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"If you return a value (not a reference) from the function, then bind it to a const reference in the calling function, its lifetime would be extended to the scope of the calling function."


const BoundingBox Player::GetBoundingBox(void)
    return BoundingBox( &GetBoundingSphere() );

Returns a value of type const BoundingBox from function GetBoundingBox()

Called function: (From within function Update() the following is called:) variant I: (Bind it to a const reference)

const BoundingBox& l_Bbox = l_pPlayer->GetBoundingBox();

variant II: (Bind it to a const copy)

const BoundingBox l_Bbox = l_pPlayer->GetBoundingBox();

Both work fine and I don't see the l_Bbox object going out of scope. (Though, I understand in variant one, the copy constructor is not called and thus is slightly better than variant II).

Also, for comparison, I made the following changes.


BoundingBox Player::GetBoundingBox(void)
    return BoundingBox( &GetBoundingSphere() );

with Variants: I

BoundingBox& l_Bbox = l_pPlayer->GetBoundingBox();

and II:

BoundingBox l_Bbox = l_pPlayer->GetBoundingBox();

The objet l_Bbox still does not out scope. So, I don't see how "bind it to a const reference in the calling function, its lifetime would be extended to the scope of the calling function", really extends the lifetime of the object to the scope of the calling function ?

Am I missing something trivial here..please explain ..

Thanks a lot

share|improve this question
The fact that it seems to work on your specific compiler (which is, btw ... ?) does not mean that it is going to work on any other compiler, neither that it is well defined and legal. – Péter Török Apr 10 '10 at 22:03
@Peter: I'm using MSVC 2008. What escapes me is why / how can const have any effect on extending the lifetime. In my opinion, it prevents anyone from making making changes to the object (const correctness etc) and that is it.. – brainydexter Apr 10 '10 at 22:07
Your Variant I looks a bit funny - does your compiler really accept that without complaint? It looks like you're initializing a reference to non-const with an rvalue, which shouldn't be allowed. – Mike Dinsdale Apr 10 '10 at 22:13
@Mike: Are you talking about Case A.1 or Case B.1 Variant ? – brainydexter Apr 10 '10 at 22:16
@brainydexter: as far as your first comment goes -it's not the 'const` that's extending the lifetime, its the reference. Temporaries are not supposed to be able to be bound to non-const references (since temporaries are rvalues), but apparently MSVC is a little too forgiving in that regard. – Michael Burr Apr 10 '10 at 22:49
up vote 7 down vote accepted

Normally a temporary object (such as one returned by a function call) has a lifetime that extends to the end of the "enclosing expression". However, a temporary bound to a reference generally has it's lifetime 'promoted' to the lifetime of the reference (which may or may not be the lifetime of the calling function), but there are a couple exceptions. This is covered by the standard in 12.2/5 "Temporary objects":

The temporary to which the reference is bound or the temporary that is the complete object to a subobject of which the temporary is bound persists for the lifetime of the reference except as specified below. A temporary bound to a reference member in a constructor’s ctor-initializer (12.6.2) persists until the constructor exits. A temporary bound to a reference parameter in a function call (5.2.2) persists until the completion of the full expression containing the call.

See the following for more information:

An example that might help visualize what's going on:

#include <iostream>
#include <string>

class foo {
    foo( std::string const& n) : name(n) { 
        std::cout << "foo ctor - " << name + " created\n"; 
    foo( foo const& other) : name( other.name + " copy") { 
        std::cout << "foo copy ctor - " << name + " created\n";

    ~foo() { 
        std::cout << name + " destroyed\n"; 

    std::string getname() const { return name; };
    foo getcopy() const { return foo( *this); };

    std::string name;

std::ostream& operator<<( std::ostream& strm, foo const& f) {
    strm << f.getname();
    return strm;

int main()
    foo x( "x");

    std::cout << x.getcopy() << std::endl;

    std::cout << "note that the temp has already been destroyed\n\n\n";

    foo const& ref( x.getcopy());

    std::cout << ref << std::endl;

    std::cout << "the temp won't be deleted until after this...\n\n";
    std::cout << "note that the temp has *not* been destroyed yet...\n\n";

Which displays:

foo ctor - x created
foo copy ctor - x copy created
x copy
x copy destroyed
note that the temp has already been destroyed

foo copy ctor - x copy created
x copy
the temp won't be deleted until after this...

note that the temp has *not* been destroyed yet...

x copy destroyed
x destroyed
share|improve this answer

Firstly, the lifetime of temporary object gets extended to the lifetime of const reference that's bound to it, not "to the scope of the calling function" (although maybe that what you meant by that strange wording "the scope of the calling function"). This is what your CASE A illustrates, where you attach a const reference to a temporary. The temporary continues to live as long as the reference lives. When the reference ends its lifetime, the temporary object gets destroyed as well.

Secondly, your CASE B is simply ill-formed, non-compilable. Namely, the

BoundingBox& l_Bbox = l_pPlayer->GetBoundingBox(); 

is illegal. It is illegal in C++ to attach a non-const reference to a temporary. If your compiler allows it, it must be a quirk/extension of your compiler, which has little to do with C++ language.

share|improve this answer

The point is that when returning by value, the value is copied into the variable you are assigning the result of the function. (just like you said - the copy constructor is called). No lifetime extension, you just create a brand-new object.

When returning by reference, under the hood you just pass the pointer to the variable defined in the function. So, a new object is not created, you just have reference to it outside the function. With that case the lifetime of an function-inside variable is extended.

share|improve this answer

Usually, if you return an object by value from a function, the said object will be destroyed when the assignment expression is finished:

myclass X = getX(); // after copy constructor, the returned value is destroyed
                    // (but you still hold a copy in X)

In the case you describe, the returned value will be destroyed later on, allowing you to use it:

const myclass& X = getX();
cout << X.a << endl; // still can access the returned value, it's not destroyed
share|improve this answer

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