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We have two unsorted arrays and each array has a length of n. These arrays contain random integers. How to find if these two arrays have any common elements in Θ(n*logn) time?

Sorting is not allowed.

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have you tried anything first? –  Narendra Pathai Dec 2 '12 at 13:02
Are there any space restrictions? –  Gumbo Dec 2 '12 at 13:02
With O(n) space it can be done by simply inserting all elements of one array to a set (tree) and iterating the other one while checking if some element is in there (though this is cheating, since the tree is sorted data structure...). Using a hash table instead of a tree will get you average case of O(n). –  amit Dec 2 '12 at 13:03
@amit That would require a loop running for n lg n iterations afterwards to achieve Θ(n lg n) ;) –  larsmans Dec 2 '12 at 13:11
Is this a school assignment? –  Jive Dadson Dec 2 '12 at 13:26

1 Answer 1

Let A and B be your unsorted arrays, both of length n. You may use an hash table, as suggested by @amit; however, there is an even faster algorithm. Since Card(A) = Card(B), a fast intersection algorithm is to use a Bloom filter to store the sets, and then intersection is implemented with bitwise AND operations. This still requires O(n), but it is a better result with regard to constants and lower order terms hidden within the asymptotic notation.

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The hash table requires O(N) steps, and you can't do better than that. –  wildplasser Dec 2 '12 at 14:24
You can do better with regard to constants and lower order terms hidden within the asymptotic notation, while achieving the same O(n) upper bound. –  Massimo Cafaro Dec 2 '12 at 15:20

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