In your definition of `mult/3`

the first two arguments have to be known. If one of them is still a variable, an instantiation error will occur. Eg. `mult(2, X, 6)`

will yield an instantiation error, although `X = 3`

is a correct answer ; in fact, the only answer.

There are several options you have:

successor-arithmetics, constraints, or meta-logical predicates.

Here is a starting point with successor arithmetics:

```
add(0,Y,Y).
add(s(X),Y,s(Z)) :- add(X,Y,Z).
```

Another approach would be to use constraints over the integers. YAP and SWI have a `library(clpfd)`

that can be used in a very flexible manner: Both for regular integer computations and the more general constraints. Of course, multiplication is already predefined:

?- A * B #= C.
A*B#=C.
?- A * B #= C, C = 6.
C = 6,
A in -6.. -1\/1..6,
A*B#=6,
B in -6.. -1\/1..6.
?- A * B #= C, C = 6, A = 2.
A = 2,
B = 3,
C = 6.

Meta-logical predicates: I cannot recommend this option in which you would use `var/1`

, `nonvar/1`

, `ground/1`

to distinguish various cases and handle them differently. This is so error prone that I have rarely seen a correct program using them. In fact, even very well known textbooks contain serious errors!