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If I have a list of edges for a problem like "Show me the routes from a city that is considered dangerous to one that is considered safe" as so...

dangerous(oakland).
safe(portland).

move(rome,plane,portland).
move(portland,plane,rome).
move(halifax,train,gatwick).
move(gatwick,car,rome).
move(portland,plane,newyork).
move(oakland,plane,rome).
move(oakland,plane,gatwick).
move(halifax,train,gatwick).
move(gatwick,plane,rome).
move(oakland,train,newyork).

I can get a list of Paths that lead to a safe city by using the following depth first search(found on SO)...

dfs_start(Start, Goal, Path) :- phrase(dfs(Start, [], Goal), Path).

dfs(Node, _, Goal)   --> [Node], { call(Goal, Node) }.
dfs(Node0, Es, Goal) --> [Node0],
        { move(Node0,_,Node1), \+ member(Node1, Es) },
        dfs(Node1, [Node0|Es], Goal).

The problem I'm trying to solve however is to find all of the Paths from dangerous cities that do NOT lead to a safe city (which in this case would only be one oakland -> newyork.) If I call the above function with...

dfs_start(oakland,safe,Path).

...I get

Path = [oakland, rome, portland] ;
Path = [oakland, gatwick, rome, portland] ;
Path = [oakland, gatwick, rome, portland] ;

...but what I'm looking to do is call something like...

dfs_start(oakland,unsafe,Path).

...and get...

Path = [oakland, newyork] ;

Any advice would be greatly appreciated!

share|improve this question
    
why "only one oakland->newyork"? What's wrong with oakland->rome? How's rome different from newyork? –  Will Ness Jun 10 '12 at 12:07
    
rome can eventually lead to portland, which is a safe city. –  matt_dev Jun 10 '12 at 17:53

1 Answer 1

up vote 2 down vote accepted

The problem description is ambiguous, maybe that's the cause of your doubt. As I understand it, unsafe(X). is plainly wrong, because eliminates each filtering condition. You could try to simplify the rule in this way (I've commented out the inefficient rule, you can delete it):

% unsafe(X) :- findall(Y,safe(Y),SafeList), member(X,SafeList), !, fail.
unsafe(X) :- \+ safe(X).

Edit the comment you exchanged with Will Ness clarified a bit the task: the stop condition must be true when the path cannot be extended more, and any safe city is banned from path. I simplified a bit the code, removing unnecessary features, so you can concentrate on the logic: graph is acyclic, so the visited path is not required, and instead of passing down a Goal, just use the required statement:

unsafe_path([Start|Path]) :-
    dangerous(Start),
    phrase(dfs(Start), Path).

dfs(Node) --> [Node1],
   {  move(Node, _, Node1),
      \+ lead_to_safe(Node1)
    } -> dfs(Node1) ; {true}.

lead_to_safe(Node) :- safe(Node).
lead_to_safe(Node) :-
    move(Node, _, Node1),
    lead_to_safe(Node1).

test:

?- unsafe_path(P).
P = [oakland, newyork].

if we add a fictious city the path is extended:

?- assertz(move(newyork,train,turin)).

?- unsafe_path(P).
P = [oakland, newyork, turin].

if we make turin a gateway to a safe city:

?- assertz(move(turin,train,portland)).

?- unsafe_path(P).
P = [oakland].
share|improve this answer
    
Hrmmmm. I agree with you that my problem description is ambiguous. I'm racking my brain to try to figure this out. What I need is any path list where the tail city could never be connected to a safe city. does that make it any more clear? –  matt_dev Jun 10 '12 at 17:47

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