I've the following class:

class Names {
    has @!names;

    method add-name( $name ) { @!names.push($name) }

    multi method AT-POS( ::?CLASS:D: $index ) {
        my $new-names-obj = Names.new;

        for @!names[$index] -> $name {

        return $new-names-obj;

    method gist {

I'd like to be able to slice a Names object and the returned value should be another Names object whose elements are sliced off from the original Names object. For instance:

my $original = Names.new;
$original.add-name($_) for <jonathan joseph jotaro josuke giorno>;
my $sliced-off = $original[0..2];

say $original.^name;   #=> Names
say $original;         #=> jonathan, joseph, jotaro, josuke, giorno
say $sliced-off.^name; #=> List
say $sliced-off;       #=> (jonathan joseph jotaro)

When a single argument is passed, it works as expected and as described in this answer but it's not the case with range since AT-POS ends up being called multiple times and collecting the results in a list. Thus I'm wondering if it's possible to return a single object $sliced-off, not a list of results, when using a range.


Building on Liz's guidance:

class Names {
    has @.names;                                      # Make public so [] can access.
    method new (*@names) { nextwith :@names }         # Positional .new constructor.
    submethod BUILD (:@!names) {}                     # Called by nextwith'd Mu new.
    multi sub postcircumfix:<[ ]>                     # Overload [] subscript.
      ( Names $n, $index, *@indices )                 # Why `$index, *@indices`?
      is default is export                            # And why `is default`?
      { Names.new: |$n.names[ |$index, |@indices ] }  # Why? See my comment 
    method gist { @!names.join(', ') }                # below Liz's answer.
import Names;

my $original = Names.new: <jonathan joseph jotaro josuke giorno>;
my $sliced-off = $original[0..2];

say $original.^name;   #=> Names
say $original;         #=> jonathan, joseph, jotaro, josuke, giorno
say $sliced-off.^name; #=> Names
say $sliced-off;       #=> jonathan, joseph, jotaro

PLMK if the code or explanation is inadequate.

  • (part of me wonders if there's someway to get that autoexported making the import unnecessary. It would be pretty awesome to be able to have classes define their own operators inside of them, although admittedly only a small space savings given most people just use modules which can export both the class and the operators together) – user0721090601 Feb 4 at 17:22
  • "have classes define their own operators" To clarify for other readers, you can do that -- that's what I've done. @user0721090601 "autoexported" Presumably @Larry felt it best to require something explicit to trigger import. "someway" There's always a way. :) I'm not convinced it'd be worth it. But here's a couple ideas. Maybe sub trait_mod:<is> (Mu $package, :$exported!) { ... trigger import once package composed ... }; class foo is exported { ... }? Or this is the hook for introducing new declarators. – raiph Feb 4 at 19:19
  • Indeed, I meant to be "define and autoexport". But thinking about it a bit more, only certain operators can be assumed to work as designed by a given class's author. Namely ~~, eqv, and a few others (because ~~ uses ACCEPTS, and eqv can use WHICH, etc). If I define a custom + infixes for my Supercomplex numeric class, there's no guarantee, though, that it will be called when it gets passed along to a math module that doesn't know about it. Even autoexporting/importing won't solve that. – user0721090601 Feb 4 at 19:44
  • @user0721090601 Right. The semantics for how an overall op turns into a particular detailed sequence of sub operations is arbitrary -- sometimes simple to overload, sometimes not. And iirc all non-method operators and their overloads are lexical. So you have to do something more drastic than mere import to make a difference to what happens when operators are called in other modules. Something like rebinding an operator's definition in the CORE:: namespace -- and that's definitely a pretty drastic thing to do just so you can sneak in your own variation for your own type! :) – raiph Feb 4 at 19:58

The AT-POS method is intended to let an object act as a Positional object. This is not what you appear to want. You want object[slice] DWIM.

The best way to achieve that, is to create a postcircumfic:<[ ]> (multi) candidate for your object:

class A {
    method slice(@_) {
        say @_;  # just to show the principle
sub postcircumfix:<[ ]>($object, *@indices) {
   constant &slicer = &postcircumfix:<[ ]>;
   $object ~~ A
     ?? $object.slice(@indices)
     !! slicer($object, @indices)

A.new[1,2,4,5];  # [1 2 4 5]

my @a = ^10;     # check if foo[] still works
say @a[1,2,4,5]; # (1 2 4 5)

To make sure that the common behaviour of @a[] is kept, we save the value of the system's postcircumfix:[ ]> at compile time (with a constant). Then at runtime, when the object is not of the right class, invoke the original version of postcircumfix:<[ ]> with the given parameters.

  • A.new[1,2,4,5]; doesn't print the positions being passed, however calling .slice([1,2,4,5]) on the newly created object does. It's as if the indexes aren't being passed to .slice when using []. Another thing is that using [] with a single index throws the error Index out of range. Is: 1, should be in 0..0. – uzlxxxx Feb 3 at 19:46
  • I can't seem for some reason to get the new sub to be called on my end, even when using is default. Changing it to [_ _] (and the resulting call) does work, however. – user0721090601 Feb 3 at 20:07
  • 1
    In my tests, use of postcircumfix [...] does not call the sub Liz has defined. To get it to work I had to use multi sub postcircumfix:<[ ]> ( A:D $object, $index ) { ... } {} and to get it to work usefully (taking multiple index args) it had to be multi sub postcircumfix:<[ ]> ( A:D $object, $index, *@rest ) is default { $object.slice( [ $index, |@rest ] ) }. – raiph Feb 3 at 20:52
  • Yeah, I got caught in adding the multi later. If you take away the multi, it does work like I said. But then you can't slice any ordinary arrays anymore. Hmmm... – Elizabeth Mattijsen Feb 3 at 20:56
  • 1
    This also reminds me that for strongly typed Raku, having a typed slice would be kind of useful. Doing Array[T].new: @object[slice] does get old after a while. Actually, maybe I'll make that as a quick little module to do that. sub postcircumfix:<[[ ]]> ( Positional \p, \items) is equiv(&postcircumfix:<[ ]>) { p.WHAT.new: p[items.list] } does the trick 99.99% of the time methinks (it'd technically fail if someone designed a Positional that didn't have a .new accepting a list, but that's just weird) – user0721090601 Feb 4 at 16:50

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