For one thing,
string&& s2 = std::move(s1);
isn't an assignment at all; it's an initialization.
And it's initialization of a reference, not an object. There is only one
std::string in your program, named
s1. Since you declared
s2 as a reference, it refers to some other object - here that's
s1. So no move constructor or move assignment operator needs to be called at all, and
s1 can't be changed.
If you wrote instead
string s2 = std::move(s1);
then this would in fact create a second
std::string object named
s2. It gets initialized using the move constructor.
Or if the
= is used on an object previously declared, not to introduce an initializer right after a declaration, then it's a true assignment:
s2 = std::move(s1);
s2 is first created using the
std::string default constructor, and then modified using the
std::string move assignment operator.
But note that after a
std::string move constructor or move assignment operator, the contents of the "moved-from" object are unspecified. In some cases, the Standard says exactly what a move operation will do, often making the moved-from object empty. But when not otherwise specified, it says only that the object is in a "valid but unspecified state". And
std::string doesn't add any specific requirements, so the unspecified state is the result. So printing
s1 after this might result in anything at all. (Practically speaking, if the
std::string implementation uses the Small String Optimization, you might find that
s1 has not been changed.)