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Lets say I have a class C, and a function make_c(x) which creates instances of C.

C stores x by reference.

How can I write make_c(x) to give a compile error when x is an unnamed temporary (that would of course destruct at the end of line, leaving a dangling reference) but accept named temporaries and other values?

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"named temporary"? –  Potatoswatter Aug 24 '11 at 2:43
@Potatoswatter: I mean with const T& x = f(), x is a named temporary (it doesn't get destroyed at the end of the line). –  Clinton Aug 24 '11 at 2:45
@Clinton: That doesn't destroy at the end of the line. It gets destroyed when x goes out of scope. –  Nawaz Aug 24 '11 at 2:47
@Clinton then it's not temporary. –  Seth Carnegie Aug 24 '11 at 2:48
@Clinton: there can be nothing you're doing (nothing that's legal C++, at any rate) that requires that you "identify unnamed temporaries". Indeed, the C++0x language makes it virtually impossible for you to do so, and there's likely a very good reason why they went through the trouble to prevent it. –  Nicol Bolas Aug 24 '11 at 3:35

3 Answers 3

I believe this should have the semantics you're looking for:

template<typename X>
C make_c(X&& x)
        "x must not be a temporary"
    return C(std::forward<X>(x));

Caveat: this won't work as-is with VC++ 2010 due to deficiencies in its implementation of decltype (you'd need to wrap decltype in std::identity<>).

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Could you add some explanation about what the various parts are doing here? Especially the need for std::forward<X> and the need for the explicit X in same? (Sometimes I think all the C++0x "rvalue reference" stuff will never make sense to me.) –  Nemo Aug 24 '11 at 3:19
@ildjarn: Does this work in the case T&& x = f() (which presumably also extends the lifetime of f(), so should be accepted)? –  Clinton Aug 24 '11 at 3:30
@Nemo: Look up questions here on "perfect forwarding". –  Nicol Bolas Aug 24 '11 at 3:31
@Nemo : Explaining the rules of rvalue reference collapsing is well beyond the scope of this question. If you find them confusing, that may well warrant a proper question on the subject asking for an in-depth answer. :-] –  ildjarn Aug 24 '11 at 4:00
@Clinton : First, yes, T&& x = f(); extends the lifetime of the temporary returned by f() (see §8.5.3/5 and §12.2/5). Second, no, this code does not work in that case (and I don't think it's ever possible to distinguish between the two, much like it was impossible to distinguish between a const& temporary and a const& non-temporary in C++03); however, I personally expect that most code taking advantage of "the most important const" will be using const lvalue references, as that's a fairly well-understood and established practice compared to any idiom relating to rvalue references. –  ildjarn Aug 24 '11 at 4:08

I don't think it's possible within the language, because you'd need to check the flow control through arbitrary functions.

struct Foo{

Foo const & sanitize(Foo const & f){ return f;}

void checkThisFunction(Foo const & f){
   //we'd like to ensure at compile time that f is not a temporary

int main(){
   Foo f;
   return 0;
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So does that code sample work or not? It's not clear (to me) from your answer. –  Seth Carnegie Aug 24 '11 at 2:50
That is an example of code that works in C++, but there's no way to check that the Foo passed to checkThisFunction is not temporary. –  Ken Bloom Aug 24 '11 at 2:53
@Ken: I'm happy for both checkThisFunction(sanitize(f)) and checkThisFunction(sanitize(Foo())) to be rejected. I just want checkThisFunction(f) to be accepted, and const Foo& f = Foo(), checkThisFunction(f). –  Clinton Aug 24 '11 at 2:55
@Clinton: He very clearly said that you cannot tell the difference. You cannot preferentially filter those possibilities out, with any combination of r-value references and const-l-value references. If checkThisFunction(f) works, then checkThisFunction(sanitize(f)) must also work. –  Nicol Bolas Aug 24 '11 at 3:40
@Nicol: But he could possibly write a GCC plugin (or Dehydra or TreeHydra plugin) to perform a lint-like check on this particular function. But I don't know much about how to do that. –  Ken Bloom Aug 24 '11 at 4:15

Unless I'm completely misunderstanding rvalue references, this sort of thing should be doable with simple overloading.

void foo(int&&) = delete;
void foo(const int&) { }

int main()
   int a;
   foo(42);  //error, prefers binding to the deleted overload
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