
                        neighbor.Infect();
                        // Ensure that the neighbor's neighbors will be infected.
                        viri.Add(neighbor.triangle);
                    }
                }

                // Remark the triangle as infected, so it doesn't get added to the
                // virus pool again.
                testtri.Infect();
            }

            // Uninfect all triangles.
            foreach (var virus in viri)
            {
                virus.infected = false;
            }

            // Empty the virus pool.
            viri.Clear();
        }
Exemplo n.º 4
0
        /// <summary>
        ///     Find the holes and infect them. Find the area constraints and infect
        ///     them. Infect the convex hull. Spread the infection and kill triangles.
        ///     Spread the area constraints.
        /// </summary>
        public void CarveHoles()
        {
            Otri         searchtri = default(Otri);
            Vertex       searchorg, searchdest;
            LocateResult intersect;

            var dummytri = mesh.dummytri;

            if (!mesh.behavior.Convex)
            {
                // Mark as infected any unprotected triangles on the boundary.
                // This is one way by which concavities are created.
                InfectHull();
            }

            if (!mesh.behavior.NoHoles)
            {
                // Infect each triangle in which a hole lies.
                foreach (var hole in mesh.holes)
                {
                    // Ignore holes that aren't within the bounds of the mesh.
                    if (mesh.bounds.Contains(hole))
                    {
                        // Start searching from some triangle on the outer boundary.
                        searchtri.tri    = dummytri;
                        searchtri.orient = 0;
                        searchtri.Sym();
                        // Ensure that the hole is to the left of this boundary edge;
                        // otherwise, locate() will falsely report that the hole
                        // falls within the starting triangle.
                        searchorg  = searchtri.Org();
                        searchdest = searchtri.Dest();
                        if (RobustPredicates.CounterClockwise(searchorg, searchdest, hole) > 0.0)
                        {
                            // Find a triangle that contains the hole.
                            intersect = mesh.locator.Locate(hole, ref searchtri);
                            if ((intersect != LocateResult.Outside) && (!searchtri.IsInfected()))
                            {
                                // Infect the triangle. This is done by marking the triangle
                                // as infected and including the triangle in the virus pool.
                                searchtri.Infect();
                                viri.Add(searchtri.tri);
                            }
                        }
                    }
                }
            }

            if (viri.Count > 0)
            {
                // Carve the holes and concavities.
                Plague();
            }

            // Free up memory (virus pool should be empty anyway).
            viri.Clear();
        }
Exemplo n.º 5
0
        private void InfectHull()
        {
            Otri otri  = new Otri();
            Otri otri1 = new Otri();
            Otri otri2 = new Otri();
            Osub osub  = new Osub();

            otri.triangle = Mesh.dummytri;
            otri.orient   = 0;
            otri.SymSelf();
            otri.Copy(ref otri2);
            do
            {
                if (!otri.IsInfected())
                {
                    otri.SegPivot(ref osub);
                    if (osub.seg == Mesh.dummysub)
                    {
                        if (!otri.IsInfected())
                        {
                            otri.Infect();
                            this.viri.Add(otri.triangle);
                        }
                    }
                    else if (osub.seg.boundary == 0)
                    {
                        osub.seg.boundary = 1;
                        Vertex vertex  = otri.Org();
                        Vertex vertex1 = otri.Dest();
                        if (vertex.mark == 0)
                        {
                            vertex.mark = 1;
                        }
                        if (vertex1.mark == 0)
                        {
                            vertex1.mark = 1;
                        }
                    }
                }
                otri.LnextSelf();
                otri.Oprev(ref otri1);
                while (otri1.triangle != Mesh.dummytri)
                {
                    otri1.Copy(ref otri);
                    otri.Oprev(ref otri1);
                }
            }while (!otri.Equal(otri2));
        }
Exemplo n.º 6
0
        /// <summary>
        /// Apply given action to each triangle of selected region.
        /// </summary>
        /// <param name="action"></param>
        /// <param name="protector"></param>
        void ProcessRegion(Action <Triangle> action, Func <SubSegment, bool> protector)
        {
            Otri testtri        = default(Otri);
            Otri neighbor       = default(Otri);
            Osub neighborsubseg = default(Osub);

            // Loop through all the infected triangles, spreading the attribute
            // and/or area constraint to their neighbors, then to their neighbors'
            // neighbors.
            for (int i = 0; i < region.Count; i++)
            {
                // WARNING: Don't use foreach, viri list gets modified.

                testtri.tri = region[i];

                // Apply function.
                action(testtri.tri);

                // Check each of the triangle's three neighbors.
                for (testtri.orient = 0; testtri.orient < 3; testtri.orient++)
                {
                    // Find the neighbor.
                    testtri.Sym(ref neighbor);
                    // Check for a subsegment between the triangle and its neighbor.
                    testtri.Pivot(ref neighborsubseg);
                    // Make sure the neighbor exists, is not already infected, and
                    // isn't protected by a subsegment.
                    if ((neighbor.tri.id != TriangleNetMesh.DUMMY) && !neighbor.IsInfected() &&
                        protector(neighborsubseg.seg))
                    {
                        // Infect the neighbor.
                        neighbor.Infect();
                        // Ensure that the neighbor's neighbors will be infected.
                        region.Add(neighbor.tri);
                    }
                }
            }

            // Uninfect all triangles.
            foreach (var virus in region)
            {
                virus.infected = false;
            }

            // Empty the virus pool.
            region.Clear();
        }
Exemplo n.º 7
0
        /// <summary>
        /// Find the holes and infect them. Find the area constraints and infect
        /// them. Infect the convex hull. Spread the infection and kill triangles.
        /// Spread the area constraints.
        /// </summary>
        public void CarveHoles()
        {
            Otri         searchtri = default(Otri);
            Vertex       searchorg, searchdest;
            LocateResult intersect;

            Triangle[] regionTris = null;

            if (!mesh.behavior.Convex)
            {
                // Mark as infected any unprotected triangles on the boundary.
                // This is one way by which concavities are created.
                InfectHull();
            }

            if (!mesh.behavior.NoHoles)
            {
                // Infect each triangle in which a hole lies.
                foreach (var hole in mesh.holes)
                {
                    // Ignore holes that aren't within the bounds of the mesh.
                    if (mesh.bounds.Contains(hole))
                    {
                        // Start searching from some triangle on the outer boundary.
                        searchtri.triangle = Mesh.dummytri;
                        searchtri.orient   = 0;
                        searchtri.SymSelf();
                        // Ensure that the hole is to the left of this boundary edge;
                        // otherwise, locate() will falsely report that the hole
                        // falls within the starting triangle.
                        searchorg  = searchtri.Org();
                        searchdest = searchtri.Dest();
                        if (Primitives.CounterClockwise(searchorg, searchdest, hole) > 0.0)
                        {
                            // Find a triangle that contains the hole.
                            intersect = mesh.locator.Locate(hole, ref searchtri);
                            if ((intersect != LocateResult.Outside) && (!searchtri.IsInfected()))
                            {
                                // Infect the triangle. This is done by marking the triangle
                                // as infected and including the triangle in the virus pool.
                                searchtri.Infect();
                                viri.Add(searchtri.triangle);
                            }
                        }
                    }
                }
            }

            // Now, we have to find all the regions BEFORE we carve the holes, because locate() won't
            // work when the triangulation is no longer convex. (Incidentally, this is the reason why
            // regional attributes and area constraints can't be used when refining a preexisting mesh,
            // which might not be convex; they can only be used with a freshly triangulated PSLG.)
            if (mesh.regions.Count > 0)
            {
                int i = 0;

                regionTris = new Triangle[mesh.regions.Count];

                // Find the starting triangle for each region.
                foreach (var region in mesh.regions)
                {
                    regionTris[i] = Mesh.dummytri;
                    // Ignore region points that aren't within the bounds of the mesh.
                    if (mesh.bounds.Contains(region.point))
                    {
                        // Start searching from some triangle on the outer boundary.
                        searchtri.triangle = Mesh.dummytri;
                        searchtri.orient   = 0;
                        searchtri.SymSelf();
                        // Ensure that the region point is to the left of this boundary
                        // edge; otherwise, locate() will falsely report that the
                        // region point falls within the starting triangle.
                        searchorg  = searchtri.Org();
                        searchdest = searchtri.Dest();
                        if (Primitives.CounterClockwise(searchorg, searchdest, region.point) > 0.0)
                        {
                            // Find a triangle that contains the region point.
                            intersect = mesh.locator.Locate(region.point, ref searchtri);
                            if ((intersect != LocateResult.Outside) && (!searchtri.IsInfected()))
                            {
                                // Record the triangle for processing after the
                                // holes have been carved.
                                regionTris[i]        = searchtri.triangle;
                                regionTris[i].region = region.id;
                            }
                        }
                    }

                    i++;
                }
            }

            if (viri.Count > 0)
            {
                // Carve the holes and concavities.
                Plague();
            }

            if (regionTris != null)
            {
                var iterator = new RegionIterator(mesh);

                for (int i = 0; i < regionTris.Length; i++)
                {
                    if (regionTris[i] != Mesh.dummytri)
                    {
                        // Make sure the triangle under consideration still exists.
                        // It may have been eaten by the virus.
                        if (!Otri.IsDead(regionTris[i]))
                        {
                            // Apply one region's attribute and/or area constraint.
                            iterator.Process(regionTris[i]);
                        }
                    }
                }
            }

            // Free up memory (virus pool should be empty anyway).
            viri.Clear();
        }
Exemplo n.º 8
0
        /// <summary>
        /// Spread the virus from all infected triangles to any neighbors not
        /// protected by subsegments. Delete all infected triangles.
        /// </summary>
        /// <remarks>
        /// This is the procedure that actually creates holes and concavities.
        ///
        /// This procedure operates in two phases. The first phase identifies all
        /// the triangles that will die, and marks them as infected. They are
        /// marked to ensure that each triangle is added to the virus pool only
        /// once, so the procedure will terminate.
        ///
        /// The second phase actually eliminates the infected triangles. It also
        /// eliminates orphaned vertices.
        /// </remarks>
        void Plague()
        {
            Otri   testtri        = default(Otri);
            Otri   neighbor       = default(Otri);
            Osub   neighborsubseg = default(Osub);
            Vertex testvertex;
            Vertex norg, ndest;

            bool killorg;

            // Loop through all the infected triangles, spreading the virus to
            // their neighbors, then to their neighbors' neighbors.
            for (int i = 0; i < viri.Count; i++)
            {
                // WARNING: Don't use foreach, mesh.viri list may get modified.

                testtri.triangle = viri[i];
                // A triangle is marked as infected by messing with one of its pointers
                // to subsegments, setting it to an illegal value.  Hence, we have to
                // temporarily uninfect this triangle so that we can examine its
                // adjacent subsegments.
                // TODO: Not true in the C# version (so we could skip this).
                testtri.Uninfect();

                // Check each of the triangle's three neighbors.
                for (testtri.orient = 0; testtri.orient < 3; testtri.orient++)
                {
                    // Find the neighbor.
                    testtri.Sym(ref neighbor);
                    // Check for a subsegment between the triangle and its neighbor.
                    testtri.SegPivot(ref neighborsubseg);
                    // Check if the neighbor is nonexistent or already infected.
                    if ((neighbor.triangle == Mesh.dummytri) || neighbor.IsInfected())
                    {
                        if (neighborsubseg.seg != Mesh.dummysub)
                        {
                            // There is a subsegment separating the triangle from its
                            // neighbor, but both triangles are dying, so the subsegment
                            // dies too.
                            mesh.SubsegDealloc(neighborsubseg.seg);
                            if (neighbor.triangle != Mesh.dummytri)
                            {
                                // Make sure the subsegment doesn't get deallocated again
                                // later when the infected neighbor is visited.
                                neighbor.Uninfect();
                                neighbor.SegDissolve();
                                neighbor.Infect();
                            }
                        }
                    }
                    else
                    {   // The neighbor exists and is not infected.
                        if (neighborsubseg.seg == Mesh.dummysub)
                        {
                            // There is no subsegment protecting the neighbor, so
                            // the neighbor becomes infected.
                            neighbor.Infect();
                            // Ensure that the neighbor's neighbors will be infected.
                            viri.Add(neighbor.triangle);
                        }
                        else
                        {
                            // The neighbor is protected by a subsegment.
                            // Remove this triangle from the subsegment.
                            neighborsubseg.TriDissolve();
                            // The subsegment becomes a boundary.  Set markers accordingly.
                            if (neighborsubseg.seg.boundary == 0)
                            {
                                neighborsubseg.seg.boundary = 1;
                            }
                            norg  = neighbor.Org();
                            ndest = neighbor.Dest();
                            if (norg.mark == 0)
                            {
                                norg.mark = 1;
                            }
                            if (ndest.mark == 0)
                            {
                                ndest.mark = 1;
                            }
                        }
                    }
                }
                // Remark the triangle as infected, so it doesn't get added to the
                // virus pool again.
                testtri.Infect();
            }

            foreach (var virus in viri)
            {
                testtri.triangle = virus;

                // Check each of the three corners of the triangle for elimination.
                // This is done by walking around each vertex, checking if it is
                // still connected to at least one live triangle.
                for (testtri.orient = 0; testtri.orient < 3; testtri.orient++)
                {
                    testvertex = testtri.Org();
                    // Check if the vertex has already been tested.
                    if (testvertex != null)
                    {
                        killorg = true;
                        // Mark the corner of the triangle as having been tested.
                        testtri.SetOrg(null);
                        // Walk counterclockwise about the vertex.
                        testtri.Onext(ref neighbor);
                        // Stop upon reaching a boundary or the starting triangle.
                        while ((neighbor.triangle != Mesh.dummytri) &&
                               (!neighbor.Equal(testtri)))
                        {
                            if (neighbor.IsInfected())
                            {
                                // Mark the corner of this triangle as having been tested.
                                neighbor.SetOrg(null);
                            }
                            else
                            {
                                // A live triangle.  The vertex survives.
                                killorg = false;
                            }
                            // Walk counterclockwise about the vertex.
                            neighbor.OnextSelf();
                        }
                        // If we reached a boundary, we must walk clockwise as well.
                        if (neighbor.triangle == Mesh.dummytri)
                        {
                            // Walk clockwise about the vertex.
                            testtri.Oprev(ref neighbor);
                            // Stop upon reaching a boundary.
                            while (neighbor.triangle != Mesh.dummytri)
                            {
                                if (neighbor.IsInfected())
                                {
                                    // Mark the corner of this triangle as having been tested.
                                    neighbor.SetOrg(null);
                                }
                                else
                                {
                                    // A live triangle.  The vertex survives.
                                    killorg = false;
                                }
                                // Walk clockwise about the vertex.
                                neighbor.OprevSelf();
                            }
                        }
                        if (killorg)
                        {
                            // Deleting vertex
                            testvertex.type = VertexType.UndeadVertex;
                            mesh.undeads++;
                        }
                    }
                }

                // Record changes in the number of boundary edges, and disconnect
                // dead triangles from their neighbors.
                for (testtri.orient = 0; testtri.orient < 3; testtri.orient++)
                {
                    testtri.Sym(ref neighbor);
                    if (neighbor.triangle == Mesh.dummytri)
                    {
                        // There is no neighboring triangle on this edge, so this edge
                        // is a boundary edge. This triangle is being deleted, so this
                        // boundary edge is deleted.
                        mesh.hullsize--;
                    }
                    else
                    {
                        // Disconnect the triangle from its neighbor.
                        neighbor.Dissolve();
                        // There is a neighboring triangle on this edge, so this edge
                        // becomes a boundary edge when this triangle is deleted.
                        mesh.hullsize++;
                    }
                }
                // Return the dead triangle to the pool of triangles.
                mesh.TriangleDealloc(testtri.triangle);
            }

            // Empty the virus pool.
            viri.Clear();
        }
Exemplo n.º 9
0
        public void CarveHoles()
        {
            Otri otri = new Otri();

            Triangle[] triangleArray = null;
            if (!this.mesh.behavior.Convex)
            {
                this.InfectHull();
            }
            if (!this.mesh.behavior.NoHoles)
            {
                foreach (Point hole in this.mesh.holes)
                {
                    if (!this.mesh.bounds.Contains(hole))
                    {
                        continue;
                    }
                    otri.triangle = Mesh.dummytri;
                    otri.orient   = 0;
                    otri.SymSelf();
                    if (Primitives.CounterClockwise(otri.Org(), otri.Dest(), hole) <= 0 || this.mesh.locator.Locate(hole, ref otri) == LocateResult.Outside || otri.IsInfected())
                    {
                        continue;
                    }
                    otri.Infect();
                    this.viri.Add(otri.triangle);
                }
            }
            if (this.mesh.regions.Count > 0)
            {
                int num = 0;
                triangleArray = new Triangle[this.mesh.regions.Count];
                foreach (RegionPointer region in this.mesh.regions)
                {
                    triangleArray[num] = Mesh.dummytri;
                    if (this.mesh.bounds.Contains(region.point))
                    {
                        otri.triangle = Mesh.dummytri;
                        otri.orient   = 0;
                        otri.SymSelf();
                        if (Primitives.CounterClockwise(otri.Org(), otri.Dest(), region.point) > 0 && this.mesh.locator.Locate(region.point, ref otri) != LocateResult.Outside && !otri.IsInfected())
                        {
                            triangleArray[num]        = otri.triangle;
                            triangleArray[num].region = region.id;
                        }
                    }
                    num++;
                }
            }
            if (this.viri.Count > 0)
            {
                this.Plague();
            }
            if (triangleArray != null)
            {
                RegionIterator regionIterator = new RegionIterator(this.mesh);
                for (int i = 0; i < (int)triangleArray.Length; i++)
                {
                    if (triangleArray[i] != Mesh.dummytri && !Otri.IsDead(triangleArray[i]))
                    {
                        regionIterator.Process(triangleArray[i]);
                    }
                }
            }
            this.viri.Clear();
        }
Exemplo n.º 10
0
        private void Plague()
        {
            Otri item = new Otri();
            Otri otri = new Otri();
            Osub osub = new Osub();

            for (int i = 0; i < this.viri.Count; i++)
            {
                item.triangle = this.viri[i];
                item.Uninfect();
                item.orient = 0;
                while (item.orient < 3)
                {
                    item.Sym(ref otri);
                    item.SegPivot(ref osub);
                    if (otri.triangle != Mesh.dummytri && !otri.IsInfected())
                    {
                        if (osub.seg != Mesh.dummysub)
                        {
                            osub.TriDissolve();
                            if (osub.seg.boundary == 0)
                            {
                                osub.seg.boundary = 1;
                            }
                            Vertex vertex  = otri.Org();
                            Vertex vertex1 = otri.Dest();
                            if (vertex.mark == 0)
                            {
                                vertex.mark = 1;
                            }
                            if (vertex1.mark == 0)
                            {
                                vertex1.mark = 1;
                            }
                        }
                        else
                        {
                            otri.Infect();
                            this.viri.Add(otri.triangle);
                        }
                    }
                    else if (osub.seg != Mesh.dummysub)
                    {
                        this.mesh.SubsegDealloc(osub.seg);
                        if (otri.triangle != Mesh.dummytri)
                        {
                            otri.Uninfect();
                            otri.SegDissolve();
                            otri.Infect();
                        }
                    }
                    item.orient = item.orient + 1;
                }
                item.Infect();
            }
            foreach (Triangle virus in this.viri)
            {
                item.triangle = virus;
                item.orient   = 0;
                while (item.orient < 3)
                {
                    Vertex vertex2 = item.Org();
                    if (vertex2 != null)
                    {
                        bool flag = true;
                        item.SetOrg(null);
                        item.Onext(ref otri);
                        while (otri.triangle != Mesh.dummytri && !otri.Equal(item))
                        {
                            if (!otri.IsInfected())
                            {
                                flag = false;
                            }
                            else
                            {
                                otri.SetOrg(null);
                            }
                            otri.OnextSelf();
                        }
                        if (otri.triangle == Mesh.dummytri)
                        {
                            item.Oprev(ref otri);
                            while (otri.triangle != Mesh.dummytri)
                            {
                                if (!otri.IsInfected())
                                {
                                    flag = false;
                                }
                                else
                                {
                                    otri.SetOrg(null);
                                }
                                otri.OprevSelf();
                            }
                        }
                        if (flag)
                        {
                            vertex2.type = VertexType.UndeadVertex;
                            Mesh mesh = this.mesh;
                            mesh.undeads = mesh.undeads + 1;
                        }
                    }
                    item.orient = item.orient + 1;
                }
                item.orient = 0;
                while (item.orient < 3)
                {
                    item.Sym(ref otri);
                    if (otri.triangle != Mesh.dummytri)
                    {
                        otri.Dissolve();
                        Mesh mesh1 = this.mesh;
                        mesh1.hullsize = mesh1.hullsize + 1;
                    }
                    else
                    {
                        Mesh mesh2 = this.mesh;
                        mesh2.hullsize = mesh2.hullsize - 1;
                    }
                    item.orient = item.orient + 1;
                }
                this.mesh.TriangleDealloc(item.triangle);
            }
            this.viri.Clear();
        }