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I have a class that 'remembers' a reference to some object (e.g. an integer variable). I can't have it reference a value that's destructed immediately, and I'm looking for a way to protect the users of my class from doing so by accident.

Is an rvalue-reference overload a good way to prevent a temporary to be passed in?

struct HasRef {
    int& a;
    HasRef(int& a):a(a){}
    void foo(){ a=1; }

int main(){
    int x=5;
    HasRef r1(x);
    r1.foo();  // works like intended.

    HasRef r2(x+4);
    r2.foo(); // dereferences the temporary created by x+4


Would a private rvalue overload do?

 struct HasRef {
   int& a;
   HasRef( int& a ):a(a){}
   void foo(){ a=1; }
   HasRef( int&& a );

 ... HasRef r2(x+1); // doesn't compile => problem solved?

Are there any pitfalls I didn't see?

share|improve this question
A temporary doesn't bind to an lvalue reference. The definition of r2 in your first example should not compile. – musiphil Jun 20 '12 at 20:41
If you are using VC++, one solution is to turn up the warning level and it will tell you when it doesn't work. – Bo Persson Jun 20 '12 at 20:42
However, a const reference would bind to a temporary, so the question is still a very good one. I've considered this approach, but I'm still of the opinion that if a class is going to store a reference (or pointer) to the referenced object, it's better to take a pointer in the constructor, to make potential lifetime concerns a bit more obvious (when a constructor takes a pointer, usually it makes me think twice about what the object is going to do with it). – James McNellis Jun 20 '12 at 20:43
@musiphil,@Dave: indeed; I've mind-distilled this class from something from my day job which caused a crash in VS10, but ran smoothly in gcc4.4; will provide better code tomorrow. – xtofl Jun 20 '12 at 20:45
@BenjaminLindley: No, it extends the lifetime of the temporary only until construction completes. After the object is constructed, a refers to a no-longer-existent object. – James McNellis Jun 20 '12 at 20:50

That shouldn't compile. A good C++ compiler (or really almost any C++ compiler that I've ever seen) will stop that from happening.

share|improve this answer
thanks; it seems that I have to take a better look at my code and rephrase the problem. – xtofl Jun 20 '12 at 20:50

Ignoring the fact the code isn't valid and just answering the question about the private overload...

In C++11 I would prefer a deleted function to a private function. It's a bit more explicit that you really can't call it (not even if you're a member or friend of the class.)

N.B. if the deleted constructor is HasRef(int&&)=delete it will not be chosen here:

int i;
HasRef hr(std::forward<const int>(i));

With an argument of type const int&& the HasRef(const int&) constructor would be used, not the HasRef(int&&) one. In this case it would be OK, because i really is an lvalue, but in general that might not be the case, so this might be one of the very rare times when a const rvalue reference is useful:

HasRef(const int&&) = delete;
share|improve this answer

I'm guessing you're compiling in MSVS. In that case, turn off language extensions and you should get an error.

Otherwise, not that even marking the reference const extends the lifetime of the temporary until the constructor finishes. After that, you'll refer to an invalid object.

share|improve this answer
It is more easily said than done. Disabling languages extensions with MSVC makes their own standard library complain. – Alexandre C. Jun 20 '12 at 21:02
@AlexandreC. I've had no problems so far... lucky? – Luchian Grigore Jun 20 '12 at 21:03
Probably. I recall having had problems with MSVC2005. – Alexandre C. Jun 20 '12 at 21:04
My understanding is that the Standard Library headers should work under /Za, but the Windows SDK headers (Windows.h and friends) may not. – James McNellis Jun 20 '12 at 22:24

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