I have a std::vector<std::string> to be re-used in a loop. Is it ok to std::move elements out? If I moved the ith element out, then ith slot goes into an undefined but valid state, but what about the vector? Is its state still defined and valid? Also, can I clear() and then reuse the vector in the next iteration?

EDIT: please read the question before you flag for duplication. I'm asking the state of v2 after doing std::move(v2[0]), not std::move(v2). Also I reuse v2 after I did v2.clear(). How is that similar to the suggested duplication?

EDIT: code example:

struct Foo {
    string data;
    /* other data memebers */
    void workOnData();

std::vector<std::string> buffer;
Foo foo;
while (1) {
    loadData(buffer); // push data to buffer, at least one element in buffer guaranteed
    foo.data.assign(std::move(buffer[0])); // please don't ask is Foo necessary or why workOnData has to be a member method. THIS IS A SIMPLIFIED EXAMPLE!
  • 2
    @ChrisJester-Young I think they mean std::move. In which case the iterators remain valid. Commented Apr 16, 2014 at 19:27
  • 1
    state is unspecified, not undefined. See the duplicate…
    – galop1n
    Commented Apr 16, 2014 at 19:31
  • 4
    @galop1n No it's not. I'm not talking about the state of an object after moving it. But the state of a container after moving its element
    – GuLearn
    Commented Apr 16, 2014 at 19:32
  • 1
    @YZ.learner: Why do you think screwing around with an object change the state of the container in any way? Commented Apr 16, 2014 at 19:33
  • 4
    @galop1n: "It is exactly the same by extension." -- No, it is absolutely not the same. Commented Apr 16, 2014 at 19:54

2 Answers 2


Is it ok to std::move elements out?

Yes, it's okay.

If I moved the ith element out, then ith slot goes into an undefined but valid state

It leaves the element in a valid but unspecified state. The difference between those two words is important in C++, but probably not too important to this question. Just thought I should point it out.

but what about the vector?

The vector is in a valid and well-specified state, though one of its elements is in an unspecified state.

Also, can I clear() and then reuse the vector in the next iteration?

Yes. Of course. Though you can do a lot more than that. Unlike a moved-from vector, you can still count on the vector having the same size, the same capacity, and all elements other than the one you just moved from remaining unchanged. As well as all references and iterators to elements (including the one you just moved from) remaining valid.

  • @bobobobo That's right. std::move does not actually perform a move, despite the name. The thing which performs a move is the move constructor. In your case, the move constructor was not called in the creation of First because First is not an object. It is an r-value reference. Change it to an object, Person First = std::move(people.front());, and you will see a move happen. Commented Apr 26 at 10:48
  • Wait a minute.. ah I see yes that does work. The mistake I made was I was receiving Person&& First = std::move( people.front() ), which doesn't seem to allow the move to happen
    – bobobobo
    Commented Apr 26 at 18:45

You can move an object out of a vector, but it isn't likely done how you'd expect

You have to use a std::move_iterator to do it. Constructing a std::move_iterator is possible on any container using std::make_move_iterator as follows:

auto print = [](const vector<string> &vec) {
  for( auto&& s : vec )
    puts( s.c_str() );
vector<string> v = { "A string", "Another one" };
puts( "Your strings:" );
print( v );

// MOVE begin element. Good place for auto? Maybe not even!
std::move_iterator< std::vector<string>::iterator > it = std::make_move_iterator( v.begin() );
puts( "Making the iterator doesn't move anything yet" );
print( v );

string moved = *it;
puts( "Dereferencing the move iterator moves the element it points to" );
print( v );

// Note: if you receive the result of the move_iterator
// into a string&&, it won't actually move it (seems to only alias it)

Extended example

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