Traditionally (C++98/03), initialization like
T x(T()); invoked direct initialization, and initialization like
T x = T(); invoked copy initialization. When you used copy initialization, the copy ctor was required to be present available, even though it might not (i.e., usually wasn't) used.
Initializer lists kind of change that. Looking at §8.5/14 and §8.5/15 shows that the terms direct-initialization and copy-initialization still apply -- but looking at §8.5/16, we find that for a braced init list, this is a distinction without a difference, at least for your first and third examples:
— If the initializer is a (non-parenthesized) braced-init-list, the object or reference is list-initialized (8.5.4).
As such, the actual initialization for your first and third examples is done identically, and neither requires a copy ctor (or move ctor). In both cases, we're dealing with the fourth bullet in §8.5.4/3:
— Otherwise, if T is a class type, constructors are considered. The applicable constructors are enumerated and the best one is chosen through overload resolution (13.3, 188.8.131.52). If a narrowing conversion (see below) is required to convert any of the arguments, the program is ill-formed.
... so both use
std::vector's ctor that takes an
std::initializer_list<T> as its argument.
As noted in the quote above, however, that only deals with a "(non-parenthesized) braced-init-list". For your second example with a parenthesized braced-init-list, we get to the first sub-bullet of the sixth bullet (geeze -- really need to talk to somebody about adding numbers for those) of §8.5/16:
— If the initialization is direct-initialization, or if it is copy-initialization where the cv-unqualified version of the source type is the same class as, or a derived class of, the class of the destination, constructors are considered. The applicable constructors are enumerated (184.108.40.206), and the best one is chosen through overload resolution (13.3). The constructor so selected is called to initialize the object, with the initializer expression or expression-list as its argument(s). If no constructor applies, or the overload resolution is ambiguous, the initialization is ill-formed.
Since this uses the syntax for direct initialization, and the expression inside the parentheses is a braced-initializer-list, and
std::vector has a ctor that takes an initializer list, that's the overload that's selected.
Bottom line: although the routes through the standard to get there are different, all three end up using
std::vector's constructor overload for
std::initializer_list<T>. From any practical viewpoint, there's no difference between the three. All three will invoke
vector::vector(std::initializer_list<T>, with no copies or other conversions happening (not even ones that are likely to be elided and really happen only in theory).
I believe with slightly different values, however, there is (or at least may be) one minor difference. The prohibition against narrowing conversions is in §8.5.4/3, so your second example (which doesn't go through §8.5.4/3, so to speak) should probably allow narrowing conversions, where the other two clearly do not. Even if I were an inveterate gambler, however, I wouldn't bet a thing on a compiler actually recognizing this distinction and allowing the narrowing conversion in the one case but not the others (I find it a little surprising, and rather doubt that it's intended to be allowed).