I know in c++03, an an non-const reference cannot be bound to rvalues.

T& t = getT(); is invalid, and in c++11, we can do this: T&& t = getT(); but what about the above code, should that work in c++11?

I tested the codes below with vs11:

 Foo getFoo() {
  return Foo();

void fz(Foo& f) {

int getInt() {
  return int();

void iz(int& i) {

int main() {
    Foo& z = getFoo(); //ok
    fz(getFoo()); //ok

    int& z2 = getInt(); //error: initial value of reference to non-const must be an lvalue
    iz(getInt()); //same as above

Foo is a custom class, I don't understand why the first two line compiles.The temporary referenced by z is destructed at the end of the inner scope of main. Does the standard say anything about this?

class Foo {
  Foo() {
    std::cout << "constructed\n";
  ~Foo() {
    std::cout << "destructed\n";

I just saw a similar question: One VS2010 bug ? Allowing binding non-const reference to rvalue WITHOUT EVEN a warning?

  • 4
    It's interesting how few Objective-C or Java programmers ask questions about language-oriented esoterica like "Is it valid to bind rvalues to non-const lvalue-references...?" Or have to concern themselves with stuff like "temporary references...destructed at the end of the inner scope". Just sayin' ;) – paulsm4 May 11 '13 at 3:55
  • Could you post how you defined Foo. – Gisway May 11 '13 at 4:05
  • binding rules have not changed wrt Lvalue references AFAIK – Koushik Shetty May 11 '13 at 4:34
  • @paulsm4: Sorry I didn't have time to read your comment, I was too busy waiting for your garbage collector to finish. – Andrew Tomazos May 11 '13 at 5:40
  • @paulsm4 Objective-C didn't always have automatic reference counting, you know. There was plenty of messiness before that was introduced. – JAB May 15 '14 at 18:12

should that work in c++11?

No, it should not.

Foo is a custom class, I don't understand why the first two line compiles

It compiles only with MSVC. MSVC has an (arguably useful) compiler extension that allows binding lvalues of user-defined types to rvalues, but the Standard itself forbids this. See, for instance, this live example where GCC 4.7.2 refuses to compile your code.

Does the standard say anything about this?

Indeed it does. Per paragraph 8.5.3/5 of the C++11 Standard:

A reference to type “cv1 T1” is initialized by an expression of type “cv2 T2” as follows:

— If the reference is an lvalue reference and the initializer expression

— is an lvalue (but is not a bit-field), and “cv1 T1” is reference-compatible with “cv2 T2,” or

— has a class type (i.e., T2 is a class type), where T1 is not reference-related to T2, and can be implicitly converted to an lvalue of type “cv3 T3,” where “cv1 T1” is reference-compatible with “cv3 T3” [...],

then the reference is bound to the initializer expression lvalue in the first case and to the lvalue result of the conversion in the second case (or, in either case, to the appropriate base class subobject of the object). [...]

[ ...]

Otherwise, the reference shall be an lvalue reference to a non-volatile const type (i.e., cv1 shall be const), or the reference shall be an rvalue reference. [ Example:

double& rd2 = 2.0; // error: not an lvalue and reference not const
int i = 2;
double& rd3 = i; // error: type mismatch and reference not const

—end example ]


No you can't bind a temporary to a non-const lvalue reference.

T f();

T& t1 = f(); // won't compile
const T& t2 = f(); // OK
T&& t3 = f(); // OK

This is a safety feature. Mutating a temporary by an lvalue that is about to die anyway is most likely a logic error, so it isn't allowed by the language.

Note that due to the RVO than in practice:

T&& t3 = f();


T t3 = f();

are equivilent.

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