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Why isn't std::initializer_list a core-language built-in?

It seems to me that it's quite an important feature of C++11 and yet it doesn't have its own reserved keyword (or something alike).

Instead, initializer_list it's just a template class from the standard library that has a special, implicit mapping from the new braced-init-list {...} syntax that's handled by the compiler.

At first thought, this solution is quite hacky.

Is this the way new additions to the C++ language will be now implemented: by implicit roles of some template classes and not by the core language?

Please consider these examples:

   widget<int> w = {1,2,3}; //this is how we want to use a class

why was a new class chosen:

   widget( std::initializer_list<T> init )

instead of using something similar to any of these ideas:

   widget( T[] init, int length )  // (1)
   widget( T... init )             // (2)
   widget( std::vector<T> init )   // (3)
  1. a classic array, you could probably add const here and there
  2. three dots already exist in the language (var-args, now variadic templates), why not re-use the syntax (and make it feel built-in)
  3. just an existing container, could add const and &

All of them are already a part of the language. I only wrote my 3 first ideas, I am sure that there are many other approaches.

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The standards committee hate adding new keywords! –  Alex Chamberlain Mar 4 '13 at 10:01
This I understand, but there are many possibilities how to extend the language (keyword was just an example) –  emesx Mar 4 '13 at 10:02
std::array<T> is no more 'part of the language' than std::initializer_list<T>. And these are not nearly the only library components that the language relies on. See new/delete, type_info, various exception types, size_t, etc. –  bames53 Mar 4 '13 at 16:49
@Elmes: I would have suggested const T(*)[N], because that behaves very similarly to how std::initializer_list works. –  Mooing Duck Mar 4 '13 at 17:51
This answers why std::array or a statically-sized array are less desirable alternatives. –  boycy Mar 7 '13 at 9:33

6 Answers 6

up vote 37 down vote accepted

There were already examples of "core" language features that returned types defined in the std namespace. typeid returns std::type_info and (stretching a point perhaps) sizeof returns std::size_t.

In the former case, you already need to include a standard header in order to use this so-called "core language" feature.

Now, for initializer lists it happens that no keyword is needed to generate the object, the syntax is context-sensitive curly braces. Aside from that it's the same as type_info. Personally I don't think the absence of a keyword makes it "more hacky". Slightly more surprising, perhaps, but remember that the objective was to allow the same braced-initializer syntax that was already allowed for aggregates.

So yes, you can probably expect more of this design principle in future:

  • if more occasions arise where it is possible to introduce new features without new keywords then the committee will take them.
  • if new features require complex types, then those types will be placed in std rather than as builtins.


  • if a new feature requires a complex type and can be introduced without new keywords then you'll get what you have here, which is "core language" syntax with no new keywords and that uses library types from std.

What it comes down to, I think, is that there is no absolute division in C++ between the "core language" and the standard libraries. They're different chapters in the standard but each references the other, and it has always been so.

There is another approach in C++11, which is that lambdas introduce objects that have anonymous types generated by the compiler. Because they have no names they aren't in a namespace at all, certainly not in std. That's not a suitable approach for initializer lists, though, because you use the type name when you write the constructor that accepts one.

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It seems to me that this division is not possible (mailny?) because of such implicit roles of types. type_info and size_t are nice arguments.. well size_t is just a typedef.. so let's skip this. The difference between type_info and initializer_list is that the first is a result of an explicit operator, and the second of an implicit compiler action. It also seems to me, that initializer_list could be replaced with some already existing containers.. or yet better: any the user declares as argument type! –  emesx Mar 4 '13 at 15:07
... or it might be the simple reason that if you wrote a constructor for vector that takes an array then you could construct a vector from any array of the right type, not just one generated by the initializer list syntax. I'm not sure it would be a bad thing to construct containers from any array, but it's not the intent of the committee in introducing the new syntax. –  Steve Jessop Mar 4 '13 at 15:20
I partially agree with you. Why do you think C++ has var-args, now variadic templates and .. initializer list..? Don't you see a bit of inconsistency here? My original question's intent was to understand why the committee choose the last approach.. –  emesx Mar 4 '13 at 16:36
@Xeo Really? Isn't it just a lightweight container-view into some non-specified storage area (which might need copying itself if the values are dynamically determined, but might also just be static storage like in my {1,2,3} example)? –  Christian Rau Mar 4 '13 at 17:40
@ChristianRau: Xeo means elements are copied when the initializer list is constructed. Copying an initializer list doesn't copy contained elements. –  Mooing Duck Mar 4 '13 at 17:48

The C++ Standard Committee seems to prefer not to add new keywords, probably because that increases the risk of breaking existing code (legacy code could use that keyword as the name of a variable, a class, or whatever else).

Moreover, it seems to me that defining std::initializer_list as a templated container is quite an elegant choice: if it was a keyword, how would you access its underlying type? How would you iterate through it? You would need a bunch of new operators as well, and that would just force you to remember more names and more keywords to do the same things you can do with standard containers.

Treating an std::initializer_list as any other container gives you the opportunity of writing generic code that works with any of those things.


Then why introduce a new type, instead of using some combination of existing? (from the comments)

To begin with, all others containers have methods for adding, removing, and emplacing elements, which are not desirable for a compiler-generated collection. The only exception is std::array<>, which wraps a fixed-size C-style array and would therefore remain the only reasonable candidate.

However, as Nicol Bolas correctly points out in the comments, another, fundamental difference between std::initializer_list and all other standard containers (including std::array<>) is that the latter ones have value semantics, while std::initializer_list has reference semantics. Copying an std::initializer_list, for instance, won't cause a copy of the elements it contains.

Moreover (once again, courtesy of Nicol Bolas), having a special container for brace-initialization lists allows overloading on the way the user is performing initialization.

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Then why introduce a new type, instead of using some combination of existing? –  emesx Mar 4 '13 at 10:05
@elmes: Actually it is more like std::array. But std::array allocates memory while std::initializaer_list wraps a compile-time array. Think of it as the difference between char s[] = "array"; and char *s = "initializer_list";. –  rodrigo Mar 4 '13 at 10:12
And having being it a normal type makes overloading, template specialization, name-decoration and the like, non-issues. –  rodrigo Mar 4 '13 at 10:14
@rodrigo: std::array doesn't allocate any memory, it's a plain T arr[N];, the same thing that is backing std::initializer_list. –  Xeo Mar 4 '13 at 10:25
@Xeo: T arr[N] does allocate memory, maybe not in the dynamic heap but elsewhere... So does std::array. However a non-empty initializer_list cannot be constructed by the user so it obviously cannot allocate memory. –  rodrigo Mar 4 '13 at 10:41

This is nothing new. For example, for (i : some_container) relies on existence of specific methods or standalone functions in some_container class. C# even relies even more on its .NET libraries. Actually, I think, that this is quite an elegant solution, because you can make your classes compatible with some language structures without complicating language specification.

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methods in class or stand-alone begin and end methods. This is a bit different IMO. –  emesx Mar 4 '13 at 10:04
Is it? Again you have a pure language construct relying on specific construction of your code. It also might have been done by introducing new keyword, for instance, iterable class MyClass { }; –  Spook Mar 4 '13 at 10:07
but you can place the methods wherever you want, implement them however you want.. There is some similarity, I agree! This question is about initializer_list though –  emesx Mar 4 '13 at 10:09

This is indeed nothing new and how many have pointed out, this practice was there in C++ and is there, say, in C#.

Andrei Alexandrescu has mentioned a good point about this though: You may think of it as a part of imaginary "core" namespace, then it'll make more sense.

So, it's actually something like: core::initializer_list, core::size_t, core::begin(), core::end() and so on. This is just an unfortunate coincidence that std namespace has some core language constructs inside it.

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Not only can it work completely in the standard library. Inclusion into the standard library does not mean that the compiler can not play clever tricks.

While it may not be able to in all cases, it may very well say: this type is well known, or a simple type, lets ignore the initializer_list and just have a memory image of what the initialized value should be.

In other words int i {5}; can be equivalent to int i(5); or int i=5; or even intwrapper iw {5}; Where intwrapper is a simple wrapper class over an int with a trivial constructor taking an initializer_list

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It's not part of the core language because it can be implemented entirely in the library, just line operator new and operator delete. What advantage would there be in making compilers more complicated to build it in?

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