/// <summary>
/// overrides the <see cref="Surface.Copy"/> method and sets the belonging fields.
/// </summary>
/// <returns>the copied surface</returns>
public override Surface Copy()
{
Cone Result = base.Copy() as Cone;
Result.Radius = Radius;
Result.HalfAngle = HalfAngle;
Result.Height = Height;
return(Result);
}
/// <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();
}
