I find your code rather confused. For one thing, you have `rep/3`

and `rep/4`

, but none of them have a list in the second position where you're passing the list of variable bindings. `H1=H2`

cannot possibly match a list, and that's the only `rep/3`

clause that examines the second argument. If this is a class assignment, it looks like you're a little bit behind and I'd suggest you spend some time on the previous material.

The solution is simpler than you'd think:

```
rep([], _, []).
rep([X|Xs], Vars, [Y|Rest]) :- member(X=Y, Vars), rep(Xs, Vars, Rest).
rep([X|Xs], Vars, [X|Rest]) :- \+ member(X=_, Vars), rep(Xs, Vars, Rest).
```

We're using `member/2`

to find a "variable binding" in the list (in quotes because these are atoms and not true Prolog variables). If it's in the list, Y is the replacement, otherwise we keep using X. And you see this has the desired effect:

```
?- rep([x, d, e, z, x, z, p], [x=z, z=x, d=c], R).
R = [z, c, e, x, z, x, p] ;
false.
```

This could be made somewhat more efficient using "or" directly (and save us a choice point):

```
rep([], _, []).
rep([X|Xs], Vars, [Y|Ys]) :-
(member(X=Y, Vars), ! ; X=Y),
rep(Xs, Vars, Ys).
```

See:

```
?- rep([x, d, e, z, x, z, p], [x=z, z=x, d=c], R).
R = [z, c, e, x, z, x, p].
```