I define a class A like this:

class A {
        cout << "A constructing..." << endl;
    A(const A &a){
        cout << "A copy constructing..." << endl;
    A(A&& a){
        strcpy(name, a.name);
        cout << "A move constructing..." << endl;
        cout << "A destructing..." << name << endl;

And a simple function:

A f(A&& b) {
    cout << "------after call------" << endl;
    A f = b; // Use "A f(b)" to get the same effect
    cout << "------before return------" << endl;
    return f;

And when I call auto test = f(move(b));, why would it call copy constructor instead of move constructor? Is b in f() not a rvalue?

  • If you create a minimal reproducible example and build and run it, what is the output you get? What is the output you expect? Why did you expect the expected output? Apr 10 '20 at 15:44
  • Preferential treatment of the copy because the move isn't marked nothrow? Apr 10 '20 at 15:50
  • What do you think would happen if that return f; was a return b;? Do you think that's not allowed? (Do you think a parameter can only be used once?!) If it is allowed, how could it work if the move constructor was called already? Apr 10 '20 at 16:07

Nope, the expression b in the body of f is an lvalue. The name of a variable is always an lvalue, even if the variable's declaration has rvalue reference type.

This rule exists because otherwise it would be a little too easy to accidentally move from a variable before you want:

void validate(A obj);

void f(A&& b) {
    A a1 = b;
    // Maybe some other code in between.
    A a2 = b;

Even though some A rvalue expression was passed to f, once inside f it has a name, so the object can be used more than once. If we copy instead of move both times, at least that's safer than moving then trying to use the moved-from variable.

So use std::move on an rvalue reference variable name when you know it's the last time you need the variable's value, to explicitly tell that context it's okay to move.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.