# recursive prolog predicate for reverse and palindrome

1.can i get a recursive prolog predicate of two arguments , called reverse, which returns the inverse of a list example

?-reverse([a,b,c],L).

returns

L=[c,b,a]

2.recursive prolog predicate of two arguments called palindrome which returns true if the given list is palindrome example

?-palindrome([a,b,c]).
no
?-palindrome([b,a,c,a,b]).
T
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Ad 1: It is impossible to define reverse/2 as a (directly) recursive predicate - unless you permit an auxiliary predicate.

palindrome(X) :- reverse(X,X).

But the easiest way is to define such predicates with DCGs:

iseq([]) --> [].
iseq([E|Es]) --> iseq(Es), [E].

reverse(Xs, Ys) :-
phrase(iseq(Xs), Ys).

palindrome(Xs) :-
phrase(palindrome, Xs).

palindrome --> [].
palindrome --> [E].
palindrome --> [E], palindrome, [E].
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Using DCGs is a nice solution here. –  sharky Jun 23 '11 at 0:29

@false is correct; there isn't a way to define reverse/2 with a recursive definition without using some auxiliary predicate. However, if this is nevertheless permitted, a simple solution which doesn't rely on any built-ins like append/3 (and should be applicable for most Prolog implementations) would be to use an accumulator list, as follows:

rev([],[]).
rev([X|Xs], R) :-
rev_acc(Xs, [X], R).

rev_acc([], R, R).
rev_acc([X|Xs], Acc, R) :-
rev_acc(Xs, [X|Acc], R).

rev/2 is the reversal predicate which simply 'delegates' to (or, wraps) the accumulator-based version called rev-acc/2, which recursively adds elements of the input list into an accumulator in reverse order.

Running this:

?- rev([1,3,2,x,4],L).
L = [4, x, 2, 3, 1].

And indeed as @false has already pointed out (+1),

palindrome(X) :- rev(X,X).
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Just for curiosity here goes a recursive implementation of reverse/2 that does not use auxiliary predicates and still reverses the list. You might consider it cheating as it uses reverse/2 using lists and the structure -/2 as arguments.

reverse([], []):-!.
reverse([], R-R).
reverse(R-[], R):-!.
reverse(R-NR, R-NR).
reverse(R-NR, Reversed).
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Nice try, but incorrect. I gave you +1 anyway. reverse(1-[], Ys). should fail, but it succeeds with Ys = 1. Then, reverse(Xs, Ys), Xs = [1]. should succeed but fails. So you are not cheating, but simply implementing another procedure. We agree not to call this a predicate - I presume. –  false Jun 23 '11 at 20:25
@false. You're right!. This will only work with proper input lists. –  gusbro Jun 24 '11 at 14:31
reverse(Xs, [1]). Isn't that a proper input list? It succeeds with Xs = [1]-[]. –  false Jun 24 '11 at 14:49
Ok, you beat me ;) It works only one-way, assuming the first argument is a proper list and the second argument is either another list or an uninstantiated variable. Will remove the answer in some minutes ;) –  gusbro Jun 24 '11 at 15:07
Leave your answer! People often believe that similar things might work. –  false Jun 24 '11 at 15:11
conca([],L,L).
conca([X|L1],L2,[X|L3]):- conca(L1,L2,L3).
rev([],[]).
rev([X|Y],N):- rev(Y,N1),conca(N1,[X],N).
palindrome([X|Y]):- rev([X|Y],N),equal([X|Y],N).
equal([X],[X]).
equal([X|Y],[X|Z]):- equal(Y,Z).
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