### Determinism

You give the following example of the predicate you envision:

```
?- repl(x,5,L).
L = [x, x, x, x, x] ;
false.
```

Notice that the `;`

is not very productive here. If you want to repeat `x`

5 times, then this can be done in exactly one way. I would therefore specify this predicate as **deterministic** not **nondeterministic** as you are doing.

### Repeating list

Your code is actually quite far off a working solution, despite the output looking quite close in spirit to the envisioned result. You try to define the base case and the recursive case at the same time, which will not work.

Here is a simple (but less fun than @lurker gave :-)) implementation of the base and recursive case:

```
repeating_list(_, 0, []):- !.
repeating_list(H, Reps1, [H|T]):-
Reps2 is Reps1 - 1,
repeating_list(H, Reps2, T).
```

In a sense @lurker's implementation is simpler, and it is surely shorter.

### Some extensions

In real-world/production code you would like to catch type errors and treat different instantiations with the same predicate. The second clause checks whether a given list consists of repeating elements (and if so, which one and how many occurrences there are).

```
%! repeating_list(+Term:term, +Repeats:integer, -List:list(term)) is det.
%! repeating_list(?Term:term, ?Repeats:integer, +List:list(term)) is det.
repeating_list(_, 0, []):- !.
% The term and number of repetitions are known given the list.
repeating_list(H, Reps, L):-
nonvar(L), !,
L = [H|T],
forall(
member(X, T),
% ==/2, since `[a,X]` does not contain 2 repetitions of `a`.
X == H
),
length([H|T], Reps).
% Repetitions is given, then we generate the list.
repeating_list(H, Reps1, [H|T]):-
must_be(nonneg, Reps1), !,
Reps2 is Reps1 - 1,
repeating_list(H, Reps2, T).
% Repetitions is not `nonneg`.
repeating_list(_, Reps, _):-
domain_error(nonneg, Reps).
```

Notice that I throw a domain error in case the number of repetitions is negative. This uses library `error`

in SWI-Prolog. If your Prolog does not support this feature, then you may leave the last clause out.

### PS: Comparison to Haskell

The combination of your statement that you do not know how to solve this problem in Prolog and your statement that this problem can be solved much easier in Haskell seems a little strange to me. I think you can only compare the difficulty of two implementations once you know how both of them look like.

`append`

andit's recursive, so I assume it wouldn't be valid even if it worked? Or is the "no recursion" rule self-imposed? Are you allowed to use`maplist`

? – lurker Apr 19 '14 at 23:45