I am having some trouble correctly implementing the Bentley-Ottmann algorithm in C#. I am trying to implement it according to the pseudocode here. I have posted my main code below. Assuming my `BST`

and `PriorityQueue`

classes are implemented correctly, do you see any problems with the code?

There are no errors, but not all intersection points are found, only some. My guess is that there's an error in the `else`

part of the code (when the current event is an intersection point). I'm not sure what the pseudocode means by swapping the position of two segments in the BST. Is the way I do it fine? Because in the end, the two aren't really swapped in the BST. I can't just change their positions either, because that could break the BST properties.

Also, am I right in assuming that segments are ordered in the BST by the `Y`

-coordinate of their left endpoint?

Another error I've noticed that I can't seem to be able to track down is that sometimes the point `(0, 0)`

gets into `eventList`

. `(0, 0)`

is outputted by `Geometry.Intersects`

in case there is no intersection, but in that case the `if`

conditions should stop it from getting added. I have no idea how it gets in. If I print the contents of `eventList`

after adding a point in, `(0, 0)`

never shows up. If I print the contents after extracting and popping an element, `(0, 0)`

sometimes shows up. Could this have anything to do with the `Pop()`

method messing with the references, or is it definitely a problem in my `PriorityQueue`

implementation?

If needed I can show my implementations for the BST and priority queue as well.

```
static class BentleyOttman
{
private static void AddIntersectionEvent(PriorityQueue eventList, Segment segEv, Segment segA, SegPoint i)
{
i.IntersectingSegments = new Tuple<Segment, Segment>(segEv, segA);
i.Type = SegmentPointType.IntersectionPoint;
eventList.Add(i);
}
public static void Solve(Panel surface, TextBox debug)
{
debug.Clear();
var segList = Generator.SegList;
PriorityQueue eventList = new PriorityQueue();
foreach (Segment s in segList)
{
eventList.Add(new SegPoint(s.A, s, SegmentPointType.LeftEndpoint));
eventList.Add(new SegPoint(s.B, s, SegmentPointType.RightEndpoint));
}
BST sweepLine = new BST();
while (!eventList.Empty)
{
SegPoint ev = eventList.Top();
eventList.Pop();
if (ev.Type == SegmentPointType.LeftEndpoint)
{
Segment segEv = ev.Segment;
sweepLine.Insert(segEv);
Segment segA = sweepLine.InorderPre(segEv);
Segment segB = sweepLine.InorderSuc(segEv);
SegPoint i = new SegPoint();
if (segA != null && Geometry.Intersects(segEv, segA, out i.Point))
{
AddIntersectionEvent(eventList, segA, segEv, i);
}
if (segB != null && Geometry.Intersects(segEv, segB, out i.Point))
{
AddIntersectionEvent(eventList, segEv, segB, i);
}
}
else if (ev.Type == SegmentPointType.RightEndpoint)
{
Segment segEv = ev.Segment;
Segment segA = sweepLine.InorderPre(segEv);
Segment segB = sweepLine.InorderSuc(segEv);
sweepLine.Remove(segEv);
SegPoint i = new SegPoint();
if (segA != null && segB != null && Geometry.Intersects(segA, segB, out i.Point))
{
AddIntersectionEvent(eventList, segA, segB, i);
}
}
else
{
Generator.DrawPoint(ev.Point, surface, Brushes.Red);
Segment seg1 = ev.IntersectingSegments.Item1;
Segment seg2 = ev.IntersectingSegments.Item2;
sweepLine.Remove(seg1);
sweepLine.Remove(seg2);
Segment t = new Segment(seg1);
seg1 = new Segment(seg2);
seg2 = new Segment(t);
sweepLine.Insert(seg1);
sweepLine.Insert(seg2);
Segment segA = sweepLine.InorderPre(seg2);
Segment segB = sweepLine.InorderSuc(seg1);
SegPoint i = new SegPoint();
if (segA != null && Geometry.Intersects(seg2, segA, out i.Point))
AddIntersectionEvent(eventList, segA, seg2, i);
if (segB != null && Geometry.Intersects(seg1, segB, out i.Point))
AddIntersectionEvent(eventList, seg1, segB, i);
}
}
}
}
```