So far as `multi`

`methods`

go, it's not really to do with being in the same module or file at all. Consider these classes:

```
class Base {
proto method m(|) { * }
multi method m() { 1 }
}
class Derived is Base {
multi method m() { 2 }
}
```

Whenever we compose a class that contains multi methods, we need to attach them to a controlling `proto`

. In the case of `Base`

, this was explicitly written, so there's nothing to do other than to add the `multi`

candidate to its candidate list. Had we not written a `proto`

explicitly in `Base`

, however, then one with an empty candidate list would have been generated for us, with the same end result.

The process I just described is a bit of a simplification of what really happens, however. The steps are:

- See if this class has a
`proto`

already; if so, add the `multi`

to it
- Otherwise, see if any base class has a
`proto`

; if so, clone it (in tern cloning the candidate list) and add the `multi`

to that.
- Otherwise, generate a new
`proto`

.

And step 2 is really the answer to your question. If we do:

```
say "Base:";
.raku.say for Base.^lookup('m').candidates;
say "Derived:";
.raku.say for Derived.^lookup('m').candidates;
```

Then the output is:

```
Base:
multi method m (Base: *%_) { #`(Method|82762064) ... }
Derived:
multi method m (Base: ) { #`(Method|82762064) ... }
multi method m (Derived: ) { #`(Method|82762208) ... }
```

That is, the candidate list in `Base`

has one entry, and the candidate list in `Derived`

has the entry cloned from `Base`

as well as a new one.

Pretty much everything follows this principle: derived classes reference their base class (and the roles they do), but base classes (and roles) don't know about their descendants.