# Find sum in array equal to zero

Facebook and Stack Exchange are now working together to support the Facebook developer community. Facebook engineers participate here along with the best Facebook developers in the world. If you have a technical question about Facebook, this is the best place to ask.

Given an array of integers, find a set of at least one integer which sums to 0.

For example, given `[-1, 8, 6, 7, 2, 1, -2, -5]`, the algorithm may output `[-1, 6, 2, -2, -5]` because this is a subset of the input array, which sums to 0.

The solution must run in polynomial time.

-
Also why is there no "set bounty" button on my question? Does it have to be a certain age? – Olhovsky Jan 31 '11 at 8:53
looks like homework – Mitch Wheat Jan 31 '11 at 8:53
The subset sum problem is NP-complete. There is only a polynomial-time approximation. – miku Jan 31 '11 at 8:54
See the faq about your bounty question. "Questions must be at least 2 days old to be eligible for a bounty." – froeschli Jan 31 '11 at 8:55
@froeschli, Ah, I missed that. Thanks. – Olhovsky Jan 31 '11 at 8:57
show 1 more comment

You'll have a hard time doing this in polynomial time, as the problem is known as the Subset sum problem, and is known to be NP-complete.

If you do find a polynomial solution, though, you'll have solved the "P = NP?" problem, which will make you quite rich.

The closest you get to a known polynomial solution is an approximation, such as the one listed on Wikipedia, which will try to get you an answer with a sum close to, but not necessarily equal to, 0.

-
Well, that's why he wants to assign a bounty. Proving P=NP comes at a price, and the OP knows that. – Mark Peters Jan 31 '11 at 8:56
It's co-NP but there is a pseudo polynomial time algorithm for it, and by current limitations on normal PCs this can be done fast enough. – Saeed Amiri Jan 31 '11 at 9:07

This is a Subset sum problem, It's NP-Compelete but there is pseudo polynomial time algorithm for it. see wiki.

The problem can be solved in polynomial if the sum of items in set is polynomially related to number of items, from wiki:

The problem can be solved as follows using dynamic programming. Suppose the sequence is

``````x1, ..., xn
``````

and we wish to determine if there is a nonempty subset which sums to 0. Let N be the sum of the negative values and P the sum of the positive values. Define the boolean-valued function Q(i,s) to be the value (true or false) of

``````"there is a nonempty subset of x1, ..., xi which sums to s".
``````

Thus, the solution to the problem is the value of Q(n,0).

Clearly, Q(i,s) = false if s < N or s

P so these values do not need to be stored or computed. Create an array to hold the values Q(i,s) for 1 ≤ i ≤ n and N ≤ s ≤ P.

The array can now be filled in using a simple recursion. Initially, for N ≤ s ≤ P, set

``````Q(1,s) := (x1 = s).
``````

Then, for i = 2, …, n, set

``````Q(i,s) := Q(i − 1,s) or (xi = s) or Q(i − 1,s − xi)   for N ≤ s ≤ P.
``````

For each assignment, the values of Q on the right side are already known, either because they were stored in the table for the previous value of i or because Q(i − 1,s − xi) = false if s − xi < N or s − xi > P. Therefore, the total number of arithmetic operations is O(n(P − N)). For example, if all the values are O(nk) for some k, then the time required is O(nk+2).

This algorithm is easily modified to return the subset with sum 0 if there is one.

This solution does not count as polynomial time in complexity theory because P − N is not polynomial in the size of the problem, which is the number of bits used to represent it. This algorithm is polynomial in the values of N and P, which are exponential in their numbers of bits.

A more general problem asks for a subset summing to a specified value (not necessarily 0). It can be solved by a simple modification of the algorithm above. For the case that each xi is positive and bounded by the same constant, Pisinger found a linear time algorithm.[2]

-
co-NP and NP-complete are two different things. – Aryabhatta Jan 31 '11 at 18:03
It is not known to be in co-NP because if there is no solution to a given problem, there is not any known short certificate which can prove this. It is known to be NP-complete, and hence in NP, but that does not imply membership in co-NP. – Keith Irwin Jan 31 '11 at 18:26
@Keith: NP=co-NP is an open problem and if an NP-Complete problem is in co-NP, then NP=co-NP. – Aryabhatta Jan 31 '11 at 21:20
@Moron: Yes, I know. I'm not sure that's relevant to what Saeed was saying or my comment on it, however. – Keith Irwin Feb 2 '11 at 9:29
@Keith: It is relevant to your comment. A more convincing reason that it is not in co-NP is that it is NP-Complete, not that we can't find a short certificate, which is kind of true for Composite/Prime (checking if a number is composite/prime), which is in both in NP and co-NP (in fact in P). I was only agreeing and trying to make your comment more convincing. Anyway, end of discussion for me... – Aryabhatta Feb 2 '11 at 18:08

It is well known Subset sum problem which NP-complete problem.

If you are interested in algorithms then most probably you are math enthusiast that I advise you look at

and here you can find the algorithm for it

initialize a list S to contain one element 0.

for each i from 1 to N do

let T be a list consisting of xi+y, for all y in S

let U be the union of T and S sort U

make S empty

let y be the smallest element of U