# Define a dcg for palindromes over the alphabet {a,b} of 2 symbols a and b such that the number of a's is one less than the number of b's

I am trying to define a palindrome where the number of a's is one less than the number of b's. I cant seem to figure out how to write it properly

``````   please-->palindromes.
palindromes-->[].
palindromes-->[a].
palindromes-->[b].
palindromes--> [b],palindromes,[b].
``````
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I think you can try harder than that. –  Daniel Lyons May 9 '13 at 4:10
your second and third base cases don't follow your rules. They are not palindromes where the number of `a`'s is one less than the number of `b`'s –  joneshf May 11 '13 at 22:48

Think about this: where the surplus 'b' could stay ? In a palindrome, there is only one such place. Then change the symmetric definition, that in BNF (you already know as translate to DCG) would read

``````S :: P
P :: a P a | b P b | {epsilon}
``````
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The surplus b could stay in the middle but a b a b is a valid palindrome –  user1850254 May 9 '13 at 6:29
Yes, in the middle. But abab is not a palindrome, should be abba. –  CapelliC May 9 '13 at 6:30
Sorry typo.I meant b a b. –  user1850254 May 9 '13 at 6:38
I have modified the program but I cant still get it to work. –  user1850254 May 9 '13 at 6:43
of course, to get equal count of a and b, these must be in pairs, `P :: ab P ba | ...` –  CapelliC May 9 '13 at 7:02

You're on the right track, you just need a way to deal with the difference in counts. You can do this by adding a numeric argument to your `palindromes` grammar term.

First I'll define an ordinary Prolog rule implementing "`B` is two more than `A`":

``````plus2(A,B) :- number(A), !, B is A+2.
plus2(A,B) :- number(B), !, A is B-2.
plus2(A,B) :- var(A), var(B), throw(error(instantiation_error,plus2/2)).
``````

Then we'll say `palindromes(Diff)` means any palindrome on the given alphabet where the number of `b` letters minus the number of `a` letters is `Diff`. For the base cases, you know `Diff` exactly:

``````palindromes(0) --> [].
palindromes(-1) --> [a].
palindromes(1) --> [b].
``````

For the recursive grammar rules, we can use a code block in `{`braces`}` to check the `plus2` predicate:

``````palindromes(DiffOuter) --> [b], palindromes(DiffInner), [b],
{ plus2(DiffInner, DiffOuter) }.
palindromes(DiffOuter) --> [a], palindromes(DiffInner), [a],
{ plus2(DiffOuter, DiffInner) }.
``````

To finish off, the top-level grammar rule is simply

``````please --> palindromes(1).
``````
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