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Consider the following program which inserts a range of elements into a vector:

vector<string> v1;
vector<string> v2;



v1.insert(v1.end(), v2.begin(), v2.end());

This efficiently copies the range, allocating enough space in the target vector for the entire range so that a maximum of one resize will be required. Now consider the following program which attempts to move a range into a vector:

vector<string> v1;
vector<string> v2;



for_each ( v2.begin(), v2.end(), [&v1]( string & s )

This performs a successful move but doesn't enjoy the benefits that insert() has with regard to preallocating space in the target vector, so the vector could be resized several times during the operation.

So my question is, is there an insert equivalent which can move a range into a vector?

share|improve this question
If you need to preallocate space in the vector, use std::vector::reserve, and keep push_back/emplace_back. – rubenvb May 23 '12 at 12:43
That would be an optional optimization, only possible when the range is defined by random-access iterators. Don't count on it. – Ben Voigt May 23 '12 at 12:46
@rubenvb Yes I thought that would probably be the answer, it's just a shame there isn't a method as clean as insert() is. – Benj May 23 '12 at 12:46
That's always true though when using std::vector no? – Benj May 23 '12 at 12:47
@Benj: std::vector iterators are random access, but the library might not include the optimization. And the question appears to ask about insertion into a vector from an arbitrary unspecified range, which might not have random-access iterators. – Ben Voigt May 23 '12 at 12:49
up vote 50 down vote accepted

You use a move_iterator with insert:

v1.insert(v1.end(), make_move_iterator(v2.begin()), make_move_iterator(v2.end()));

The example in 24.5.3 is almost exactly this.

You'll get the optimization you want if (a) vector::insert uses iterator-tag dispatch to detect the random-access iterator and precalculate the size (which you've assumed it does in your example that copies), and (b) move_iterator preserves the iterator category of the iterator it wraps (which is required by the standard).

On an obscure point: I'm pretty sure that vector::insert can emplace from the source (which is irrelevant here, since the source is the same type as the destination, so an emplace is the same as a copy/move, but would be relevant to otherwise-identical examples). I haven't yet found a statement that it's required to do so, I've just inferred it from the fact that the requirement on the iterator pair i,j passed to insert is that T be EmplaceConstructible from *i.

share|improve this answer
Excellent, didn't know about make_move_iterator – Benj May 23 '12 at 12:50
+1 for the backgrounder – sehe May 23 '12 at 13:07
Hmm, I've discovered that it's also possible to use make_move_iterator to turn std::copy_if into the equivalent of a std::move_if. That's very handy. – Benj May 23 '12 at 13:11
  1. std::move algorithm with preallocation:

    #include <iterator>
    #include <algorithm>
    v1.reserve(v1.size() + v2.size()); // optional
    std::move(v2.begin(), v2.end(), std::back_inserter(v1));
  2. The following would be more flexible yet:


    Steve Jessop provided background information on precisely what it does and probably how it does so.

share|improve this answer
The chances of this resizing the destination vector only once are very very slim. – Ben Voigt May 23 '12 at 12:46
Oh neat, didn't know about this form of std::move. Although I guess the back_inserter could still cause multiple resizes though. – Benj May 23 '12 at 12:48
@BenVoigt Why? I suppose it is up to the implementation. vector::reserve is your friend. Let me check the standard. – sehe May 23 '12 at 12:48
@sehe: back_inserter doesn't know a-priori how many times it will be invoked. std::move can find out, but there isn't any way for it to know the destination is inserting into a vector. – Ben Voigt May 23 '12 at 12:50
I don't think the first one realistically can reallocate only once: move can see that you have a random access iterator, so it can work out the size required, but it only sees a back_insert_iterator, not the underlying vector, so it has no way to reserve space. It would require an incredibly tortuous overload of std::move to catch this case. – Steve Jessop May 23 '12 at 12:51

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