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I'm trying to efficiently extract static strings (strings that MUST be matched for a given regular expression to match). I've been able to do it in the simplest cases but I'm trying to discover a more robust solution.


Given a regex such as the one below

"fox jump(ed|ing|s)"

would give us

"fox,jumped,jumping,jumps"

Another example is

"fox jump(ed|ing|s)?"

which would give us

"fox,jump"

because of the optional operator


The algorithm I have is overly simple for now. It will start from the end of the regex and removes groups or a single character followed by these operators "* ?" as well as "explode" grouped OR operators "(|)". This has worked quite well but doesn't take into consideration the full syntax of a regex. You can think of it as kind of a minimal set generating process for a regex (the minimal set of strings that the regex can "generate/must match").

WHY? I'm trying to match a bunch of text against a large set of regexes. If I can get a list of "keywords" for these regexes that is "required" I can do a quick text search for that keyword to filter the regexes I care about (ignore the ones I am guaranteed to not match or even skip that text entirely effectively not running any regexes on the text because we are guarenteed to not have a match within our set of regexes). I can organize this set of keywords in an efficient data structure (Binary Search/Trie/Aho-Corasick) to filter the set of regexes before I even try to run the text through the Finite Automata. There are extremely fast string matching algorithms that I can run as a filtering stage before I attempt to run a regular expression. I've been able to increase throughput many folds doing this simple process.

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Why do this? Some background might bring out some better ways of achieving what you're trying to do. –  Highly Irregular Dec 20 '12 at 21:48
3  
added some background in the WHY? section. thx! –  zer0bit Dec 20 '12 at 21:55
2  
So what is your question? –  Will C. Dec 20 '12 at 22:48
1  
Here are some related questions. –  Andrew Cheong Dec 20 '12 at 22:53
2  
What language do you use? –  alex Dec 21 '12 at 20:00

1 Answer 1

If I understand your problem correctly, you are looking for a set of words such that all these words are (disjoint) substrings of any word accepted by the (given) regular expression.

My guess is that such a set will very often be empty, but nevertheless it can be found.

To find such a set, I propose the following algorithm:

  1. Find the FA corresponding to your input regex.
  2. Identify bridges ( https://en.wikipedia.org/wiki/Bridge_(graph_theory) ) between the starting state S and the accepting state F. This can for example be done by removing an edge E and asking whether a path exists from S to E in the FA with E removed - repeat this for all edges.
  3. All edges that are bridges must be hit during an accepting run, and each edge corresponds to a letter of input.
  4. You may now generate the required words by connecting subsequent bridge edges end-to-end.

I think it follows from the algorithm construction that an FA (and not a DFA) suffices for this to work. Again, a proof would be nice but I think it should work:)

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