How to find intersection of two lines/segments/ray with rectangle

```
public class LineEquation{
public LineEquation(Point start, Point end){
Start = start;
End = end;
IsVertical = Math.Abs(End.X - start.X) < 0.00001f;
M = (End.Y - Start.Y)/(End.X - Start.X);
A = -M;
B = 1;
C = Start.Y - M*Start.X;
}
public bool IsVertical { get; private set; }
public double M { get; private set; }
public Point Start { get; private set; }
public Point End { get; private set; }
public double A { get; private set; }
public double B { get; private set; }
public double C { get; private set; }
public bool IntersectsWithLine(LineEquation otherLine, out Point intersectionPoint){
intersectionPoint = new Point(0, 0);
if (IsVertical && otherLine.IsVertical)
return false;
if (IsVertical || otherLine.IsVertical){
intersectionPoint = GetIntersectionPointIfOneIsVertical(otherLine, this);
return true;
}
double delta = A*otherLine.B - otherLine.A*B;
bool hasIntersection = Math.Abs(delta - 0) > 0.0001f;
if (hasIntersection){
double x = (otherLine.B*C - B*otherLine.C)/delta;
double y = (A*otherLine.C - otherLine.A*C)/delta;
intersectionPoint = new Point(x, y);
}
return hasIntersection;
}
private static Point GetIntersectionPointIfOneIsVertical(LineEquation line1, LineEquation line2){
LineEquation verticalLine = line2.IsVertical ? line2 : line1;
LineEquation nonVerticalLine = line2.IsVertical ? line1 : line2;
double y = (verticalLine.Start.X - nonVerticalLine.Start.X)*
(nonVerticalLine.End.Y - nonVerticalLine.Start.Y)/
((nonVerticalLine.End.X - nonVerticalLine.Start.X)) +
nonVerticalLine.Start.Y;
double x = line1.IsVertical ? line1.Start.X : line2.Start.X;
return new Point(x, y);
}
public bool IntersectWithSegementOfLine(LineEquation otherLine, out Point intersectionPoint){
bool hasIntersection = IntersectsWithLine(otherLine, out intersectionPoint);
if (hasIntersection)
return intersectionPoint.IsBetweenTwoPoints(otherLine.Start, otherLine.End);
return false;
}
public bool GetIntersectionLineForRay(Rect rectangle, out LineEquation intersectionLine){
if (Start == End){
intersectionLine = null;
return false;
}
IEnumerable<LineEquation> lines = rectangle.GetLinesForRectangle();
intersectionLine = new LineEquation(new Point(0, 0), new Point(0, 0));
var intersections = new Dictionary<LineEquation, Point>();
foreach (LineEquation equation in lines){
Point point;
if (IntersectWithSegementOfLine(equation, out point))
intersections[equation] = point;
}
if (!intersections.Any())
return false;
var intersectionPoints = new SortedDictionary<double, Point>();
foreach (var intersection in intersections){
if (End.IsBetweenTwoPoints(Start, intersection.Value) ||
intersection.Value.IsBetweenTwoPoints(Start, End)){
double distanceToPoint = Start.DistanceToPoint(intersection.Value);
intersectionPoints[distanceToPoint] = intersection.Value;
}
}
if (intersectionPoints.Count == 1){
Point endPoint = intersectionPoints.First().Value;
intersectionLine = new LineEquation(Start, endPoint);
return true;
}
if (intersectionPoints.Count == 2){
Point start = intersectionPoints.First().Value;
Point end = intersectionPoints.Last().Value;
intersectionLine = new LineEquation(start, end);
return true;
}
return false;
}
public override string ToString(){
return "[" + Start + "], [" + End + "]";
}
}
```

full sample is described here