There are two things at work here.
The first is the meaning of "longest token". When there is an alternation (using
| or implied by use of
proto regexes), the declarative prefix of each branch is extracted. Declarative means the subset of the Raku regex language that can be matched by a finite state machine. The declarative prefix is determined by taking regex elements until a non-declarative element is encountered. You can read more and find some further references in the docs.
To understand why things are this way, a small detour may be helpful. A common approach to building parsers is to write a tokenizer, which breaks the input text up into a sequence of "tokens", and then a parser that identifies larger (and perhaps recursive) structure from those tokens. Tokenizing is typically performed using a finite state machine, since it is able to rapidly cut down the search space. With Raku grammars, we don't write the tokenizer ourselves; instead, it's automatically extracted from the grammar for us (more precisely, a tokenizer is calculated per alternation point).
Secondly, Raku regexes are a nested language within the main Raku language, parsed in a single pass with it and compiled at the same time. (This is a departure from most languages, where regexes are provided as a library that we pass strings to.) The longest token calculation takes place at compile time. However, variables are interpolated at runtime. Therefore, a variable interpolation in a regex is non-declarative, and therefore is not considered as part of the longest token matching.