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I'm struggling with my project in Prolog. My problem is, given a file containing the traffic lines in the form of line(NameOfLine, Type, ListOfStations). For example:

line(m1, train, [a,b,c,d,e])
line(m2, train, [h,e,j,i])
...

where e is the intersecting station of two line (The real line file is very complicated and containing a dozen of lines with hundreds of stations). I have to do the classic graph question like find a routing, calculate the cost, etc.

I knew that I have to build a graph undirected before start, so I've tried something like this:

adjacent(X,Y,[X,Y|_]).
adjacent(X,Y,[_|T]) :- adjacent(X,Y,T).

find_edge(LArret) :- forall(adjacent(X, Y, LArret), assert(edge(X,Y))).

connected(X,Y) :- edge(X,Y) ; edge(Y,X).

graph :-
    forall(ligne(_,_,L),  find_edge(L)).

But I didn't get all the edges as expected. Can you guys give me some advice for that? Or was I wrong at very first for solving this kind of problem?


Supplementary question: Thanks for the solution proposed and i've finally succeed to define the edges. Then i tried this algorithm classic to find a path betwwen A and B, but sometimes the search doesn't seem to end and sometimes the program stuck in searching.

connected(X,Y) :- edge(X,Y) ; edge(Y,X).

path(A,B,Path) :-
       travel(A,B,[A],Q), 
       reverse(Q,Path).

travel(A,B,P,[B|P]) :- 
       connected(A,B).
travel(A,B,Visited,Path) :-
       connected(A,C),           
       C \== B,
       \+member(C,Visited),
       travel(C,B,[C|Visited],Path). 

I think the reason could be a loop in the graph or a infinite loop in seraching, how can I avoid this kind of problem but still find all the path possible?

share|improve this question
    
I am not sure you need to construct any graph: The graph is defined by the already provided lists of stations for each line. –  Boris Dec 24 '12 at 12:44
    
Boris, acctually what im tring to do is to create a pair of edge [a,b] which represents the edges of graph. If not doing so it will be difficult to find eg routing, am i woring at this point? –  Odinie Dec 27 '12 at 10:52

1 Answer 1

I was able to use the following code with your line/3 definitions to create your list of edge/2 definitions:

adjacent(X,Y, [X,Y|_]).
adjacent(X,Y, [_|T]) :- adjacent(X,Y, T).

adjacent_lines(X,Y) :- line(_,_,L), adjacent(X,Y, L).

:- forall(adjacent_lines(X, Y), assert(edge(X, Y))).

It created all applicable and valid edge/2 facts as specified by the line/3 facts.
(at least, with SWI-Prolog)

share|improve this answer
    
Thanks for your inspiring comment, i will try it again. –  Odinie Dec 28 '12 at 14:20
    
Remember you can check for whether your edge/2 facts exist with bagof((X,Y), edge(X,Y), Ls). –  Raceimaztion Dec 28 '12 at 21:16

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