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dfs([Node | OPEN], _ , Goal) :-  
Node==Goal, !,          
write('yes! goal reached.... ' - Goal), nl.         

dfs([Node | OPEN],CLOSED, Goal) :- 
  findall(                        Next,                 
  (
    arc(Node, Next),        Next
    not(member(Next, OPEN)),            not(member(Next, CLOSED))
      ), 
      NewNode               
     ), 

      append(NewNode, OPEN, NewOPEN),   
    write('OPEN = frontier of search...'), write(NewOPEN),nl,
    write('CLOSED = nodes already visited...'), write([Node | CLOSED]),nl,nl,
  dfs(NewOPEN, [Node | CLOSED], Goal).  % recurse with new data

arc(a,b). arc(a,c). arc(b,d). arc(b,e). arc(c,f). arc(f,g). arc(e,z). arc(d,e). arc(z,g). arc(z,d).

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Can we get some formatting please? –  NotAUser Jan 9 '13 at 16:04

1 Answer 1

Something like this:

dfs(Node, Goal) :- !.         

dfs(Node, Goal) :- 
    arc(Node, Next),
    score(Node, Next, S),
    not (score(Node, Next, S1), S1 > S), write(Next),
    dfs(Next, Goal).

Then you need to define a score for each arc, e.g. score(a, b, 3).

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Thanks for the clue! And what if you want tp extend to a hill climbing search? –  Ikenna Eke Jan 9 '13 at 17:46
    
In that case we would need to agree on what you mean by hill climbing. The difference between greedy and hill climbing for this problem can be very subtle. –  NotAUser Jan 10 '13 at 9:25

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