I am studying Prolog on Ivan Bratko book: Programming for Artificial Intelligence and on the book I have found this version of 8 Queens problem that use a **space state "graph"** to solve the problem:

```
s(Queens, [Queen|Queens]) :- member(Queen, [1,2,3,4,5,6,7,8]),
noattack(Queen, Queens).
goal([_,_,_,_,_,_,_,_]).
noattack(_,[],_).
noattack(Y,[Y1|Ylist],Xdist) :-
Y1-Y =\= Xdist,
Y-Y1 =\= Xdist,
Dist1 is Xdist + 1,
noattack(Y,Ylist,Dist1).
solve(N,[N]) :- goal(N).
solve(N, [N|Sol1]) :- s(N,N1),
solve(N1,Sol1).
```

It combines the 8 Queens problem solution based on permutation (use its **noattack/3** relation) and the **s/2** predicate that I think that build the possible successor states state (the nodes of my graph). So I have something like:

**s(ActualState, SuccessorState)**

The **goal/1** predicate I think that only specify that I have to place exactly 8 queens.

On the book say me that executing this query: **solve([],Solution)** it will produce a list of board positions with increasing number of queens and that this list will end with a safe configuration of the eight queens.

But if I try to execute this query don't work and I will obtain this output:

```
?- solve([],Solution).
ERROR: s/2: Undefined procedure: noattack/2
ERROR: However, there are definitions for:
ERROR: noattack/3
```

Because,rightly, the **noattack** predicate called in the line 2 take only 2 parameters but the **noattack** predicate must have 3 parameters...bue on the book is given in this wrong way and I don't know how solve this problem...

Why? What am I missing?