# A graph problem

I am struggling to solve the following problem

http://uva.onlinejudge.org/external/1/193.html

However Im not able to get a fast solution.

And as seen by the times of others, there should be a solution of maximum n^2 complexity

http://uva.onlinejudge.org/index.php?option=com_onlinejudge&Itemid=8&category=3&page=show_problem&problemid=129&page=problem_stats

Can I get some help?

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How far have you gotten? What kind of code have you written? –  Sev Jun 11 '10 at 6:07
This problem is NP-complete and I think all passed with optimized bruteforces or incorrect greedys. –  Petar Minchev Jun 11 '10 at 6:10
@Sev I did a brute force on all combinations of vertices and in each step found a clique of size x.Then I deleted all vertices which were not a part of this. Then I did brute force for a clique of size x+1 with the remaining vertices.This continued until there was no clique of size x. Obviously this is too slow. –  copperhead Jun 11 '10 at 6:41

You can only solve this in exponential complexity, but that's not as bad as it sounds, because in practice you'll be able to avoid a lot of bad decisions and thus reduce the running time of the algorithm significantly.

In short, you have to run a DF search from a node and try to color as many nodes black as you can. If you're at a node that has neighboring black nodes, that node can only be white. Keep doing this for every possibility of coloring a specific node.

If you can't figure it out, then check these two code snippets I found by googling for the problem name: one and two. The authors say they get AC, but I haven't tested them. They look correct however.

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It is solving the problem called maximum clique, also called maximum independent set or maximum stable set. It is NP-Complete. Fastest code I know for small graphs is Cliquer: http://users.tkk.fi/pat/cliquer.html

If you are writing your own for educational purposes it is probably most efficient to do a depth first search coloring nodes black one at a time and retreating up the DFS if two black nodes are touching.

The easiest to code solution is implementing a binary counter and trying all 2^n possibilities.

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All 2^n possibilies? - 2^100 will hurt pretty hard:) –  Petar Minchev Jun 11 '10 at 7:35
what will be the complexity of the dfs?? –  copperhead Jun 11 '10 at 7:35
@copperhead - it will also be `O(2^n)` in theory, but it will work much faster in practice because you'll be able to eliminate a lot of invalid solutions very fast. If you do it like that you'll surely get AC. –  IVlad Jun 11 '10 at 8:21
@|V|ad - Can u briefly describe what kind of algo do u have in mind?? –  copperhead Jun 11 '10 at 8:25
@Chad: To nitpick. Maximum clique and Maximum independent set are different problems. For instance finding maximum independent set in a planar graph is NP-Complete, which is not the case for maximum clique for planar graphs. For general graphs, yes, finding max ind set in G is same as finding the max clique in the complement of G, but they are different problems. –  Aryabhatta Jun 11 '10 at 13:32
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Bron–Kerbosch algorithm

I have solved a similar problem on FaceBook puzzles, I used the B-K algo for that.

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What is the meaning of the '\' in pseudocode i.e. ( P \ N(u) ) –  copperhead Jun 11 '10 at 7:58
It means the set P without N(u) –  Petar Minchev Jun 11 '10 at 8:00
I found a sample code (ruby): kanwei.com/code/2009/03/26/facebook-peaktraffic.html –  zengr Jun 11 '10 at 8:02
well, I don't understand Ruby, so do u mind explaining the algo used?? –  copperhead Jun 11 '10 at 8:35