# Is an lvalue reference returned from a function actually an rvalue (from the perspective of the caller)?

How is it possible to have an lvalue reference refer to an lvalue reference returned from a function? Isn't the lvalue reference returned from that function actually an rvalue from the perspective of the caller? For example:

``````class Obj {};

Obj& refToRef(Obj& o) {
return o;
}

int main() {
Obj o;
Obj& o2 = refToRef(o);
}
``````

How is `o2` (an lvalue reference) able to refer to what appears to be an rvalue?

Keep in mind two properties when thinking about value-ness of an expression, identity and move-ability. An expression has identity if it has a name or an address, and is moveable if it's going to expire once the expression has been evaluated.

• Lvalue = has identity and is not moveable
• Xvalue = has identity and is moveable
• Rvalue = does not have identity and is moveable

refToRef returns by lvalue reference, therefore the `Obj` that `refToRef(o)` refers to is an object with identity (`&refToRef(o)` is defined) and will still be around after the expression has been evaluated. `refToRef(o)` is therefore an lvalue.

Furthermore, be careful not to confuse type with valueness. If I add a function that returns by value and create an rvalue reference from it, the rvalue reference will be an lvalue. For example

``````class Obj {};
Obj& refToRef(Obj& o) {
return o;
}

Obj refToVal(Obj& o) {
return o;
}
int main() {
Obj o;
Obj& o2 = refToRef(o);
Obj&& o3 = refToVal(o);
}
``````

`o3` has type `rvalue refernce to Obj`, and as an expression is an `lvalue`.

Isn't the lvalue reference returned from that function actually an rvalue from the perspective of the caller?

No, because the result of a function call isn't always an rvalue.

From [expr.call]/14 (emphasis mine):

A function call is an lvalue if the result type is an lvalue reference type or an rvalue reference to function type, an xvalue if the result type is an rvalue reference to object type, and a prvalue otherwise.

I'm pretty sure this rule exists specifically to avoid the problem that your question is asking about.

• Good counter-example to how most descriptions of value categories are extremely simplified. – Lightness Races in Orbit Apr 15 at 15:09
• Aha, thank you! – johnnyodonnell Apr 15 at 15:10