Best case is O(n^2) worst case is O(n^3).

The outer 2 loops execute no matter what.

The first loop runs `i`

= 1 to n. It executes n times.

The second loop runs up `j`

= 1 to `i`

. It executes n * (n - 1) / 2 times, which makes it

O(n^2).

The third loop is behind an if sentence. So in best case scenario, it never executes and in worst case scenario it always executes. The third loop executes n times for each execution of second loop.

So O(n^3) is worst case (if evaluates to true every time).

Let's say n is 11;

First loop executes 10 times.

Second loop executes (1 + 2 + 3 + 4 + 5 + 6 + 7 + 8 + 9 + 10) times which is 10 * 9 / 2 = 45 times.

This is 1/2 * 10^2 - 5 -> O(n^2) since the quadratic function is the biggest.

In case if always evaluates to true, the innermost loop executes:

45 & 10 times = 450 = 1/2 * 10^3 - 50 -> O(n^3), cubic factor being the largest.

ArrayIndexOutOfBoundsException issueon the second array (j), given the array is n long... – ppeterka Sep 23 '13 at 8:37`n`

was the size of the array, using`array.length`

instead of passing in a parameter would've been a way better implementation). – Dukeling Sep 23 '13 at 8:49`if`

is always satisfied or the`if`

is never satisfied, both are covered in MarounMaroun's answer). – Dukeling Sep 23 '13 at 9:01