Someone asked me this question:
You are given a list of intervals. You have to design an algorithm to find the sequence of non-overlapping intervals so that the sum of the range of intervals is maximum.

For Example:
If given intervals are:


Range is maximized when three intervals

[“06:00”, “08:30”],
[“09:00”, “11:30”],
[“12:00”, “14:00”],

are chosen.

Therefore, the answer is 420 (minutes).

  • Are you sure this is dynamic programming? – smk Aug 15 '13 at 21:26
  • no.. I am not sure.. – Black_Hat Aug 15 '13 at 21:27
  • 2
    This is the classic weighted activity selection problem. – Kunal Aug 16 '13 at 10:11
  • 5
    Shouldnt your answer be 420 minutes? if those three are the selected intervals – smk Aug 20 '13 at 21:59

This is a standard interval scheduling problem.
It can be solved by using dynamic programming.

Let there be n intervals. sum[i] stores maximum sum of interval up to interval i in sorted interval array. The algorithm is as follows

Sort the intervals in order of their end timings.
sum[0] = 0
For interval i from 1 to n in sorted array
    j = interval in 1 to i-1 whose endtime is less than beginning time of interval i.
    If j exist, then sum[i] = max(sum[j]+duration[i],sum[i-1])
    else sum[i] = max(duration[i],sum[i-1])

The iteration goes for n steps and in each step, j can be found using binary search, i.e. in log n time. Hence algorithm takes O(n log n) time.

  • have you checked it? Is it giving you the correct ans?? – Black_Hat Aug 16 '13 at 8:34
  • Yeah, I have implemented it a lot and I don't think its a very difficult one to understand. – Shashwat Kumar Aug 16 '13 at 10:18
public int longestNonOverLappingTI(TimeInterval[] tis){
        int[] mt = new int[tis.length];
        mt[0] = tis[0].getTime();
        for(int j=1;j<tis.length;j++){
            for(int i=0;i<j;i++){
                int x = tis[j].overlaps(tis[i])?tis[j].getTime():mt[i] + tis[j].getTime();
                mt[j]  = Math.max(x,mt[j]);

        return getMax(mt);

public class TimeInterval implements Comparable <TimeInterval> {
    public int start;
    public int end;
    public TimeInterval(int start,int end){
        this.start = start;
        this.end = end;


    public boolean overlaps(TimeInterval that){
          return !(that.end < this.start || this.end < that.start);

    public int getTime(){
        return end - start;
    public int compareTo(TimeInterval timeInterval) {
        if(this.end < timeInterval.end)
            return -1;
        else if( this.end > timeInterval.end)
            return 1;
            //end timeIntervals are same
            if(this.start < timeInterval.start)
                return -1;
            else if(this.start > timeInterval.start)
                return 1;
                return 0;



Heres the working code. Basically this runs in O(n^2) because of the two for loops. But as Shashwat said there are ways to make it run in O(n lg n)

  • I don't think so – Black_Hat Aug 16 '13 at 8:42
  • Why do you feel so? – smk Aug 16 '13 at 19:19

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