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While asking this question, I learned const reference to a temporary object is valid in C++:

int main ()
  int a = 21;
  int b = 21;

  //error: invalid initialization of non-const reference
  //int       & sum = a + b;e [...]

  int const & sum = a + b;

  return sum;

But in the following example, the const reference refnop refers to a destroyed temporary object. I wonder why?

#include <string>
#include <map>

struct A
   // data 
   std::map <std::string, std::string>  m;
   // functions
   const A& nothing()           const { return *this;    }
   void init()                        { m["aa"] = "bb";  }
   bool operator!= (A const& a) const { return a.m != m; }

int main()
  A a;

  A const& ref    = A(a);
  A const& refnop = A(a).nothing();

  int ret = 0;
  if (a != ref)     ret += 2;
  if (a != refnop)  ret += 4;

  return ret;

Tested using GCC 4.1.2 and MSVC 2010, it returns 4;

$> g++ -g refnop.cpp
$> ./a.out ; echo $?

The difference between ref and refnop is the call to nothing() which does really nothing. It seems after this call, the temporary object is destroyed!

My question:
Why in the case of refnop, the life time of the temporary object is not the same as its const reference?

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migrated from programmers.stackexchange.com Jun 21 '13 at 13:06

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1 Answer

up vote 4 down vote accepted

The lifetime-extension of a temporary object can be performed only once, when the temporary object gets bound to the first reference. After that, the knowledge that the reference refers to a temporary object is gone, so further lifetime extensions are not possible.

The case that is puzzling you

A const& refnop = A(a).nothing();

is similar to this case:

A const& foo(A const& bar)
    return bar;
A const& broken = foo(A());

In both cases, the temporary gets bound to the function argument (the implicit this for nothing(), bar for foo()) and gets its lifetime 'extended' to the lifetime of the function argument. I put 'extended' in quotes, because the natural lifetime of the temporary is already longer, so no actual extension takes place.

Because the lifetime extension property is non-transitive, returning a reference (that happens to refer to a temporary object) will not further extend the lifetime of the temporary object, with as result that both refnop and broken end up referring to objects that no longer exist.

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