Let's say I have three arrays `a`

, `b`

, and `c`

of equal length `N`

. The elements of each of these arrays come from a totally ordered set, but are not sorted. I also have two index variables, `i`

and `j`

. For all `i != j`

, I want to count the number of index pairs such that `a[i] < a[j]`

, `b[i] > b[j]`

and `c[i] < c[j]`

. Is there any way this can be done in less than O(N ^ 2) time complexity, for example by creative use of sorting algorithms?

Notes: The inspiration for this question is that, if you only have two arrays, `a`

and `b`

, you can find the number of index pairs such that `a[i] < a[j]`

and `b[i] > b[j]`

in O(N log N) with a merge sort. I'm basically looking for a generalization to three arrays.

For simplicity, you may assume that no two elements of any array are equal (no ties).

`a`

,`b`

and`c`

in a sorted order? – Davidann Jan 19 '11 at 18:31canbe sorted, but are not. – larsmans Jan 19 '11 at 19:31