While reading about a different topic I came across a weird behaviour, at least to me. This whole thought originated from the special interactions between auto and braces. If you write something like:

auto A = { 1, 2, 3 }

the compiler will deduce A to be a std::initializer_list. The weird thing is that a similar rule applies not only to auto, where there can be special reasons for it, but also to other things. If you write the following:

template<typename T>
void f(std::vector<T> Vector)
    // do something

you can't of course call it in this way:

f({ 1, 2, 3});

even though a std::vector can be braced initialized. However, if you substitute the std::vector with std::initializer_list, the call works and the compiler will properly deduce int as the type T. The more interesting thing is, however, that in the former case you need to #include <vector>, in the latter you don't need to #include <initializer_list>. This made me think and after a test I realized somehow std::initializer_list don't need its own header, so it is in some way part of the "base" features.

Moreover, for everything to make sense, std::initializer_list should be to standard objects in more or less the same way lambdas are to callable objects (in the strictest meaning, that is an object with a operator()). In other words, unnamed braced definitions should default to std::initializer_list just like lambdas are (mostly) unnamed callable objects.

Is this reasoning correct? Moreover, can this behaviour be changed and, if so, how?

UPDATE: the header for initializer_list was found to be included transitively from iostream (really weird). However, the question remains: why the call works for std::initializer_list and not for std::vector?

  • 1
    A program that uses an initializer list but does not include <initializer_list> header is ill-formed. For example, GCC complains: cannot deduce type of initializer list because std::initializer_list was not found; include <initializer_list>. – Evg Oct 22 at 8:10
  • The issue with your function is that it's a template, and it deduces the template argument T as an initializer_list, which vector cannot hold. If you had simply void f(std::vector<int> v) then calling f({1,2,3}); works fine. I remember Scott Myers talked a bit about initializer_list and its idiosyncratic interaction between auto and `vector but I'll have to see if I can dig it up – Tas Oct 22 at 8:12

It is ill-formed (so it requires a diagnostic) to not include the initializer_list header if we use std::initializer_list. We can see this from [dcl.init.list]p2:

... The template std::initializer_list is not predefined; if the header <initializer_list> is not included prior to a use of std::initializer_list — even an implicit use in which the type is not named ( — the program is ill-formed.

Mostly likely you are including the header transitively, which is well-formed but makes your code more fragile, so include what you use.

We can see from a live godbolt example that having no includes we obtain a diagnostic as required from gcc/clang/MSVC e.g.:

error: use of undeclared identifier 'std'    
void foo( std::initializer_list<int>) {

and including either <vector> or <iostream> we no longer obtain a diagnostic.

Why it does not deduce as you expect is covered by [temp.deduct.type]p5 which tells us this is a non-deduced context:

The non-deduced contexts are:
- A function parameter for which the associated argument is an initializer list ([dcl.init.list]) but the parameter does not have a type for which deduction from an initializer list is specified ([temp.deduct.call]).> [ Example:

template<class T> void g(T);
g({1,2,3});                 // error: no argument deduced for T

— end example  ]

also see [temp.deduct.call]p1:

... Otherwise, an initializer list argument causes the parameter to be considered a non-deduced context ([temp.deduct.type]) ...

  • That's a possibility, but the only header I included are iostream and the built-in one for the project in VS, which should not inlcude anything else transitively. – Andrea Bocco Oct 22 at 8:19
  • @AndreaBocco yup including iostream as well as vector does it, see live godbolt ... if you comment out the includes you obtain a diagnostic – Shafik Yaghmour Oct 22 at 8:20
  • Yes, you are right about the header being included transitively. Still, the other "half" of the question remain: why doesn't work to pass a braced initializer to the function for a vector while it does work for a initializer_list? – Andrea Bocco Oct 22 at 8:28
  • @AndreaBocco apologies, it was not clear there were two questions, I updated to address that as well. – Shafik Yaghmour Oct 22 at 8:53

You're probably including the header transitively from <vector> or <iostream>, keep in mind that the standard explicitly enforces a non-deduced context for the std::vector case


The non-deduced contexts are:


  • A function parameter for which the associated argument is an initializer list ([dcl.init.list]) but the parameter does not have a type for which deduction from an initializer list is specified ([temp.deduct.call]).

Cfr. cppreference ex.6

The CPP online reference for <vector> shows that <initializer_list> is included in its header.

GCC's implementation of <vector> includes <initializer_list>. This is probably true of other implementations as well. This is the reason you did not have to include <initializer_list> separately.

Check out this source for GCC 4.6.2 which includes <initializer_list> in the <vector> header. https://gcc.gnu.org/onlinedocs/gcc-4.6.2/libstdc++/api/a01069_source.html

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.