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Given a number k and a set of sorted numbers. Find if there is any number in the set which divides this number.

For example if k = 8, and set is { 3, 4, 5}, 4 will divide 8. 4 is the answer.

Worst case solution is O(n).

Can we do it better?

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Can you describe your worst case solution? What have you thought of yourself so far? Also, will the set always contain consecutive numbers? Why is 4 the answer? 2 divides 8 as well. –  Björn Pollex Mar 1 '11 at 9:43
why 2 is not the answer? –  Naveen Mar 1 '11 at 9:44
Why 2 is not the answer? Do you need any number or the largest number or just found, not found will do? –  Manoj R Mar 1 '11 at 9:45
why 1 is not the answer? –  SWeko Mar 1 '11 at 9:45
You can certainly do O(sqrt(k)*log(n)), for the class of cases where that's smaller than O(n). Generate all factors of k, look each one up in the set. –  Steve Jessop Mar 1 '11 at 9:49

3 Answers 3

How about factorize the number (8 gives us 4 2 1) then search for the factors in your given set? You can use set intersections or bisection search your list of factors. I think it will give you a quicker answer for large sets.

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What is the best way to factorize a number? –  sunmoon Mar 1 '11 at 9:50
@sunmoon en.wikipedia.org/wiki/Integer_factorization –  Let_Me_Be Mar 1 '11 at 9:52
... but you will have to factorize the numbers in the set to, to make a proper intersection - unless I'm missing something. –  ltjax Mar 1 '11 at 10:00
Regarding this problem, I don' think so since he said "Find if there is any number in the set which divides this number.". So we are looking up whether our factors are in the set. Nothing more. Coming to think about set intersections, I think they would would perform badly since by definition, they are unordered and an intersection is O(n). Ouch! So i'd go with a binary search of the factors - en.wikipedia.org/wiki/Binary_search_algorithm –  Lmwangi Mar 1 '11 at 10:11
Oh, I was thinking you wanted to do an intersection on just the prime factors. But all the factors? that's insane for large numbers. The number of primes below a value v is approximately v/ln(v), and all their combinations will give you a lot more. –  ltjax Mar 1 '11 at 10:23

If k is prime, it has no factors in the set and you're done. Otherwise, k = p*q where p is k's smallest factor. Do a binary search for q. If found, you're done. Otherwise, refactor k=p'*q', where p' is the next largest factor of k after p -- if none, you're done. Otherwise, continue the binary search for q' -- note that q' < q, so you can continue the search with the high bound used for q. Continue until a factor is found or you've searched for k's largest factor. This is O(logn). In the concrete case of k = 8, you would search first for 4, then for 2 ... if neither is found then the set does not contain a divisor of k.

EDIT: Hmmm ... I guess this isn't O(logn). If, e.g., the list contained f-1 for every factor f of k, then you would have to search for each f in succession, hitting f-1 each time ... that would be O(n).

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Calculate the gcd of k and the product of the members of the set. For the example, gcd(3*4*5,8) = 4.

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