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This is an interview question.

Given an array of integers and an integer target, find all combinations which sum up to target. Don't output duplicates. e.g., [2,3,4], target is 5. then output should be [2,3], or [3,2], but not both.

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Is the array sorted? Do we know anything else about it (i.e. range of the numbers it holds)? – Mateusz Dymczyk Aug 30 '11 at 21:41
[2,3,4], target is 4, output? [2,2], [4]? – TheHorse Aug 30 '11 at 21:42
@ Zenzen, good points. However, this is the question that was asked. – q0987 Aug 30 '11 at 21:42
@ TheHorse, [2, 3, 4] target is 4, output [4] – q0987 Aug 30 '11 at 21:42
@q0987: well those are rather basic questions that should be answered by the interwiever :) Withouth that knowledge you can only quess what's the proper way to do it. – Mateusz Dymczyk Aug 30 '11 at 21:45

If I understand correctly, this is the subset sum problem.

Quoting from wikipedia's subset sum problem:

An equivalent problem is this: given a set of integers and an integer s, does any non-empty subset sum to s?

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It's actually a bit bigger than the usual subset sum problem, which is a decision problem ("does such a subset exist?") or sometimes demands an example as a proof ("if such a subset exists, exhibit one"), but doesn't normally ask for all such subsets. – Steve Jessop Aug 30 '11 at 23:07

In python

>>> L=[2,3,4]
>>> from itertools import combinations
>>> for i in range(len(L)):
...     for j in combinations(L,i):
...         if sum(j) == 5:
...             print j
(2, 3)
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+1 for itertools. – J0HN Aug 31 '11 at 7:16

It looks like knapsack problem which is np-complete hence probably there doesn't exist an effective algorithm for solve this problem.

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Nope, this isn't a knapsack problem. Even a brute force algorithm here takes at worst n^2. – Mateusz Dymczyk Aug 30 '11 at 21:48
ok you're right – ninjaaa Aug 30 '11 at 21:51
well i may be off with the complexity but its definitely doable :) – Mateusz Dymczyk Aug 30 '11 at 21:56
@Zenzen - It is the knapsack problem? (See my answer) I think you meant 2^n. – Ishtar Aug 30 '11 at 22:07
Hm yeah the complexity seems ok, but still I'm not sure this is the knapsack problem per se. Something similar but not the same. Or am I wrong? I'm pretty sure I've read about a constant-time solution on a very similar problem somewhere. Maybe it was Concrete Mathematics? – Mateusz Dymczyk Aug 30 '11 at 22:20

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