# How to detect right endpoints in Sweep-line algorithm

I am wondering in Sweep line algorithm how do we detect a right endpoints of a shapes (Circle or Rectangle) as we use a sweep vertical line scanning from left to right ? so the algorithm is basically that whenever we hit a left endpoints then insert into a interval tree of that shape's y-intervals, and when we hit the right endpoints of any shape then we remove it from the interval tree. For example

``````    ArrayList<Circle> circles = new ArrayList<Circle>();
BinarySearchTree<Interval> intervalTree = new BinarySearchTree<Interval>();

//sort by x coordinate
Collections.sort(circles, new Comparator<Circle>(){
@Override
public int compareTo(Circle c1, Circle c2){
return c1.x - c2.x;
}
});

//here's where the sweep line begins
for(int i = 0; i < circle.size(); i++)
{
//we hit the ith circle's left endpoint
Circle current = circle.get(i);

//insert into the interval tree

}
``````

but when do we know if we reach the right endpoint of a Circle ? Do we need another hashmap for that ?

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You should have a sorted collection of points that generate events in the algorithms. Crossing a circle center does not generate an event, therefore centers have no place in the collection. – n.m. Oct 28 '12 at 17:53

``````public enum EventType {
START,
END;
}

public class EventPoint implements Comparable<EventPoint> {
public EventType type;
public double x;
public Circle circle;
public Interval interval;

public EventPoint(EventType type, double x,
Circle circle, Interval interval) {
this.type = type;
this.x = x;
this.circle = circle;
this.interval = interval;
}

/**
* Compare this EventPoint with another. This is used by the priority
* queue to determine the "minimum" event.
*/
public int compareTo(EventPoint other) {
return Double.compare(x, other.x);
}

/** Creates a start event, with a circle. */
public static EventPoint start(double x, Circle circle) {
return new EventPoint(START, x, circle, null);
}

/** Creates an end event, with an interval. */
public static EventPoint end(double x, Interval interval) {
return new EventPoint(END, x, null, interval);
}
}
``````
``````PriorityQueue<EventPoint> events = new PriorityQueue<EventPoint>();
BinarySearchTree<Interval> intervalTree = new BinarySearchTree<Interval>();

// Initialize all the start events, and include the corresponding circle.
for (Circle c : circles) {
}

while (!events.isEmpty()) {

// Remove the minimum (leftmost) event from the queue
EventPoint ep = events.poll();

switch (ep.type) {

case START:
Circle current = ep.circle;
// (Look for intersections in the interval tree...)

// Create an interval and add it to the interval tree
Interval interval = new Interval(current.y, current.y +
current.height);

// Add an end-event to the queue, and include the interval for
// later removal.
events.add(EventPoint.end(current.x + current.width, interval));

break;

case END:
// Remove the interval from the interval tree.
intervalTree.remove(ep.interval);
break;
}
}
``````
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How does PriorityQueue help in this case ? what happen when you call events.poll ? does that give you the next EventPoint that could be either a Start or a End ? because i see you only add the start point EventPoint to the it. – peter Oct 29 '12 at 2:11
`PriorityQueue.add()` adds another event to the queue, and `PriorityQueue.poll()` removes and returns the minimum one. I add `START` events at the beginning, and `END` events whenever a `START` event is encountered. The `END` events also includes a reference to the `Interval` that was created. – Markus Jarderot Oct 29 '12 at 6:18