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I have a database of facts like this:


I need to write a predicate more(+Let) that succeeds if it exists more than one fact li(Let,_).

For example the queries more(b) and more(d) will succeed, but more(a) and more(c) will not. My idea was to check if li(Let,_) succeeds more than once, but I do not know how to do it.

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3 Answers 3

up vote 4 down vote accepted

Try findall/3:

findall(X, li(d,X), L), length(L,N), N>1.

Abstracting the d out and making a predicate is trivial. Right? :)

If you don't want to use any of the predicates like findall, you can change the representation of your knowledge - bring it down one level, so to speak:

my_knowledge(li, [a-2,b-3,b-1,c-2,d-1,d-1]).

and then you can use SWI Prolog's predicate select/3 to handle it:

select_knowledge(kn, key, R):-

  select(K-X,L,L1) -> R=[X|R1], select_key(L1,K,R1)
  ; R = [].

You can rewrite the last predicate as basic recursion over lists, and then tweak it to stop after getting first N results.

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Your solution seems nice but I'm searching for a solution that uses only the predicates itself or basic predicates such as member, append, length, and obviously comparisons. –  markusian Oct 4 '12 at 22:08
@markusian then you're out of luck. Counting how many times a predicate succeeds is not logic, it is above logic - i.e. it is not about proving something but about the workings of the mechanism to prove something. At the very least you have to use assert/retract, or flag etc. findall is just easier to use. –  Will Ness Oct 5 '12 at 10:00
Thanks for the explanation Will! So, if counting how many times a predicates succeeds is not logic, I should think about another way to do so. –  markusian Oct 5 '12 at 12:01
@markusian and that's the way of using flag, or assert/retract, or findall, or nb_setarg. All legitimate parts of a programming language, Prolog. swi-prolog.org/pldoc/man?predicate=nb_setarg%2f3 has sample succeeds_n_times predicate. –  Will Ness Oct 5 '12 at 12:38
I just discovered that my problem was simpler than I thought because the predicate more should answer is if at least two facts li(Let,X), li(Let,Y), with X not equal to Y. I resolved it simply with more(L):- li(L,X), li(L,Y), X \= Y, !. –  markusian Oct 9 '12 at 14:17
more_than_once(Goal) :-
   \+ \+ call_nth(Goal,2).

With call_nth/2 as defined in this answer.

The big advantage of this solution compared to the other solutions proposed is that it will succeed rapidly even if there is a very large sequence of answers. In fact, it will even succeed for an infinite sequence of answers:

?- more_than_once(repeat).

?- more_than_once(between(1,100000,_)).

(The implementation of call_nth/2 uses some non-standard, low-level built-ins of SWI. It is possible to avoid that, but with even more headache.)

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SWI-Prolog has library(aggregate).

:- [library(aggregate)].

more(Key) :- aggregate_all(count, li(Key, _), C), C > 1.


?- more(b).

?- more(a).

It's not very easy to learn, but useful to handle such common tasks. If you have a very large code base, then findall (and aggregate as well, that uses findall inside) could be inefficient, building a list only to count its elements.

Then you could use a side effect based predicate: in this related answer you'll find such utility. For max efficiency, see the comments, where is explained how to use nb_setval/nb_getval...

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hmm, calling findall(X, pred(X), [_,_|_]) may be read as showing the intent to cut down the number of actual calls to pred to no more than two ... but this could only be done at the level of implementation, right? Or may be it merits another name for the predicate altogether, like findsome. :) findall says "find all" after all. –  Will Ness Oct 4 '12 at 19:53
@Will Ness: yes, we must arrange some predicate ad hoc... –  CapelliC Oct 4 '12 at 20:00
more(repeat). –  false Oct 7 '12 at 19:43

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