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I have written the following sample code:

#include <iostream>

class B
  int Value;

  B(int V) : Value(V) {}

  int GetValue(void) const { return Value;}

class A
  const B& b;

  A(const B &ObjectB) : b(ObjectB) {}

  int GetValue(void) { return b.GetValue();}


B b(5);

A a1(B(5));

A a2(b);

A a3(B(3));

int main(void)
  std::cout << a1.GetValue() << std::endl;
  std::cout << a2.GetValue() << std::endl;
  std::cout << a3.GetValue() << std::endl;

  return 0;

Compiled with mingw-g++ and executed on Windows 7, I get


So, what I get from the output is that the two anonymous object are destroyed as the initialization has completed, even if they are declared in a global context.

From this my question: does is exist a way to be sure that a const reference stored in class will always refer to a valid object?

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A popular way to mitigate this is using smart pointers. –  Brian Cain May 13 '14 at 1:01

3 Answers 3

One thing you can do in class A:

A(B&&) = delete;

That way, the two lines that try to construct an A from a B temporary will fail to compile.

That obviously won't prevent you providing some other B object with a lifetime shorter than the A object referencing it, but it's a step in the right direction and may catch some accidental/careless abuses. (Other answers already discuss design scenarios and alternatives - I won't cover that same ground / whether references can be safe(r) in the illustrated scenario is already an important question.)

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No, there is not. Remember that references are pointers under the hood, and normally don't control the lifetime of the object they reference (see here for an exception, although it doesn't apply in this case). I would recommend just having a B object, if this is in a piece of code that you need.

Also, you could utilize an object such as a shared_ptr in C++11, which will only eliminate the object once both the pointer in the function and in the object have been destroyed.

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References don't have to be pointers under the hood; and in any case that doesn't matter, as references and pointers have different semantics. –  Matt McNabb May 13 '14 at 1:28

To paraphrase Charles Étienne, if you want something stored right, store it yourself. There is no way to guarantee that an object to which your object holds a reference would not go away, making your reference invalid.

Special cases exist when you can hold a reference that is guaranteed to be valid, such as a child node in a tree holding a reference to its parent. Another case is when you have a set of objects in the static memory, and your object reference objects from that static group. However, in all these cases it is on the programmer to code this up correctly.

For cases when you have objects allocated in the dynamic memory you can use shared_ptr<T> template to make references to dynamic objects that would not be destroyed until the last shared_ptr<T> reference is gone.

For objects allocated in the automatic storage there is no common way to make such guarantee, so copying may be your only solution.

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