10

When we slice an array with an index that exceeds the boundaries of the array we get as the result the undefined (Any)

When we pass the same slice index as a lazy list then we get as result the existing values of the array/list (and NOT any more than that):

my @a = ^5;

say @a[^10];        # (0 1 2 3 4 (Any) (Any) (Any) (Any) (Any))
say @a[lazy ^10];   # (0 1 2 3 4)

It is clear that lazyness of the slice index affects the result.

Trying to undestand the way things are and as a proof of concept I programmed my simple version of the slice mechanism:

my @a = ^5;

my @s1 = ^10;
my @s2 = lazy ^10;

sub postcircumfix:<-[ ]-> (@container, @index) {
    my $iter = @index.iterator;

    gather {
        loop {
            my $item := $iter.pull-one;

            if $item =:= IterationEnd {
                last;
            }

            with @container[$item] {
                take @container[$item]
            } else {
                @index.is-lazy ?? { last } !! take @container[$item];
            }
        }
    }
}

say @a-[@s1]-;   # (0 1 2 3 4 (Any) (Any) (Any) (Any) (Any))
say @a-[@s2]-;   # (0 1 2 3 4)

But I am wondering if my naive algorithm depicts the way that things are computed under the hood !

1
  • great question @jakar - in my mind, this also illustrates the thought that has gone into the design of raku and its philosophy of inclusion. A more constraining language would go "which is the right way, either (i) always cut off the slicer at the end of the array -OR- (ii) always iterate to the end of the slicer". This uses 'lazy' iteration to both fix the infinite slicer problem neatly -AND- it gives us a concise way to do (i) if that is what we need. – p6steve Oct 7 '20 at 15:32
7

The source for how things are done under the hood can be found in array_slice.pm6.

Specifically, you can see the following at L73:

    if is-pos-lazy {
        # With lazy indices, we truncate at the first one that fails to exists.
        my \rest-seq = Seq.new(pos-iter).flatmap: -> Int() $i {
            nqp::unless(
              $eagerize($i),
              last,
              $i
            )
        };
        my \todo := nqp::create(List::Reifier);
        nqp::bindattr(todo, List::Reifier, '$!reified', eager-indices);
        nqp::bindattr(todo, List::Reifier, '$!current-iter', rest-seq.iterator);
        nqp::bindattr(todo, List::Reifier, '$!reification-target', eager-indices);
        nqp::bindattr(pos-list, List, '$!todo', todo);
    }
    else {
        pos-iter.push-all: target;
    }

So, as you've surmised, it does indeed stop after a list item doesn't exist. This is no doubt becaue many lazy lists are infinite, and iterators don't provide a way to know if they are infinite or not (the generator may be non-determinative).

If you really want to enable such a thing, you could, for instance, write your own slicer that handles lazy lists where an element may not be available, but you have to take care to ensure that things are only eagerly evaluated if you know they're finite:

multi sub postcircumfix:<-[ ]-> (@a, @b) {
  lazy gather {
    take @a[$_] for @b;
  }
}

my @a = ^5;
my @b = lazy gather { 
  for ^10 -> $i { 
    # So we can track when elements are evaluated
    say "Generated \@b[$i]"; 
    take $i;
  } 
};

say "Are we lazy? ", @a-[@b]-;
say "Let's get eager: ", @a-[@b]-.eager;
say "Going beyond indices: ", @a-[@b]-[11]

The output of this is

Are we lazy? (...)
Generated @b[0]
Generated @b[1]
Generated @b[2]
Generated @b[3]
Generated @b[4]
Generated @b[5]
Generated @b[6]
Generated @b[7]
Generated @b[8]
Generated @b[9]
Let's get eager: (0 1 2 3 4 (Any) (Any) (Any) (Any) (Any))
Going beyond indices: Nil
2
  • Thnx for the code reference! (Only one small glitch! In line 12 of your code "take $i++" must be: "take $i") – jakar Sep 30 '20 at 6:09
  • @jakar: oops, yeah. that's what I get for editing code after copy and paste ha. – user0721090601 Sep 30 '20 at 11:54

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