# Implement a Prolog predicate that say if an element belong to a list. Problems with not numerical lists

I am studying Prolog for an university exam and I have problems with this exercise:

Implement the predicate `not_member(X,L)` that is TRUE if the element `X` does not belong to the list `L`.

If my reasoning is correct, I have found a solution:

``````% FACT (BASE CASE): It is TRUE that X is not in the list if the list is empty.
not_member(_,[]).

% RULE (GENERAL CASE): If the list is non-empty, I can divide it in its Head
%   element and the sublist Tail. X does not belong to the list if it is different
%   from the current Head element and if it does not belong to the sublist Tail.
not_member(X,Tail).
``````

This code works well with lists of numbers, as the following queries show:

``````2 ?- not_member(4, [1,2,3]).
true.

3 ?- not_member(1, [1,2,3]).
false.
``````

With lists having some non-numerical elements, however, it does not work and reports an error:

``````4 ?- not_member(a, [a,b,c]).
ERROR: =\=/2: Arithmetic: `a/0' is not a function
``````

Why?

-

Let's check the documentation!

(=\=)/2 is an arithmetic operator.

+Expr1 =\= +Expr2 True if expression Expr1 evaluates to a number non-equal to Expr2.

You have to use (\=)/2 to compare two generic terms:

``````not_member(_, []) :- !.

not_member(X, Tail).
``````

and:

``````?- not_member(d, [a,b,c]).
true.
``````
-
ok, tnx so much. Only a litle clarification: why do you use: not_member(, []) :- !. instead: not_member(, []). what exactly mean !. ? Tnx –  AndreaNobili Apr 7 '13 at 17:24
(not a detailed explanation) It's a cut. It prevents backtracking, but it's not mandatory. In this case it's ok to use it since once the unification has succeded on not_member(_, []). we don't need to check for other "solutions", so we "cut" the prolog search tree and stop che computation. –  Haile Apr 7 '13 at 17:32

Use to get logically sound answers—for both ground and non-ground cases!

Just like in this answer, we define `non_member(E,Xs)` as `maplist(dif(E),Xs)`.

Let's put `maplist(dif(E),Xs)` and `not_member(E,Xs)` by @Haile to the test!

```?- not_member(E,[1,2,3]).
false.                                   % wrong! What about `E=4`?

?- maplist(dif(E),[1,2,3]).
dif(E,1), dif(E,2), dif(E,3).            % success with pending goals
```

```?- E=d, not_member(E,[a,b,c]).
E = d.
?-      not_member(E,[a,b,c]), E=d.

?- E=d, maplist(dif(E),[a,b,c]).
E = d.
E = d.
```

Let's not forget about the most general use!

```?- not_member(E,Xs).
Xs = [].                                % a lot of solutions are missing!

?- maplist(dif(E),Xs).
Xs = []
; Xs = [_A]      , dif(E,_A)
; Xs = [_A,_B]   , dif(E,_A), dif(E,_B)
; Xs = [_A,_B,_C], dif(E,_A), dif(E,_B), dif(E,_C)
...
```
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