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There has already been a similar question on SO, but I want to stress another aspect of braced-init-lists. Consider the following:

auto x = {1}; //(1)

This is ill-formed (8.5.4/2) unless the header <initializer_list> is included. But why? The standard says, that the template std::initializer_list is not predefined. Does this mean, that declaration (1) introduces a new type? In all other situations, where auto may be used such as

auto y = expr;

where expr is an expression, the type auto deduces already exists. On the other hand, from a logical point of view, the compiler must assign an implicite type to the construct {1}, for which std::initializer_list is then another name. But in declaration (1) we do not want to name this type. So why must this header be included. There is a similar situation with nullptr. Its type implicitely exists, but to name it explicitely you have to include <cstddef>.

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auto x = {expr}; will deduce x to be of type std::initializer_list, per language rules - so, #include <initializer_list> is needed. –  Xeo Jun 14 '13 at 10:04

1 Answer 1

That's not the same. The rules for std::nullptr_t and std::initializer_list are actually different.

std::nullptr_t is just a typedef for a built-in type. Its definition is

namespace std {
  using nullptr_t = decltype(nullptr);

The type exists whether you include the header or not.

std::initializer_list is a class template, not a predefined type. It really doesn't exist unless you include the header that defines it. In particular, the initializer list { 1 } does not have type std::initializer_list<int>; it has no type at all, because it is not an expression. (Initializer lists are special syntactic constructs and cannot appear everywhere an expression can.)

std::initializer_list is just slightly special. For one, there are special rules for how to initialize a std::initializer_list from the initializer list syntax (allocate an array and have the object refer to it). However, this requires std::initializer_list to be defined in the first place.

The second special case is auto type deduction. There's a special rule here too. But again, this doesn't mean that the compiler will automatically define the type; it just means that it will recognize it.

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If we want to formalize auto type deduction (type inference) then the construct {1} must somehow have a type. –  MWid Jun 14 '13 at 10:18
@MWid As Sebastian stated, there's a special rule for type deduction for the auto specifier, see [dcl.spec.auto]/6. A braced-init-list is part of a declarator, not an expression itself. –  dyp Jun 14 '13 at 10:37
@DyP I know that and that's where the trouble starts. For example, you can use a braced-init-list as right operand of an assignment. Now the language rules require this operand to be evaluated. But evaluation is only defined for expressions. The point I want to make is, that we run into problems, if the construct {1} doesn't have in some way a type or even better, would be an expression. –  MWid Jun 14 '13 at 10:43
@MWid: What do mean by "problems"? If you mean that the wording of the standard needs some special cases to deal with a braced-init-list not being an expression, then that's true; but the "problem" has been solved by doing just that. –  Mike Seymour Jun 14 '13 at 11:35
@MWid I don't know what standard you are reading. C++11 allows braced-init-list as a function argument. The contents of the call parentheses are expression-list, which is an alias of initializer-list, which is a list of initializer-clause, which can be an assignment-expression or a braced-init-list. And a parenthesized expression is a primary-expression, which is one possible form of assignment-expression, so the 5.18/2 example is perfectly valid too. –  Sebastian Redl Jun 14 '13 at 12:16

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