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I have an array A of length N of negative as well as positive integers. I need to count the number of subsets in this array which add up to a multiple of a number M (or 0 (mod M))
For example:

Let A = {1,2,8,4,5}, M = 9,
Then, there are 4 such subsets:

  • {}: Empty set, corresponding to the multiple 0,
  • {1,8}: corresponding to the multiple 9,
  • {4,5}: corresponding to the multiple 9
  • {1,8,4,5}: corresponding to the multiple 18.

I thought of generating all possible multiples and then applying dynamic programming subset sum, but the constraints won't allow me that.

1 =< N <= 10^5,
1 =< M <= 100,
-10^9 =< each entry of array <=10^9

What should be my approach for this sort of problem?

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What's the question? –  Brian Cain Apr 8 '14 at 18:20
dynamic programming can definitely solve this problem. it has overlapping subproblems and optimal structure. go get em tiger! –  Steve Cox Apr 8 '14 at 18:53
You may use a recursive function updating an array of length M which is the number of subsets which add up to i mod M...Since M is small, it should work. –  francis Apr 8 '14 at 18:57

1 Answer 1

up vote 0 down vote accepted

You can solve this problem by dynamic programming, albeit extensive for large M and fast for small M. For each j satisfying 0 <=j <= M-1, and each integer k satisfying 0 < k <= N, let f(k,j) be the number of subsets of array elements between 1 and k that add up to give a sum of j mod M. Then to extend the counter f(k,j) to f(k+1,j') for all j' you just need to take the (k+1)th element X in your sequence and set f(k+1,j') = f(k,j') + f(k,j' - X mod M). When you iterate over all j satisfying 0 <= j <= M-1 for each k and then successively iterate over all k satisfying 0 <= k <= N, you will get your answer at f(N,0). Total complexity is O(MN), which for small M is basically linear in N, optimal.

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Damn!..I was so busy trying to reduce it to a problem which i had already solved, that i forgot to start my own design! –  aceBox Apr 9 '14 at 19:23
What would be the base condition? –  Tejas Patel Apr 13 '14 at 8:26

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