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Im looking for an algorithm which outputs if the intersection of a regular expression and a contex free grammar is empty or not. I know that this problem is decidable, however, I cannot find any example implementation (in pseudocode).

Can someone provide me with such an algorithm, in .NET if possible but this is not a must. This problem is also called "regular intersection". Googling for it only gives me the geometrical algorithm or the theory about it.


Anybody. Im really stuck on it, and cannot find anything yet.

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up vote 2 down vote accepted

Here is a sketch of an approach that occurs to me. I think this should work but it is probably not the best way to do it since it uses the terribly messy conversion from PDA to CFG.

Convert the regular expression into a nondeterministic finite automaton (NFA) and reduce it down to the minimal determinsitic finite automaton (DFA). Convert the context free grammar (CFG) into a pushdown automoton (PDA). These first steps are all well known and fairly simple algorithms.

Take the intersection of the DFA and PDA, which is also a PDA. We will say the DFA has states S1, start state s1, final states F1, and transitions delta1 of the form ((source,trigger),destination), and the PDA has states S2, start state s2, final states F2, and transitons delta2 of the form ((source,trigger,pop),(destination,push)). The new PDA has states S1 X S2, each state labeled by a pair. It has final states F1 X F2, and start state (s1,s2). Now for the transitions.

For each transition d an element of delta2, for each state s an element s1, find the transition t an element of delta1 of the form ((s,d.trigger),?). Make a new transition (((d.source, s), d.trigger, d.pop),((d.destination, t.destination),d.push)).

This new PDA should accept the intersection of the languages produced by the RE and the CFG. To test if the language is empty you will need to convert it back to a CFG. The algorithm for that is messy and large, but it works. Once you have done that, mark each terminal symbol. Then mark each symbol which has a rule where there are only marked symbols on the right hand side, and repeat until you can mark no more symbols. If you can mark the start symbol, the language is not empty. Otherwise, the language is empty.

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Will this work for non-deterministic CFGs aswell? – Johan Benum Evensberget Jan 4 '11 at 17:54
I believe so. A non-deterministic CFG just has more than one rule with the same left hand side, correct? So it would just result in two transitions with the same left hand side in the intersection PDA. I'm using the definitions from Elements of the Theory of Computation, 2nd ed. by the way. EDIT: Or did you mean will it work for an intersection of CFG with CFG? I don't think so. I'm pretty sure that would require two stacks, putting it into turing machine territory. – Null Set Jan 4 '11 at 18:05
Thanks nullset. This was the solution I already had, but my search for weeks through different college professors learned me that there is no simpler algorithm than that. Regarding the intersection of two CFG, this is not a CFG anymore and hence you cannot represent it with a PDA. Thanks for the solution anyway :) – Henri Jan 5 '11 at 12:49

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