Given all three functions, this call is ambiguous.
int f( int ); int f( int && ); int f( int const & ); int q = f( 3 );
f( int ) causes both Clang and GCC to prefer the rvalue reference over the lvalue reference. But instead removing either reference overload results in ambiguity with
f( int ).
Overload resolution is usually done in terms of a strict partial ordering, but
int seems to be equivalent to two things which are not equivalent to each other. What are the rules here? I seem to recall a defect report about this.
Is there any chance
int && may be preferred over
int in a future standard? The reference must bind to an initializer, whereas the object type is not so constrained. So overloading between
T && could effectively mean "use the existing object if I've been given ownership, otherwise make a copy." (This is similar to pure pass-by-value, but saves the overhead of moving.) As these compilers currently work, this must be done by overloading
T const & and
T &&, and explicitly copying. But I'm not even sure even that is strictly standard.