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In c++11 we have nice uniform initialization syntax for objects. Why it does not extends to initialize non-object types as well?

Is there any syntactic ambiguity for that, or is it just some stupid question I am asking?


struct s{ int k;};
s s1{1}; //ok (object initialization)
s const& s3{3};  //ok (object initialization)
s& s2{s1};  //error (reference initialization)

A more useful example:

struct t{ t(t const& x) : k(x.k){} int k;};
struct c
  c(t& x1,t& x2) 
    : s1_{x1} //error (reference initialization)
    , s2_{x2} //ok (object initialization)
 t& s1_;
 t s2_;

Another one :

template<class T>
T get()
   return T{};

//ok (object initialization)
//error (void initialization? I do not know terminology for void() token equivalent)
share|improve this question
My guess is that the designers of the language decided that the existing s1_(x1) syntax is quite sufficient. – dasblinkenlight Jun 11 '13 at 13:38
@dasblinkenlight it clearly isn't (consider MVP). – R. Martinho Fernandes Jun 11 '13 at 13:38
Your last example is illegal. void is an incomplete object type; there is no way to create objects of type void. – Angew Jun 11 '13 at 13:40
@R.MartinhoFernandes I agree that the s1_(x1) syntax and its implications are certainly annoying - they consistently trip up new practitioners, contributing to the perception of C++ as a "difficult language". Unfortunately, it is too late to change that in C++11: once a feature of this magnitude is in, it's in forever. – dasblinkenlight Jun 11 '13 at 13:43
void("hi there"); ... >_> ... <_< ... >_> – Xeo Jun 11 '13 at 13:55
up vote 0 down vote accepted

The initialization rules of C++ are quite complicated. They are described in the second half of chapter (clause) 8 of the standard. There is zero-initialization, direct-initialization, value-initialization, copy-initialization, list-initialization to name just a few, and each can have different interactions depending on the context (declaration, parameter, return, throw, member initializer, etc), properties of the type to be bound and input initialization expression or braced-init-list. The language designers also make it a goal to be almost backwards compatible with C and older versions of C++, which restricts what they can do. It takes quite some study to speculate on the ramifications of changes to the initialization rules, and changes can generate a lot of unintended corner cases. If you're interested I encourage you to study the standard and try to work through the implications of a proposed change you have designed.

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