If your intention is to define `f(A,X)`

such that `g(X)`

should be evaluated whether or not `c`

fails, then either:

- You could encode this using implication (
`->`

) and/or disjunction (`;`

), *or*
`f(A,X)`

*doesn't need to be defined in terms of* `c`

. This assumes `c`

has no *side-effects* (e.g., asserting database facts using `assert`

, or printing IO to a stream) which alter the environment and which cannot be undone on failure of `c`

, in which case the first option is preferable.

There are several alternatives for using disjunction, such as:

```
f(A,X) :- ((a, b, c) ; (a, b)), g(X).
```

This definition (above) doesn't depend on `c`

at all, but it will always execute `c`

(as long as `a`

and `b`

succeed). The disjunction (`;`

) allows PROLOG to backtrack to try executing `a, b`

*again* if `c`

failed at all, and to continue onto `g(X)`

. Note that this is equivalent to:

```
f(A,X) :- a, b, c, g(X).
f(A,X) :- a, b, g(X).
```

In order for PROLOG not to backtrack to evaluate `f(A,X)`

twice because of the second (identical) head predicate `f(A,X)`

for every evaluation, you may choose to place a cut (`!`

), if your implementation supports it, *immediately after* the `c`

subgoal in the first clause. The cut is placed *after* `c`

because we don't want the interpreter to commit to that choice of `f(A,X)`

clause if `c`

had failed, instead, we want the interpreter to fail out of this clause and to try the next one, to effectively ignore `c`

and to continue processing `g(X)`

.

Also note that this solution relies on `a`

and `b`

having no side-effects, because when `c`

fails, `a`

and `b`

are executed again. If all `a`

, `b`

, and `c`

have side effects, you can try using *implication*:

```
f(A,X) :- a, b, (c -> g(X) ; g(X)).
```

This will also effectively always execute `g(X)`

whether `c`

fails or not, and will not execute `a`

and `b`

again if `c`

fails. This single-clause definition will also not leave a choice-point like the previous suggestion.