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It's easy enough to write a function taking only lvalues

template <typename T>
void f(T&);

but because of universal references, writing one that only takes rvalue references isn't straight forward. Is there a way to write a generic function that only takes rvalue refs? (the return type isn't really a concern)

template <typename T>
void only_rvals(T&&);

where

int i{};
only_rvals(i); // fails to compile
only_rvals(6); // successfully compiles
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2 Answers 2

up vote 7 down vote accepted

Add a

template<class T>
void only_rvals(T&)=delete;

overload to the universal one. It will be preferred, and generate an error if selected.

Alternatively, SFINAE check, or a post-C++1y requires clause, or a static_assert, or a tag dispatch using is_reference or similar would all work.

Ideally you want failure at point of call, clarity of code, clarity of diagnostic, robustness of solution, and extendable. The post-C++1y requires will eventually be best. static_assert gives a clear diagnostic (as can tag disptching, but you want a trait called is_rvalue dispatched to true_type), and SFINAE and =delete make the error occur at the call site. =delete does not scale to more arguments, SFINAE is fragile.

SFINAE and requires allows alternative overloads to be used. This may or may not be desired.

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1  
I got an ambiguity error. –  0x499602D2 Jun 15 '14 at 18:02
4  
@0x499602D2 That's a gcc bug. Fixed in 4.9 –  Praetorian Jun 15 '14 at 18:04

There are two possible solutions that I can see. The first uses a static_assert to check at compile time whether or not the deduced type is an lvalue reference. If it is, compilation fails on that line with whatever meaningful error you'd like to add

template <typename T>
void only_rvals(T&& t) {
    static_assert(!std::is_lvalue_reference<T>::value,
            "I only work with rvalues");
    // ...
}

If you'd like this to fail "naturally" through the compiler with a (imo) hard to understand error, you can do so with a helper function (here using a _impl). The called function uses remove_reference to call the helper function with a non-reference type for its template parameter. This ensures the instantiated helper has an rvalue reference for its parameter type. If the original type was an lvalue reference, the call will fail as the argument is attempted to be forwarded as an lvalue reference.

#include <type_traits>
#include <utility>

template <typename T>
void only_rvals_impl(T&& t) {
    //...
}

template <typename T>
void only_rvals(T&& t) {
    // no type deduction on this call, explicit instantiation
    only_rvals_impl<typename std::remove_reference<T>::type>(
            std::forward<T>(t));
}

A third solution from @dyp's comment using SFNIAE

template<typename T>
typename std::enable_if< !std::is_lvalue_reference<T>{}, void>::type
only_rvals(T&& t)  {
    //...
}

the void in the enable_if is unnecessary as it's the default, but shown here for an easy-to-modify solution

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4  
Third solution: SFINAE. template<class T> typename std::enable_if< !std::is_lvalue_reference<T>{} >::type only_rvals(T&& t) –  dyp Jun 15 '14 at 17:51

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