The answers by Dave S and gbjbaanb are correct. (And Luc Danton's is correct too, although it's more a side-effect of forbidding COW strings rather than the original rule that forbids it.)
But to clear up some confusion, I'm going to add some further exposition. Various comments link to a comment of mine on the GCC bugzilla which gives the following example:
const char* p = s.data();
std::cout << *p << '\n'; // p is dangling
The point of that example is to demonstrate why GCC's reference counted (COW) string is not valid in C++11. The C++11 standard requires this code to work correctly. Nothing in the code permits the
p to be invalidated in C++11.
Using GCC's old reference-counted
std::string implementation, that code has undefined behaviour, because
p is invalidated, becoming a dangling pointer. (What happens is that when
s2 is constructed it shares the data with
s, but obtaining a non-const reference via
s requires the data to be unshared, so
s does a "copy on write" because the reference
s could potentially be used to write into
s2 goes out of scope, destroying the array pointed to by
The C++03 standard explicitly permits that behaviour in 21.3 [lib.basic.string] p5 where it says that subsequent to a call to
data() the first call to
operator() may invalidate pointers, references and iterators. So GCC's COW string was a valid C++03 implementation.
The C++11 standard no longer permits that behaviour, because no call to
operator() may invalidate pointers, references or iterators, irrespective of whether they follow a call to
So the example above must work in C++11, but does not work with libstdc++'s kind of COW string, therefore that kind of COW string is not permitted in C++11.