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I am looking for a grammar that describes the formal language

$L = \{ xyx^R \;|\; x,y \in \{a,b\}^*\}$

where $\{a,b\}^*$ corresponds to the regular expression [ab]*.

If there would be no y and the language would therefore contain all the words that are palindromes there wouldn't be any problem. I just don't get the "y" included therein.

Could you please help me to find a solution?

Thanks in advance

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what does the $*$ on the $\{a,b\}^*$ mean? If it means words with letters $\{a,b\}$ then these certainly are not palindromes. –  Nate Iverson Jun 6 '12 at 13:15
    
I modified the question to be more comprehendible –  muffel Jun 6 '12 at 13:23
3  
Do you realise that this language is just [ab]*? –  Peter Taylor Jun 6 '12 at 13:30
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2 Answers

up vote 2 down vote accepted
  • S -> aSa | bSb | A
  • A -> aA | bA | $\varepsilon$

This way $x$ and $x^R$ are simultanously generated with the start symbol $S$ in the middle. After that $S$ changes to $A$ in order to produce some word $y$ between $x$ and $x^R$.


Edit: As was pointed out, the language is just $\{a,b\}^*$, so there is a simpler grammar (see the other answer).

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Missed Peter's point, that this is $[ab]^*$, or in formal language terms (since this is a theoretical question) $(a+b)^*$. So it has a much simpler grammar, though I doubt that was the intended issue. –  David Lewis Jun 6 '12 at 14:16
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Peter Taylor is correct: $L=\{a,b\}^*$, since any $w\in\{a,b\}^*$ can be written as $\lambda w\lambda^R$, where $\lambda,w\in\{a,b\}^*$. (I use $\lambda$ for the empty word.) Thus, $L$ is regular and is generated by the grammar with initial symbol $S$ and productions $$S\to aS\mid bS\mid\lambda\;.$$ The problem becomes interesting only if $x$ is required to be non-empty.

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$x\in \{a,b\}^+$ would do what you want. But in fact, it doesn't really get interesting until the set of $x$'s is infinite. –  David Lewis Jun 6 '12 at 14:19
    
What would make it interesting, I think, is if there were letters that were allowed in $x$ but not in $y$. –  Henning Makholm Jun 6 '12 at 14:23
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