f2 is a closure, since it accesses a variable (
n) from an outer scope. (OK, it's not really a closure -- see update below).
n was declared inside
f2; this makes it belong to
f1's scope. So when you create the function
f2 which references
n, it is a closure by definition, since it uses someone else's variable.
Alright, if I understand the answer you've linked to correctly, it says that
f2 is not a closure because it is merely accessing a variable within its scope (just like an
if statement, which gets its own scope within the braces*, can use variables from the outer scope without needing a closure).
f2 would become a closure if it left
f1's scope (e.g. by being returned); in that case, it would still have access to
n, even though
f1's original scope would no longer exist (it's exited when control leaves the function).
f2 would have "closed over"
f1's variables, thus artificially extending the lifespan of
Personally, I would still call
f2 a closure, even if it never leaves
f1. If a function can become a closure simply by being used outside of its declaring scope, and its behaviour inside that scope is no different whether it's technically a closure or not, then I see no point in making a distinction. I would even go so far as to say that it's an implementation detail whether
f2 is a closure or not, if it never leaves
On the other hand, ignoring that distinction would mean that any function that uses a global variable would be called a "closure", since it accesses a variable from an outer scope. So the fact that it becomes a closure only when it leaves the scope(s) that the variables it is using are defined in is a worthwhile (albeit subtle) distinction.
I guess the clearest answer I can give is that it's not a closure yet.