void RefreshNormals()
{
Normals = new Loxyz();
Normals.Count = Bounds.Count;
DrawPoints = new Loxyz();
DrawPoints.Count = ParamCurves.Count;
if (!DrawRelativToSurfaceBase)
{
for (int i = 0; i < Bounds.Count; i++)
{
EdgeLoop EL = Bounds[i];
for (int k = 0; k < EL.Count; k++)
{
Edge E = EL[k];
DrawPoints[i].Add(E.EdgeStart.Value);
}
}
}
for (int i = 0; i < ParamCurves.Count; i++)
{
xyArray A = ParamCurves[i].getxyArrayClosed(false);
if (DrawRelativToSurfaceBase)
{
DrawPoints[i] = A.ToxyzArray();
}
int ct = 0;
for (int t = 0; t < ParamCurves[i].Count; t++)
{
ct = ct + ParamCurves[i][t].Resolution;
}
xyzArray NormalsLoop = new xyzArray(ct);
Normals[i] = NormalsLoop;
int id = 0;
for (int j = 0; j < ParamCurves[i].Count; j++)
{
List <Face> L = GetFaces(this, i, j);
Edge E = Bounds[i][j];
if (L == null)
{
Normals = null;
DrawPoints = null;
return;
}
double SmoothAngle = Parent.SmoothAngle;
xyz N = Surface.Normal(0, 0).normalized();
xyz N1 = Surface.Normal(0, 0).normalized();
for (int k = 0; k < L.Count; k++)
{
if (System.Math.Abs((N1 * L[k].Surface.Normal(0, 0).normalized())) > System.Math.Cos(SmoothAngle))
{
N = N + L[k].Surface.Normal(0, 0).normalized();
}
}
N = N.normalized();
if (DrawRelativToSurfaceBase)
{
Matrix M = Surface.Base.ToMatrix().invert();
N = M * N - M * new xyz(0, 0, 0);
}
NormalsLoop[id] = N;
id++;
}
}
}
/// <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>
/// creates a <see cref="Face"/> for a <see cref="Solid"/> in the <see cref="Model.Solid"/>.
/// The Curves are all <see cref="Line3D"/>. The <see cref="Face"/> is plane and has as <see cref="Face.Surface"/> a <see cref="PlaneSurface"/>.
/// </summary>
/// <param name="Solid">is the target in which the <see cref="Face"/> will be posed.</param>
/// <param name="Bounds">contains the <see cref="Vertex3d"/> for the <see cref="Line3D"/>.</param>
/// <returns>a <see cref="Face"/></returns>
public static Face SolidPlane(Solid Solid, Vertex3dArray_2 Bounds)
{
if (Bounds.Count == 0)
{
return(null);
}
xyz N = new xyz(0, 0, 0);
xyz P = Bounds[0][0].Value;
for (int i = 1; i < Bounds[0].Count - 1; i++)
{
xyz A = Bounds[0][i].Value;
xyz B = Bounds[0][i + 1].Value;
xyz M = N;
N = N + ((A - P) & (B - P));
}
N = N.normalized() * (-1);
Base Base = Base.UnitBase;
Base.BaseO = P;
Base.BaseZ = N;
if ((Base.BaseZ & new xyz(1, 0, 0)).dist(xyz.Null) > 0.01)
{
Base.BaseY = (Base.BaseZ & (new xyz(1, 0, 0))).normalized();
Base.BaseX = Base.BaseY & Base.BaseZ;
}
else
{
Base.BaseY = (Base.BaseZ & (new xyz(0, 1, 0))).normalized();
Base.BaseX = Base.BaseY & Base.BaseZ;
}
PlaneSurface Surface = new PlaneSurface();
Surface.Base = Base;
//-------------------------------------
//-------- Create the Face
Face Result = new Face();
// ---- With Plane Surface
Result.Surface = Surface;
if (Solid != null)
{
Solid.FaceList.Add(Result);
}
//----- Set the Edges
for (int i = 0; i < Bounds.Count; i++)
{
EdgeLoop Edgeloop = new EdgeLoop();
Result.Bounds.Add(Edgeloop);
for (int j = 0; j < Bounds[i].Count; j++)
{
Vertex3d A = Bounds[i][j];
Vertex3d B = null;
if (j == Bounds[i].Count - 1)
{
B = Bounds[i][0];
}
else
{
B = Bounds[i][j + 1];
}
Edge E = Edge.SolidEdge(Solid, Result, A, B, new Line3D(A.Value, B.Value));
Edgeloop.Add(E);
}
}
Result.RefreshParamCurves();
return(Result);
}
