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Given a sorted array of integers, can we build a sorted array of the sums of all pairs in O(n^2)?

A trivial solution would be to build the array of sums in O(n^2) and then to sort it in O(n^2 (log(n^2)) = O(n^2 logn) time.

Another solution would be to build n sorted arrays of n numbers each - in O(n^2), and merge them in O(n^2 logn) time (see here for example).

Can we do better?

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Um, why would the first solution be O(n^2 (log^2)n) time? Shouldn't it be O(n^2 log(n^2)) ( = O(n^2 log(n)) ) to sort an array of length n^2? Or do you have in mind using something faster than comparison sorting? –  Ted Hopp Jul 18 '13 at 20:48
a.k.a. Sorting X + Y –  David Eisenstat Jul 18 '13 at 20:48
@DavidEisenstat so the problem is over unless we can think of a solution that doesn't exist yet –  aaronman Jul 18 '13 at 20:49
@DavidEisenstat maybe this can be the first time SO contributes something useful to the world –  aaronman Jul 18 '13 at 20:52
@ChrisHeald That would give you an O(n^2 + arr[-1]) solution instead of an O(n^2) solution, and arr[-1] could be 2^n for example... This wouldn't be an open problem if there was such a simple solution. –  interjay Jul 18 '13 at 21:18

1 Answer 1

up vote 8 down vote accepted

This is an open problem known in the literature as Sorting X + Y. The best result known is an O(n^2 log n)-time algorithm that uses O(n^2) comparisons, due to Lambert and Steiger--Streinu.

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It hasn't been proved that it is the best though, right? –  aaronman Jul 18 '13 at 21:22
@aaronman: That's what open problem means... –  Lior Kogan Jul 18 '13 at 21:24
@aaronman Yes, it's possible that there's an O(n^2)-time algorithm, and as far as I know, the existence of such an algorithm would have no "disastrous" consequences the way P = NP would. That there exists an O(n^2)-comparison algorithm makes life difficult for would-be provers of lowerbounds. –  David Eisenstat Jul 18 '13 at 21:25
@DavidEisenstat: On second thought, maybe X+X (my case) is a special case, where a better solution is already known, or can be achieved? –  Lior Kogan Jul 19 '13 at 6:37
@LiorKogan There's a linear-time reduction from the general case to your special case. –  David Eisenstat Jul 20 '13 at 12:04

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