public static void GetIntersections(
Circle2D circle,
Arc2D arc,
out Point2D[] intersections,
out bool overlap)
{
Arc2D.GetIntersections(circle, arc, 8.88178419700125E-16, out intersections, out overlap);
}
public static bool GetIntersections(
Arc2D arc1,
Arc2D arc2,
out Point2D[] intersections,
out Arc2D[] overlappingArcs)
{
return(Arc2D.GetIntersections(arc1, arc2, 8.88178419700125E-16, out intersections, out overlappingArcs));
}
public Class92(Arc2D arc)
{
double num1 = arc.endAngle - arc.startAngle;
if (num1 < 0.0 || num1 > 2.0 * System.Math.PI)
{
double num2 = System.Math.Floor(num1 / (2.0 * System.Math.PI));
num1 -= 2.0 * num2 * System.Math.PI;
}
int num3 = (int)System.Math.Ceiling(2.0 * num1 / System.Math.PI) + 1;
if (num3 >= 5)
{
num3 = 4;
num1 = 2.0 * System.Math.PI;
}
double num4 = num1 / (double)num3;
this.point2D_0 = new Point2D[1 + 3 * num3];
double startAngle = arc.StartAngle;
Vector2D u = arc.Radius * new Vector2D(System.Math.Cos(startAngle), System.Math.Sin(startAngle));
this.point2D_0[0] = arc.Center + u;
int num5 = 0;
for (int index = 0; index < num3; ++index)
{
startAngle += num4;
Vector2D v = arc.Radius * new Vector2D(System.Math.Cos(startAngle), System.Math.Sin(startAngle));
this.point2D_0[num5 + 3] = arc.Center + v;
double lengthSquared = u.GetLengthSquared();
double num2 = lengthSquared + Vector2D.DotProduct(u, v);
double num6 = Vector2D.CrossProduct(u, v);
double num7 = 4.0 / 3.0 * (System.Math.Sqrt(2.0 * lengthSquared * num2) - num2) / num6;
this.point2D_0[num5 + 1] = new Point2D(arc.Center.X + u.X - num7 * u.Y, arc.Center.Y + u.Y + num7 * u.X);
num5 += 3;
this.point2D_0[num5 - 1] = new Point2D(arc.Center.X + v.X - num7 * v.Y, arc.Center.Y + v.Y + num7 * v.X);
u = v;
}
}
private static void smethod_0(
Arc2D arc1,
Arc2D arc2,
double precision,
out Arc2D[] overlappingArcs)
{
overlappingArcs = (Arc2D[])null;
double num1 = MathUtil.NormalizeAngleTwoPi(arc1.startAngle);
double num2 = MathUtil.NormalizeAngleTwoPi(arc1.endAngle);
double num3 = MathUtil.NormalizeAngleTwoPi(arc2.startAngle);
double num4 = MathUtil.NormalizeAngleTwoPi(arc2.endAngle);
bool flag1 = false;
if (num1 > num2)
{
flag1 = true;
}
bool flag2 = false;
if (num3 > num4)
{
flag2 = true;
}
if (flag1)
{
if (flag2)
{
List <Arc2D> arc2DList = new List <Arc2D>(2);
arc2DList.Add(new Arc2D(arc1.center, arc1.radius, System.Math.Max(num1, num3), System.Math.Min(num2, num4)));
double startAngle = System.Math.Min(num1, num3);
double endAngle = System.Math.Max(num2, num4);
if (startAngle < endAngle - precision)
{
arc2DList.Add(new Arc2D(arc1.center, arc1.radius, startAngle, endAngle));
}
if (arc2DList.Count <= 0)
{
return;
}
overlappingArcs = arc2DList.ToArray();
}
else
{
List <Arc2D> arc2DList = new List <Arc2D>(2);
if (num3 < num2 - precision)
{
arc2DList.Add(new Arc2D(arc1.center, arc1.radius, num3, System.Math.Min(num2, num4)));
}
if (num4 > num1 + precision)
{
arc2DList.Add(new Arc2D(arc1.center, arc1.radius, System.Math.Max(num1, num3), num4));
}
if (arc2DList.Count <= 0)
{
return;
}
overlappingArcs = arc2DList.ToArray();
}
}
else if (flag2)
{
List <Arc2D> arc2DList = new List <Arc2D>(2);
if (num1 < num4 - precision)
{
arc2DList.Add(new Arc2D(arc1.center, arc1.radius, num1, System.Math.Min(num2, num4)));
}
if (num2 > num3 + precision)
{
arc2DList.Add(new Arc2D(arc1.center, arc1.radius, System.Math.Max(num1, num3), num2));
}
if (arc2DList.Count <= 0)
{
return;
}
overlappingArcs = arc2DList.ToArray();
}
else
{
double startAngle = System.Math.Max(num1, num3);
double endAngle = System.Math.Min(num2, num4);
if (startAngle >= endAngle - precision)
{
return;
}
overlappingArcs = new Arc2D[1]
{
new Arc2D(arc1.center, arc1.radius, startAngle, endAngle)
};
}
}
public static void GetIntersections(
Circle2D circle,
Arc2D arc,
double precision,
out Point2D[] intersections,
out bool overlap)
{
intersections = (Point2D[])null;
overlap = false;
Vector2D vector2D1 = arc.center - circle.Center;
double length = vector2D1.GetLength();
if (System.Math.Abs(length) <= precision)
{
if (!MathUtil.AreApproxEqual(circle.Radius, arc.radius, precision))
{
return;
}
overlap = true;
}
else
{
Vector2D vector2D2 = vector2D1 / length;
double num1 = length;
double num2 = num1 * num1;
double num3 = circle.Radius * circle.Radius;
double num4 = arc.radius * arc.radius;
double num5 = num2 - num4 + num3;
double d = (4.0 * num2 * num3 - num5 * num5) / (4.0 * num2);
if (d < -precision)
{
return;
}
double num6 = num5 / (2.0 * num1);
if (d <= precision)
{
Point2D point = circle.Center + num6 * vector2D2;
if (!arc.ContainsAngleProjection(point))
{
return;
}
intersections = new Point2D[1] {
point
};
}
else
{
double a = System.Math.Sqrt(d);
if (MathUtil.AreApproxEqual(a, 0.0, precision))
{
Point2D point = circle.Center + num6 * vector2D2;
if (!arc.ContainsAngleProjection(point))
{
return;
}
intersections = new Point2D[1] {
point
};
}
else
{
Vector2D vector2D3 = new Vector2D(vector2D2.Y, -vector2D2.X);
List <Point2D> point2DList = new List <Point2D>(2);
Point2D point1 = circle.Center + num6 * vector2D2 + a * vector2D3;
if (arc.ContainsAngleProjection(point1))
{
point2DList.Add(point1);
}
Point2D point2 = circle.Center + num6 * vector2D2 - a * vector2D3;
if (arc.ContainsAngleProjection(point2))
{
point2DList.Add(point2);
}
if (point2DList.Count <= 0)
{
return;
}
intersections = point2DList.ToArray();
}
}
}
}
public static bool GetIntersections(
Arc2D arc1,
Arc2D arc2,
double precision,
out Point2D[] intersections,
out Arc2D[] overlappingArcs)
{
intersections = (Point2D[])null;
overlappingArcs = (Arc2D[])null;
Vector2D vector2D1 = arc2.center - arc1.center;
double length = vector2D1.GetLength();
if (System.Math.Abs(length) <= precision)
{
if (MathUtil.AreApproxEqual(arc1.radius, arc2.radius, precision))
{
Arc2D.smethod_0(arc1, arc2, precision, out overlappingArcs);
}
}
else
{
Vector2D vector2D2 = vector2D1 / length;
double num1 = length;
double num2 = num1 * num1;
double num3 = arc1.radius * arc1.radius;
double num4 = arc2.radius * arc2.radius;
double num5 = num2 - num4 + num3;
double d = (4.0 * num2 * num3 - num5 * num5) / (4.0 * num2);
if (d >= -precision)
{
double num6 = num5 / (2.0 * num1);
if (d <= precision)
{
Point2D point = arc1.center + num6 * vector2D2;
if (arc1.ContainsAngleProjection(point) && arc2.ContainsAngleProjection(point))
{
intersections = new Point2D[1] {
point
}
}
;
}
else
{
double a = System.Math.Sqrt(d);
if (MathUtil.AreApproxEqual(a, 0.0, precision))
{
Point2D point = arc1.center + num6 * vector2D2;
if (arc1.ContainsAngleProjection(point) && arc2.ContainsAngleProjection(point))
{
intersections = new Point2D[1] {
point
}
}
;
}
else
{
Vector2D vector2D3 = new Vector2D(vector2D2.Y, -vector2D2.X);
List <Point2D> point2DList = new List <Point2D>(2);
Point2D point1 = arc1.center + num6 * vector2D2 + a * vector2D3;
if (arc1.ContainsAngleProjection(point1) && arc2.ContainsAngleProjection(point1))
{
point2DList.Add(point1);
}
Point2D point2 = arc1.center + num6 * vector2D2 - a * vector2D3;
if (arc1.ContainsAngleProjection(point2) && arc2.ContainsAngleProjection(point2))
{
point2DList.Add(point2);
}
if (point2DList.Count > 0)
{
intersections = point2DList.ToArray();
}
}
}
}
}
if (intersections == null)
{
return(overlappingArcs != null);
}
return(true);
}
