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Given a regular expression R that describes a regular language (no fancy backreferences). Is there an algorithmic way to construct a regular expression R* that describes the language of all words except those described by R? It should be possible as Wikipedia says:

The regular languages are closed under the various operations, that is, if the languages K and L are regular, so is the result of the following operations: […] the complement ¬L

For example, given the alphabet {a,b,c}, the inverse of the language (abc*)+ is (a|(ac|b|c).*)?

As DPenner has already pointed out in the comments, the inverse of a regular expresion can be exponentially larger than the original expression. This makes inversing regular expressions unsuitable to implement negative partial expression syntax for searching purposes. Is there an algorithm that preserves the O(n*m) runtime characteristic (where n is the size of the regex and m is the length of the input) of regular expression matching and allows for negated subexpressions?

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Construct the NFA from regex, construct the DFA from NFA (there should be an algo for this), turn the non-terminal states into terminal states and vice-versa, then derive the regex from DFA. –  nhahtdh Mar 11 '13 at 12:01
@nhahtdh Each state of the DFA associated with an NFA is a reachable member of the powerset of the NFA. This makes an upper bound of 2^n states where n is the number of states of the NFA. It is possible to reach this by constructing a regular language where each subset of NFA states can be reached. There was a simple example somewhere but I just can't find it. –  FUZxxl Mar 11 '13 at 17:43
See the relevant question on theoretical CS stack overflow. NFA->DFA->inversion->regex is worst-case optimal. –  thiton Mar 11 '13 at 19:06
This is certainly an interesting question, but is this really a programming question? Wouldn't this be a better fit for ComputerScience? (Especially since you seem uninterested in working, if not mathematically pure, solutions?) –  JDB Mar 11 '13 at 19:41
@Cyborgx37 Let me quote the FAQ: We feel the best Stack Overflow questions have a bit of source code in them, but if your question generally covers … • a specific programming problem • a software algorithm –  FUZxxl Mar 11 '13 at 19:43
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2 Answers

Unfortunately, the answer given by nhahdtdh in the comments is as good as we can do (so far). Whether a given regular expression generates all strings is PSPACE-complete. Since all problems in NP are in PSPACE-complete, an efficient solution to the universality problem would imply that P=NP.

If there were an efficient solution to your problem, would you be able to resolve the universality problem? Sure you would.

  1. Use your efficient algorithm to generate a regular expression for the negation;
  2. Determine whether the resulting regular expression generates the empty set.

Note that the problem "given a regular expression, does it generate the empty set" is fairly straightforward:

  1. The regular expression {} generates the empty set.
  2. (r + s) generates the empty set iff both r and s generate the empty set.
  3. (rs) generates the empty set iff either r or s generates the empty set.
  4. Nothing else generates the empty set.

Basically, it's pretty easy to tell whether a regular expression generates the empty set: just start evaluating the regular expression.

(Note that while the above procedure is efficient in terms of the output length, it might not be efficient in terms of the input length, if the output length is more than polynomially faster than the input length. However, if that were the case, we'd have the same result anyway, i.e., that your algorithm isn't really efficient, since it would take exponentially many steps to generate an exponentially longer output from a given input).

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Whether a given regular expression generates all strings - The problem description is quite vague here. I don't know what you are talking about. –  nhahtdh Mar 11 '13 at 19:39
Thank you for the answer. Could you, if you like, also investigate into the second part of my question? –  FUZxxl Mar 11 '13 at 19:41
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Wikipedia says: ... if there exists at least one regex that matches a particular set then there exist an infinite number of such expressions. We can deduct from this statement that there is an infinite number of expressions that describe the language of all words except those described by R.

Again, (as also @nhahtdh tried to explain) the simplest algorithm to address this question is to extend the scope of evaluation outside the context of the regular expression language itself. That is: match the strings you want to exclude (which represent a finite subset to work with) by using the original regular expression and then treat any failure to match as an actual match (out of an infinite set of other possibilities). So, if the result of the match is negative, your candidate strings are a subset of the valid solutions.

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then compare it with the finite set of candidates you provide Not really. Just try to match the string with the (plain) regex. If fail to match = a match. This only works if you want to particularly negate a whole plain regex. It cannot concatenate. –  nhahtdh Mar 11 '13 at 20:51
@nhahtdh, I tried to reformulate the answer. Anywho, I don't see a real application of the question. –  Alex Filipovici Mar 11 '13 at 21:07
Check this comment –  nhahtdh Mar 11 '13 at 21:09
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