# Trailing variable in a prolog list

I'm on a beginner level course in prolog, doing a map colouring problem. Here's my code.

col(Colors,Map,Coloring) :-
checkMap(Colors,Map,Coloring).
checkMap(Colors,[Country1:Country2],Coloring) :-
goodColor(Country1:Country2,Coloring,Colors).
checkMap(Colors,[Country1:Country2|Rest],Coloring) :-
goodColor(Country1:Country2,Coloring,Colors),
checkMap(Colors,Rest,Coloring).
goodColor(Country1:Country2,Coloring,Colors) :-
mem(Country1:Color1,Coloring),!,
mem(Country2:Color2,Coloring),!,
mem(Color1,Colors), mem(Color2,Colors),
not(Color1=Color2).
mem(Var,[Var|_]).
mem(Var,[_|Rest]) :-
mem(Var,Rest).


My output looks like this:

?- col([a,b,c],[1:2,1:3,2:3],X).
X = [1:a, 2:b, 3:c|_G332] ;
X = [1:a, 2:c, 3:b|_G332] ;
X = [1:b, 2:a, 3:c|_G332] ;
X = [1:b, 2:c, 3:a|_G332] ;
X = [1:c, 2:a, 3:b|_G332] ;
X = [1:c, 2:b, 3:a|_G332] ;
fail.


Anyone know how I can get rid of the trailing variable? I know it's mostly cosmetic, but I don't see why it's there.

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Using an incomplete data structure is a valid Prolog programming technique. If your intention is to use an incomplete data structure then one solution is:

ground_terms([H|T1],[H|T2]) :- ground(H), !, ground_terms(T1,T2).
ground_terms(_,[]).


and change col as follows:

col(Colors,Map,Coloring) :-
checkMap(Colors,Map,Coloring1),
ground_terms(Coloring1,Coloring).

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What is the predicate ground/1 in there? Thanks for the answer :) –  Pjotrovitz Nov 14 '08 at 9:03

The trailing variable is there because mem(Var,[Var|_]) binds the unbound Coloring variable to [Var|_].

One way to avoid it is to accumulate the map coloring e.g (very quick and extremely dirty):

col(Colors,Map,Coloring) :-
check(Colors,Map,[],Coloring).

check(Colors,[],Coloring,Coloring).

check(Colors,[Country1:Country2 | T],[],L) :-
member(Color1,Colors),
member(Color2,Colors),
Color1 \== Color2,
check(Colors,T,[Country1:Color1,Country2:Color2],L).

check(Colors,[Country1:Country2 | T],Coloring,L) :-
member(Country1:Color1,Coloring),
member(Country2:Color2,Coloring),!,
check(Colors,T,Coloring,L).

check(Colors,[Country1:Country2 | T],Coloring,L) :-
member(Country1:Color1,Coloring),!,
member(Color2,Colors),
not(member(_:Color2,Coloring)),
check(Colors,T,[Country2:Color2|Coloring],L).

check(Colors,[Country1:Country2 | T],Coloring,L) :-
member(Country2:Color2,Coloring),!,
member(Color1,Colors),
not(member(_:Color1,Coloring)),
check(Colors,T,[Country1:Color1|Coloring],L).


Its a much more 'procedural' approach than yours though :-(. There's probably a more elegant way...

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