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Under the C++11 standard, is the following pair guaranteed to be moved into the function?

//objects available: key, value
//corresponding type available: pairtype
//function available: void foo(pairtype pair); copies the pair by default

foo({std::move(key),std::move(value)}); //pair moved?

or do I have to do the move myself?

foo(std::move(pairtype(std::move(key),std::move(value))); //needed?
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1 Answer

up vote 8 down vote accepted

Initializer lists are not expressions, so they do not have a type and they do not yield a value. This means that the following:

{std::move(key),std::move(value)}

Does not in itself create a pair. Initializer lists are just a syntactic construct used for initialization, and in this case the function parameter will be constructed by directly invoking the constructor of pairtype with std::move(key) and std::move(value) as arguments.

There is no creation of temporaries involved - the only thing to be aware of is that explicit constructors will not be considered when performing list-initialization (for instance, this would not work with an instance of std::tuple<>).

Which means that the invocation of foo we just discussed, i.e.:

foo({std::move(key),std::move(value)}

Is technically different from this invocation:

foo(std::move(pairtype(std::move(key),std::move(value)))

Here, you are intentionally creating a temporary and moving it into the function parameter (the compiler may then elide this move per 12.8/31, but this is another story).

Notice, that the call to std::move() here is superfluous, since temporaries are rvalues. The function parameter will be move-constructed from the temporary object anyway. You can therefore write:

foo(pairtype(std::move(key),std::move(value)))

Notice, that pairtype will be an instance of the std::pair<> class template, which means you will have to specify template arguments manually. To avoid this, you can use std::make_pair():

foo(std::make_pair(std::move(key),std::move(value)))
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I thought that explicit constructors were only not considered with list copy-initalization, and that is going to be fixed in C++14 –  TemplateRex Jul 9 '13 at 20:10
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@TemplateRex: Not sure about C++14, but in C++11 passing an argument to a function is a copy-initialization context (see 8.5/15 and 8.5.4/1). Since here we are list-initializing, this is a copy-list-initialization (see 8.5.4/1), and what applies are 8.5.4/3 (4th bullet) and 13.3.1.7/1. –  Andy Prowl Jul 9 '13 at 20:17
    
ah yes, I read the Q too quickly. So does the same apply to emplace like functions (taking rvalue references)? Can they also not call explicit constructors? –  TemplateRex Jul 9 '13 at 21:56
    
@TemplateRex: If I understand the question correctly, I think they can. emplace functions just call the constructor directly and perfect-forward the arguments they receive, so it is not a copy-initialization context, but a direct-initialization one. –  Andy Prowl Jul 10 '13 at 9:11
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