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I have list of Joda-Time intervals

List<Interval> intervals = new ArrayList<Interval>();

and another Joda-Time interval (search time interval), like on the picture below.

enter image description here

I need to write Java function that finds the holes in time and returns List<Interval> with the red intervals.

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Have you tried anything? –  Keppil Jun 7 '13 at 15:27
Are the intervals sorted in your list? –  fge Jun 7 '13 at 15:28
i am thinking about. All i came up is multiple for in for loops. There must be a more elegant solution. The intervals are sorted. –  kozla13 Jun 7 '13 at 15:30

3 Answers 3

up vote 2 down vote accepted

Building up on fge's response - the following version actually handles both cases (when the big interval is larger than the extremes of the intervals being searched over + the case when the big interval is in fact smaller ... or smaller on one side)

you can see the full code along with the tests at https://github.com/erfangc/JodaTimeGapFinder.git

public class DateTimeGapFinder {

 * Finds gaps on the time line between a list of existing {@link Interval}
 * and a search {@link Interval}
 * @param existingIntervals
 * @param searchInterval
 * @return The list of gaps
public List<Interval> findGaps(List<Interval> existingIntervals, Interval searchInterval) {
    List<Interval> gaps = new ArrayList<Interval>();

    DateTime searchStart = searchInterval.getStart();
    DateTime searchEnd = searchInterval.getEnd();

    if (hasNoOverlap(existingIntervals, searchInterval, searchStart, searchEnd)) {
        return gaps;

    // create a sub-list that excludes interval which does not overlap with
    // searchInterval
    List<Interval> subExistingList = removeNoneOverlappingIntervals(existingIntervals, searchInterval);
    DateTime subEarliestStart = subExistingList.get(0).getStart();
    DateTime subLatestStop = subExistingList.get(subExistingList.size() - 1).getEnd();

    // in case the searchInterval is wider than the union of the existing
    // include searchInterval.start => earliestExisting.start
    if (searchStart.isBefore(subEarliestStart)) {
        gaps.add(new Interval(searchStart, subEarliestStart));

    // get all the gaps in the existing list

    // include latestExisting.stop => searchInterval.stop
    if (searchEnd.isAfter(subLatestStop)) {
        gaps.add(new Interval(subLatestStop, searchEnd));
    return gaps;

private List<Interval> getExistingIntervalGaps(List<Interval> existingList) {
    List<Interval> gaps = new ArrayList<Interval>();
    Interval current = existingList.get(0);
    for (int i = 1; i < existingList.size(); i++) {
        Interval next = existingList.get(i);
        Interval gap = current.gap(next);
        if (gap != null)
        current = next;
    return gaps;

private List<Interval> removeNoneOverlappingIntervals(List<Interval> existingIntervals, Interval searchInterval) {
    List<Interval> subExistingList = new ArrayList<Interval>();
    for (Interval interval : existingIntervals) {
        if (interval.overlaps(searchInterval)) {
    return subExistingList;

private boolean hasNoOverlap(List<Interval> existingIntervals, Interval searchInterval, DateTime searchStart, DateTime searchEnd) {
    DateTime earliestStart = existingIntervals.get(0).getStart();
    DateTime latestStop = existingIntervals.get(existingIntervals.size() - 1).getEnd();
    // return the entire search interval if it does not overlap with
    // existing at all
    if (searchEnd.isBefore(earliestStart) || searchStart.isAfter(latestStop)) {
        return true;
    return false;


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A quick look at the Interval API gives this (UNTESTED):

// SUPPOSED: the big interval is "bigInterval"; the list is "intervals"

// Intervals returned
List<Interval> ret = new ArrayList<>();

Interval gap, current, next;

// First, compute the gaps between the elements in the list

current = intervals.get(0);
for (int i = 1; i < intervals.size(); i++) {
    next = intervals.get(i);
    gap = current.gap(next);
    if (gap != null)
    current = next;

// Now, compute the time difference between the starting time of the first interval
// and the starting time of the "big" interval; add it at the beginning

ReadableInstant start, end;

start = bigInterval.getStart();
end = intervals.get(0).getStart();

if (start.isBefore(end))
    ret.add(0, new Interval(start, end));

// finally, append the time difference between the ending time of the last interval
// and the ending time of the "big" interval

// next still contains the last interval
start = next.getEnd();
end = bigInterval.getEnd();
if (start.isBefore(end))
    ret.add(new Interval(start, end));

return ret;
share|improve this answer
looks logical, I'll try. –  kozla13 Jun 7 '13 at 15:48
Uh no, wait, there are bugs –  fge Jun 7 '13 at 15:50
OK, fixed; the two final calculations were bogus –  fge Jun 7 '13 at 15:52
you overlooked one possible case : if the bigInterval is smaller then one of the intervals from the list. –  kozla13 Jun 7 '13 at 16:46

The answer by fge seems to be correct, though I've not run that untested code.

The term "gap" seems to be a more common term for what you are calling "holes".

See this answer by Katja Christiansen, which makes good use of the gap method on the Interval class.

Interval gapInterval = interval_X.gap( interval_Y );
// … Test for null to see whether or a gap exists.

If there is a non-zero duration between them, you get a new Interval object returned. If the intervals overlap or abut, then null is returned. Note that the Interval class also offers the methods overlap and abuts if you are interested in those particular conditions.

Of course your collection of Interval objects must be sorted for this to work.

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