Good job on the prime testing. Your loop, however, is both more code than you need and kind of off-track. Based on the code sample you show, you probably want this:
generatePrime(X, Y, N) :-
between(X, Y, N),
See how this works?
?- generatePrime(2, 10, X).
X = 2 ;
X = 3 ;
X = 5 ;
X = 7 ;
; are interactively given by the human operator.
If you want to print all of them out, you could go with a classic failure driven loop like so:
generatePrime(X, Y) :-
between(X, Y, N),
I wouldn't recommend this, but failure-driven loops seem to be a hot topic for beginners for some reason. I'd be more inclined to do something like this:
generatePrimes(X, Y) :-
(between(X, Y, N), isPrime(N)),
Either way you're basically there, and you have a lot of options.
Now, a few special notes:
isPrime(2). is basically equivalent to what you have with
isPrime(2) :- true, !. I would recommend staying away from the cut while you're just getting started. And you almost never really need an explicit
not/1 is not ISO. Use
\+/2 instead (i.e.
\+ divisible(X, 2))
X is 1 is no better than
X = 1.
is/2 is only necessary if you have an expression on the right-hand side you want evaluated and stored in the variable named on the left-hand-side. Other calling conventions for
is/2 either don't work or aren't productive.
X is X+1 will always fail. Prolog has variables, not assignables. You cannot change the value of a variable ever. You can only arrange for a binding somewhere else to have a particular value, perhaps recursively. In this case, the right thing to do is
X1 is X+1, generatePrime(Y, X1). Most, but not all, expected uses of assignment can be handled similarly to this.
- I am skeptical that
isPrime(X) -> write(X) ; true will do the right thing without being surrounded by parentheses; this is an area of Prolog's syntax that usually trips me up, so I almost always wind up parenthesizing the whole conditional expression to get it right. Also, I don't think you need
; true on there.