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I'm analyzing some code for its dependencies. Let's say there are some interwoven dependencies, like so:

      A         /|
      |        / |
      |       /  |
      V      <   V
       \   /     |
        > <      |

B depends on A and C C depends on B and F E depends on C and F D depends on B and C and E

We have a problem with B and C, they depend on each other. They should be combined into a super-node. We have a problem with C and E and F, they have a cycle. They should be combined into a super-node.

You would end up with


Is there a good library or algorithm source (Java prefered, but open to suggestions) that allows for such reduction?

Any nodes in a cycle are combined into a single node. Any node that pointed to any node in the new node should point to the new node. Any node pointed to by any node in the new node should cause the new node to point to that node.


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up vote 3 down vote accepted

I believe you are asking to combine the strongly connected components of the graph. Yes?

I don't remember the algorithm, will try to look it up.

Edit: The one we learned is Tarjan's. I don't remember it well enough to teach, but here is the Wikipedia page.

I'll try to give the basic idea. Give each node an index #. Then give each node a lowlink #. The lowlink is the index of the node at the root from us: the first node to be considered that can find a path to us. If our lowlink == our index, then we are the root of a strongly connected component. Otherwise, we are in the same component as our lowlink is. By doing this over the whole graph, we can determine which nodes are parts of which strongly connected components.

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Indeed, that's exactly what I'm looking for. Tarjan's algorithm appears simple enough to implement myself, but I'll gladly accept links if you have them for a Java implementaiton. – corsiKa Apr 1 '11 at 0:01
Sorry, I don't. I feel like the algorithm as I learned it was a bit different from the wiki page, without the stack...Hopefully someone else will have it? – usul Apr 1 '11 at 0:07
Actually, wikipedia has a link. Of course, it's wiki, so at your own risk. Good luck! – usul Apr 1 '11 at 0:08
I'm certainly going to exercise some google-fu with my three new weapons (algorithms from the wiki page.) Thanks so much! – corsiKa Apr 1 '11 at 0:09

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