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As I understand temporaries, the following code should work, but it doesn't.

struct base
    virtual~base() {}
    virtual void virt()const=0;
struct derived:public base
    virtual void virt()const {}

const base& foo() {return derived();}

int main()
    return 0;

The call to virt() gives a "pure virtual function called" error. Why is that, and what should I do?

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6 Answers 6

up vote 5 down vote accepted

It seems like you're expecting the const reference to extend the lifetime of the temporary. There are certain situations where this doesn't occur. One of those situations is when returning a temporary:

The second context [in which temporaries are destroyed at a different point than the end of the full-expression] is when a reference is bound to a temporary. The temporary to which the reference is bound or the temporary that is the complete object of a subobject to which the reference is bound persists for the lifetime of the reference except:


  • The lifetime of a temporary bound to the returned value in a function return statement (6.6.3) is not extended; the temporary is destroyed at the end of the full-expression in the return statement.

Since calling a member function of the object returned by foo() will necessitate an lvalue-to-rvalue conversion and the object is invalid (not derived from type base), you get undefined behaviour:

If the object to which the glvalue refers is not an object of type T and is not an object of a type derived from T, or if the object is uninitialized, a program that necessitates this conversion has undefined behavior.

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You're returning a reference to a temporary which is destructed when the function ends at the end of the return statement and you get undefined behaviour.

You cannot return any kind of reference to a temporary and if you return a base by value you'll get slicing, so if you really want this to work, you should return a std::unique_ptr<base>.

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exactly, because the virtual table would be cleaned up as well... hence the message. –  Doug T. Jan 23 '13 at 22:54
@DougT.: There's no "because" in "undefined behaviour". (Apart from that, virtual tables never get "cleaned up".) –  Kerrek SB Jan 23 '13 at 22:54
But shouldn't the temporary object be destroyed at the end of the full-expression, that is after virt() has returned? –  Dave Jan 23 '13 at 22:56
+1 for unique_ptr –  Alex Chamberlain Jan 23 '13 at 23:03
@KerrekSB I disagree with your logic. "Undefined behavior" isn't a promise of "undiscernable behavior". If a C++ compiler chose to define certain undefined behaviors, would it stop being a C++ compiler? (Maybe you have a sound answer to that question.) That said, DougT's speculation that a vtable pointer experienced object destruction seems reasonable (even if his terminology is off). He shouldn't rely on patterns noticed in UB, but it seems like you're saying that he's also forbidden from noticing them. –  Drew Dormann Jan 23 '13 at 23:21

I don't think you can return references to objects like that. The derived() instance goes out of scope as soon as foo() returns. Have

base *foo() { return new derived(); }



should work.

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This should work, but we don't need to pass raw pointers around these days... –  Alex Chamberlain Jan 23 '13 at 23:02
sure, if you want to use shared_ptr<> or the likes, that's what you should do in a real code. However my point is fundamentally that we need to allocate the object on the heap for this to work, why hide that fact under the cloak of pointer-fear? –  Johannes Jan 23 '13 at 23:06
@Johannes : Because it's just asking for memory leaks. Smart pointers are in the standard library – use them! :-] –  ildjarn Jan 23 '13 at 23:18
@Johannes Because we are educating our peers about techniques and good habits to solve problems. unique_ptr doesn't even have runtime penalty in a lot of cases. –  Alex Chamberlain Jan 23 '13 at 23:20

There is no object during the call, the local object was deleted. There will be no vtable to look at. Try:

base& foo() { return *new derived(); }
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How does the caller know he has to free memory? –  Alex Chamberlain Jan 23 '13 at 23:21

Your temporary 'derived()' object is allocated on the stack. It might have something to do with the object up-casting.

const base& foo() { derived *d = new derived(); return *d; }

Works just fine, for me.

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Leaking memory is not working fine. ;-] –  ildjarn Jan 23 '13 at 23:19
Sure- thanks for catch. I could have used a boost::shared_ptr<> –  Arcturus Jan 24 '13 at 2:51

Change the problem piece to this:

class A {
  const base &foo() { return d; }
  derived d;

This way the lifetime of the derived object is as long as A's lifetime, and there will never be any problems.

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What if I constructed A on the stack of a function bar and returned the reference to d from bar? –  Alex Chamberlain Jan 23 '13 at 23:22

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