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So I'm doing some Prolog in SWI-Prolog and I've come across a little snag. I must create a list of cubes, given an input list. The code I currently have is

cubes([Head|Tail],Cubes) :-
cubes([Head|Tail],Cubes,ActualCubes) :-
    X is Head^3,
cubes([Tail],Cubes,ActualCubes) :-
    X is Tail^3,
    Cubes is NewCubes.

When I run that it gives an error, specifically...

ERROR: '.'/2: Type error: `[]' expected, found `[8]' ("x" must hold one character)
   Exception: (7) cbList([1, 2], _G296, []) ? creep

I'm not entirely sure why this error is occurring but it seems to happen around the very last line, Cubes is NewCubes. Any help is appreciated :)

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up vote 1 down vote accepted

First, you're making different cubes predicates with differing numbers of arguments. This is bound to cause both conceptual and syntactical problems, so at that point, re-think what you're doing. In this case, try to expand the ways you can use pattern matching and recursion:

cubes([H|T], [Y|Z]):-
        Y is H*H*H,

betterCubes([H|T], [Y|Z]):-
          var(Y) , nonvar(H)    -> Y is H*H*H
        ; nonvar(Y) , var(H)    -> H is Y**(1.0/3.0) 
        ; nonvar(Y) , nonvar(H) -> H*H*H =:= Y
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Next exercise, try to do it in an even briefer way. Can you eliminate the use of is here? – Mr. F Aug 13 '12 at 1:46
I should clarify, the input is something like cubes([1,2,3],X) and the output should be X = 1, 8, 27 and if they input X (i.e. cubes([1,2,3],[1,8,27])) it should return false. – WhaleFanny Aug 13 '12 at 2:16
Well, I intended to leave it vague to give you something to work through. But I added more to my answer that does what you want. As a bonus, this one also computes cube roots if you leave the second argument variable, but I've left a slight bug with that (the interpreter will require an extra . when you use it this way), so if you're interested it's a good exercise to figure out how to make that go away, giving yourself a cube function that automatically does cube roots too. – Mr. F Aug 13 '12 at 2:33

I think you are trying to exercise a pattern known as accumulator, rewriting a binary relation with an added argument that holds intermediary results.

Syntax errors apart, you should note that an accumulator it's useless here, because each element of a list is in relation only with the corresponding element of the other list.

library(apply) has maplist/3 for such common case:

cube(N, C) :-
    C is N^3.
cubes(Ns, Cs) :-
    maplist(cube, Ns, Cs).

and library(clpfd) has interesting features that allow (in integer domain) a better relational handling of arithmetic. Replace cube above with

:- [library(clpfd)].

cube(N, C) :-
    N ^ 3 #= C.

and you are allowed to write

?- cubes(X,[1,8,27]).
X = [1, 2, 3].
share|improve this answer
In my interpreter (swi-prolog), your cube function gives a not-instantiated error when N is left as a variable. Is this an interpreter difference? It's also not clear why this would satisfy the OP's secondary constraint I also have the gripe that using maplist is a bit like cheating for an exercise like this which is obviously meant to get the programmer to think about pattern matching and concise recursion. Sweeping it into maplist is artificially concise, for a learner. – Mr. F Aug 13 '12 at 12:16
@EMS: you are right, and already explained well OP's problem. About the problem with library(clpfd), AFAIK such code should work. Of course using (#=)/2, while is/2 gives the error... – CapelliC Aug 13 '12 at 13:49
@EMS: an exercise can have many solutions, I think the best solution here would be to spot that the global pattern to apply here is a maplist and then recode the maplist if it's interesting for you. This way you both learn the recursion and learn the functionnal idioms at once. – m09 Aug 14 '12 at 8:39
But whether or not maplist is the right thing to use totally depends on context. In a graduate class on language processing that I was once in, we used Prolog throughout the semester and using maplist (etc.) was forbidden. The professor believed it obfuscated understanding what you were doing. I understand that's an extreme example, but it seems pretty reasonable with an exercise like computing cubes to assume the person is learning from a basic perspective, where you shouldn't take shortcuts like maplist. Just my opinion. The maplist approach is a fine solution in other instances. – Mr. F Aug 14 '12 at 12:33
maplist and other higher order idioms (folds, filters, etc) are commonly coded as a starting point for learners in all declarative languages that use it (haskell, OCaml, Prolog, etc). Once this coding is done I find it counter productive to continue using basic recursion instead: it's harder to read (doesn't highlight the concept) and longer to type. Longer to type means more chances to make errors, too. – m09 Aug 14 '12 at 14:28

In this case, one can also accomplish the desired goal with a difference list:

cubes( [] , [] ) .
cubes( [X|Xs] , [Y|Ys] ) :-
  Y is X*X*X ,
  cubes( Xs , Ys )

The output list is built as we traverse the source list, recursing down. The final goal cubes([],[]) unifies the empty list [] with the tail of the output list, making it a correct list.

The other approach is to use an accumulator, which builds the output in reverse order, then reverses it:

cubes(Xs,Ys) :-
  cubes(Xs,[],T) ,

cubes( [] , Ys, Ys ).
cubes( [X|Xs] , Ts , Ys ) :-
  T is X*X*X ,
  cubes( Xs , [T|Ts] , Ys )

Both are (our should be) properly tail recursive.

share|improve this answer
these are not difference lists... – CapelliC Aug 14 '12 at 23:29

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