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I have two lists of intervals. I would like to remove all times from list1 that already exists in list2. Example: List1:






Any hints?

Tried to remove one interval at the time but it seems like I need to take a different approach:

public List<Interval> removeOneTime(Interval interval, Interval remove){
    List<Interval> removed = new LinkedList<Interval>();
    Interval overlap = interval.getOverlap(remove);
    if(overlap.getLength() > 0){
        List<Interval> rms = interval.remove(overlap);
    return removed;
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Is Interval your class? Can you change it? –  Lee Meador Apr 30 '13 at 16:04
Can you post the code of the Interval class? –  durron597 Apr 30 '13 at 16:07
What is the problem with you code? (apart from efficiency, perhaps)? –  leonbloy Apr 30 '13 at 16:14

2 Answers 2

up vote 4 down vote accepted

I would approach this problem with a sweep line algorithm. The start and end points of the intervals are events, that are put in a priority queue. You just move from left to right, stop at every event, and update the current status according to that event.

I made a small implementation, in which I use the following Interval class, just for simplicity:

public class Interval {
    public int start, end;

    public Interval(int start, int end) {       
        this.start = start;
        this.end = end;

    public String toString() {
        return "(" + start + "," + end + ")";

The event points mentioned earlier are represented by the following class:

public class AnnotatedPoint implements Comparable<AnnotatedPoint> {
    public int value;
    public PointType type;

    public AnnotatedPoint(int value, PointType type) {
        this.value = value;
        this.type = type;

    public int compareTo(AnnotatedPoint other) {
        if (other.value == this.value) {
            return this.type.ordinal() < other.type.ordinal() ? -1 : 1;
        } else {
            return this.value < other.value ? -1 : 1;

    // the order is important here: if multiple events happen at the same point,
    // this is the order in which you want to deal with them
    public enum PointType {
        End, GapEnd, GapStart, Start

Now, what remains is building the queue and doing the sweep, as shown in the code below

public class Test {

    public static void main(String[] args) {        
        List<Interval> interval = Arrays.asList(new Interval(0, 10), new Interval(15, 20));
        List<Interval> remove = Arrays.asList(new Interval(2, 3), new Interval(5, 6));

        List<AnnotatedPoint> queue = initQueue(interval, remove);       
        List<Interval> result = doSweep(queue);

        // print result
        for (Interval i : result) {

    private static List<AnnotatedPoint> initQueue(List<Interval> interval, List<Interval> remove) {
        // annotate all points and put them in a list
        List<AnnotatedPoint> queue = new ArrayList<>();
        for (Interval i : interval) {
            queue.add(new AnnotatedPoint(i.start, PointType.Start));
            queue.add(new AnnotatedPoint(i.end, PointType.End));
        for (Interval i : remove) {
            queue.add(new AnnotatedPoint(i.start, PointType.GapStart));
            queue.add(new AnnotatedPoint(i.end, PointType.GapEnd));

        // sort the queue

        return queue;

    private static List<Interval> doSweep(List<AnnotatedPoint> queue) {
        List<Interval> result = new ArrayList<>();

        // iterate over the queue       
        boolean isInterval = false; // isInterval: #Start seen > #End seen
        boolean isGap = false;      // isGap:      #GapStart seen > #GapEnd seen
        int intervalStart = 0;  
        for (AnnotatedPoint point : queue) {
            switch (point.type) {
            case Start:
                if (!isGap) {                   
                    intervalStart = point.value;
                isInterval = true;
            case End:
                if (!isGap) {                   
                    result.add(new Interval(intervalStart, point.value));
                isInterval = false;
            case GapStart:
                if (isInterval) {                   
                    result.add(new Interval(intervalStart, point.value));
                isGap = true;
            case GapEnd:
                if (isInterval) {
                    intervalStart = point.value;
                isGap = false;

        return result;

This results in:

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That was beautifull! Thanks! –  Grains May 1 '13 at 6:17

You probably want to use an interval tree - this will quickly tell you if an interval overlaps with any of the intervals in the tree.

Once you have a set of overlapping intervals the task should be fairly easy (interval1 is from list1, interval2 is the overlapping interval from list2 / the interval tree): if interval1 contains interval2, then you have two new intervals (interval1min, interval2min), (interval2max, interval1max); if interval1 does not contain interval2, then you only have one new interval (interval1min, interval2min) or (interval2max, interval1max)

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I don't think this is what the OP wants. See the example: he computes a set difference between list 1 and list 2 (considering each list as a subset of the real numbers). –  Vincent van der Weele Apr 30 '13 at 16:11
Yup, my bad. I've edited the answer accordingly –  Zim-Zam O'Pootertoot Apr 30 '13 at 16:41

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