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I am often faced with the problem of checking some property of trees (the graph ones) of a given size by brute force. Do you have any nice tricks for doing this? Ideally, I'd like to examine each isomorphism class only once (but after all, speed is all that matters).

Bit twiddling tricks are most welcome since n is usually less than 32 :)

I'm asking for slightly more refined algorithms than the likes of "loop through all (n-1)-edge subsets and check if they form a tree" for trees on n nodes.

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What kind of tree ? What algorithm are you using currently to "walk" through the tree ? What isomorphism are you talking about ? The question is very vague –  Yochai Timmer Feb 13 '11 at 18:32
General trees, that is, connected graphs with n nodes and n-1 edges. By isomorphism I mean en.wikipedia.org/wiki/graph_isomorphism. I'm not walking through a specific tree - I want to generate a list of all trees. –  Erik Feb 13 '11 at 18:52

2 Answers 2

up vote 3 down vote accepted

This is in Knuth's The Art of Computer Programming volume on Combinatorial Algorithms. If I remember correctly, it's an exercise there. Since he has the solutions for such, I point you there.

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Thanks for the pointer! –  Erik Feb 13 '11 at 18:53
A beta version of the relevant book chapter can be downloaded here: www-cs-faculty.stanford.edu/~uno/news05.html (pre-fascicle 4a: Generating all trees) –  stubbscroll Feb 13 '11 at 19:35

Some googling turned up the following algorithm description: http://www.cs.auckland.ac.nz/compsci720s1c/lectures/mjd/treenotes.pdf. They adapt an algorithm for enumerating rooted trees to enumerating unrooted trees.

Apparently others have proved that this requires only amortised constant time per tree, and the PDF shows some performance measurements demonstrating this.

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