void test(vector<int> v) {
    for(int i:v) cout<< i<<" ";
int main()
    vector<int> v{ 1,2,3 };
    cout << "v is gone...."; 

I am new to move semantics and rvalue references. In the code above, the vector is printed. Clearly the move worked.

What I don't understand is how it worked. Why don't I have to define a function that takes in an rvalue reference? My best guess is the compiler is generating this automatically:

void test(vector<int>&& v) {
    for(int i:v) cout<< i<<" ";

You can create a vector with an r-value reference to it:

std::vector<int> a = {1, 2, 3};

std::vector<int> b = std::move(a); // Constructs b from r-value reference

This invokes std::vector's move constructor, which basically just copies the data pointer from the first vector to the second vector.

When you invoke the function void test(std::vector<int> v) in your example, the same thing happens: the compiler calls std::vector's move constructor, and creates a new vector in the stack space allocated for the parameter v. No functions are implicitly generated.

The difference between void test(std::vector<int> v), and void test(std::vector<int>&& v).

In the first case, you're passing the vector by value. That means that whenever you call test, the function calling test allocates space for a new vector on the stack before invoking test. It has to call std::vector's constructor, and in the process, it either

  • moves a vector;
  • copies a vector; or
  • magically constructs the vector in-place (this happens if you construct the vector at the site where you call test, for example in test(std::vector<int>{1, 2, 3}))

On the other hand, test(std::vector<int>&& v) takes the argument by reference. This means that when you call this version of test by moving a variable, no new vector gets created. Whatever vector you give it is passed by reference, and as a result any changes that test(std::vector<int>&&) makes to the vector will show up on the original.

For example:

// Even though v is passed as an r-value reference, 
// v is never moved-from inside test(). An object is only moved-from
// If an r-value reference to it is used to construct a new object. 
void test(std::vector<int>&& v) {

std::vector<int> myList = {1, 2, 3}; 
test(std::move(myList)); // Adds 4 to the end of myList

// Prints 1 2 3 4
for(int i : myList) {
    std::cout << i << " ";
| improve this answer | |

My best guess is the compiler is generating this automatically

The only code a compiler will generate automatically is for constructors, assignment operators and destructors. And those have caveats. What's happening here is not about auto generated code. When you write test(move(v)) (for some type V), that can be made to work in a couple of ways.

  1. test accepts an argument of type V&&. That will happily bind to the rvalue reference you provided.
  2. test accepts an argument of type V const&. Const lvlaue references bind to rvalue reference arguments too. That way old code that is not adjusted for move semantics can still work. A const lvlaue reference is a handy fallback.
  3. test accepts a V. Here cases (1) and (2) can applied to the constructors of V.

In our specific case, std::vector has a move constructor ready to accept the reference you provided.

| improve this answer | |
  • So, of the three cases you mentioned #3 applies here, right? So in the end will it be passed by const reference or by value? – user3586940 Jun 1 '19 at 7:43
  • @user3586940 - By value. But that value is constructed by calling a move constructor. – StoryTeller - Unslander Monica Jun 1 '19 at 7:45

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.