I love auto in C++11. It's wonderful. But it has one inconsistency that really gets on my nerves, because I trip over it all the time:

int i = 3;       // i is an int with value 3
int i = int{3};  // i is an int with value 3
int i(3);        // i is an int with value 3 (possibly narrowing, not in this case)
int i{3};        // i is an int with value 3

auto i = 3;      // i is an int with value 3
auto i = int{3}; // i is an int with value 3
auto i(3);       // i is an int with value 3
auto i{3};       // wtf, i is a std::initializer_list<int>?!

This strange behaviour is confusing for newcomers, and annoying for experienced users -- C++ has enough little inconsistencies and corner cases that one has to keep in mind as it is. Can anybody explain why standards committee decided to introduce a new one in this case?

I could understand it if declaring a variable of type std::initializer_list was something that was useful or done frequently, but in my experience it's almost never deliberate -- and in the rare cases where you did want to do it, any of

std::initializer_list<int> l{3};
auto l = std::initializer_list<int>{3};
auto l = {3}; // No need to specify the type

would work just fine. So what's the reason behind the special case for auto x{i}?

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    That's pretty much why the rule is going to change. – T.C. Sep 1 '14 at 20:02
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    Related: stackoverflow.com/q/17582667 – dyp Sep 1 '14 at 20:02
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    Solution: don't use auto for any of those cases (except #2). :-) – dlf Sep 1 '14 at 20:03
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    if you're asking "why C++ committee have done a wrong design choice, which they are now trying to undo", well, frankly, the answer is "because they are human beings and as such they sometimes may do things that are wrong or controversial"?" I honestly guess that the only real way to get a definite answer would be to ask one of the members of the committee directly. – user719662 Sep 1 '14 at 20:11

To make long story short:

  • a braced initializer expression {} has no type by itself
  • auto has to infer type information
  • int{3} obviously means "create an int var with value taken from initializer list", thus its type is just int and can be used in any wider context (int i = int{3} will work and auto i = int{3} can deduce type, because right side is obviously of type int)
  • {3} by itself has no type (it can't be int, because it's not a value but an initializer list), so auto wouldn't work — but, because committee considered that auto should still work in this case, they decided that the "best" type for (yeah, typeless by definition) initializer list would be... std::initializer_list, as you already probably guessed.

But, as you pointed out, this made the whole behaviour of auto quite semantically inconsistent. That's why there were proposals to change it — namely N3681, N3912 and N3922 — submitted to the committee. Former proposal was REJECTED as FI3 due to no committee consensus on this matter, http://isocpp.org/files/papers/n3852.html#FI3 , current (N3922) got adopted ca. Q1 of 2015;

tl;dr you may assume that standards-compliant compilers1 with bleeding-edge C++ support2 either have the new, more sane-ish semantics already in place, or will have it shortly.

The Standardization Committee acknowledged the problem by adopting N3922 into draft C++17.

— so it's

auto x1 = { 1, 2 }; // decltype(x1) is std::initializer_list<int>
auto x2 = { 1, 2.0 }; // error: cannot deduce element type
auto x3{ 1, 2 }; // error: not a single element
auto x4 = { 3 }; // decltype(x4) is std::initializer_list<int>
auto x5{ 3 }; // decltype(x5) is int

now, for better or worse.

further reading:






1GCC 5.1 (& up) apparently uses N3922 even in C++11/C++14 mode

2Clang 3.8, with the caveat

This is a backwards-incompatible change that is applied to all language versions that allow type deduction from auto (per the request of the C++ committee).

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    N3922 was adopted more than a year ago (November 2014, in Urbana). – T.C. Feb 19 '16 at 15:06
  • @T.C. many thanks for spotting that one - and strange that no one mentioned it earlier! – user719662 Feb 19 '16 at 16:52
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    @gedamial see the linked articles for explanation. note that x1 is acceptable because RH is visibly std::initializer_list<int> - OTOH, direct initialization of a primitive requires a single {value} parameter, so with {value1,value2} it makes little sense. – user719662 Jun 3 '16 at 20:09
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    Confusingly, current GCC and Clang reject auto i{1,2}; even in C++11 mode, though it is valid in this standard version, and is accepted by e.g. GCC 4.8 (deduced to std::initializer_list<int>). I have read N3922 which says this deduction is considered a defect in C++14. So this means, retroactively, even programs written against older standard versions are considered ill-formed? – Arne Vogel Jan 22 '18 at 17:20
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    @ArneVogel I would suppose so. The answer quoted Clang’s explicit caveat that the change was backward-incompatible and applied to all language versions. – Yongwei Wu Apr 30 '18 at 0:42

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