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I Have dynamically render row. WE have fields like FROM TO.

For eg: From     TO
        2        10,
        2        3,
        8        12

It cannot accept this combination row.. That means no number should be overlapping.

For eg: From     TO
        2        10,
        0        1,
        11       12

This combination is allowed.the row may also increased.

I need need to write a validation for this overlapping. Can any 1 help to solve this problem.

This is the code, wat i tried,

List<AppHrVacationAccrualRuleDefinition> a = new ArrayList<AppHrVacationAccrualRuleDefinition>();
List<AppHrVacationAccrualRuleDefinition> b = new ArrayList<AppHrVacationAccrualRuleDefinition>();


int count = 0;
int k = 1;

for (int l = 0; l < a.size(); l++)
    for (int j = k; j < b.size(); j++)
        if (((a.get(l).getStartValue().equals(b.get(j).getEndValue()) || 
                a.get(l).getStartValue() < b.get(j).getEndValue())) && 
                || b.get(j).getStartValue() < a.get(l).getEndValue())))
System.out.println("count********" + count);
share|improve this question
Can you post the code that you have written to start solving this problem? – justkt Apr 15 '10 at 13:48
What do you mean by overlapping? you mean that every number must be different? – Pablo Fernandez Apr 15 '10 at 13:48
I have pasted the code wat i tried.. This is working for 2 rows, the list of value increase to 3 then this condition fails. – user306669 Apr 15 '10 at 14:06
Your implementation look fine otherwise, but your overlaps() implementation is a bit weird. Change it to a.high >= b.low && a.low <= b.high – Matti Virkkunen Apr 15 '10 at 14:23

Your algorithm is O(N^2); in fact you can easily do this in O(N log N) as follows.

  • Sort intervals by their upper bound: O(N log N)
  • For-each interval: O(N)
    • If this interval's lower bound is lower than the previous interval's upper bound, then there's overlap
  • If you didn't find any overlap in the for-each, then there's no overlap.

So for the two testcases you've given, this is how it'll work:

  (2, 10), (2, 3), (8, 12)

Sorted by upper bound:
  (2, 3), (2, 10), (8, 12)

  (2, 10), (0, 1), (11, 12)

Sorted by upper bound:
  (0, 1), (2, 10), (11, 12)
      |____|   |____|
        OK!      OK!        NO OVERLAP!

To do this in Java, you'd want to use:

share|improve this answer

Here's a little test case:

package playground.tests;

import java.util.ArrayList;
import java.util.List;

import junit.framework.TestCase;
import playground.Range;

public class NonoverlappingRangeListsTest extends TestCase {
    public void testOverlap() throws Exception {
        assertFalse(new Range(0, 5).overlaps(new Range(6, 7)));
        assertTrue(new Range(0, 5).overlaps(new Range(3, 7)));
        assertTrue(new Range(0, 5).overlaps(new Range(7, 3)));
        assertTrue(new Range(0, 5).overlaps(new Range(-1, 0)));
        assertTrue(new Range(0, 5).overlaps(new Range(5, 6)));
        assertTrue(new Range(0, 5).overlaps(new Range(2, 3)));

    public void testIsNonoverlappingList() throws Exception {
        List<Range> list = new ArrayList<Range>();
        list.add(new Range(0, 5));
        list.add(new Range(6, 7));
        list.add(new Range(2, 3));


And a class that passes the test:

package playground;

import java.util.List;

public class Range {

    private final int from;

    private final int to;

    public Range(int from, int to) {
        this.from = Math.min(from, to); = Math.max(from, to);

    public boolean overlaps(Range that) {
        return this.from <= && that.from <=;

    public static boolean isNonoverlapping(List<Range> ranges) {
        for (int i = 0; i < ranges.size(); i++)
            for (int j = i + 1; j < ranges.size(); j++)
                if (ranges.get(i).overlaps(ranges.get(j)))
                    return false;
        return true;

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foreach i1 in interval
   foreach i2 in interval
      if (i1 != i2)
         if (overlap(i1, i2))
            return true;


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You need something more like "if (overlap(i1, i2)) return Invalid;" – Matti Virkkunen Apr 15 '10 at 13:51

You can create and boolean array with the size of the max number you can get, say bool mem[MAX_SIZE], then for each of those rows, you will set the according TO-FROM range in that boolean array to true, true meaning that this position is already occupied.

Something like this:

void mark(int to, int from){
  for(int i=to; i<= from; i++)
     mem[i] = true; //falls into an already-existing interval

then, when you want to process the rows, as your example states, a sufficient condition to signal an illegal operation is that either TO or FROM overlaps an already processed interval

boolean isOverlap(int to, int from){
   if(mem[to] == true || mem[from] == true)
       return true;

If your MAX_SIZE is relatively big, then the array will get bigger, but it does save you processing time over some nested for loops.

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It looks like a lot of the answers here are pretty spot-on. There is, however, a well understood data-structure for this that might be of use to you: Interval Tree.

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Set numbers = new HashSet()

while more numbers { read next number; if not exist in numbers continue else fail validation; }

(or I completly misunderstood the question...)

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This wouldn't really work with intervals. – Matti Virkkunen Apr 15 '10 at 13:50

I would do it like so:

public boolean overlap(List<Interval> intervals) {
    int countMinusOne = intervals.size() - 1;

    for (int i = 0; i < countMinusOne; i++) {
        Interval first = intervals.get(i);

        for (int j = i + 1; j <= countMinusOne; j++) {
            Interval second = intervals.get(j);

            if (second.getStart() <= first.getEnd() &&
                second.getEnd() >= first.getStart()) return true;

    return false;

This assumes that the start of an interval is always smaller than the end of an interval. It does as little checks as possible.

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