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The problem is the following: Given a poset's subset S find the maximal elements of S.

For example consider the hass diagram of the poset in http://ndp.jct.ac.il/tutorials/Discrete/node34.html. Given a subset of it ex: {12, 2, 8} the maximal elements are 12 and 8.

I do not know if I describe precisly the problem. I think the problem might involves some sorting or computation of transitive closure but I am a little confused.

Could you give me some approach for a fast algorithm? I would like to keep it in O(n^2)


A little clarification. My application is using RDF graphs. Two nodes are comparable if there exists a specific edge that represent the < relation. Two nodes might be comparable if there is such an explicit relation or an implicit transitive one.

So assume that the hass diagram is exactly my RDF graph. If I start from 2 doing a depth-first search how do I know that the 8 and 12 are not comparable? They might not be explicitly but they might be implicitly.

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If two nodes are comparable wrt. the ordering relation, then at least one of them has to have a successor node that "transfers" the ordering relation, right? –  larsmans Apr 13 '12 at 14:38
Yes that is right. However if you have the path a-b-c, a and c are "implicitly" comparable. Based on that I suspect that I have to compute the transitive closure of every node of the subset and make the "cleaning" of the comparable elements. –  Alex Apr 13 '12 at 15:30
Assuming a-b implies a<b, then c is still a maximal element of {a,b,c} in that case because it has no successor. a is not a maximal element because it has a successor, b. –  larsmans Apr 13 '12 at 16:15
In that path yes. But consider the 2 paths a-b-c-d and a-e-d-f as the graph. And I have only the {a,b,c,f}. c has an "implicit" successor which is f. In this subset only f is maximal. –  Alex Apr 13 '12 at 16:34
Never mind my last comment. Here, too, DFS traversal can find the right answer, but not if you run it on the subset {a,b,c,f} and disregard the rest of the successor relation. –  larsmans Apr 13 '12 at 20:32

1 Answer 1

You can do this in linear time if you know a minimal subset of the ordering relation: regard it as a DAG, then do a depth-first traversal to find all vertices that have no successor.

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Thinking about DFS again, even if I know from where to start (which I don't) the rising question is while traverse the original graph-poset, what to consider as maximal element for the subset. The condition in this case for the no successor doesn't hold for the elements in the subset, since they might have a successor node in the poset. Or an "implicit" one the subset. For example for the graph a-b-c-d and a-e-d-f-g and the subset {a,b,c,f} the f has a successor in the poset but not in the subset. So f is considered as maximal in the subset but not in the poset. –  Alex Apr 14 '12 at 8:46

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