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Write a rule that take a list whose elements are themselves lists and print on each line the elements of internals list:


?- printList[[1,a],[2,b]]).

1 a

2 b

The solution it the following one:

/* BASE CASE: The list is empty, so there is nothing to print */

printList([P|R]):- printList(P),

printList([X|R]):- write(X),

I have the printList rule that reaches the base case when the list is empty and in this case there is nothing to print.

If I am not in the base case (the list is not empty) it calls the second rule printList([P|R]) and now I have my first doubt:

The element P is a list because Prolog automatically handles an internal list as an element?

So, If I have something like:

[[1,a],[2,b],[3,c],[4,d]] I have that Prolog automatically match in this way:

P = [1,a] (the first list as the head element)

R = [[2,b],[3,c],[4,d]] (the other 3 list are the element of a tail list)

And then the program calls the printList predicate on the head element (the first list) and this version of the rule writes all the elements in the current list.

Is this right this interpretation?

Now I have some doubts about about the trace of this program, for example if I execute this statement I obtain the following trace:

[trace]  ?- printList([[1,a], [2,b]]).
   Call: (6) printList([[1, a], [2, b]]) ? creep
   Call: (7) printList([1, a]) ? creep
   Call: (8) printList(1) ? creep
   Fail: (8) printList(1) ? creep
   Redo: (7) printList([1, a]) ? creep
   Call: (8) write(1) ? creep
   Exit: (8) write(1) ? creep
   Call: (8) printList([a]) ? creep
   Call: (9) printList(a) ? creep
   Fail: (9) printList(a) ? creep
   Redo: (8) printList([a]) ? creep
   Call: (9) write(a) ? creep
   Exit: (9) write(a) ? creep
   Call: (9) printList([]) ? creep
   Exit: (9) printList([]) ? creep
   Exit: (8) printList([a]) ? creep
   Exit: (7) printList([1, a]) ? creep
   Call: (7) nl ? creep

   Exit: (7) nl ? creep
   Call: (7) printList([[2, b]]) ? creep
   Call: (8) printList([2, b]) ? creep
   Call: (9) printList(2) ? creep
   Fail: (9) printList(2) ? creep
   Redo: (8) printList([2, b]) ? creep
   Call: (9) write(2) ? creep
   Exit: (9) write(2) ? creep
   Call: (9) printList([b]) ? creep
   Call: (10) printList(b) ? creep
   Fail: (10) printList(b) ? creep
   Redo: (9) printList([b]) ? creep
   Call: (10) write(b) ? creep
   Exit: (10) write(b) ? creep
   Call: (10) printList([]) ? creep
   Exit: (10) printList([]) ? creep
   Exit: (9) printList([b]) ? creep
   Exit: (8) printList([2, b]) ? creep
   Call: (8) nl ? creep

   Exit: (8) nl ? creep
   Call: (8) printList([]) ? creep
   Exit: (8) printList([]) ? creep
   Exit: (7) printList([[2, b]]) ? creep
   Exit: (6) printList([[1, a], [2, b]]) ? creep

This is quite clear for me (I think that my previous reasoning is right) but I am not understanding why whenever it reaches an element in an internal list it calls the printList relation on it (that is a simple element and not a list), for example here:

   Call: (8) printList(1) ? creep
   Fail: (8) printList(1) ? creep

the program had considered the first list of the original list and then, into it to have to print its first element, why call the printList relation on this simple element

Is it because this simple element may in turn be internal lists?

Something like:

[[[1.1,a1,a2],[1.2,b1,b2]], [2,b]] (in which I have a list that contains 2 lists and the first element it is a list that contains 2 lists. So the program checks if an element it is an element or an internal list?

share|improve this question
up vote 2 down vote accepted

I think you're over-thinking it. Look at the code:

printList([P|R]):- printList(P),

Right there you can see that printList/1 is being unified with the head of the list. The fact that all the rules of printList/1 match lists and only lists is a fact that you, the human, can immediately see. But Prolog does not "notice" this fact, so if you are to call, say,


the first matching rule is the one above, so it will immediately try to unify printList(1). This will fail, naturally, because 1 is not a list and so doesn't match any of the rules for printList/1. Prolog then backtracks and tries the next rule, which is the one that starts like this:

printList([X|R]):- write(X),

This is clearly going to unify [1] with X = 1, R = [], so it's clearly going to write the first element, the one, and then proceed as usual. There is no magic here involving "internal lists," which as far as I'm aware is not a concept in Prolog at all (if such a thing is treated in the compiler it is well hidden from the user of Prolog).

Prolog isn't psychic; it has to try the rules to see if they fail, even if that attempt is essentially a failing pattern-match in the head of the Horn clause.

I am unable to distinguish your first from your second question so I hope this answers both. :)

share|improve this answer
Tnx so much ;-) – AndreaNobili Apr 22 '13 at 14:11

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