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This is the problem :

Victor has been murdered, and Arthur, Bertram, and Carleton are suspects. Arthur says he did not do it. He says that Bertram was the victim’s friend but that Carleton hated the victim. Bertram says he was out of town the day of the murder, and besides he didn’t even know the guy. Carleton says he is innocent and he saw Arthur and Bertram with the victim just before the murder. Assuming that everyone–except possibly for the murderer–is telling the truth, use resolution to solve the crime.

This is what I wrote in SWI Prolog

% Facts:
p('Arthur').    % suspect
p('Bertram').   % suspect
p('Carleton').  % suspect
p('Victor').    % victim
% Arthur
says('Arthur', i('Arthur')).
says('Arthur', f('Bertram', 'Victor')).
says('Arthur', ht('Carleton', 'Victor')).
% Bertram
says('Bertram', o('Bertram')).
says('Bertram', nk('Bertram', 'Victor')).
% Carleton
says('Carleton', i('Carleton')).
says('Carleton', t('Arthur', 'Victor')).
says('Carleton', t('Bertram', 'Victor')).
% Rules:
holds(X) :- says(Y, X), \+m(Y).
holds(i(X)) :- p(X), \+m(X).
holds(f(X,Y)) :- p(X), p(Y), holds(f(Y,X)).
holds(f(X,Y)) :- p(X), p(Y), \+holds(nk(X,Y)).
holds(o(X)) :- p(X), p(Y), holds(t(X,Y)).
holds(o(X)) :- p(X), \+m(X).
holds(nk(X,Y)) :- p(X), p(Y), \+holds(nk(Y,X)).
holds(nk(X,Y)) :- p(X), p(Y), \+holds(f(X,Y)).
holds(t(X,Y)) :- p(X), p(Y), holds(t(Y,X)).
holds(t(X,Y)) :- p(X), p(Y), p(Z), holds(t(X,Z)), holds(t(Z,Y)).
m(X) :- p(X).

The answer is suppose to be Bertram, but I kept on getting Arthur. Dont know what am I doing wrong.

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2 Answers 2

I'm fairly sure that Rules will be far more simpler than that.

For instance, what does mean m(X) :- p(X)., given that p(X) is always true ? Does Victor have something to say ?

In logic it's essential to stick to Occam's Razor. Programming logic it's not an exception, albeit the term has a more practical connotation - see KISS principle.

I think we can only agree that the murder should be the person that contradicts other two. There is only a fact in question: whether or not a person known Victor.

Then what we know about the crime can be summarized:

t(a) :- k(b), k(c).
t(b) :- \+ k(b).
t(c) :- k(a), k(b).

where t(X) stands for X testimony that, and k(X) stands for X known Victor. We don't really know about k(X), then we must add k(_).

With that, Prolog can suggest:

?- t(X).
X = a ;
X = c.

I.e. only a or b can be true.

EDIT: because Prolog isn't propositive when it came to negation, here is a way to solicit the solution:

m(X) :- member(X, [a,b,c]), \+ t(X).

But let's take a more explicit approach:

Instead of clausal form, that leads to immediate availability of Prolog execution, as shown above, our fact base could also expressed:

say(a, know_victim(b, yes)).
say(a, know_victim(c, yes)).

say(b, know_victim(b, no)).

say(c, know_victim(a, yes)).
say(c, know_victim(b, yes)).

now let's see if some some individual says the opposite of others

liar(I) :-
    select(I, [a,b,c], Js),
    say(I, Fact),
    maplist(negate(Fact), Js).
negate(know_victim(I, X), J) :-
    say(J, know_victim(I, Y)),
    X \= Y.


?- liar(I).
I = b ;
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But the problem doesnt stated that arthur know victor, is just says arthur is with victor. –  JJ Lin May 11 '13 at 12:37
That could be a typical legal argument of the defence... –  CapelliC May 11 '13 at 12:59
extremely very nice, thank you! I read your t(X):- G. predicate as "for the testimony of X to be true, G must be true.". then we see that t(b) is impossible, so Bertrand is necessarily a liar. Of course no court would convict him based solely on that. :) Even if t(a) were impossible, we still couldn't conclude that Arthur is a murderer. Yes he is a liar (under that supposition), and he indeed says that he didn't kill Victor the victim, but - it is only the whole of his testimony that is (would be) false. So again, it wouldn't be enough. :) –  Will Ness May 11 '13 at 14:01
but, I'm having doubts about your proof. You construct this very small closed world, where it is you who claims that anyone could have known Victor (k(_)), then you use this fact as evidence that it is not impossible to prove that k(b). Seems self-extrication by Munchausen's bootstrapping, to me. :) –  Will Ness May 11 '13 at 14:11
@WillNess: I think the argumentation is justified from the last sentence of the puzzle (Assuming that everyone–except possibly for the murderer–is telling the truth...) It's possible that the question focused on implementing a Prolog meta interpreter for resolution, that works - you know - by contradiction. I.e. it find counterproof to negated literal. But that seems to be overly complicated. To be true, I found that simplicity after pruning some trial, and took a little to understand why it works. –  CapelliC May 11 '13 at 16:43


contains several different ways of solving this.

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