prime_factors(N, [_:_]) :- prime_factors(N, [_:_], 2).

prime_factors(N, [_:_], D) :- N mod D == 0,  N1 is N div D, 
                          prime_factors(N1, [_:D], D).

prime_factors(N, [_:_], D) :- N mod D =\= 0, D1 is D+1, prime_factors(N, [_:_], D1).

This is my proposed solution to find the prime factors of an input N.

When I try to run it I am getting an error about such a predicate/2 not existing - is my syntax somehow wrong with the extended predicate/3?

  • 2
    What is [_:_] doing here? – Willem Van Onsem Mar 2 at 16:09
  • 2
    I think perhaps it may not be allowed, but for me it made sense as being equivalent to a list that is empty or not empty but the contents aren't being used as each time I'm just appending D to the end – Sid Jones Mar 2 at 16:12
  • 2
    but an empty list is [], and a "cons" has syntax [..|..], not [..:..]. – Willem Van Onsem Mar 2 at 16:12

Using a second parameter that only seems to unify in the second case, does not seem to make much sense. Furthermore this is not the way you construct a list in Prolog anyway, since:

  1. the "cons" has syntax [H|T], so then it should be [_|_];
  2. by using underscores the predicates are not interested in the values, you each time pass other parameters; and
  3. in Prolog one typically does not construct lists with answers, typically backtracking is used. One can use findall/3 to later construct a list. This is usually better since that means that we can also query like prime_factor(1425, 3) to check if 3 is a prime factor of 1425.

We can thus construct a predicate that looks like:

prime_factor(N, D) :-
    find_prime_factor(N, 2, D).

find_prime_factor(N, D, D) :-
    0 is N mod D.
find_prime_factor(N, D, R) :-
    D < N,
    (0 is N mod D
    -> (N1 is N/D, find_prime_factor(N1, D, R))
    ;  (D1 is D + 1, find_prime_factor(N, D1, R))

For example:

?- prime_factor(1425, R).
R = 3 ;
R = 5 ;
R = 5 ;
R = 19 ;

?- prime_factor(1724, R).
R = 2 ;
R = 2 ;
R = 431 ;

If we want a list of all prime factors, we can use findall/3 for that:

prime_factors(N, L) :-
    findall(D, prime_factor(N, D), L).

For example:

?- prime_factors(1425, R).
R = [3, 5, 5, 19].

?- prime_factors(1724, R).
R = [2, 2, 431].

?- prime_factors(14, R).
R = [2, 7].

?- prime_factors(13, R).
R = [13].
  • Okay, thank you, this was very helpful. – Sid Jones Mar 2 at 18:11
  • Are the parentheses in the if-then-else necessary? As in, (Cond -> (Then) ; (Else))? I have never used them for a simple conjunction, but now that I see your answer I started wondering if there are cases when without them you get no errors and different results? – User9213 Mar 3 at 6:53
  • @User9213: no, the brackets are not necessary in a simple case, but here the Then and Else both have two predicate calls. – Willem Van Onsem Mar 3 at 7:17
  • 1
    @WillemVanOnsem This was exactly my question. , has higher precedence than -> and ;, so the parentheses seem unnecessary. I couldn't come up with operators that you can use between -> and ; that have lower precedence. Unless you have a nested if-then-else, they seem unnecessary, but I assume I am forgetting something. – User9213 Mar 3 at 8:19
  • @User9213: you are correct that the brackets here are not necessary, but I think it is better to write these anyway, since it could create some confusion. But you are correct that if for example one queries listing. then the brackets are gone (but on the other hand, it uses indentation to make it clear how Prolog "groups" expressions). – Willem Van Onsem Mar 3 at 8:23

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