Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

# Calculate a list of cubes in Prolog

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

-

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

betterCubes([],[]).
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
),
betterCubes(T,Z).
``````
-
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].
``````
-
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) ,
reverse(T,Ys)
.

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.

-
these are not difference lists... – CapelliC Aug 14 '12 at 23:29