First, let's clear up a misconception.
You appear to believe that some operators evaluate to some kind of data structure called a list regardless of context, and that this list returns its length when coerced into scalar context.
All of that is incorrect.
An operator must evaluate to exactly one scalar in scalar context, and a sub must return exactly one scalar in scalar context. In list context, operators can evaluate to any number of scalars, and subs can return any number of scalars. So when we say an operator evaluates to a list, and when we say a sub returns a list, we aren't referring to some data structure; we are simply using "list" as a shorthand for "zero or more scalars".
Since there's no such thing as a list data structure, it can't be coerced into a scalar. Context isn't a coercion; context is something operators check to determine to what they evaluate in the first place. They literally let context determine their behaviour and what they return. It's up to each operator to decide what they return in scalar and list context, and there's a lot of variance.
As you've noted,
@a operator in scalar context evaluates to a single scalar: the length of the array.
- The comma operator in scalar context evaluates to a single scalar: the same value as its last operand.
qw operator in scalar context evaluates to a single scalar: the last value it would normally return.
On to your question.
To determine to how many scalars an operator would evaluate when evaluated in list context, we need to evaluate the operator in list context. An operator always evaluates to a single scalar in scalar context, so your attempts to impose a scalar context are ill-founded (unless the operator happens to evaluate to the length of what it would have returned in list context, as is the case for
@a, but not for many other operators).
The solution is to use
my $n = () = f();
The explanation is complicated.