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I'd really love your help with this deciding whether the language of all words over the alphabet {0,1} that can't be read from both sides the same way, { w | w <> wR }, is a context-free language (that is, it can be transformed into specific grammar rules).

I tried to prove that it is not a context-free language by the pumping lemma, but I didn't find a string which will lead me to contradiction.

Any suggestions?

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Now that a bounty is on it, it may not apply, but I figure you'd get much better attention for this question on the stackexchange for computer science, theoretical computer science or math. –  Corbin Apr 4 '12 at 22:19
Sans minor fixups, this is a really good question. Corbin is correct about the potential to migrate this over to one of the other StackExchanges. In the meantime, there's lots and lots of information on the decidability of this problem on CSTheory.SE. –  MrGomez Apr 4 '12 at 22:21
What does <> mean? –  NullUserException Apr 5 '12 at 16:56
I believe <> is "not equal" and "^R" is a "string reversal" operator. –  Kaganar Apr 5 '12 at 16:57
@Corbin: The CS Theory SE has listed in their FAQ that only research-level (i.e. graduate student/professor) questions should go there (similar with MathOverflow). But I agree that Math.SE or CS.SE would be a better place for this. –  goric Apr 6 '12 at 2:00

2 Answers 2

up vote 11 down vote accepted

If I'm reading your question correctly, you're looking to see if the set of non-palindromes is a context free language.

It is a context free language:

S --> 0S0 | 1S1 | R
R --> 0V1 | 1V0
V --> 0V0 | 1V1 | R | 1 | 0 | ε

Starting at S, the notion is to build the string from the outside in. S allows you to place as many matching ones or zeroes as you want (possibly none) until you reach a case of R in which there is a non-match. From there on you can place either matches or non-matches (because at this point we're already guaranteed to not be a palindrome.) This is sufficient to describe all non-palindromes -- from outside to in, they start with zero or more matching pairs, then one mismatching pair, and then zero or more pairs (matching or not). Finally, there may or may not be a character in the middle.

P.S. If you don't already have it, Sipser's book on Theory of Computation is undoubtedly excellent. In fact, it's the only college book I still read from time to time.

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How do I generate 1100 using this grammar? –  NullUserException Apr 5 '12 at 17:06
Good catch. Fixed the last production. –  Kaganar Apr 5 '12 at 17:20
+1 for providing a more complete answer than the closed relation. I'd double +1, if it were practical without confounding the bounty, for providing a useful reference for the rest of us. Amazon links: Second Edition with Kindle version available, preorder of the Third Edition. –  MrGomez Apr 5 '12 at 19:56
(That is to say, quintuple +1 by granting an additional bounty. I think I'll wait for now, but if I'm reminded after this one ends, I'll probably do so.) –  MrGomez Apr 5 '12 at 20:05
Thanks a lot @Kaganar –  Numerator Apr 6 '12 at 12:44

This question is admittedly over my head as a computer scientist. But, as a mathematician, I have something to contribute here.

If w is itself a context-free language, a closure exists to solve the reversal of w:

Context-free languages are closed under the following operations. That is, if L and P are context-free languages, the following languages are context-free as well:


  • the reversal of L

This seems to be all that's being asked here. These references offer additional background information on how the initial and subsequent closed forms are derived.

(Additional, potentially helpful reference from set theory)

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Thanks a lot, MrGomez. –  Numerator Apr 6 '12 at 12:44
@MrGomez I actually tried a more analytical approach as well and found the convenient well-known generalities of closure under operations for context-free languages were insufficient. While the reversal of L and the reversal of L concatenated onto L are both indeed CFLs, the latter CFL isn't what the OP was asking for as nothing in this construction guarantees it is a palindrome -- you can concatenate ANYTHING from L with ANYTHING from L^R in the resulting language. –  Kaganar Apr 6 '12 at 13:10

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