My answer to the similar question Intersection and union of 2 lists might be of interest to you.

Unlike other answers posted here and there, the implementation I suggest is logically pure and monotone, which makes it more versatile and robust with regard to generalization / specialization.

First, let's see if it works with the query you gave above:

```
?- As = [la_defense,etoile,chatelet,nation],
Bs = [auber,chatelet,hotel_de_ville,nation],
list_list_intersection(As,Bs,Xs).
As = [la_defense, etoile, chatelet, nation],
Bs = [auber, chatelet, hotel_de_ville, nation],
Xs = [chatelet, nation].
```

But what if we write the query in a different (but logically equivalent) way?

```
?- As = [_,_,_,_],
Bs = [_,_,_,_],
list_list_intersection(As,Bs,Xs),
As = [la_defense,etoile,chatelet,nation],
Bs = [auber,chatelet,hotel_de_ville,nation].
As = [la_defense, etoile, chatelet, nation],
Bs = [auber, chatelet, hotel_de_ville, nation],
Xs = [chatelet, nation].
```

With `list_list_intersection/3`

we get the **same result**.

Now, let us consider using the builtin `intersection/3`

, which was proposed in another answer. Is `intersection/3`

robust regarding generalization, too?

```
?- As = [_,_,_,_],
Bs = [_,_,_,_],
intersection(As,Bs,Xs),
As = [la_defense,etoile,chatelet,nation],
Bs = [auber,chatelet,hotel_de_ville,nation].
false.
```

**No!** `intersection/3`

fails, even though it succeeded in a logically equivalent query, which shows that the implementation of `intersection/3`

is *not monotone*.

**Bottom line:** `intersection/3`

is **harder to use right** than `list_list_intersection/3`

; it forces you to think about declarative **and** procedural aspects when using it.