The procedures you have written do two different things and don't actually belong together.
mem/2 is equivalent to the usually builtin
member/2 except that your definition contains an error: in the second clause
element is an atom instead of a variable so it will not match other elements of the list. The usual definition is
member(X, [_|L]) :- member(X, L).
Note that this definition will not only test if a term is an element of a list but can even be use to generate a list.
What exactly are you trying to do in
count/3: split the list into two lists, one containing odd and the other containing even; or count the number of odd and even elements? The splitting could be done with something like:
count(, , ).
count([X|L], O, E) :- X rem 2 =/= 0, count(L, [X|O], E).
count([X|L], O, E) :- X rem 2 =:= 0, count(L, O, [X|E]).
=/= /2 and
=:= / 2 force evaluation of arguments as arithmetic expressions while
= /2 attempts to unify its arguments.
Counting the number of odds and evens can be done in a similar fashion, and is left as an exercise for the reader. :-)