private void insertVertexToSameSenseEdge(Face Fa, int Bounds, int Edge, Vertex3d V) { EdgeLoop EL = Fa.Bounds[Bounds]; Edge E = EL[Edge]; Face Neigbhbor = null; int outloop = -1; double d = Face.GetDualEdge(Fa, Bounds, Edge + 0.5, ref outloop, ref Neigbhbor); EdgeLoop DualEL = Neigbhbor.Bounds[outloop]; int DualEdge = (int)d; Edge F = DualEL[DualEdge]; // Zuerst die neue Kante Edge NewEdge = new Edge(); EdgeList.Add(NewEdge); NewEdge.SameSense = true; NewEdge.EdgeStart = E.EdgeStart; NewEdge.EdgeEnd = V; Line3D L = new Line3D(NewEdge.EdgeStart.Value, V.Value); EdgeCurveList.Add(L); L.Neighbors = new Face[2]; L.Neighbors[0] = E.EdgeCurve.Neighbors[0]; L.Neighbors[1] = E.EdgeCurve.Neighbors[1]; NewEdge.EdgeCurve = L; VertexList.Add(V); E.EdgeStart = V; E.EdgeCurve.A = V.Value; EL.Insert(Edge, NewEdge); // Duale NewEdge = new Edge(); NewEdge.SameSense = false; EdgeList.Add(NewEdge); if (DualEdge + 1 < DualEL.Count) { DualEL.Insert(DualEdge + 1, NewEdge); } else { DualEL.Insert(0, NewEdge); } NewEdge.EdgeStart = V; NewEdge.EdgeEnd = F.EdgeEnd; F.EdgeEnd = V; NewEdge.EdgeCurve = L; }
/// <summary> /// activates a <b>CatMull</b> division. /// </summary> public void CatMull() { for (int i = 0; i < VertexList.Count; i++) { Vertex3d V = VertexList[i]; V.Tag = new SubDivisionDescriptor(); } for (int i = 0; i < FaceList.Count; i++) { Face F = FaceList[i]; F.DrawRelativToSurfaceBase = false; int n = 0; for (int j = 0; j < F.Bounds.Count; j++) { xyz subDivCenter = new xyz(0, 0, 0); EdgeLoop EL = F.Bounds[j]; for (int k = 0; k < EL.Count; k++) { n++; Edge E = EL[k]; subDivCenter = subDivCenter + E.EdgeStart.Value; } F.Tag = subDivCenter * (1f / (float)EL.Count); } } for (int i = 0; i < FaceList.Count; i++) { Face F = FaceList[i]; int n = 0; for (int j = 0; j < F.Bounds.Count; j++) { EdgeLoop EL = F.Bounds[j]; for (int k = 0; k < EL.Count; k++) { n++; Edge E = EL[k]; Face Neighbor = null; if (E.SameSense) { Neighbor = E.EdgeCurve.Neighbors[1] as Face; } else { Neighbor = E.EdgeCurve.Neighbors[0] as Face; } E.Tag = ((xyz)(E.EdgeCurve.Neighbors[1] as Face).Tag + (xyz)(E.EdgeCurve.Neighbors[0] as Face).Tag + E.EdgeStart.Value + E.EdgeEnd.Value) * (1f / 4f); // Mittelwert der Facepunkte und der Anfangs und Endpunkte im Tag speichern // E.Tag = ((xyz)F.Tag + (xyz)Neighbor.Tag + E.EdgeStart.Value + E.EdgeEnd.Value) * 0.25; // // den Descriptor im Vertex E.EdgeEnd.Tag updaten SubDivisionDescriptor SDD = E.EdgeEnd.Tag as SubDivisionDescriptor; SDD.Edges.Add(E); SDD.Faces.Add(F); } } } // Update Vertixlist xyz Q = new xyz(0, 0, 0); xyz R = new xyz(0, 0, 0); for (int i = 0; i < VertexList.Count; i++) { Vertex3d V = VertexList[i]; SubDivisionDescriptor SDV = V.Tag as SubDivisionDescriptor; int n = SDV.Faces.Count; if (n == 0) { return; } Q = new xyz(0, 0, 0); R = new xyz(0, 0, 0); for (int j = 0; j < SDV.Faces.Count; j++) { Q = (xyz)SDV.Faces[j].Tag + Q; } Q = Q * (1f / (float)SDV.Faces.Count); for (int j = 0; j < SDV.Edges.Count; j++) { R = (xyz)SDV.Edges[j].Tag + R; } R = R * (1f / (float)SDV.Edges.Count); xyz S = V.Value; V.Value = (Q + R * 2 + S * (n - 3)) * (1f / (float)n); } // Kanten Ersetzen for (int i = 0; i < FaceList.Count; i++) { Face F = FaceList[i]; for (int j = 0; j < F.Bounds.Count; j++) { EdgeLoop EL = F.Bounds[j]; for (int k = 0; k < EL.Count; k++) { Edge E = EL[k]; if (E.SameSense) { E.EdgeCurve.A = E.EdgeStart.Value; E.EdgeCurve.B = E.EdgeEnd.Value; } } } } // Kanten Ersetzen for (int i = 0; i < FaceList.Count; i++) { Face F = FaceList[i]; for (int j = 0; j < F.Bounds.Count; j++) { EdgeLoop EL = F.Bounds[j]; for (int k = 0; k < EL.Count; k++) { Edge E = EL[k]; if (E.SameSense) { Vertex3d V = new Vertex3d((xyz)E.Tag); insertVertexToSameSenseEdge(F, j, k, V); k++; } } } } FaceList Temp = new FaceList(); for (int i = 0; i < FaceList.Count; i++) { Face F = FaceList[i]; for (int x = 0; x < F.Bounds.Count; x++) { EdgeLoop EL = F.Bounds[x]; Edge E2 = null; Vertex3d V1 = new Vertex3d(); V1.Value = (xyz)F.Tag; VertexList.Add(V1); Vertex3d V4 = null; Vertex3d V2 = null; int startIndex = 1; if (EL[0].EdgeStart.Tag == null) // StartPunkt ist eingefügt { startIndex = 0; } int id = startIndex; int counter = 0; Edge First = null; Edge Last = null; while (id >= 0) { counter++; EdgeLoop newEl = new EdgeLoop(); V2 = EL[id].EdgeStart; if (id + 1 < EL.Count) { V4 = EL[id + 1].EdgeEnd; } else { V4 = EL[0].EdgeEnd; } Face newF = new Face(); newF.Parent = F.Parent; Temp.Add(newF); EdgeLoop ELF = new EdgeLoop(); List <xyz> Pt = new List <xyz>(); newF.Surface = new PlaneSurface(V1.Value, V2.Value, V4.Value); // newF.Surface = new PlaneSurface(V1.Value, V2.Value, V4.Value); Edge EA = new Edge(); ELF.Add(EA); EdgeList.Add(EA); EA.EdgeStart = V1; EA.EdgeEnd = V2; if (Last == null) { EA.EdgeCurve = new Line3D(V1.Value, V2.Value); Pt.Add(V1.Value); EdgeCurveList.Add(EA.EdgeCurve); EA.EdgeCurve.Neighbors = new Face[2]; EA.SameSense = true; EA.EdgeCurve.Neighbors[0] = newF; if (id == startIndex) { First = EA; } } else { EA.EdgeStart = Last.EdgeEnd; Pt.Add(EA.EdgeStart.Value); EA.EdgeEnd = Last.EdgeStart; EA.EdgeCurve = Last.EdgeCurve; EA.EdgeCurve.Neighbors[1] = newF; EA.SameSense = false; } newF.Bounds.Add(ELF); E2 = EL[id]; if (E2.SameSense) { E2.EdgeCurve.Neighbors[0] = newF; } else { E2.EdgeCurve.Neighbors[1] = newF; } Pt.Add(E2.EdgeStart.Value); ELF.Add(E2); Edge E3 = null; if (id + 1 < EL.Count) { E3 = EL[id + 1]; } else { E3 = EL[0]; } Pt.Add(E3.EdgeStart.Value); if (E3.SameSense) { E3.EdgeCurve.Neighbors[0] = newF; } else { E3.EdgeCurve.Neighbors[1] = newF; } ELF.Add(E3); Edge EE = new Edge(); EdgeList.Add(EE); EE.EdgeStart = V4; EE.EdgeEnd = V1; ELF.Add(EE); Pt.Add(V4.Value); if (counter < 4) { EE.EdgeCurve = new Line3D(EE.EdgeStart.Value, EE.EdgeEnd.Value); EdgeCurveList.Add(EE.EdgeCurve); EE.EdgeCurve.Neighbors = new Face[2]; EE.EdgeCurve.Neighbors[0] = newF; EE.SameSense = true; } else { EE.EdgeCurve = First.EdgeCurve; EE.EdgeStart = First.EdgeEnd; EE.EdgeEnd = First.EdgeStart; EE.EdgeCurve.Neighbors[1] = newF; EE.SameSense = false; } Last = EE; id++; id++; // newF.Surface = new SmoothPlane(Pt[0],Pt[1],Pt[2],Pt[3], new xyz(1, 0, 0), new xyz(1, 0, 0), new xyz(1, 0, 0), new xyz(1, 0, 0)); // newF.Surface = new SmoothPlane(Pt[0], Pt[1], Pt[2], Pt[3], (Pt[0] - Pt[1]) & (Pt[0] - Pt[3]), (Pt[1] - Pt[0]) & (Pt[1] - Pt[2]), (Pt[2] - Pt[1]) & (Pt[3] - Pt[1]), (Pt[0] - Pt[3]) & (Pt[2] - Pt[3])); if (id + 1 > EL.Count) { break; } // newF.Surface = new PlaneSurface(V1.Value, V2.Value, V4.Value); } } } FaceList = Temp; for (int i = 0; i < FaceList.Count; i++) { Face F = FaceList[i]; F.Surface.BoundedCurves = new Loca(); List <xyz> P = new List <xyz>(); xyz P1 = new xyz(0, 0, 0); xyz P2 = new xyz(0, 0, 0); xyz P3 = new xyz(0, 0, 0); xyz P4 = new xyz(0, 0, 0); for (int k = 0; k < F.Bounds.Count; k++) { CurveArray CA = new CurveArray(); F.Surface.BoundedCurves.Add(CA); for (int l = 0; l < F.Bounds[k].Count; l++) { Edge E = F.Bounds[k][l]; CA.Add(new Line(F.Surface.ProjectPoint(E.EdgeStart.Value), F.Surface.ProjectPoint(E.EdgeEnd.Value))); if (l < 4) { P.Add(E.EdgeStart.Value); } } if (i == 3) { List <Edge> L1 = new List <Edge>(); for (int j = 0; j < 3; j++) { for (int m = 0; m < FaceList[j].Bounds.Count; m++) { xyz A = new xyz(0, 0, 0); for (int h = 0; h < FaceList[j].Bounds[m].Count; h++) { Edge E = FaceList[j].Bounds[m][h]; L1.Add(E); } } } for (int h = 0; h < L1.Count; h++) { for (int m = 0; m < L1.Count; m++) { if ((L1[h].EdgeStart.Value.dist(L1[m].EdgeStart.Value) < 0.001) && (h != m)) { } } } } } xyz n = ((P[2] - P[0]) & (P[1] - P[0])); xyz m1 = ((P[3] - P[0]) & (P[2] - P[0])); Loca L = F.Surface.BoundedCurves; if (i / 2 * 2 == i) { F.Surface = new SmoothPlane(P[0], P[1], P[2], P[3], n); } else { F.Surface = new SmoothPlane(P[0], P[1], P[2], P[3], m1); } F.Surface.BoundedCurves = L; // (P[1] - P[0]) & (P[1] - P[2]), (P[2] - P[1]) & (P[2] - P[3]), (P[3] - P[0]) & (P[3] - P[2])); F.DrawRelativToSurfaceBase = false; } }
/// <summary> /// overrides the <see cref="Solid.Refresh"/> method and creates the extruder from the base <see cref="Loxy"/> and the <see cref="Height"/>. /// </summary> public override void Refresh() { if (Polygon.Count == 0) { return; } this.VertexList.Clear(); this.EdgeCurveList.Clear(); this.FaceList.Clear(); List <List <Vertex3d> > DownVertices = new List <List <Vertex3d> >(); List <List <Vertex3d> > UpVertices = new List <List <Vertex3d> >(); List <List <Curve3D> > VertCurves = new List <List <Curve3D> >(); List <List <Curve3D> > DownCurves = new List <List <Curve3D> >(); List <List <Curve3D> > UpCurves = new List <List <Curve3D> >(); List <List <PlaneSurface> > PlaneSurfaces = new List <List <PlaneSurface> >(); for (int i = 0; i < _Polygon.Count; i++) { DownVertices.Add(new List <Vertex3d>()); UpVertices.Add(new List <Vertex3d>()); VertCurves.Add(new List <Curve3D>()); DownCurves.Add(new List <Curve3D>()); UpCurves.Add(new List <Curve3D>()); PlaneSurfaces.Add(new List <PlaneSurface>()); for (int j = 0; j < _Polygon[i].Count; j++) { if (_Polygon[i][0].dist(_Polygon[i][_Polygon[i].Count - 1]) < 0.00001) { _Polygon[i].RemoveAt(_Polygon[i].Count - 1); } } for (int j = 0; j < _Polygon[i].Count; j++) { Vertex3d V = new Vertex3d(new xyz(_Polygon[i][j].x, _Polygon[i][j].y, 0)); VertexList.Add(V); DownVertices[i].Add(V); Curve3D C = null; if (j < _Polygon[i].Count - 1) { C = new Line3D(new xyz(_Polygon[i][j].x, _Polygon[i][j].y, 0), new xyz(_Polygon[i][j + 1].x, _Polygon[i][j + 1].y, 0)); } else { C = new Line3D(new xyz(_Polygon[i][j].x, _Polygon[i][j].y, 0), new xyz(_Polygon[i][0].x, _Polygon[i][0].y, 0)); } DownCurves[i].Add(C); if (!EdgeCurveList.Contains(C)) { this.EdgeCurveList.Add(C); } if (j < _Polygon[i].Count - 1) { C = new Line3D(new xyz(_Polygon[i][j].x, _Polygon[i][j].y, Height), new xyz(_Polygon[i][j + 1].x, _Polygon[i][j + 1].y, Height)); } else { C = new Line3D(new xyz(_Polygon[i][j].x, _Polygon[i][j].y, Height), new xyz(_Polygon[i][0].x, _Polygon[i][0].y, Height)); } UpCurves[i].Add(C); if (!EdgeCurveList.Contains(C)) { EdgeCurveList.Add(C); } V = new Vertex3d(new xyz(_Polygon[i][j].x, _Polygon[i][j].y, Height)); UpVertices[i].Add(V); VertexList.Add(V); C = new Line3D(new xyz(_Polygon[i][j].x, _Polygon[i][j].y, 0), new xyz(_Polygon[i][j].x, _Polygon[i][j].y, Height)); VertCurves[i].Add(C); if (!EdgeCurveList.Contains(C)) { EdgeCurveList.Add(C); } if (j < _Polygon[i].Count - 1) { PlaneSurfaces[i].Add(new PlaneSurface(new xyz(_Polygon[i][j].x, _Polygon[i][j].y, 0), new xyz(_Polygon[i][j + 1].x, _Polygon[i][j + 1].y, 0), new xyz(_Polygon[i][j + 1].x, _Polygon[i][j + 1].y, Height) )); } else { PlaneSurfaces[i].Add(new PlaneSurface(new xyz(_Polygon[i][j].x, _Polygon[i][j].y, 0), new xyz(_Polygon[i][0].x, _Polygon[i][0].y, 0), new xyz(_Polygon[i][0].x, _Polygon[i][0].y, Height) )); } } } for (int i = 0; i < _Polygon.Count; i++) { for (int j = 0; j < _Polygon[i].Count; j++) { Face Face = new Face(); FaceList.Add(Face); Face.Surface = PlaneSurfaces[i][j]; Face.Bounds = new Bounds(); EdgeLoop Loop = new EdgeLoop(); Face.Bounds.Add(Loop); // Von unten nach oben Edge E = new Edge(); EdgeList.Add(E); E.EdgeStart = DownVertices[i][j]; E.EdgeEnd = UpVertices[i][j]; E.EdgeCurve = VertCurves[i][j]; E.SameSense = true; if (j > 0) { VertCurves[i][j].Neighbors[1] = Face; } else { VertCurves[i][0].Neighbors = new Face[2]; VertCurves[i][j].Neighbors[1] = Face; } Loop.Add(E); // Oben E = new Edge(); EdgeList.Add(E); E.SameSense = true; E.EdgeStart = UpVertices[i][j]; if (j < _Polygon[i].Count - 1) { E.EdgeEnd = UpVertices[i][j + 1]; } else { E.EdgeEnd = UpVertices[i][0]; } E.EdgeCurve = UpCurves[i][j]; E.EdgeCurve.Neighbors = new Face[2]; E.EdgeCurve.Neighbors[0] = Face; Loop.Add(E); // Rechts nach unten E = new Edge(); EdgeList.Add(E); int n = j + 1; if (n == _Polygon[i].Count) { n = 0; } E.EdgeStart = UpVertices[i][n]; E.EdgeEnd = DownVertices[i][n]; E.EdgeCurve = VertCurves[i][n]; if (j < _Polygon[i].Count - 1) { E.EdgeCurve.Neighbors = new Face[2]; } E.EdgeCurve.Neighbors[0] = Face; E.SameSense = false; Loop.Add(E); // unten nach links E = new Edge(); EdgeList.Add(E); if (j < _Polygon[i].Count - 1) { E.EdgeStart = DownVertices[i][j + 1]; } else { E.EdgeStart = DownVertices[i][0]; } E.EdgeEnd = DownVertices[i][j]; E.EdgeCurve = DownCurves[i][j]; E.EdgeCurve.Neighbors = new Face[2]; E.EdgeCurve.Neighbors[0] = Face; E.SameSense = false; Loop.Add(E); } } // Boden Face _Face = new Face(); FaceList.Add(_Face); // Face.Surface = PlaneSurfaces[i][j]; _Face.Bounds = new Bounds(); _Face.Surface = new PlaneSurface(DownVertices[0][0].Value, DownVertices[0][2].Value, DownVertices[0][1].Value); for (int i = 0; i < _Polygon.Count; i++) { EdgeLoop Loop = new EdgeLoop(); _Face.Bounds.Add(Loop); for (int j = 0; j < _Polygon[i].Count; j++) { // Von unten nach oben Edge E = new Edge(); EdgeList.Add(E); E.EdgeStart = DownVertices[i][j]; if (j + 1 < _Polygon[i].Count) { E.EdgeEnd = DownVertices[i][j + 1]; } else { E.EdgeEnd = DownVertices[i][0]; } E.EdgeCurve = DownCurves[i][j]; E.SameSense = true; E.EdgeCurve.Neighbors[1] = _Face; Loop.Add(E); } } // Deckel _Face = new Face(); FaceList.Add(_Face); // Face.Surface = PlaneSurfaces[i][j]; _Face.Bounds = new Bounds(); _Face.Surface = new PlaneSurface(UpVertices[0][0].Value, UpVertices[0][1].Value, UpVertices[0][2].Value); for (int i = 0; i < _Polygon.Count; i++) { EdgeLoop Loop = new EdgeLoop(); _Face.Bounds.Add(Loop); for (int j = _Polygon[i].Count - 1; j >= 0; j--) { Edge E = new Edge(); EdgeList.Add(E); E.EdgeEnd = UpVertices[i][j]; if (j + 1 < _Polygon[i].Count) { E.EdgeStart = UpVertices[i][j + 1]; } else { E.EdgeStart = UpVertices[i][0]; } E.EdgeCurve = UpCurves[i][j]; E.SameSense = false; E.EdgeCurve.Neighbors[1] = _Face; Loop.Add(E); } } this.NewParamCurves(); }
/// <summary> /// overrides <see cref="Solid.Refresh"/>. /// </summary> public override void Refresh() { Clear(); Sphere SphereSurface = new Sphere(); SphereSurface.VResolution = VResolution; SphereSurface.UResolution = UResolution; SphereSurface.Radius = Radius; Vertex3d NP = new Vertex3d(new xyz(0, 0, Radius)); Vertex3d SP = new Vertex3d(new xyz(0, 0, -Radius)); Vertex3d[,] Points = new Vertex3d[SphereSurface.UResolution + 1, SphereSurface.VResolution + 1]; Line3D[,] HorzCurves = new Line3D[SphereSurface.UResolution, SphereSurface.VResolution]; Line3D[,] VertCurves = new Line3D[SphereSurface.UResolution, SphereSurface.VResolution]; xyz[,] Normals = new xyz[SphereSurface.UResolution + 1, SphereSurface.VResolution + 1]; VertexList.Add(NP); VertexList.Add(SP); for (int i = 0; i < SphereSurface.UResolution + 1; i++) { for (int j = 0; j < SphereSurface.VResolution + 1; j++) { Normals[i, j] = SphereSurface.Normal(((float)i / (float)SphereSurface.UResolution), (float)j / (float)SphereSurface.VResolution); if (j == 0) { Points[i, j] = SP; continue; } if (j == SphereSurface.VResolution) { Points[i, j] = NP; continue; } if (i == SphereSurface.UResolution) { Points[i, j] = Points[0, j]; continue; } Points[i, j] = new Vertex3d(SphereSurface.Value((float)i / (float)SphereSurface.UResolution, (float)j / (float)SphereSurface.VResolution)); VertexList.Add(Points[i, j]); } } for (int i = 0; i < SphereSurface.UResolution; i++) { for (int j = 0; j < SphereSurface.VResolution; j++) { if (i < SphereSurface.UResolution) { if (i + 1 < SphereSurface.UResolution) { HorzCurves[i, j] = new Line3D(Points[i, j].Value, Points[i + 1, j].Value); } else { HorzCurves[i, j] = new Line3D(Points[i, j].Value, Points[0, j].Value); } HorzCurves[i, j].Neighbors = new Face[2]; if (HorzCurves[i, j].A.dist(HorzCurves[i, j].B) > 0.0001) { EdgeCurveList.Add(HorzCurves[i, j]); } } if (j < SphereSurface.VResolution) { VertCurves[i, j] = new Line3D(Points[i, j].Value, Points[i, j + 1].Value); VertCurves[i, j].Neighbors = new Face[2]; EdgeCurveList.Add(VertCurves[i, j]); } } } // if (false) for (int i = 0; i < SphereSurface.UResolution; i++) { for (int j = 0; j < SphereSurface.VResolution; j++) { Vertex3d A = Points[i, j]; Vertex3d B = Points[i, j + 1]; Vertex3d C = null; if (i + 1 < SphereSurface.UResolution) { C = Points[i + 1, j + 1]; } else { C = Points[0, j + 1]; } Vertex3d D = null; if (i + 1 < SphereSurface.UResolution) { D = Points[i + 1, j]; } else { D = Points[0, j]; } Face F = new Face(); FaceList.Add(F); F.Surface = new SmoothPlane(Points[i, j].Value, Points[i + 1, j + 1].Value, Points[i, j + 1].Value, Points[i + 1, j].Value, Normals[i, j], Normals[i + 1, j + 1], Normals[i, j + 1], Normals[i + 1, j]);; EdgeLoop EL = new EdgeLoop(); F.Bounds.Add(EL); if (A != B) { Edge E = new Edge(); EdgeList.Add(E); EL.Add(E); E.EdgeStart = A; E.EdgeEnd = B; E.EdgeCurve = VertCurves[i, j]; E.EdgeCurve.Neighbors[0] = F; E.SameSense = true; E.ParamCurve = F.Surface.To2dCurve(E.EdgeCurve); } if (B != C) { Edge E = new Edge(); EL.Add(E); EdgeList.Add(E); E.EdgeStart = B; E.EdgeEnd = C; if (j + 1 < SphereSurface.VResolution) { E.EdgeCurve = HorzCurves[i, j + 1]; } else { E.EdgeCurve = HorzCurves[i, 0]; } if (E.EdgeCurve.A.dist(B.Value) > 0.001) { } E.EdgeCurve.Neighbors[0] = F; E.SameSense = true; E.ParamCurve = F.Surface.To2dCurve(E.EdgeCurve); } if (C != D) { Edge E = new Edge(); EL.Add(E); EdgeList.Add(E); E.EdgeStart = C; E.EdgeEnd = D; if (i + 1 < SphereSurface.UResolution) { E.EdgeCurve = VertCurves[i + 1, j]; } else { E.EdgeCurve = VertCurves[0, j]; } E.EdgeCurve.Neighbors[1] = F; E.SameSense = false; E.ParamCurve = F.Surface.To2dCurve(E.EdgeCurve); E.ParamCurve.Invert(); } if (A != D) { Edge E = new Edge(); EL.Add(E); EdgeList.Add(E); E.EdgeStart = D; E.EdgeEnd = A; E.EdgeCurve = HorzCurves[i, j]; E.EdgeCurve.Neighbors[1] = F; E.SameSense = false; E.ParamCurve = F.Surface.To2dCurve(E.EdgeCurve); E.ParamCurve.Invert(); } } } RefreshParamCurves(); // base.Refresh(); //if (!Check()) //{ //} }
/// <summary> /// overrides <see cref="Solid.Refresh()"/>. /// </summary> public override void Refresh() { Clear(); Cone ConeSurface = new Cone(); ConeSurface.VResolution = VResolution; ConeSurface.UResolution = UResolution; ConeSurface.Radius = Radius; ConeSurface.HalfAngle = HalfAngle; ConeSurface.Height = Height; Vertex3d[,] Points = new Vertex3d[ConeSurface.UResolution, ConeSurface.VResolution + 1]; Line3D[,] HorzCurves = new Line3D[ConeSurface.UResolution, ConeSurface.VResolution + 1]; Line3D[,] VertCurves = new Line3D[ConeSurface.UResolution, ConeSurface.VResolution]; Vertex3d[,] Normals = new Vertex3d[ConeSurface.UResolution + 1, ConeSurface.VResolution + 1]; for (int i = 0; i < ConeSurface.UResolution; i++) { for (int j = 0; j <= ConeSurface.VResolution; j++) { Points[i, j] = new Vertex3d(ConeSurface.Value((float)i / (float)ConeSurface.UResolution, (float)j / (float)ConeSurface.VResolution)); VertexList.Add(Points[i, j]); Normals[i, j] = new Vertex3d(ConeSurface.Normal((float)i / (float)ConeSurface.UResolution, (float)j / (float)ConeSurface.VResolution)); } } for (int i = 0; i < ConeSurface.UResolution; i++) { for (int j = 0; j <= ConeSurface.VResolution; j++) { if (i < ConeSurface.UResolution) { if (i + 1 < ConeSurface.UResolution) { HorzCurves[i, j] = new Line3D(Points[i, j].Value, Points[i + 1, j].Value); } else { HorzCurves[i, j] = new Line3D(Points[i, j].Value, Points[0, j].Value); } HorzCurves[i, j].Neighbors = new Face[2]; EdgeCurveList.Add(HorzCurves[i, j]); } if (j < ConeSurface.VResolution) { VertCurves[i, j] = new Line3D(Points[i, j].Value, Points[i, j + 1].Value); VertCurves[i, j].Neighbors = new Face[2]; EdgeCurveList.Add(VertCurves[i, j]); } } } for (int i = 0; i < ConeSurface.UResolution; i++) { for (int j = 0; j < ConeSurface.VResolution; j++) { int IInd = -1; Vertex3d A = Points[i, j]; Vertex3d B = Points[i, j + 1]; Vertex3d C = null; if (i + 1 < ConeSurface.UResolution) { IInd = i + 1; C = Points[i + 1, j + 1]; } else { IInd = 0; C = Points[0, j + 1]; } Vertex3d D = null; if (i + 1 < ConeSurface.UResolution) { D = Points[i + 1, j]; } else { D = Points[0, j]; } Face F = new Face(); FaceList.Add(F); F.Surface = new SmoothPlane(Points[i, j].Value, Points[IInd, j].Value, Points[i, j + 1].Value, Points[IInd, j + 1].Value, Normals[i, j].Value, Normals[IInd, j + 1].Value, Normals[i, j + 1].Value, Normals[IInd, j].Value); EdgeLoop EL = new EdgeLoop(); F.Bounds.Add(EL); Edge E = new Edge(); EdgeList.Add(E); EL.Add(E); E.EdgeStart = A; E.EdgeEnd = B; E.EdgeCurve = VertCurves[i, j]; E.EdgeCurve.Neighbors[0] = F; E.SameSense = true; E.ParamCurve = F.Surface.To2dCurve(E.EdgeCurve); E = new Edge(); EL.Add(E); EdgeList.Add(E); E.EdgeStart = B; E.EdgeEnd = C; E.EdgeCurve = HorzCurves[i, j + 1]; E.EdgeCurve.Neighbors[0] = F; E.SameSense = true; E.ParamCurve = F.Surface.To2dCurve(E.EdgeCurve); E = new Edge(); EL.Add(E); EdgeList.Add(E); E.EdgeStart = C; E.EdgeEnd = D; if (i + 1 < ConeSurface.UResolution) { E.EdgeCurve = VertCurves[i + 1, j]; } else { E.EdgeCurve = VertCurves[0, j]; } E.EdgeCurve.Neighbors[1] = F; E.SameSense = false; E.ParamCurve = F.Surface.To2dCurve(E.EdgeCurve); E.ParamCurve.Invert(); E = new Edge(); EL.Add(E); EdgeList.Add(E); E.EdgeStart = D; E.EdgeEnd = A; E.EdgeCurve = HorzCurves[i, j]; E.EdgeCurve.Neighbors[1] = F; E.SameSense = false; E.ParamCurve = F.Surface.To2dCurve(E.EdgeCurve); E.ParamCurve.Invert(); } } // Boden Base BodenBase = Base.From4Points(Points[0, 0].Value, Points[2, 0].Value, Points[1, 0].Value, Points[3, 0].Value); // Base BodenBase = Base.UnitBase; BodenBase.BaseO = Points[0, 0].Value; { Face F = new Face(); FaceList.Add(F); PlaneSurface S = null; S = new PlaneSurface(); S.Base = BodenBase; F.Surface = S; EdgeLoop EL = new EdgeLoop(); F.Bounds.Add(EL); for (int i = 0; i < ConeSurface.UResolution; i++) { Edge E = new Edge(); EL.Add(E); EdgeList.Add(E); E.EdgeStart = Points[i, 0]; if (i + 1 < ConeSurface.UResolution) { E.EdgeEnd = Points[i + 1, 0]; } else { E.EdgeEnd = Points[0, 0]; } E.EdgeCurve = HorzCurves[i, 0]; E.EdgeCurve.Neighbors[0] = F; E.SameSense = true; E.ParamCurve = S.To2dCurve(E.EdgeCurve); } } // Deckel { PlaneSurface S = null; S = new PlaneSurface(); BodenBase.BaseO = Points[0, ConeSurface.VResolution].Value; //S.Base = BodenBase; try { S.Base = Base.From4Points(Points[0, ConeSurface.VResolution].Value, Points[2, ConeSurface.VResolution].Value, Points[3, ConeSurface.VResolution].Value, Points[1, ConeSurface.VResolution].Value); } catch (Exception) { Base B = Base.UnitBase; B.BaseO = Points[0, ConeSurface.VResolution].Value; S.Base = B; } Face F = new Face(); FaceList.Add(F); F.Surface = S; EdgeLoop EL = new EdgeLoop(); F.Bounds.Add(EL); for (int i = ConeSurface.UResolution - 1; i >= 0; i--) // for (int i = 0; i < ConeSurface.UResolution; i++) { Edge E = new Edge(); EL.Add(E); EdgeList.Add(E); E.EdgeStart = Points[i, ConeSurface.VResolution]; //if (i + 1 < ConeSurface.UResolution) // E.EdgeEnd = Points[i + 1, ConeSurface.VResolution]; //else // E.EdgeEnd = Points[0, ConeSurface.VResolution]; E.EdgeEnd = Points[i, ConeSurface.VResolution]; if (i + 1 < ConeSurface.UResolution) { E.EdgeStart = Points[i + 1, ConeSurface.VResolution]; } else { E.EdgeStart = Points[0, ConeSurface.VResolution]; } E.EdgeCurve = HorzCurves[i, ConeSurface.VResolution]; if (E.EdgeStart.Value.dist(E.EdgeCurve.B) > 0.001) { } E.EdgeCurve.Neighbors[1] = F; E.SameSense = false; E.ParamCurve = S.To2dCurve(E.EdgeCurve); E.ParamCurve.Invert(); } } RefreshParamCurves(); base.Refresh(); }
/// <summary> /// overrides <see cref="Solid.Refresh"/>. /// </summary> public override void Refresh() { Clear(); Torus TorusSurface = new Torus(); TorusSurface.VResolution = VResolution; TorusSurface.UResolution = UResolution; TorusSurface.InnerRadius = InnerRadius; TorusSurface.OuterRadius = OuterRadius; Vertex3d[,] Points = new Vertex3d[TorusSurface.UResolution, TorusSurface.VResolution]; xyz[,] Normals = new xyz[TorusSurface.UResolution, TorusSurface.VResolution]; Line3D[,] HorzCurves = new Line3D[TorusSurface.UResolution, TorusSurface.VResolution]; Line3D[,] VertCurves = new Line3D[TorusSurface.UResolution, TorusSurface.VResolution]; for (int i = 0; i < TorusSurface.UResolution; i++) { for (int j = 0; j < TorusSurface.VResolution; j++) { Normals[i, j] = TorusSurface.Normal(((float)i / (float)TorusSurface.UResolution), (float)j / (float)TorusSurface.VResolution); Points[i, j] = new Vertex3d(TorusSurface.Value((float)i / (float)TorusSurface.UResolution, (float)j / (float)TorusSurface.VResolution)); VertexList.Add(Points[i, j]); } } for (int i = 0; i < TorusSurface.UResolution; i++) { for (int j = 0; j < TorusSurface.VResolution; j++) { if (i + 1 < TorusSurface.UResolution) { HorzCurves[i, j] = new Line3D(Points[i, j].Value, Points[i + 1, j].Value); } else { HorzCurves[i, j] = new Line3D(Points[i, j].Value, Points[0, j].Value); } HorzCurves[i, j].Neighbors = new Face[2]; EdgeCurveList.Add(HorzCurves[i, j]); if (j + 1 < TorusSurface.VResolution) { VertCurves[i, j] = new Line3D(Points[i, j].Value, Points[i, j + 1].Value); } else { VertCurves[i, j] = new Line3D(Points[i, j].Value, Points[i, 0].Value); } VertCurves[i, j].Neighbors = new Face[2]; EdgeCurveList.Add(VertCurves[i, j]); } } for (int i = 0; i < TorusSurface.UResolution; i++) { for (int j = 0; j < TorusSurface.VResolution; j++) { int jIndex = -1; if (j + 1 < TorusSurface.VResolution) { jIndex = j + 1; } else { jIndex = 0; } int iIndex = -1; if (i + 1 < TorusSurface.UResolution) { iIndex = i + 1; } else { iIndex = 0; } Vertex3d A = Points[i, j]; Vertex3d B = null; B = Points[i, jIndex]; Vertex3d C = null; C = Points[iIndex, jIndex]; Vertex3d D = null; D = Points[iIndex, j]; Face F = new Face(); FaceList.Add(F); F.Surface = new SmoothPlane(Points[i, j].Value, Points[iIndex, jIndex].Value, Points[i, jIndex].Value, Points[iIndex, j].Value, Normals[i, j], Normals[iIndex, jIndex], Normals[i, jIndex], Normals[iIndex, j]);; EdgeLoop EL = new EdgeLoop(); F.Bounds.Add(EL); if (A != B) { Edge E = new Edge(); EdgeList.Add(E); EL.Add(E); E.EdgeStart = A; E.EdgeEnd = B; E.EdgeCurve = VertCurves[i, j]; E.EdgeCurve.Neighbors[0] = F; E.SameSense = true; E.ParamCurve = F.Surface.To2dCurve(E.EdgeCurve); } else { } if (B != C) { Edge E = new Edge(); EL.Add(E); EdgeList.Add(E); E.EdgeStart = B; E.EdgeEnd = C; if (j + 1 < TorusSurface.VResolution) { E.EdgeCurve = HorzCurves[i, j + 1]; } else { E.EdgeCurve = HorzCurves[i, 0]; } if (E.EdgeCurve.A.dist(B.Value) > 0.001) { } E.EdgeCurve.Neighbors[0] = F; E.SameSense = true; E.ParamCurve = F.Surface.To2dCurve(E.EdgeCurve); } else { } if (C != D) { Edge E = new Edge(); EL.Add(E); EdgeList.Add(E); E.EdgeStart = C; E.EdgeEnd = D; if (i + 1 < TorusSurface.UResolution) { E.EdgeCurve = VertCurves[i + 1, j]; } else { E.EdgeCurve = VertCurves[0, j]; } E.EdgeCurve.Neighbors[1] = F; E.SameSense = false; E.ParamCurve = F.Surface.To2dCurve(E.EdgeCurve); E.ParamCurve.Invert(); } else { } if (A != D) { Edge E = new Edge(); EL.Add(E); EdgeList.Add(E); E.EdgeStart = D; E.EdgeEnd = A; E.EdgeCurve = HorzCurves[i, j]; E.EdgeCurve.Neighbors[1] = F; E.SameSense = false; E.ParamCurve = F.Surface.To2dCurve(E.EdgeCurve); E.ParamCurve.Invert(); } else { } } } RefreshParamCurves(); }