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I was solving this problem :http://uva.onlinejudge.org/index.php?option=com_onlinejudge&Itemid=8&category=286&page=show_problem&problem=3268
and I am stuck and can't find any hints.
The question:

 You will be given an integer n ( n<=10^9 ) now you have to tell how many
 distinct sets of integers are there such that each number from 1 to n can
 be generated uniquely from a set. Also sum of set should be n. eg for n=5 , one such set is:
 {1,2,2} as
 1 can be generated only by  { 1 }
 2 by { 2 }
 3 by {1,2} ( note the two 2's are indistinguishable)
 4 by {2,2}
 5 by {1,2,2}
 for generating a number each number of a set can be used only once. ie for above set
 we can't do {1,1} to generate 2 as only one 1 is there.
 Also the set {1,2,2} is equivalent to {2,1,2} ie sets are unordered.

My approach:

 The conclusion I came to was. Let F(S,k) denote number desired sets of sum S whose 
 largest element is k.Then to construct a valid set we can take two paths from this
state.Either to F(S+k,k) or to F(2*S+1,S+1).I keep a count of how many times I come
to state where S=n(the desired sum) and do not go further if S becomes > n.This is  
clearly bruteforce which I just wrote to see if my logic was correct(which is correct)
.But this will give time limit exceed . How do I improve my approach??I have a 
feeling  it is done by dp/memoization. 
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As you state the problem, the answer is always "infinitely many". The problem is that you've omitted one of the conditions that was put on the original problem of your source: all weights have to add up to n. If you omit that condition, you can always add weights to your set that are larger than n - for example, for n = 5, the sets {1,2,2,6}, {1,2,2,7}, {1,2,2,8} etc. all work as well. A set that always works is taking n copies of the element 1, so we always have a base case we can extend from. –  Erik P. Sep 9 '13 at 20:57
(Note that this problem does not actually deal with sets, but rather with objects traditionally known as a multiset or bag - a set traditionally does not allow for multiple copies of a single element.) –  Erik P. Sep 9 '13 at 20:58
thks I made the edit –  sasha sami Sep 10 '13 at 8:45

1 Answer 1

This is a known integer sequence.

Spoilers: http://oeis.org/A002033

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