When a proto and multis are defined in the same module, Type.^lookup('method').candidates returns a list of all multi candidates. However, this appears not to work when the proto lives in a different file/module from the multis.

say Setty.^lookup('grab').candidates;   # OUTPUT: ()

Is there any way to find the full list of multi candidates through Raku's introspection? Or is there no alternative to grepping through the source code? (I ask because having a full list of multi candidates applicable to a given proto would be helpful for documentation purposes.)


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:

  1. See if this class has a proto already; if so, add the multi to it
  2. 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.
  3. 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:

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

| improve this answer | |
  • «2. 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.» So, does the behavior I observed turn on the fact that this step involves a clone rather than a shared reference? I was imagining that there would be one and only one proto (with multiple classes being able to add candidates to its candidates list). Now that I've written that out, though, I can see how that would create obvious problems of shared mutable state and (I think?) issues for garbage collection. – codesections Aug 20 at 14:02
  • 1
    Yes, plus the extra candidates "at a distance" could even potentially affect the sort order and/or introduce new ambiguities, so there'd be semantic problems aside from the GC and concurrency ones. – Jonathan Worthington Aug 20 at 15:05

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