I recently came upon this code:

struct Foo{};

int main() 
    Foo a;
    // clang++ deduces std::initializer_list
    // g++5.1 deduces Foo
    auto b{a}; 
    a = b;

It compiles fine with g++5.1, but fails in clang++ (used both -std=c++11 and -std=c++14, same results). The reason is that clang++ deduces the type of b as std::initializer_list<Foo>, whereas g++5.1 deduces as Foo. AFAIK, the type should indeed be (counter-intuitive indeed) std::initializer_list here. Why does g++5 deduces the type as Foo?

  • What compiler flags are you using? – juanchopanza May 2 '15 at 21:35
  • @juanchopanza I tried both -std=c++11 and -std=c++14 – vsoftco May 2 '15 at 21:36
  • In that case, it is a compiler bug. – juanchopanza May 2 '15 at 21:38
  • Anyway, you should put that kind of information in the question. It kind of invlidates the answer. – juanchopanza May 2 '15 at 21:53
  • 3
    See N3922. In particular, "Direction from EWG is that we consider this a defect in C++14." – T.C. May 2 '15 at 23:26

There is a proposal for C++1z that implements new type deduction rules for brace initialization (N3922), and I guess gcc implemented them:

For direct list-initialization:
1. For a braced-init-list with only a single element, auto deduction will deduce from that entry;
2. For a braced-init-list with more than one element, auto deduction will be ill-formed.


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. 

-- end example]

Here is the gcc patch concerning the new changes with regards to "Unicorn initialization."

  • 2
    LOL @ "unicorn initialization". So much better than "uniform". – T.C. May 3 '15 at 23:08

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