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I noticed a difference in behavior between vector::push_back and insert.

When I do

iter = myVector.begin() + 5;

The 6th element in the vector is added to the bottom and gets deleted from the previous position.

Whereas, if I do this:

iterBegin = myVector.begin();
myVector.insert(iterBegin,std::move(*(iterBegin + 5)));

The 6th element gets inserted in the first position, but it does not get deleted form the previous position.

Why std::move does not work in insert() as in push_back()?

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I tried it on g++, and I didn't get the 6th element being removed. I don't even see why it should be removed... (although it might be left in an unusable state. You should never "move" thinks you still use). How did you check that it was removed? Is the 7th element still in place? Did the size change? –  cluracan Jul 26 '13 at 5:39
Could you add a complete code example, including the declaration of the vector and the way you check whether the old element is still in place? –  jogojapan Jul 26 '13 at 5:45
As far as I know, std::move won't remove an element from a container. At the most it will steal the contents of that element and move them into a new object, but the "shell" of the old element will still be left behind in the container. –  Jonathan Potter Jul 26 '13 at 6:21
But, it did remove then element when I used push_back() –  Hariprasad Jul 26 '13 at 6:46
@cluracan the size has also changed. All other elements were still in place. –  Hariprasad Jul 26 '13 at 7:43

2 Answers 2

up vote 3 down vote accepted Function arguments [res.on.arguments]/p1/b3 says:

1 Each of the following applies to all arguments to functions defined in the C++ standard library, unless explicitly stated otherwise.


  • If a function argument binds to an rvalue reference parameter, the implementation may assume that this parameter is a unique reference to this argument. [ Note: If the parameter is a generic parameter of the form T&& and an lvalue of type A is bound, the argument binds to an lvalue reference ( and thus is not covered by the previous sentence. — end note ] [ Note: If a program casts an lvalue to an xvalue while passing that lvalue to a library function (e.g. by calling the function with the argument move(x)), the program is eectively asking that function to treat that lvalue as a temporary. The implementation is free to optimize away aliasing checks which might be needed if the argument was an lvalue. — endnote]

In short, vector assumes the argument referenced by && in both insert and push_back is a temporary and thus does no preventative aliasing checks.

As it turns out, assuming you inserted or push_back'd an lvalue, the push_back algorithm never needs to check for aliasing anyway. However the insert algorithm does (I'm specifically speaking of vector, and not other containers). So when you use move, you don't notice the lack of aliasing checks on push_back, because they would not make a difference anyway. However you do notice the lack of them on insert.

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Iterators are only valid as long as the collection class, in this case vector isn't modified. Once you insert the first time, you invalidate your iterators and the result is undefined.

So in either case, iter becomes invalid and bad stuff will happen! Or worse, it seems to work except on release builds, or on that one old machine, or when the moon is full, etc.

Instead, consider copying the elements you want to add to a new container, and then add them.

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