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I have been trying to learn Tarjan's algorithm from Wikipedia for 3 hours now, but I just can't make head or tail of it. :(


Why is it a subtree of the DFS tree? (actually DFS produces a forest? o_O) And why does v.lowlink=v.index imply that v is a root?

Can someone please explain this to me / give the intuition or motivation behind this algorithm?

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Sorry for the broken link, don't know how to make it work. Please just copy the whole link. –  Nihal Pednekar Jun 13 '12 at 8:26
Broken link fixed ; use the "Globe" icon to use a specific URL on a selected text. :) –  Akarun Jun 13 '12 at 8:30
Noted. Thank you :) –  Nihal Pednekar Jun 13 '12 at 8:35
Would this stackoverflow.com/questions/6643076/… help? Sometimes easier to see in actual, rather than pseudo code –  Dave Jun 13 '12 at 9:43
Not helping much. Thanks though. –  Nihal Pednekar Jun 13 '12 at 9:54
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2 Answers

The idea is: When traversing the tree, every time you've searched through a branch and are backtracking, you check whether you've encountered an edge to an 'upper' node in the tree.

  • If you didn't (if (v.lowlink = v.index)), then you've just completed an SCC - it consists of the current node and all nodes on the stack. That's exactly a subtree of the DFS tree, except for the nodes in SCCs that were already completed.

  • If you did, you propagate this information to 'upper' nodes (v.lowlink := min(v.lowlink, w.lowlink)), because combined with the path in DFS tree the edge creates an 'upward' path.

DFS produces a forest, but you always consider one tree a time. An SCC is always included in one DFS tree, otherwise (being an SCC) there would be a path in both directions between both (all) trees in question - that's a contradiction.

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just adding to pjotr's answer: v.lowlink is basically the index of the upmost node that you have found in the tree. Keep in mind that upmost in this context means minimum as you keep increasing indices as you walk down. Now after processing all your successors, there's basically three cases:

  1. v.lowlink < v.index: This indicates that you have found a back edge. Note that we haven't just found any back edge, but one that points to a node that is "above" the current one. That's what v.lowlink < v.index implies.

  2. v.lowlink = v.index: What we know in this case is that there is no back edge referring to anything above the current node. There might be a back edge to this node (which means that one of your successor nodes w has a lowlink such that w.lowlink = v.lowlink = v.index). It could also be that there was a back edge referring to something below the current node, which means that there was a strongly-connected component below the current node that has been printed out already. The current node, however, is definitely the root of a strongly-connected component as well.

  3. v.lowlink > v.index: That's actually not possible. I'm just listing it for the sake of completeness. ;)

Hope it helps!

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