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I'm trying to study Prolog, and i have some troubles with logical exercise.

Bob, Tom, Sam have a job in bank as an accountant, cashier and manager. Here are some more facts about them:

  • If Sam - cashier, than Tom - manager.
  • If Sam - manager, Tom - accountant.
  • If Tom is not cashier, Bob - not manager.
  • If Bob - accountant, Sam - manager.

Find out Tom, Sam and Bob's profession.

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we could have some idea, please show yours! –  CapelliC Jan 5 '13 at 11:15
Prolog is very hard for me=( I will be very grateful for any help. –  pewpawpew Jan 5 '13 at 15:25
You can have a list of persons [[sam, WS], [tom, WT], [bob, WB]] and a list of jobs [accountant, cashier, manager], each person has a job taken in the list of jobs, all are different and the list of persons must verify the four rules you describe. –  joel76 Jan 5 '13 at 16:33
Go ahead and look at should be able to solve the problem with a couple of hours of reading and trying things out. –  Boris Jan 5 '13 at 16:39
Are you sure those rules are complete? I get 3 solutions... –  CapelliC Jan 5 '13 at 18:33

1 Answer 1

Given the small dataset, you can solve using generate and test, see permutation/2 . To easy translate each rule, name a variable with the worker name. I'll show just the first condition

q([sam=Sam, tom=Tom, bob=Bob]) :-
  ( Sam = cashier -> Tom = manager ; true ),

with that, i get these solutions

?- q(X).
X = [sam=accountant, tom=cashier, bob=manager] ;
X = [sam=manager, tom=accountant, bob=cashier] ;
X = [sam=accountant, tom=manager, bob=cashier] ;
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thanks alot i've made something working q([sam/A, tom/B, bob/C]) :- N=[accountan,cashier,manager], P=[A,B,C], permute(N,P), ( accountan = B -> cashier = C ; true ), ( accountan = C -> cashier = A ; true ), ( not(cashier = B) -> not(manager = C) ; true ), ( manager = A -> accountan = C ; true ). append([],B,B). append([H|T],B,[H|T1]):-append(T,B,T1). insert(Y,XZ,XYZ):-append(X,Z,XZ),append(X,[Y],XY),append(XY,Z,XYZ). permute([],[]). permute([H|T],L):-permute(T,T1),insert(H,T1,L). –  pewpawpew Jan 6 '13 at 9:35

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