// smooths embedded loop in mesh, by first smoothing edge loop and then
// smoothing vertex neighbourhood
// [TODO] geodesic nbrhoold instead of # of rings
// [TODO] reprojection?
public static void smooth_loop(NGonsCore.geometry3Sharp.mesh.DMesh3 mesh, EdgeLoop loop, int nRings)
{
MeshFaceSelection roi_t = new MeshFaceSelection(mesh);
roi_t.SelectVertexOneRings(loop.Vertices);
for (int i = 0; i < nRings; ++i)
{
roi_t.ExpandToOneRingNeighbours();
}
roi_t.LocalOptimize(true, true);
MeshVertexSelection roi_v = new MeshVertexSelection(mesh);
roi_v.SelectTriangleVertices(roi_t.ToArray());
roi_v.Deselect(loop.Vertices);
MeshLoopSmooth loop_smooth = new MeshLoopSmooth(mesh, loop);
loop_smooth.Rounds = 1;
MeshIterativeSmooth mesh_smooth = new MeshIterativeSmooth(mesh, roi_v.ToArray(), true);
mesh_smooth.Rounds = 1;
for (int i = 0; i < 10; ++i)
{
loop_smooth.Smooth();
mesh_smooth.Smooth();
}
}
public virtual bool Extrude(int group_id = -1)
{
// duplicate loop vertices
int NV = Loop.Vertices.Length;
NewLoop = new EdgeLoop(Mesh);
NewLoop.Vertices = new int[NV];
for (int i = 0; i < NV; ++i)
{
int vid = Loop.Vertices[i];
NewLoop.Vertices[i] = Mesh.AppendVertex(Mesh, vid);
}
// move to offset positions
for (int i = 0; i < NV; ++i)
{
Vector3D v = Mesh.GetVertex(Loop.Vertices[i]);
Vector3F n = Mesh.GetVertexNormal(Loop.Vertices[i]);
Vector3D new_v = PositionF(v, n, i);
Mesh.SetVertex(NewLoop.Vertices[i], new_v);
}
// stitch interior
MeshEditor edit = new MeshEditor(Mesh);
NewTriangles = edit.StitchLoop(Loop.Vertices, NewLoop.Vertices, group_id);
return(true);
}
public AddTrianglesMeshChange fill_smooth(DMesh3 mesh, EdgeLoop loop)
{
AddTrianglesMeshChange addChange = null;
SmoothedHoleFill filler = new SmoothedHoleFill(mesh, loop);
filler.ConstrainToHoleInterior = true;
if (this.AutoTargetEdgeLength)
{
double mine, maxe, avge;
MeshQueries.EdgeLengthStatsFromEdges(mesh, loop.Edges, out mine, out maxe, out avge);
filler.TargetEdgeLength = avge;
}
else
{
filler.TargetEdgeLength = this.TargetEdgeLength;
}
filler.SmoothSolveIterations = this.SmoothOptimizeRounds;
bool fill_ok = filler.Apply();
if (fill_ok)
{
addChange = new AddTrianglesMeshChange();
addChange.InitializeFromExisting(mesh,
filler.FillVertices, filler.FillTriangles);
}
return(addChange);
}
public static void FindActualEdge(HalfEdge he, out HalfEdge he1, out double length)
{
EdgeLoop el = he.face.GetEdgeLoopFor(he);
int ndx = el.IndexOf(he);
while (true)
{
HalfEdge h = el[el.FixIndex(ndx - 1)];
if (ut.PointsAreCollinear3d(h.from, h.to, he.to))
{
ndx--;
}
else
{
break;
}
}
he1 = el[ndx];
double len = he1.Length();
while (true)
{
HalfEdge h = el[++ndx];
if (ut.PointsAreCollinear3d(he1.from, he1.to, h.to))
{
len += h.Length();
}
else
{
break;
}
}
length = len;
}
public LandBuilder(EdgeLoop <CityEdge> footprint, City city)
{
this.footprint = footprint;
this.city = city;
pointsPerUnit = 0.3f;
treeModels = new GameObject[] { Resources.Load <GameObject>("Trees/Pine1"), Resources.Load <GameObject>("Trees/Pine2") };
}
protected override void SolveInstance(IGH_DataAccess DA)
{
this.Message = type.ToString();
DMesh3_goo goo = null;
double eLen = 1;
DA.GetData(0, ref goo);
DA.GetData(1, ref eLen);
DMesh3 msh = new DMesh3(goo.Value);
DMesh3 outMesh = msh;
MeshBoundaryLoops loops = new MeshBoundaryLoops(outMesh, true);
var lps = loops.Loops;
bool hasLoops = (lps.Count > 0);
int iter = 0;
while (hasLoops)
{
EdgeLoop loop = lps[0];
switch (type)
{
case HoleFillerType.Planar:
outMesh = HoleFillMethods.PlanarFill(outMesh, loop, eLen);
break;
case HoleFillerType.Smooth:
outMesh = HoleFillMethods.SmoothFill(outMesh, loop, eLen);
break;
case HoleFillerType.Minimal:
outMesh = HoleFillMethods.MinimalFill(outMesh, loop, eLen);
break;
default:
outMesh = HoleFillMethods.PlanarFill(outMesh, loop, eLen);
break;
}
loops = new MeshBoundaryLoops(outMesh, true);
lps = loops.Loops;
hasLoops = (lps.Count > 0);
iter++;
if (iter > 500)
{
break;
}
}
this.Message += "\n" + iter.ToString() + " holes filled.";
DA.SetData(0, outMesh);
}
public SimpleHoleFiller(NGonsCore.geometry3Sharp.mesh.DMesh3 mesh, EdgeLoop loop)
{
Mesh = mesh;
Loop = loop;
NewVertex = NGonsCore.geometry3Sharp.mesh.DMesh3.InvalidID;
NewTriangles = null;
}
public MeshExtrusion(NGonsCore.geometry3Sharp.mesh.DMesh3 mesh, EdgeLoop loop)
{
Mesh = mesh;
Loop = loop;
PositionF = (pos, normal, idx) => {
return(pos + Vector3D.AxisY);
};
}
public static DMesh3 SmoothFill(DMesh3 mesh, EdgeLoop loop, double eLen)
{
gs.SmoothedHoleFill smoothFill = new gs.SmoothedHoleFill(mesh, loop);
smoothFill.TargetEdgeLength = eLen;
bool success = smoothFill.Apply();
return(smoothFill.Mesh);
}
public MeshLoopSmooth(NGonsCore.geometry3Sharp.mesh.DMesh3 mesh, EdgeLoop loop)
{
Mesh = mesh;
Loop = loop;
SmoothedPostions = new Vector3D[Loop.Vertices.Length];
ProjectF = null;
}
Polygon2d make_poly(DMesh3 mesh, EdgeLoop loop)
{
Polygon2d poly = new Polygon2d();
for (int k = 0; k < loop.VertexCount; ++k)
{
Vector3d v = mesh.GetVertex(loop.Vertices[k]);
poly.AppendVertex(v.xy);
}
return(poly);
}
public void Merge(bool first, EdgeLoop loop)
{
if (first)
{
edges.InsertRange(0, loop.edges);
}
else
{
edges.AddRange(loop.edges);
}
length += loop.length;
}
void GenerateMesh()
{
int bridgeCount = 0;
int baseID = 0;
backLoop = ModelUtils.CreateEdgeLoop(ref baseID, closeLoop,
EdgeLoopVertCount);
frontLoop = ModelUtils.CreateEdgeLoop(ref baseID, closeLoop,
EdgeLoopVertCount);
faceBevelLoops = new EdgeLoop[bevelSliceCount];
for (int i = 0; i < bevelSliceCount; i++)
{
faceBevelLoops[i] = ModelUtils.CreateEdgeLoop(ref baseID, closeLoop,
EdgeLoopVertCount);
bridgeCount++;
}
vertices = new Vector3[backLoop.VertCount + frontLoop.VertCount + (EdgeLoopVertCount * bevelSliceCount)];
SetVertices();
int triangleBaseID = 0;
backFrontBridge = ModelUtils.CreateExtrustion(ref triangleBaseID,
frontLoop, backLoop);
bridgeCount++;
triangles = new int[backFrontBridge.GetTriangleIndexCount() * bridgeCount];
backFrontBridge.TriangulateBridge(ref triangles, false);
// do face bevel bridges
faceBevelBridges = new EdgeBridge[bridgeCount];
EdgeLoop firstLoop = frontLoop;
for (int i = 0; i < bevelSliceCount; i++)
{
EdgeLoop secondLoop = faceBevelLoops[i];
faceBevelBridges[i] = ModelUtils.CreateExtrustion(ref triangleBaseID, firstLoop, secondLoop);
faceBevelBridges[i].TriangulateBridge(ref triangles, false);
firstLoop = secondLoop;
}
// check to see if we're using our last bevel loop/bridge properly
// do a loop fill on the last loop to fill our face in.
}
EdgeLoop select_loop_tris_hint(MeshBoundaryLoops loops)
{
var hint_edges = new HashSet <int>();
foreach (int tid in BorderHintTris)
{
if (Mesh.IsTriangle(tid) == false)
{
continue;
}
Index3i et = Mesh.GetTriEdges(tid);
for (int j = 0; j < 3; ++j)
{
if (Mesh.IsBoundaryEdge(et[j]))
{
hint_edges.Add(et[j]);
}
}
}
int N = loops.Count;
int best_loop = -1;
int max_votes = 0;
for (int li = 0; li < N; ++li)
{
int votes = 0;
EdgeLoop l = loops[li];
foreach (int eid in l.Edges)
{
if (hint_edges.Contains(eid))
{
votes++;
}
}
if (votes > max_votes)
{
best_loop = li;
max_votes = votes;
}
}
if (best_loop == -1)
{
return(null);
}
return(loops[best_loop]);
}
public MeshStitchLoops(DMesh3 mesh, EdgeLoop l0, EdgeLoop l1)
{
Mesh = mesh;
Loop0 = new EdgeLoop(l0);
Loop1 = new EdgeLoop(l1);
span s = new span()
{
span0 = new Interval1i(0, 0),
span1 = new Interval1i(0, 0)
};
spans.Add(s);
}
public static DMesh3 PlanarFill(DMesh3 mesh, EdgeLoop loop, double eLen)
{
PlanarHoleFiller holeFiller = new PlanarHoleFiller(mesh);
holeFiller.AddFillLoop(loop);
Plane.FitPlaneToPoints(loop.Vertices.Select(ind => mesh.GetVertex(ind).ToRhinoPt()), out Plane pl);
holeFiller.SetPlane(pl.Origin.ToVec3d(), pl.ZAxis.ToVec3d());
holeFiller.FillTargetEdgeLen = eLen;
holeFiller.Fill();
return(holeFiller.Mesh);
}
DMesh3 compute_partial_hole(Vector3d start, Vector3d end, double tol)
{
DMesh3 origMesh = MeshSource.GetDMeshUnsafe();
DMeshAABBTree3 origSpatial = MeshSource.GetSpatial() as DMeshAABBTree3;
DMesh3 cutMesh = new DMesh3(origMesh);
Polygon2d polygon = Polygon2d.MakeCircle(hole_size / 2, hole_subdivisions);
Vector3f axis = (Vector3f)(start - end).Normalized;
int start_tid = origSpatial.FindNearestTriangle(start);
Frame3f start_frame = origMesh.GetTriFrame(start_tid);
start_frame.Origin = (Vector3f)start;
start_frame.AlignAxis(2, axis);
int end_tid = origSpatial.FindNearestTriangle(end);
//Frame3f end_frame = origMesh.GetTriFrame(end_tid); end_frame.Origin = (Vector3f)end;
Frame3f end_frame = start_frame; end_frame.Origin = (Vector3f)end;
// [TODO] we don't need to Simplify here...is more robust?
MeshInsertProjectedPolygon start_insert = new MeshInsertProjectedPolygon(cutMesh, polygon, start_frame, start_tid);
bool start_ok = start_insert.Insert();
if (start_ok == false)
{
throw new Exception("CutPolygonHoleOp.compute_partial_hole: start or end insertion failed!");
}
EdgeLoop outLoop = start_insert.InsertedLoop;
MeshExtrudeLoop extrude = new MeshExtrudeLoop(cutMesh, outLoop);
extrude.PositionF = (v, n, vid) => {
cutMesh.GetVertex(vid);
return(end_frame.ProjectToPlane((Vector3f)v, 2));
};
extrude.Extrude();
SimpleHoleFiller filler = new SimpleHoleFiller(cutMesh, extrude.NewLoop);
filler.Fill();
return(cutMesh);
}
public AddTrianglesMeshChange fill_trivial(DMesh3 mesh, EdgeLoop loop)
{
AddTrianglesMeshChange addChange = null;
SimpleHoleFiller filler = new SimpleHoleFiller(mesh, loop);
bool fill_ok = filler.Fill();
if (fill_ok)
{
addChange = new AddTrianglesMeshChange();
addChange.InitializeFromExisting(mesh,
new List <int>()
{
filler.NewVertex
},
filler.NewTriangles);
}
return(addChange);
}
public bool Compute()
{
DMesh3 copy = new DMesh3(Mesh);
//Frame3f PlaneO = SceneTransforms.SceneToObject(TargetSO, PlaneS);
Vector3f PlaneNormal = Plane.GetAxis(nPlaneAxis);
MeshPlaneCut cut = new MeshPlaneCut(copy, Plane.Origin, PlaneNormal);
cut.Cut();
Loops = new DCurve3[cut.CutLoops.Count];
for (int li = 0; li < cut.CutLoops.Count; ++li)
{
EdgeLoop edgeloop = cut.CutLoops[li];
DCurve3 loop = MeshUtil.ExtractLoopV(copy, edgeloop.Vertices);
// [TODO] collapse degenerate points...
if (NormalOffset > 0)
{
for (int i = 0; i < loop.VertexCount; ++i)
{
Vector3f n = Vector3f.Zero;
if (copy.HasVertexNormals)
{
n = (Vector3f)copy.GetVertexNormal(edgeloop.Vertices[i]);
}
else
{
n = (Vector3f)MeshNormals.QuickCompute(Mesh, edgeloop.Vertices[i]);
}
n -= n.Dot(PlaneNormal) * PlaneNormal;
n.Normalize();
loop[i] += NormalOffset * (Vector3d)n;
}
}
Loops[li] = loop;
}
return(Loops.Length > 0);
}
public AddTrianglesMeshChange fill_minimal(DMesh3 mesh, EdgeLoop loop)
{
AddTrianglesMeshChange addChange = null;
MinimalHoleFill filler = new MinimalHoleFill(mesh, loop);
filler.IgnoreBoundaryTriangles = false;
filler.OptimizeDevelopability = true;
filler.OptimizeTriangles = this.OptimizeTriangles;
filler.DevelopabilityTolerance = this.OptimizeTrisDeviationThresh;
bool fill_ok = filler.Apply();
if (fill_ok)
{
addChange = new AddTrianglesMeshChange();
addChange.InitializeFromExisting(mesh,
filler.FillVertices, filler.FillTriangles);
}
return(addChange);
}
DMesh3 compute_through_hole(Vector3d start, Vector3d end, double tol)
{
DMesh3 origMesh = MeshSource.GetDMeshUnsafe();
DMeshAABBTree3 origSpatial = MeshSource.GetSpatial() as DMeshAABBTree3;
DMesh3 cutMesh = new DMesh3(origMesh);
Polygon2d polygon = Polygon2d.MakeCircle(hole_size / 2, hole_subdivisions);
Vector3f axis = (Vector3f)(start - end).Normalized;
int start_tid = origSpatial.FindNearestTriangle(start);
Frame3f start_frame = origMesh.GetTriFrame(start_tid);
start_frame.Origin = (Vector3f)start;
start_frame.AlignAxis(2, axis);
int end_tid = origSpatial.FindNearestTriangle(end);
//Frame3f end_frame = origMesh.GetTriFrame(end_tid); end_frame.Origin = (Vector3f)end;
Frame3f end_frame = start_frame; end_frame.Origin = (Vector3f)end;
MeshInsertProjectedPolygon start_insert = new MeshInsertProjectedPolygon(cutMesh, polygon, start_frame, start_tid);
bool start_ok = start_insert.Insert();
MeshInsertProjectedPolygon end_insert = new MeshInsertProjectedPolygon(cutMesh, polygon, end_frame, end_tid);
bool end_ok = end_insert.Insert();
if (start_ok == false || end_ok == false)
{
throw new Exception("CutPolygonHoleOp.compute_through_hole: start or end insertion failed!");
}
MeshEditor editor = new MeshEditor(cutMesh);
EdgeLoop l0 = start_insert.InsertedLoop;
EdgeLoop l1 = end_insert.InsertedLoop;
l1.Reverse();
editor.StitchLoop(l0.Vertices, l1.Vertices);
return(cutMesh);
}
public static CompoundSolid Tenon(CompoundSolid sol, HalfEdge he, xy pos, xyz size, string id)
{
Face f = he.face;
EdgeLoop el = he.face.GetEdgeLoopFor(he);
int ndx = el.IndexOf(he);
ndx--;
if (ndx < 0)
{
ndx += el.Count;
}
HalfEdge prevHe = el[ndx];
if (!fp.eq_inches(pos.y, 0))
{
Solid cut = CreateCutter_Box(id, he, new xy(0, 0), new xyz(he.Length(), pos.y, size.z),
new string[] { "NA_1", "NA_2", "NA_3", "frontshoulder", "NA_4", "front" });
sol = bool3d.Subtract(sol, cut);
}
if (!fp.eq_inches(pos.x, 0))
{
Solid cut = CreateCutter_Box(id, he, new xy(0, pos.y), new xyz(pos.x, size.y, size.z),
new string[] { "NA_1", "left", "NA_2", "leftshoulder", "NA_3", "NA_4" });
sol = bool3d.Subtract(sol, cut);
}
if ((pos.y + size.y) < prevHe.Length())
{
Solid cut = CreateCutter_Box(id, he, new xy(0, pos.y + size.y), new xyz(he.Length(), prevHe.Length() - (pos.y + size.y), size.z),
new string[] { "NA_1", "NA_2", "NA_3", "backshoulder", "back", "NA_4" });
sol = bool3d.Subtract(sol, cut);
}
if ((pos.x + size.x) < he.Length())
{
Solid cut = CreateCutter_Box(id, he, new xy((pos.x + size.x), pos.y), new xyz(he.Length() - (pos.x + size.x), size.y, size.z),
new string[] { "NA_1", "NA_2", "right", "rightshoulder", "NA_3", "NA_4" });
sol = bool3d.Subtract(sol, cut);
}
return(sol);
}
protected override void SolveInstance(IGH_DataAccess DA)
{
this.Message = Type.ToString();
DMesh3_goo goo = null;
EdgeLoop_goo loop_goo = null;
double eLen = 1;
DA.GetData(0, ref goo);
DA.GetData(1, ref loop_goo);
DA.GetData(2, ref eLen);
DMesh3 msh = new DMesh3(goo.Value);
EdgeLoop loop = new EdgeLoop(loop_goo.Value);
DMesh3 outMesh;
switch (Type)
{
case HoleFillerType.Planar:
outMesh = HoleFillMethods.PlanarFill(msh, loop, eLen);
break;
case HoleFillerType.Smooth:
outMesh = HoleFillMethods.SmoothFill(msh, loop, eLen);
break;
case HoleFillerType.Minimal:
outMesh = HoleFillMethods.MinimalFill(msh, loop, eLen);
break;
default:
outMesh = HoleFillMethods.PlanarFill(msh, loop, eLen);
break;
}
DA.SetData(0, outMesh);
}
virtual public void PreRender()
{
boundaryGeom.PreRender();
// could avoid full iteration here if we were smarter...
if (visibility_valid == false)
{
numHolesFilled = 0;
for (int i = 0; i < Loops.Count; ++i)
{
EdgeLoop l = Loops[i];
bool bIsBoundary = previewSO.Mesh.IsBoundaryEdge(l.Edges[0]);
boundaryGeom.SetVisibility(i, bIsBoundary);
if (bIsBoundary == false)
{
numHolesFilled++;
}
}
visibility_valid = true;
boundaryGeom.SetLayer(show_hidden ? FPlatform.WidgetOverlayLayer : FPlatform.GeometryLayer);
}
}
public Building(EdgeLoop <CityEdge> footprint, float floorHeight, int floors, City city)
{
this.footprint = footprint;
Vector2[] footprintPoints = footprint.GetPoints();
basePoints = new Vector3[footprintPoints.Length];
float highestBasePoint = float.MinValue;
for (int i = 0; i < basePoints.Length; i++)
{
Vector2 fpPt = footprintPoints[i];
basePoints[i] = new Vector3(fpPt.x, city.SampleElevation(fpPt.x, fpPt.y), fpPt.y);
if (basePoints[i].y > highestBasePoint)
{
highestBasePoint = basePoints[i].y;
}
}
this.foundationFirstFloorGap = 0.2f;
this.elevation = highestBasePoint;
this.floorHeight = floorHeight;
this.floors = floors;
this.city = city;
}
protected virtual bool BackPropagate(RegionOperator regionOp, int[] insertedPolyVerts, EdgeLoop insertedLoop)
{
bool bOK = regionOp.BackPropropagate();
if (bOK)
{
ModifiedRegion = regionOp;
IndexUtil.Apply(insertedPolyVerts, regionOp.ReinsertSubToBaseMapV);
InsertedPolygonVerts = insertedPolyVerts;
if (insertedLoop != null)
{
InsertedLoop = MeshIndexUtil.MapLoopViaVertexMap(regionOp.ReinsertSubToBaseMapV,
regionOp.Region.SubMesh, regionOp.Region.BaseMesh, insertedLoop);
if (RemovePolygonInterior)
{
InsertedLoop.CorrectOrientation();
}
}
}
return(bOK);
}
public bool FillHole(int hitHoleID, bool bInteractive)
{
if (is_computing)
{
return(false);
}
EdgeLoop loop = Loops[hitHoleID];
AddTrianglesMeshChange addChange = null;
previewSO.EditAndUpdateMesh((mesh) => {
switch (FillType)
{
case FillTypes.Trivial: addChange = fill_trivial(mesh, loop); break;
case FillTypes.Minimal: addChange = fill_minimal(mesh, loop); break;
case FillTypes.Smooth: addChange = fill_smooth(mesh, loop); break;
}
}, GeometryEditTypes.ArbitraryEdit);
if (addChange != null)
{
add_change(addChange, bInteractive);
// we know what changed visibility-wise, so we can avoid full visibility update
boundaryGeom.SetVisibility(hitHoleID, false);
numHolesFilled++;
visibility_valid = true;
return(true);
}
else
{
return(false);
}
}
public AppendInfo AppendConnectorTo(DMesh3 mesh, Vector3d translate)
{
validate_geometry();
AppendInfo info = new AppendInfo();
MeshEditor editor = new MeshEditor(mesh);
int[] mapV;
if (HasInner)
{
info.InnerGID = mesh.AllocateTriangleGroup();
editor.AppendMesh(InnerMesh, out mapV, info.InnerGID);
info.InnerLoop = EdgeLoop.FromVertices(mesh, new MappedList(InnerLoop.Vertices, mapV));
MeshTransforms.PerVertexTransform(mesh, InnerMesh.VertexIndices(),
(vid) => { return(mapV[vid]); },
(v, old_vid, new_vid) => { return(v + translate); });
}
else
{
info.InnerGID = -1;
info.InnerLoop = null;
}
info.OuterGID = mesh.AllocateTriangleGroup();
editor.AppendMesh(OuterMesh, out mapV, info.OuterGID);
info.OuterLoop = EdgeLoop.FromVertices(mesh, new MappedList(OuterLoop.Vertices, mapV));
MeshTransforms.PerVertexTransform(mesh, OuterMesh.VertexIndices(),
(vid) => { return(mapV[vid]); },
(v, old_vid, new_vid) => { return(v + translate); });
return(info);
}
protected void set_output_meshes(DMesh3 inner, DMesh3 outer)
{
InnerMesh = inner;
OuterMesh = outer;
AxisAlignedBox3d bounds = OuterMesh.CachedBounds;
if (InnerMesh != null)
{
bounds.Contain(InnerMesh.CachedBounds);
}
// position center-top at origin
Vector3d top = bounds.Center + bounds.Extents[1] * Vector3d.AxisY;
if (InnerMesh != null)
{
MeshTransforms.Translate(InnerMesh, -top);
}
MeshTransforms.Translate(OuterMesh, -top);
CombinedBounds = OuterMesh.CachedBounds;
if (InnerMesh != null)
{
CombinedBounds.Contain(InnerMesh.CachedBounds);
}
if (InnerMesh != null)
{
var innerLoops = new MeshBoundaryLoops(InnerMesh);
InnerLoop = innerLoops[0];
}
var outerLoops = new MeshBoundaryLoops(OuterMesh);
OuterLoop = outerLoops[0];
}
public MinimalHoleFill(DMesh3 mesh, EdgeLoop fillLoop)
{
this.Mesh = mesh;
this.FillLoop = fillLoop;
}
