Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a very large list comprising of about 10,000 elements and each element is an integer as big as 5 billion. I would like to find the sum of maximal elements from every possible subset of size 'k' (given by the user) of an array whose maximum size is 10,000 elements. The only solution that comes to my head is to generate each of the subset (using itertools) and find its maximum element. But this would take an insane amount of time! What would be a pythonic way to solve this?

share|improve this question
4  
combinations is a generator, I would assume the program doesn't "hang" here. Can you show more code? –  Lev Levitsky Feb 3 '13 at 17:18
3  
What's your k? binomial(10000, 4) == 416416712497500. Unless k <= 3 or k >= 9997, then in practice you're never going to make it through all the combinations of a 10,000 element list. –  DSM Feb 3 '13 at 17:28
3  
list(itertools.combinations(range(5000),3)) would have 20820835000 elements. You don't have nearly enough memory to store that, even if you were that patient. Whatever problem you're trying to solve, if it's a contest problem, then there's a smarter way to solve it than manually looping through, much less instantiating in memory, enormous lists. –  DSM Feb 3 '13 at 17:52
1  
@coding_pleasures: edit that into your question. You've just fallen victim to the XY problem, where instead of asking about your real problem, you ask about your attempted solution. –  DSM Feb 3 '13 at 18:03
1  
But anyway: You can write a for-loop that runs over the (huge number of) results generated by itertools.combinations(). Just don't try to collect them all into a list-- that's why iterators are so useful. –  alexis Feb 3 '13 at 18:05

1 Answer 1

Don't use python, use mathematics first. This is a combinatorial problem: If you have an array S of n numbers (n large), and generate all possible subsets of size k, you want to calculate the sum of the maximal elements of the subsets.

Assuming the numbers are all distinct (though it also works if they are not), you can calculate exactly how often each will appear in a subset, and go on from there without ever actually constructing a subset. You should have taken it over to math.stackexchange.com, they'd have sorted you out in a jiffy. Here it is, but without the nice math notation:

Sort your array in increasing order and let S_1 be the smallest (first) number, S_2 the next smallest, and so on. (Note: Indexing from 1).

  1. S_n, the largest element, is obviously the maximal element of any subset it is part of, and there are exactly (n-1 choose k-1) such subsets.

  2. Of the subsets that don't contain S_n, there are (n-2 choose k-1) subsets that contain S_{n-1}, in which it is the largest element.

  3. Continue this until you come down to S_k, the k-th smallest number (counting from the smallest), which will be the maximum of exactly one subset: (k-1 choose k-1) = 1. Smaller numbers (S_1 to S_{k-1}) can never be maximal: Every set of k elements will contain something larger.

  4. Sum the above (n-k+1 terms), and there's your answer:

    S_n*(n-1 choose k-1) + S_{n-1}*(n-2 choose k-1) + ... + S_k*(k-1 choose k-1)
    

    Writing the terms from smallest to largest, this is just the sum

    Sum(i=k..n) S_i * (i-1 choose k-1)    
    

If we were on math.stackexchange you'd get it in the proper mathematical notation, but you get the idea.

share|improve this answer
    
PS. How does one flag a question for migration? I've read complaints about the current system on meta, but don't see how to do it if the site doesn't show up in the short list of options... –  alexis Feb 3 '13 at 18:36
    
The only way is to flag for moderator attention. But I think this question belongs here rather than math.se since it's an algorithms question, and the math involved is rather basic. –  interjay Feb 3 '13 at 18:38
    
I think there must be a closed-form sum, but I can't even write n-choose-k on this site. But let's see. –  alexis Feb 3 '13 at 18:40
    
@alexis The numbers are distinct. Unfortunately I didn't 'get' your solution. Could you explain how to calculate exactly how often each number will appear in a subset? –  coding_pleasures Feb 3 '13 at 18:46
    
I hadn't given you the solution yet. See the edited answer. –  alexis Feb 3 '13 at 18:54

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.