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Given are a number of finite sets of integers, for example:

A = {1,2,3}
B = {2,3,4}
C = {3,4,5}

and also a number, for example 6. The question is to determine from the sets the numbers that cannot be used to sum 6 by selecting one number from each set. For example the 1 in A is valid, because 1+2+3=6 (the 2 coming from B and the 3 from C). The 5 from the C is not valid, because you can't sum to 6 by using the 5 (you will always get at least 1+2+5=8).

How can you do this efficiently?

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Sounds like homework. –  Stefan Arentz Feb 26 '11 at 22:09
Could 1 be in the B-set as well, ie. both A and B contains 1? –  Lasse V. Karlsen Feb 26 '11 at 22:09
you should be able to obtain some sort of (logN)^3 [i think] algorithm by using binary searches and elimination of invalid halfs. assuming sets are sorted –  Anycorn Feb 26 '11 at 22:11
@aaa: If they weren't sorted, it would still only take N*logN time to sort them, and so your complexity would still apply. –  Jeremiah Willcock Feb 26 '11 at 22:14
@Jer I adjusted the comment slightly - i think 3N*logN isnt right –  Anycorn Feb 26 '11 at 22:16

1 Answer 1

up vote 4 down vote accepted

I assume 3 sets is just an example and the actual number of sets isn't fixed

Let's say we have m sets with n numbers total and maximum possible sum S. (In your example m = 3, n = 9, S = 12).

Then question whether number t from set s can be used to achieve sum x is equivalent to the following: can the other m - 1 sets (except set s) add up to a number x - t?

This problem has pseudo-polynomial solution of complexity O(n*S), much like the one for subset sum problem.

Therefore, you can solve this problem for each combination of m - 1 sets and it'll give you O(n*S*m) complexity.

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@Jeremiah Yes, if you can have negative numbers. Even if x = 10, you can still have solution employing numbers 100 and -90. –  Nikita Rybak Feb 26 '11 at 22:25
I forgot about that case. The question does say "integers." –  Jeremiah Willcock Feb 26 '11 at 22:26
Thanks, this improved the performance a lot! My sets are often quite dense, like A = {1,2,3,4,6}, B = {1,3,4,5,6}, C = {1,2,4,5,6}, etc. So while my old brute force method would generate 5^n pairs and check them, your method does it in linear time :) –  Jules Feb 27 '11 at 12:13

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