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Let's say I have two strings:


The size of the maximum subarray in the strings is 2: "lo".

Here's another example:

Maximum subarray: "BBAB"
Size: 4

Basically, how can I solve this problem in the most efficient way?

My idea is the following:

  • Generate all subarrays for one string
  • Generate all subarrays for the other string;
  • Compare all subarrays
  • The result is the size of the largest matching subarrays

But I think this is some bad-looking brute force. Any idea of how I can improve this?

Thank you!

EDIT I'll need the string too.

share|improve this question
is it the longest common subsequence problem? maybe this could help, even if there's no C++! – ShinTakezou Apr 19 '12 at 16:55
@ShinTakezou No, it's the longest common substring - it is much easier than LCS. – dasblinkenlight Apr 19 '12 at 16:56
@dasblinkenlight thanks, I've read too swiftly and unthinking – ShinTakezou Apr 19 '12 at 17:18
up vote 5 down vote accepted

This is a well-known problem called Longest Common Substring. It can be solved in O(mn), where m and n are lengths of the individual strings, using dynamic programming approach. The article in Wikipedia contains easy-to-follow pseudocode.

share|improve this answer
But the algorithm I found returns the length, I need the string too. – David Gomes Apr 19 '12 at 17:12
@user996056 There is a link in the article that takes you to implementations in various languages. The second C# implementation there returns the string. – dasblinkenlight Apr 19 '12 at 17:18
It can be solved much better that O(mn). The optimal solution is O(m + n), which can be attained through a number of different graph algorithms. – ex0du5 Apr 19 '12 at 18:30
@ex0du5 That's true, the article explains how to do it with a generalized suffix tree. It is a lot more complex to implement, though, so it's probably not worth it unless you're looking for matches among multiple strands of DNA :) – dasblinkenlight Apr 19 '12 at 18:59

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