# Negation and testing for a unique set in Prolog

I've just started experimenting with Prolog, and I was trying to write a rule to find out whether a list contained only unique elements. I got it working in the second variation (by negating a positive test), but I've completely failed to understand why the first variation doesn't work.

Given this file:

``````uniqueElements([X|Y]) :-
notmember(X, Y),
uniqueElements(Y).

notmember(X, Y) :-
\+ member(X, Y).

hasRepeatedElements([X|Y]) :-
(
member(X, Y) ->
true
;   hasRepeatedElements(Y)
).

uniqueElements_2(X) :-
\+ hasRepeatedElements(X).
``````

``````| ?- uniqueElements([1,2,3]).

no
| ?- uniqueElements([1,2,3,2,3]).

no

| ?- uniqueElements_2([1,2,3]).

yes
| ?- uniqueElements_2([1,2,3,2,3]).

no
``````

Why is the first response 'no'? (I would have expected member to return false, be negated to true, and thus have notmemeber return true on each iteration of uniqueElements). I guess I'm expecting '\+' to behave like '!' does in a C if clause, or the 'not' keyword in Python. Is this a misunderstanding?

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You don't test the empty list []. –  joel76 Aug 8 '12 at 7:23

In `uniqueElements`, you haven't provided the base case for the recursion:

``````uniqueElements([]).
``````

Without that clause, when a particular call chain gets to the empty list case, it doesn't find any applicable clauses, which means `fail` in Prolog. Meaning, "unprovable". So, your call `uniqueElements([1,2,3])` has produced an equivalent of `true && true && true && false`.

Now it should work.

`hasRepeatedElements` doesn't have a clause defined for the base case either, but its failure in finding whether there were repeated elements in an empty list `[]` is consistent with its semantics - it should have found that there are no repeated elements in empty list, in the first place.

In Prolog, "not" means "can't prove that ...".

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