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EDIT: Before we begin, this question is not about proper usage of std::initializer_list; it is about what should be passed when the convenient syntax is desired. Thank you for staying on topic.


C++11 introduces std::initializer_list to define functions accepting braced-init-list arguments.

struct bar {
    bar( char const * );
    bar( int );
} dog( 42 );

fn foo( std::initializer_list< bar > args );

foo( { "blah", 3, dog } );

The syntax is nice, but under the hood it is distasteful due to various problems:

  • They cannot be meaningfully moved. The above function must copy dog from the list; this cannot be converted to move-construction or elided. Move-only types cannot be used at all. (Well, const_cast would actually be a valid workaround. If there's an article about doing so, I'd like to see it.)

  • There are no constexpr semantics, either. (This is forthcoming in C++1y. It's a minor issue, though.)

  • const does not propagate as it does everywhere else; the initializer_list is never const but its contents always are. (Because it doesn't own its contents, it cannot give write access to a copy, although copying it anywhere would seldom be safe.)

  • The initializer_list object does not own its storage (yikes); its relationship to the completely separate naked array (yikes) providing the storage is hazily defined (yikes) as the relationship of a reference to a bound temporary (quadruple yikes).

I have faith these things will be fixed in due time, but for now is there a best practice to get the advantages without hard-coding to initializer_list? Is there any literature about or analysis into working around direct dependency on it?

The obvious solution is to pass by value a standard container such as std::vector. Once the objects are copied into it from the initializer_list, it is move-constructed to pass by value, and then you can move the contents out. An improvement would be to offer storage on the stack. A good library might be able to offer most of the advantages of initializer_list, array, and vector, without even using the former.

Any resources?

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Have you read this already? –  Borgleader Jul 18 '13 at 5:58
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Initializer lists are so called because they are for initializing things. If you're not initializing something with a list of like values, then you shouldn't be taking them as parameters in your function. It's not clear why foo is taking an initializer list at all. It's not a container; that's exactly what that answer you were linked to is trying to remind you. If you want an array, that's different from wanting an initializer list. –  Nicol Bolas Jul 18 '13 at 6:01
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@Potatoswatter: "How do you know that foo isn't constructing an object and storing it somewhere?" I don't. My point is that you are not clear why foo is taking an initializer list. As far as I'm concerned, the only kind of function that should take a std::initializer_list as a parameter is an object's constructor. All other functions should take some form of container with actual semantics on it. –  Nicol Bolas Jul 18 '13 at 6:06
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@Potatoswatter: "Anyway, initializer_list semantics are wrong for containers too, that's the point." That all depends on what you're using them for. If it's an array of integers, there's no problem. If it's an array of heavier-weight objects, then it's your own fault for using the wrong tool for the job. Also, you only get one copy; you can move into the initializer_list object's storage just fine. As with any other user-elected moves, you must use std::move to invoke it. –  Nicol Bolas Jul 18 '13 at 6:12
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argh, the comment police again. –  TemplateRex Jul 18 '13 at 12:19
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1 Answer

it is about what should be passed when the convenient syntax is desired.

If you want the convenience of size (ie: the user just types a {} list with no function calls or words), then you must accept all the powers and limitations of a proper initializer_list. Even if you try to convert it into something else, like some form of array_ref, you still have to have an intermediary initializer_list between them. Which means that you can't get around any of the issues you've run into, like not being able to move out of them.

If it goes through an initializer_list, then you have to accept these limitations. Therefore, the alternative is to not go through an initializer_list, which means that you're going to have to accept some form of container with specific semantics. And the alternative type would have to be an aggregate, so that the construction of the alternate object won't encounter the same problem.

So you're probably looking at forcing the user to create a std::array (or a language array) and passing that. Your function could take some form of array_ref class, which can be constructed from any array of arbitrary size, so the consuming function isn't limited to one size.

However, you lose the convenience of size:

foo( { "blah", 3, dog } );

vs.

foo( std::array<bar, 3>{ "blah", 3, dog } );

The only way to avoid the verbosity here is to have foo take std::array as a parameter. Which means that it could only take an array of a specific fixed size. And you couldn't use C++14's proposed dynarray, because that will use an initializer_list intermediary.

Ultimately, you shouldn't be using uniform initialization syntax for passing around lists of values. It's for initializing objects, not for passing lists of things. std::initializer_list is a class who's sole purpose is to be used to initialize a specific object from an arbitrarily long list of values of identical types. It is there to serve as an intermediary object between a language construct (a braced-init-list) and the constructor that these values are to be fed into. It allows the compiler to know to call a particular constructor (the initializer_list constructor) when given a matching braced-init-list of values.

This is the entire reason why the class exists.

Therefore, you should use the class exclusively for the purpose for which it was devised. The class exists to tag a constructor as taking a list of values from a braced-init-list. So you should use it only for constructors that take such a value.

If you have some function foo that acts as an intermediary between some internal type (that you don't want to directly expose) and a user-provided list of values, then you need to take something else as a parameter to foo. Something that has the semantics you desire, which you can then feed into your internal type.

Also, you seem to have a misconception around initializer_lists and movement. You cannot move out of an initializer_list, but you can certainly move into one:

foo( { "blah", 3, std::move(dog) } );

The third entry in the internal dog array will be move-constructed.

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@Potatoswatter: "As for the contention that initializer_list can only be used as an argument to a constructor" I said should, not "can" or "could". I answered with what you ought to do, not what you can do. Idiomatic C++ should avoid using initializer_list outside of constructors. "There exists a factory function idiom" which does not work with uniform initialization at all. So what's your point? –  Nicol Bolas Jul 18 '13 at 6:51
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@Potatoswatter: "If you define a function encapsulating the functionality of an initializer_list constructor" You can't write a function that does that, so your point is moot. –  Nicol Bolas Jul 18 '13 at 6:52
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@Potatoswatter: "I can't believe you wrote an entire answer based on the nitpick that my example uses the generic foo instead of a constructor." Garbage in, garbage out. If you want a particular question answered, then the examples you provide need to actually be representative of what you want to know. If you don't intend to use initializer_list outside of constructors, then don't provide an example where you do so. –  Nicol Bolas Jul 18 '13 at 6:54
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It's not a matter of using initializer_list outside of a constructor. It's a matter of you making the imaginative leap from foo to foo::foo. The question is totally independent of how it's to be used. –  Potatoswatter Jul 18 '13 at 7:03
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@Potatoswatter: "you've answered that the semantics are terrible so it should seldom be used" No, I answered that the semantics are fine for it's intended use, so you should limit yourself to using it for those intended uses. Namely constructing things. –  Nicol Bolas Jul 18 '13 at 7:50
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