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First part :

std::initializer_list is a really helpful feature of C++11, so I wondered how it is implemented in the standard library. From what I read here, the compiler creates an array of type T and gives the pointer to the initializer_list<T>.

It also states that copying an initializer_list will create a new object referencing the same data : why is it so ? I would have guessed that it either :

  • copies the data for the new initializer_list
  • moves ownership of the data to the new initializer_list

Second part :

From just one of many online references for the std::vector constructors:

vector (initializer_list<value_type> il,
    const allocator_type& alloc = allocator_type());

(6) initializer list constructor

Constructs a container with a copy of each of the elements in il, in the same order.

I am not comfortable with move semantics yet, but couldn't the data of il be moved to the vector ? I am not aware of the deep implementation of std::vector but IIRC it uses plain-old arrays.

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    Seems like another reason not to trust cplusplus.com. Delving into the standard, one eventually arrives at the initialiser-list ctor calling the pair-of-iterators ctor, which (using emplace construction) will move the elements if possible. – Angew Jun 3 '13 at 10:29
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    cplusplus.com is a terrible, terrible site that does harm to the C++ community. Someone should smash the servers hosting it, burn the hard drives, encase them in concrete and sink them to the bottom of the ocean. – Jonathan Wakely Jun 3 '13 at 10:40
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    What is the underlying structure of std::initializer_list? Abstracted away from you, for good reason. – Lightness Races in Orbit Jun 3 '13 at 10:46
  • I was not referring to cplusplus.com as the reference (Bible), but I thought it was just an online edition of the standard. Thanks for warning about though, what flaws makes it "terrible" ? – teh internets is made of catz Jun 3 '13 at 10:56
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    @Angew I don't like having to defend that site, but it is correct in this case. initializer_list only provides read access to its elements. – R. Martinho Fernandes Jun 3 '13 at 13:45
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What is the underlying structure of std::initializer_list?

Most likely, just a pair of pointers, or a pointer and a size. Paragraph 18.9/2 of the C++11 Standard even mentions this in a (non-normative) note:

An object of type initializer_list<E> provides access to an array of objects of type const E. [ Note: A pair of pointers or a pointer plus a length would be obvious representations for initializer_list. initializer_list is used to implement initializer lists as specified in 8.5.4. Copying an initializer list does not copy the underlying elements. —end note ]

Moreover:

I am not comfortable with move semantics yet, but couldn't the data of il be moved to the vector?

No, you can't move from the elements of an initializer_list, since elements of an initializer_list are supposed to be immutable (see the first sentence of the paragraph quoted above). That's also the reason why only const-qualified member functions give you access to the elements.

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    Do note that technically a constructor such as foo(foo const&&); is a move constructor, and would in fact be called if you wrapped the iterators of an std::initializer_list in std::move_iterators or used some such trickery. Such a constructor can rarely do anything useful (or different from what a standard copy constructor can do) though. – Luc Danton Jun 3 '13 at 10:55
  • @LucDanton: foo(foo const&&)... ew... :) But yes, technically you're correct. Still doesn't change the fact that elements of an initializer_list are meant to be immutable, so that "move constructor" won't be allowed to move anything without causing undefined behavior. – Andy Prowl Jun 3 '13 at 11:02
  • @AndyProwl: An initializer list can also contain variable references. In that case a move ctor moves the data of the referred element. So yes, the list itself is immutable (will always contain the same reference), but the move ctor can be useful. – Emilio Garavaglia Jun 3 '13 at 11:33
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    @EmilioGaravaglia: Strictly speaking, it cannot contain references, although it can contain reference_wrappers. Then you would have to do: foo x(std::move(static_cast<foo&>(*l.begin())));, which is getting contrived. – Andy Prowl Jun 3 '13 at 11:43
  • @AndyProwl: Yes, very contrived. They are clearly not designed to work that way... The problem is that const is not transitive as the std::immutable concept should be (but not standard yet: see D as an example of language where these two things are well given distinct keywords). This gives this workarounds some (sort of ) citizenship. Good point. – Emilio Garavaglia Jun 3 '13 at 13:01

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