public void AddRange(Vector3DCollection x)
{
for (int i = 0; i < x.Count; ++i)
{
Add(x[i]);
}
}
object ICloneable.Clone()
{
Vector3DCollection c = new Vector3DCollection();
c._size = this._size;
c._data = (T[])_data.Clone();
return(c);
}
/// <summary>
/// Optimize the polygon by removing coincident points
/// and collinear points.
/// </summary>
/// <returns>The number of points removed</returns>
public int Optimize()
{
int pointsRemoved = 0;
// remove coincident points
if (this.Points.Count >= 2)
{
int count = _points.Count;
Vector3DCollection newPoints = new Vector3DCollection();
for (int i = 0; i < count; i++)
{
Vector3D pt0 = _points[(i + count - 1) % count];
Vector3D pt1 = _points[i];
if ((pt1 - pt0).GetMagnitude() > Math3D.EpsilonF)
{
newPoints.Add(pt1);
}
}
Debug.Assert(newPoints.Count <= _points.Count);
if (newPoints.Count < _points.Count)
{
pointsRemoved += _points.Count - newPoints.Count;
_points = newPoints;
}
}
// remove collinear points
if (this.Points.Count >= 3)
{
int count = _points.Count;
Vector3DCollection newPoints = new Vector3DCollection();
for (int i = 0; i < count; i++)
{
Vector3D pt0 = _points[(i + count - 1) % count];
Vector3D pt1 = _points[i];
Vector3D pt2 = _points[(i + 1) % count];
if (Vector3D.Orientation(pt0, pt1, pt2) != 0)
{
newPoints.Add(pt1);
}
}
Debug.Assert(newPoints.Count <= _points.Count);
if (newPoints.Count < _points.Count)
{
pointsRemoved += _points.Count - newPoints.Count;
_points = newPoints;
}
}
return(pointsRemoved);
}
/// <summary>
/// Create a new polygon with a set of points
/// </summary>
/// <param name="points"></param>
public Polygon3D(Vector3DCollection points)
{
Debug.Assert(points != null);
_points.AddRange(points);
}
public Vector3DCollection(Vector3DCollection x)
{
_data = new T[x.Count * 2];
AddRange(x);
}
public Vector3DEnumerator(Vector3DCollection col)
{
temp = col;
cursor = -1;
}
//--------------------------------------------------------------------------------
/// <summary>
/// Clip the given polygon by the plane so that only the regions
/// located positive of the plane remain.
/// </summary>
/// <param name="polygon"></param>
public void ClipPolygon(Polygon3D polygon)
{
Vector3D ptNormal = polygon.GetNormal();
Vector3DCollection vNewPoints = new Vector3DCollection();
int iPoints = polygon.Points.Count;
for (int i = 0; i < iPoints; i++)
{
Vector3D pt0 = polygon.Points[(i + iPoints - 1) % iPoints];
Vector3D pt1 = polygon.Points[i];
int sign0 = (int)Math3D.GetSign(this.GetDistanceToPlane(pt0), Math3D.EpsilonF);
int sign1 = (int)Math3D.GetSign(this.GetDistanceToPlane(pt1), Math3D.EpsilonF);
if (sign0 > 0)
{
// line is infront
if (sign1 >= 0)
{
vNewPoints.Add(pt1);
}
// line is entering plane
else if (sign1 < 0)
{
Debug.Assert(sign0 > 0 && sign1 < 0);
vNewPoints.Add(this.GetIntersection(pt0, pt1));
}
}
else if (sign0 == 0)
{
// line is infront
if (sign1 > 0)
{
vNewPoints.Add(pt1);
}
// line is coplanar
else if (sign1 == 0)
{
vNewPoints.Add(pt1);
}
// line is behind
else if (sign1 < 0)
{
}
}
else if (sign0 < 0)
{
// line is leaving plane
if (sign1 > 0)
{
Debug.Assert(sign0 < 0 && sign1 > 0);
vNewPoints.Add(this.GetIntersection(pt0, pt1));
vNewPoints.Add(pt1);
}
// line is leaving plane
else if (sign1 == 0)
{
vNewPoints.Add(pt1);
}
// line is behind
else if (sign1 < 0)
{
}
}
}
// set new points
polygon.Points.Clear();
polygon.Points.AddRange(vNewPoints);
/*if( this.Points.Count >= 3 ) {
* if( Vector3D.Dot( this.GetNormal(), ptNormal ) < 0 ) {
* this.Flip();
* }
* } */
polygon.Optimize();
}