Let A be an array of n positive integers, and k a given integer.

I'm looking for algorithm to find if there is a pair of elements in the array such that A[i] * A[j] == k and A[i] == A[j] + k. If there is such a pair, the algorithm should return their index.

This is a homework exercise, and we're told that there is an O(n*log(n)) solution.


Here is somewhat clarified Graphics Noob's solution.

Also, it is more like O(N) (assuming hashing won't fail us), not O(N*log(N)).

Result findMultiplicationIndices(int[] A, int[] B, int k)
    HashMap<Integer,Integer> aDivisors = new HashMap<Integer,Integer>();
    for(int i=0;i<A.length;i++)
        int a = A[i];
            int d = k/a;
            if(d*a == k) 
                aDivisors.put(d, i);
    for(int i=0;i<B.length;i++)
        Integer ai = aDivisors.get(B[i]);
        if(ai != null)
            return new Result(ai, i);
    return null;
  • Rotsor thanks for you effort... wondering why no one haven't suggested to use heap :) – Hades200621 Jun 10 '10 at 1:48
  • Yes, this even works when all a are the same. – bbudge Jun 10 '10 at 1:56
  • @gleb-pendler Maybe because heap is basically the same thing as sorted array in our case? Heap is good for adding items on the fly, otherwise it just sorts. – Rotsor Jun 10 '10 at 1:58
  • This doesn't work when all A are 0 and k = 0. – bbudge Jun 10 '10 at 2:02
  • It should now. Ugly though, needed 9 lines of code to handle such a simple case (k==0) O_O – Rotsor Jun 10 '10 at 2:13

First thing off the top of my head:

Make a Map<Integer, Integer>

for each number a in A:
   if (k / a) is a key in the HashMap:
      output the index of a, and HashMap.get(k/a)
      HashMap.add(a, indexof(a))

So it's O(n) to traverse the array, and O(log n) to look up the key in the Map (assuming you used a TreeMap, a HashMap could be better in the best case but worse in the worst case)

Edit: I guess that only answers a) but you get the idea

  • Jean-Bernard Pellerin was first so accepted his answer as well as Graphics Noob (not so noob after all :?) for the more effect running time thanks alot people this forum is realy great... – Hades200621 Jun 10 '10 at 1:30
Sort the array. Also build a permuted index array by initializing an auxiliary array to 0, 1, 2 ... n and swapping indices every time you swap elements in the array, Time O(nLog(n))

for each element a[i] in array, Time O(n)

  Binary Search for (a) k / a[i] or (b) a[i] - k, if found, return index j from permuted index array, Time O(log(n))
  • I won the race :D – Jean-Bernard Pellerin Jun 10 '10 at 0:55
  • You didn't say binary search! – bbudge Jun 10 '10 at 0:56
  • Also, I wonder if we'll get an 'A'? – bbudge Jun 10 '10 at 0:57
  • Darn, I took for granted a sorted list would be binary searched. w/e points for both of us :) And I'm sure we'll get an A, but now the question is googlable for his classmates so the curve will get him! – Jean-Bernard Pellerin Jun 10 '10 at 1:01
  • I'm wondering how CS profs can assign homework in a world with StackOverflow... – bbudge Jun 10 '10 at 1:04

use nlog(n) to sort
then itterate through the array
for each index i calculate what A[j] would need to be in order for the equation to be satisfied
check to see if theres such a value in the array

O(nlogn) + O(N)*O(logn)


If k is fixed, then there are finitely many integers x, y such that x*y = k. For each factor (x,y), iterate through the list finding whether A[i] = x or A[i] = y. Total run time = O(n) * # factors of k = O(n) (deterministically, not assumptions about hashing)

The problem states that A[i] are all positive, so k can be decomposed x + y = k in finitely many ways as well, so O(n) as well.

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