We cannot write int& ref = 40 because we need lvalue on right side. But we can write const int& ref = 40 . Why is this possible? 40 is rvalue instead lvalue

I know that this is an exception but why?


As Stroustrup says:

The initializer for a const T& need not be an lvalue or even of type T. In such cases:

[1] First, implicit type conversion to T is applied if necessary.

[2] Then, the resulting value is placed in a temporary variable of type T.

[3] Finally, this temporary variable is used as the value of the initializer.

So, when you type const int& ref = 40, the temporary int variable is created behind the scenes, and ref is bound to this temporary variable.

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There is a rule in the language that allows binding a const lvalue reference to an rvalue. The main reason for that rule is that, if it was not present, then you would have to provide different overloads of functions to be able to use temporaries as arguments:

class T; // defined somewhere
T f();
void g(T const &x);

With that rule in place you can do g(f()), without it, to be able to do that you would have to create a different g overload that takes an rvalue (and this is from a time where rvalue-references were not even in the language!)

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  • I'm still not sure why the lifetime is extended, though :-( – Kerrek SB Apr 3 '14 at 17:57
  • @KerrekSB: I guess the original reason was that this way you could write T const& _ = ...; or T const _ = ...; indifferently and both would work, the former being more efficient when the expression yielded a reference (no copy). It's quite unfortunate indeed though, because it lets a lot of buts slip in. – Matthieu M. Apr 3 '14 at 17:59
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    @KerrekSB: I thought I had addressed that in the linked question. That is a side effect of allowing the binding in the general context (not only in function arguments) and not wanting it to cause undefined behavior on every use. Without the lifetime extension: T const& x = f(); followed by any odr-use of x would be undefined behavior, raising the question of why allow that in the first place? So either you provide consistency (reference binds in any context) with lifetime extension, or you accept inconsistencies and there is no need for lifetime extension. The language did the former. – David Rodríguez - dribeas Apr 3 '14 at 18:03
  • In trying to be concise I completely messed it up. Read odr-use above not as odr-use, but any use that accesses the real object (lvalue-rvalue conversionm, access to any member...) – David Rodríguez - dribeas Apr 3 '14 at 18:48
  • Hmm, well, I'm still not convinced (as I said in the other post) -- the "end-of-full-expression" rule seems to work just fine, and lifetime extension can be just as surprising (canonical example is passing the reference through another function that returns the reference). So I'm still open to contributions :-) – Kerrek SB Apr 3 '14 at 21:17

why it is possible?

40 is a literal here. Constant references can be initialized with literals and temporaries to extend their life time. This can be done this way by a compiler:

int const& ans = 40;
// transformed:
int __internal_unique_name = 40;
int const& ans = __internal_unique_name;

Another situation is when you have a function, e.g:

void f( std::string const& s);

and you want to call it with

f( "something");

This temporary variable can be only bound to const reference.

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  • 1
    That is also the case with non-const references... – David Rodríguez - dribeas Apr 3 '14 at 17:54
  • @DavidRodríguez-dribeas not the second situation provided – 4pie0 Apr 3 '14 at 18:02
  • That is exactly what the compiler will do for you, it maps the call to: std::string __tmp("something"); f(__tmp);. That is because you can is not a reason to allow this for const references (alone), as proven by the fact that both Solaris CC and VS have supported binding non-const references to temporaries by doing exactly the same thing. – David Rodríguez - dribeas Apr 3 '14 at 18:06
  • @DavidRodríguez-dribeas true, edited – 4pie0 Apr 3 '14 at 18:10

You can bind an rvalue to a const reference. The language guarantees that the bound object lives until the scope of the reference ends and even calls the correct destructor statically. This is e.g. used in a ScopeGuard implementation (http://www.drdobbs.com/cpp/generic-change-the-way-you-write-excepti/184403758?pgno=2) to have virtual-destructor-like behavior without paying for a virtual method call.

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  • The compiler doesn't have a choice nin that matter. The language rules dictate the lifetimes. – Kerrek SB Apr 3 '14 at 17:59

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