Well, I've been given a number of pairs of elements `(s,h)`

, where `s`

sends an `h`

element on the `s`

-th row of a 2d array.It is not necessary that each line has the same amount of elements, only known that there cannot be more than N elements on a line.

What I want to do is to find the lowest biggest difference(!) between a certain element of the first line and the rest ones.

Thus, if I have 3 lines with `(101,92) (100,25,95,52,101) (93,108,0,65,200)`

what I want to find is 3, because I have to choose 92 and I have 95-92=3 from first to second and 93-92=1 form first to third.

I have reached a point where it is certain that if I have `s`

lines with `n(i)`

elements each and `i=0..s`

, then `n0<=n1<=...<=ns`

so as to have a good average performance scenario when picking the best-fit from 1st line towards the others.

However, I cannot think of a way lower than O(n^{2}) or even maybe O(n^{3}) in some cases. Does anyone have a suggestion about a fairly improved way to do this?