Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have made two programs in Prolog for the nqueens puzzle using hill climbing and beam search algorithms.

Unfortunately I do not have the experience to check whether the programs are correct and I am in dead end.

I would appreciate if someone could help me out on that. Unfortunately the program in hill climbing is incorrect. :( The program in beam search is:

queens(N, Qs) :-  
  range(1, N, Ns), 
  queens(Ns, [], Qs).

range(N, N, [N]) :- !.
range(M, N, [M|Ns]) :- 
  M < N, 
  M1 is M+1, 
  range(M1, N, Ns).

queens([], Qs, Qs).
queens(UnplacedQs, SafeQs, Qs) :- 
  select(UnplacedQs, UnplacedQs1,Q),
  not_attack(SafeQs, Q),  
  queens(UnplacedQs1, [Q|SafeQs], Qs).  

not_attack(Xs, X) :- 
  not_attack(Xs, X, 1).
not_attack([], _, _) :- !.
not_attack([Y|Ys], X, N) :-
  X =\= Y+N,  
  X =\= Y-N, 
  N1 is N+1, 
  not_attack(Ys, X, N1).

select([X|Xs], Xs, X).
select([Y|Ys], [Y|Zs], X) :- select(Ys, Zs, X).
share|improve this question
What exactly is the question here? – hardmath Jan 31 '11 at 21:58
This isn't remotely a beam search. – Fred Foo Feb 2 '11 at 9:20
hi thanks for reply. as i understand from your reply the code is not correct. I mean that it is not beam search algorithm. Can you please provide guidelines for correcting the program? I am new in Prolog. thanks – user596970 Feb 2 '11 at 9:57

If I read your code correctly, the algorithm you're trying to implement is a simple depth-first search rather than beam search. That's ok, because it should be (I don't see how beam search will be effective for this problem and it can be hard to program).

I'm not going to debug this code for you, but I will give you a suggestion: build the chess board bottom-up with

queens(0, []).
queens(N, [Q|Qs]) :-
    M is N-1,
    queens(M, Qs),
    between(1, N, Q),
    safe(Q, Qs).

where safe(Q,Qs) is true iff none of Qs attack Q. safe/2 is then the conjunction of a simple memberchk/2 check (see SWI-Prolog manual) and your not_attack/2 predicate, which on first sight seems to be correct.

share|improve this answer

A quick check on Google has found a few candidates for you to compare with your code and find what to change.

My favoured solution for sheer clarity would be the second of the ones linked to above:

% This program finds a solution to the 8 queens problem.  That is, the problem of placing 8
% queens on an 8x8 chessboard so that no two queens attack each other.  The prototype
% board is passed in as a list with the rows instantiated from 1 to 8, and a corresponding
% variable for each column.  The Prolog program instantiates those column variables as it
%  finds the solution.

% Programmed by Ron Danielson, from an idea by Ivan Bratko.

% 2/17/00

queens([]).                                 % when place queen in empty list, solution found

queens([ Row/Col | Rest]) :-                % otherwise, for each row
            queens(Rest),                   % place a queen in each higher numbered row
            member(Col, [1,2,3,4,5,6,7,8]), % pick one of the possible column positions
            safe( Row/Col, Rest).           % and see if that is a safe position
                                            % if not, fail back and try another column, until
                                            % the columns are all tried, when fail back to
                                            % previous row

safe(Anything, []).                         % the empty board is always safe

safe(Row/Col, [Row1/Col1 | Rest]) :-        % see if attack the queen in next row down
            Col =\= Col1,                   % same column?
            Col1 - Col =\= Row1 - Row,      % check diagonal
            Col1 - Col =\= Row - Row1,
            safe(Row/Col, Rest).            % no attack on next row, try the rest of board

member(X, [X | Tail]).                      % member will pick successive column values

member(X, [Head | Tail]) :-
            member(X, Tail).

board([1/C1, 2/C2, 3/C3, 4/C4, 5/C5, 6/C6, 7/C7, 8/C8]). % prototype board

The final link, however, solves it in three different ways so you can compare against three known solutions.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.