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I'm thinking this might be NP-complete, but I'll ask anyway. Greedy algorithms don't seem to work in my head.

Given a set of items, each with 1 or more tags, I want to find the smallest set of tags that cover all the items.

Edit: See my "solution" here.

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just for reference, the naive algorithm is n*2^k. just iterate over the power set of the tags and check that each tagged item is covered by the current set. n is the number of tagged items, k is the number of tags. –  aaronasterling Oct 9 '10 at 5:28
    
so... given 1000 items and 3000 tags... I'm looking at 1.2e906 operations... i.e., unsolvable... so much for that plan. –  Mark Oct 9 '10 at 7:19
    
@Mark, for the most naive way to get optimal solution it's n*2^k. I'm not sure about better ways though. If you just want an approximation, it can probably be improved well beyond that. –  aaronasterling Oct 9 '10 at 8:59
    
weird...looks like this question got rolled back... I made a bunch of edits to it yesterday, but they're gone. –  Mark Oct 9 '10 at 19:08
    
@Mark: If you know that some tags/subsets are bigger than others, you can greedily try solutions with those first, and skip untried solutions that must be composed of more sets than the best known solution. It's all about pruning, and depending on the distribution of tags, could be easy to solve quickly. Careful how you rank subsets of the conditional remaining set, though. The intersection operation needs to be fast. –  Potatoswatter Oct 9 '10 at 20:52

1 Answer 1

up vote 6 down vote accepted

This is the Set Cover problem, which is NP-complete. Each tag defines a subset of your list of items, and you want to find the minimum number of subsets (tags) whose union equals the full list of items.

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Knew it'd have a name...just didn't know what it was called. Now I can investigate further, thanks :) –  Mark Oct 9 '10 at 7:08

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