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Well I have some elementary parts of cars, eg:

elementary_part( spoke ).
elementary_part( rim ).
elementary_part( hub ).

and some subcomponents, eg:

subcomponent( wheel, [quant( spoke, 5 ), quant( rim, 1 ), quant( hub, 1)] ).

and I'm trying to write a "consists_of" program that gives the elementary parts, eg

consists_of(wheel, P).

I have so far make it through this point:

consists_of(wheel, P):- parts(wheel, P).
quant(X,Y):- write(Y), write(' piece(s) of '), write(X), write('.'), nl.
parts(X,Y):- subcomponent(X, [H|T]), print_a_list([H|T]).

print_a_list([H | T]) :- nl, write(H), print_a_list(T).

What I get as a result is:

?- consists_of(wheel,P).


...which is not what I want. I get the correct result when I try

consists_of(wheel, P):- quant( spoke, 5 ), quant( rim, 1 ), quant( hub, 1).

but since I'm doing this for many car-parts I know this isn't the solution.

Am I missing sth? How can I exctract separately the elements of the list so that 'quant(X,Y)' will be shown correctly? Or at least that only the elements are shown,and not the compound term with the functor.

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1 Answer

up vote 1 down vote accepted

You just need to replace the call to write(H) by the call to quant:

print_a_list([quant(X,Y) | T]) :- nl, quant(X,Y), print_a_list(T).

If you still would like to keep your print_a_list as generic as possible do

print_a_list([H | T]) :- nl, write_q(H), print_a_list(T).


write_q(H) :- H.

Some people might dislike the last solution so an alternative would be

write_q(quant(X,Y)):- write(Y), write(' piece(s) of '), write(X), write('.'), nl.
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Thanks a lot, the last two solutions work, the first one had some errors but I'm satisfied, couldn't put my finger on it and it seemed rather simple in the end, thank you! –  Gkri Jan 21 '13 at 10:29
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