Unfortunately there's no direct built-in that completely flattens a data structure even when sub-lists are wrapped in item containers.

Some possible solutions:

### Gather/take

You've already come up with a solution like this, but `deepmap`

can take care of all the tree iteration logic to simplify it. Its callback is called once for every leaf node of the data structure, so using `take`

as the callback means that `gather`

will collect a flat list of the leaf values:

```
sub reallyflat (+@list) { gather @list.deepmap: *.take }
```

### Custom recursive function

You could use a subroutine like this to recursively `slip`

lists into their parent:

```
multi reallyflat (@list) { @list.map: { slip reallyflat $_ } }
multi reallyflat (\leaf) { leaf }
```

Another approach would be to recursively apply `<>`

to sub-lists to free them of any item containers they're wrapped in, and then call `flat`

on the result:

```
sub reallyflat (+@list) {
flat do for @list {
when Iterable { reallyflat $_<> }
default { $_ }
}
}
```

### Multi-dimensional array indexing

The `postcircumfix [ ]`

operator can be used with a multi-dimensional subscript to get a flat list of leaf nodes up to a certain depth, though unfortunately the "infinite depth" version is not yet implemented:

```
say @ab[*;*]; # (a (b c) (d) e f [a (b c)] x (y z) w)
say @ab[*;*;*]; # (a b c d e f a (b c) x y z w)
say @ab[*;*;*;*]; # (a b c d e f a b c x y z w)
say @ab[**]; # HyperWhatever in array index not yet implemented. Sorry.
```

Still, if you know the maximum depth of your data structure this is a viable solution.

### Avoiding containerization

The built-in `flat`

function can flatten a deeply nested lists of lists just fine. The problem is just that it doesn't descend into item containers (`Scalar`

s). Common sources of unintentional item containers in nested lists are:

An `Array`

(but not `List`

) wraps each of its elements in a fresh item container, no matter if it had one before.

*How to avoid:* Use Lists of Lists instead of Arrays of Arrays, if you don't need the mutability that Array provides. Binding with `:=`

can be used instead of assignment, to store a `List`

in a `@`

variable without turning it into an `Array`

:my @a := 'a', ('b', 'c' );
my @b := ('d',), 'e', 'f', @a;

say flat @b; # (d e f a b c)

`$`

variables are item containers.

*How to avoid:* When storing a list in a `$`

variable and then inserting it as an element into another list, use `<>`

to decontainerize it. The parent list's container can also be bypassed using `|`

when passing it to `flat`

: my $a = (3, 4, 5);
my $b = (1, 2, $a<>, 6);

say flat |$b; # (1 2 3 4 5 6)