The behavior might be undefined for
i, since depending on how you read the standard, you could be reading
i before its lifetime starts.
... The lifetime of an object of type T begins when:
— its initialization (if any) is complete ...
As mentioned in the other answer,
i is initialized twice: first zero-initialized statically, then initialized with
Which initialization starts the lifetime? The first one or the final one?
The standard is being vague, and there are conflicting notes in it (albeit all of them are non-normative). Firstly, there is a footnote in
[basic.life]/6 (thanks @eerorika) that explicitly says that the dynamic initialization starts the lifetime:
Before the lifetime of an object has started but after the storage which the object will occupy has been allocated26
26) For example, before the dynamic initialization of an object with static storage duration ...
This interpretation makes the most sense to me, because otherwise it would
be legal to access class instances before they undergo dynamic
initialization, before they could estabilish their invariants (including the standard library classes defined by the standard).
There's also a conflicting note in
[basic.start.static]/3, but that one is older than the one I mentioned above.