Okay, I keep getting stuck with the complexity here. There is an array of elements, say `A[n]`

. Need to find all pairs so that `A[i]>A[j]`

and also `i < j`

.

So if it is `{10, 8, 6, 7, 11}`

, the pairs would be `(10,8) (10, 6), (10,7) and so on...`

I did a merge sort in nlogn time and then a binary search for the entire array again in nlogn to get the indices of the elements in the sorted array.

So `sortedArray={6 7 8 10 11}`

and `index={3 2 0 1 4}`

Irrespective of what I try, I keep getting another `n^2`

time in the complexity when I begin loops to compare. I mean, if I start for the first element i.e. 10, it is at `index[2]`

which means there are 2 elements less than it. So if `index[2]<index[i]`

then they can be accepted but that increases the complexity. Any thoughts? I don't want the code, just a hint in the right direction would be helpful.

Thanks. Everything i have been doing in C and time complexity is important here c

`[10,9,8,...,1]`

produce`(10,9),...,(10,1),(9,8),...(9,1),...`

as pairs - and there are`O(n^2)`

of these? – amit Aug 29 '12 at 11:12