# Permuting rows in an array to eliminate increasing subsequences

The following problem is taken from Problems on Algorithms (Problem 653):

You are given a n x 2 matrix of numbers. Find an O(n log n) algorithm that permutes the rows in the array such that that neither column of the array contains an increasing subsequence (that may not consist of contiguous array elements) longer than ⌈√n.⌉

I'm not sure how to solve this. I think that it might use some sort of divide-and-conquer recurrence, but I can't seem to find one.

Does anyone have any ideas how to solve this?

• longer than square root of n? Aug 30, 2011 at 20:30
• its the 653 problem in the book 'Problems on algorithms'
– GEP
Aug 30, 2011 at 20:36
– GEP
Aug 30, 2011 at 20:38
• i think its divide and conquer i suspect the merging step involves some mathematics too.
– GEP
Aug 30, 2011 at 21:03

Heres's my solution.

1) Sort rows according to the first element from greatest to lowest.

``````1 6    5 1
3 3 -\ 3 3
2 4 -/ 2 4
5 1    1 6
``````

2) Divide it into groups of ⌈√n⌉, and what is left(no more then ⌈√n⌉ groups)

``````5 1    5 1
3 3 -\ 3 3
2 4 -/
1 6    2 4
1 6
``````

3) Sort rows in each group according to the second element from greatest to lowest

``````5 1    3 3
3 3    5 1
->
2 4    1 6
1 6    2 4
``````

Proof of correctness:

Increasing subsequences in column 1 can happen only in single group(size is <= ⌈√n⌉),

No 2 elements of increasing subsequences in column 2 are in the same group(no more than ⌈√n⌉ groups)

• Ahh, so simple. Why didn't I see that? Good job. Aug 31, 2011 at 12:18
• Around 5 minutes. I started with thinking how would I solve 1xn problem(a single column). Aug 31, 2011 at 18:02
• Pencil and paper always help. Sep 1, 2011 at 10:38