How do I concatenate two std::vectors?

  • 3
    The answers given don't actually concatenate. They append a copy. There may be a use (for efficiency's point of view) to create a std::vector concatenate method, however it would require some sophisticated sharing of the management of the nodes and that's probably why it hasn't been done. – FauChristian Feb 15 '17 at 19:07
  • 2
    @FauChristian: No, there may not be a use from an efficiency's point of view. Vector memory must be continuous, so what you are suggested is impossible. If you wanted "some sophisticated sharing of the management of the nodes", and if you were to change the vector class in such a way, you would end up with a deque. Even then it is very difficult to reuse memory in the way suggested, albeit it would start being a bit more feasible. I don't think it is currently implemented. The main thing is that in such a sharing of management nodes (a deque) the end node might be partially empty. – Cookie May 16 '17 at 10:00
  • 2
    @lecaruyer You realize that you just marked a question that was asked two years prior as a duplicate – eshirima Aug 3 '17 at 12:47
  • Am I the only one wondering why this is not implemented as a + b or a.concat(b) in the standard library? Maybe the default implementation would be suboptimal, but every array concatenation does not need to be micro-optimized – oseiskar Mar 24 at 8:40

17 Answers 17

vector1.insert( vector1.end(), vector2.begin(), vector2.end() );
  • 48
    I'd only add code to first get the number of elements each vector holds, and set vector1 to be the one holding the greatest. Should you do otherwise you're doing a lot of unnecessary copying. – Joe Pineda Oct 14 '08 at 16:11
  • 26
    I have a question. Will this work if vector1 and vector2 are the same vectors? – Alexander Rafferty Jul 17 '11 at 9:36
  • 5
    If you have concatenating several vectors to one, is it helpful to call reserve on the destination vector first? – Faheem Mitha Feb 4 '12 at 23:07
  • 25
    @AlexanderRafferty: Only if vector1.capacity() >= 2 * vector1.size(). Which is atypical unless you've called std::vector::reserve(). Otherwise the vector will reallocate, invalidating the iterators passed as parameters 2 and 3. – Drew Dormann Jun 21 '12 at 20:30
  • 12
    It's too bad there isn't a more succinct expression in the standard library. .concat or += or something – nmr Oct 14 '16 at 23:32

If you are using C++11, and wish to move the elements rather than merely copying them, you can use std::move_iterator (http://en.cppreference.com/w/cpp/iterator/move_iterator) along with insert (or copy):

#include <vector>
#include <iostream>
#include <iterator>

int main(int argc, char** argv) {
  std::vector<int> dest{1,2,3,4,5};
  std::vector<int> src{6,7,8,9,10};

  // Move elements from src to dest.
  // src is left in undefined but safe-to-destruct state.
  dest.insert(
      dest.end(),
      std::make_move_iterator(src.begin()),
      std::make_move_iterator(src.end())
    );

  // Print out concatenated vector.
  std::copy(
      dest.begin(),
      dest.end(),
      std::ostream_iterator<int>(std::cout, "\n")
    );

  return 0;
}

This will not be more efficient for the example with ints, since moving them is no more efficient than copying them, but for a data structure with optimized moves, it can avoid copying unnecessary state:

#include <vector>
#include <iostream>
#include <iterator>

int main(int argc, char** argv) {
  std::vector<std::vector<int>> dest{{1,2,3,4,5}, {3,4}};
  std::vector<std::vector<int>> src{{6,7,8,9,10}};

  // Move elements from src to dest.
  // src is left in undefined but safe-to-destruct state.
  dest.insert(
      dest.end(),
      std::make_move_iterator(src.begin()),
      std::make_move_iterator(src.end())
    );

  return 0;
}

After the move, src's element is left in an undefined but safe-to-destruct state, and its former elements were transfered directly to dest's new element at the end.

  • 3
    The std::make_move_iterator() method helped me when trying to concatenate std::vectors of std::unique_ptr. – Knitschi Dec 27 '14 at 13:43

I would use the insert function, something like:

vector<int> a, b;
//fill with data
b.insert(b.end(), a.begin(), a.end());

Or you could use:

std::copy(source.begin(), source.end(), std::back_inserter(destination));

This pattern is useful if the two vectors don't contain exactly the same type of thing, because you can use something instead of std::back_inserter to convert from one type to the other.

  • 7
    the copy method is a not such a good way. It will call push_back multiple time which means that if a lot of elements have to be inserted this could mean multiple reallocations. it is better to use insert as the vector implementation could do some optimization to avoid reallocations. it could reserve memory before starting copying – Yogesh Arora Mar 22 '10 at 13:16
  • 6
    @Yogesh: granted, but there's nothing stopping you calling reserve first. The reason std::copy is sometimes useful is if you want to use something other than back_inserter. – Roger Lipscombe Mar 22 '10 at 18:36
  • When you say "multiple allocations", that is true - but the number of allocations is at worst log(number of entries added) - which means that the cost of adding an entry is constant in the number of entries added. (Basically, don't worry about it unless profiling shows you need a reserve). – Martin Bonner Nov 20 '15 at 13:55
  • You might want to use std::transform to do this instead. – Martin Broadhurst Feb 7 '16 at 16:01
  • copy sucks a lot, even with reserve. vector::insert will avoid all the checks: quick-bench.com/bLJO4OfkAzMcWia7Pa80ynwmAIA – Denis Yaroshevskiy Jul 29 at 16:31

With C++11, I'd prefer following to append vector b to a:

std::move(b.begin(), b.end(), std::back_inserter(a));

when a and b are not overlapped, and b is not going to be used anymore.


This is std::move from <algorithm>, not the usual std::move from .

  • 8
    Undefined behaviour if a actually is b (which is OK if you know that can never happen - but worth being aware of in general purpose code). – Martin Bonner Nov 20 '15 at 13:53
  • @MartinBonner Thanks for mentioning that. Probably I should turn back to the old insert way which is safer. – Deqing Feb 1 '16 at 3:31
  • just add following header line the begin: #include <iterator> – Manohar Reddy Poreddy Sep 10 '16 at 12:07
  • 10
    Ah, the OTHER std::move. Quite confusing the first time you see it. – xaxxon Sep 16 '16 at 2:52
  • Is this different from insert() with move_iterators? If so, how? – GPhilo Nov 5 at 10:52
std::vector<int> first;
std::vector<int> second;

first.insert(first.end(), second.begin(), second.end());

I prefer one that is already mentioned:

a.insert(a.end(), b.begin(), b.end());

But if you use C++11, there is one more generic way:

a.insert(std::end(a), std::begin(b), std::end(b));

Also, not part of a question, but it is advisable to use reserve before appending for better performance. And if you are concatenating vector with itself, without reserving it fails, so you always should reserve.


So basically what you need:

template <typename T>
void Append(std::vector<T>& a, const std::vector<T>& b)
{
    a.reserve(a.size() + b.size());
    a.insert(a.end(), b.begin(), b.end());
}
  • 2
    std:: is deduced through argument-dependent lookup. end(a) will be enough. – Asu Oct 13 '16 at 20:02
  • 2
    @Asu ADL will only add std:: if the type of a comes from std, which defeats the generic aspect. – Potatoswatter Dec 27 '16 at 6:59
  • good point. in this case it's a vector so it would work anyways, but yes that's a better solution. – Asu Dec 27 '16 at 11:09
  • std::begin()/end() were added for collections (like arrays) which don't have them as member functions. But arrays also don't have an insert() member function, and calls the question "Is there a collection with an insert() but without begin() (which works with the std::begin()) ?" – James Curran Oct 4 at 15:53

You should use vector::insert

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

With range v3, you may have a lazy concatenation:

ranges::view::concat(v1, v2)

Demo.

If you are interested in strong exception guarantee (when copy constructor can throw an exception):

template<typename T>
inline void append_copy(std::vector<T>& v1, const std::vector<T>& v2)
{
    const auto orig_v1_size = v1.size();
    v1.reserve(orig_v1_size + v2.size());
    try
    {
        v1.insert(v1.end(), v2.begin(), v2.end());
    }
    catch(...)
    {
        v1.erase(v1.begin() + orig_v1_size, v1.end());
        throw;
    }
}

Similar append_move with strong guarantee can't be implemented in general if vector element's move constructor can throw (which is unlikely but still).

  • Is it not possible for v1.erase(... to throw too? – Class Skeleton Oct 12 '15 at 15:33
  • insert already handles this. Also, this call to erase is equivalent to a resize. – Potatoswatter Dec 27 '16 at 7:02
vector<int> v1 = {1, 2, 3, 4, 5};
vector<int> v2 = {11, 12, 13, 14, 15};
copy(v2.begin(), v2.end(), back_inserter(v1));

Here's a general purpose solution using C++11 move semantics:

template <typename T>
std::vector<T> concat(const std::vector<T>& lhs, const std::vector<T>& rhs)
{
    if (lhs.empty()) return rhs;
    if (rhs.empty()) return lhs;
    std::vector<T> result {};
    result.reserve(lhs.size() + rhs.size());
    result.insert(result.cend(), lhs.cbegin(), lhs.cend());
    result.insert(result.cend(), rhs.cbegin(), rhs.cend());
    return result;
}

template <typename T>
std::vector<T> concat(std::vector<T>&& lhs, const std::vector<T>& rhs)
{
    lhs.insert(lhs.cend(), rhs.cbegin(), rhs.cend());
    return std::move(lhs);
}

template <typename T>
std::vector<T> concat(const std::vector<T>& lhs, std::vector<T>&& rhs)
{
    rhs.insert(rhs.cbegin(), lhs.cbegin(), lhs.cend());
    return std::move(rhs);
}

template <typename T>
std::vector<T> concat(std::vector<T>&& lhs, std::vector<T>&& rhs)
{
    if (lhs.empty()) return std::move(rhs);
    lhs.insert(lhs.cend(), std::make_move_iterator(rhs.begin()), std::make_move_iterator(rhs.end()));
    return std::move(lhs);
}

Note how this differs from appending to a vector.

Add this one to your header file:

template <typename T> vector<T> concat(vector<T> &a, vector<T> &b) {
    vector<T> ret = vector<T>();
    copy(a.begin(), a.end(), back_inserter(ret));
    copy(b.begin(), b.end(), back_inserter(ret));
    return ret;
}

and use it this way:

vector<int> a = vector<int>();
vector<int> b = vector<int>();

a.push_back(1);
a.push_back(2);
b.push_back(62);

vector<int> r = concat(a, b);

r will contain [1,2,62]

  • Don't know why this was down-voted. It may not be the most efficient way of doing this but it's not wrong and is effective. – leeor_net Jun 19 '16 at 19:11

A general performance boost for concatenate is to check the size of the vectors. And merge/insert the smaller one with the larger one.

//vector<int> v1,v2;
if(v1.size()>v2.size()){
    v1.insert(v1.end(),v2.begin(),v2.end());
}else{
    v1.insert(v2.end(),v1.begin(),v1.end());
}

You can prepare your own template for + operator:

template <typename T> 
inline T operator+(const T & a, const T & b)
{
    T res = a;
    res.insert(res.end(), b.begin(), b.end());
    return res;
}

Next thing - just use +:

vector<int> a{1, 2, 3, 4};
vector<int> b{5, 6, 7, 8};
for (auto x: a + b)
    cout << x << " ";
cout << endl;

This example gives output:

1 2 3 4 5 6 7 8

If what you're looking for is a way to append a vector to another after creation, vector::insert is your best bet, as has been answered several times, for example:

vector<int> first = {13};
const vector<int> second = {42};

first.insert(first.end(), second.cbegin(), second.cend());

Sadly there's no way to construct a const vector<int>, as above you must construct and then insert.


If what you're actually looking for is a container to hold the concatenation of these two vector<int>s, there may be something better available to you, if:

  1. Your vector contains primitives
  2. Your contained primitives are of size 32-bit or smaller
  3. You want a const container

If the above are all true, I'd suggest using the basic_string who's char_type matches the size of the primitive contained in your vector. You should include a static_assert in your code to validate these sizes stay consistent:

static_assert(sizeof(char32_t) == sizeof(int));

With this holding true you can just do:

const u32string concatenation = u32string(first.cbegin(), first.cend()) + u32string(second.cbegin(), second.cend());

For more information on the differences between string and vector you can look here: https://stackoverflow.com/a/35558008/2642059

For a live example of this code you can look here: http://ideone.com/7Iww3I

To be honest, you could fast concatenate two vectors by copy elements from two vectors into the other one or just only append one of two vectors!. It depends on your aim.

Method 1: Assign new vector with its size is the sum of two original vectors' size.

vector<int> concat_vector = vector<int>();
concat_vector.setcapacity(vector_A.size() + vector_B.size());
// Loop for copy elements in two vectors into concat_vector

Method 2: Append vector A by adding/inserting elements of vector B.

// Loop for insert elements of vector_B into vector_A with insert() 
function: vector_A.insert(vector_A .end(), vector_B.cbegin(), vector_B.cend());
  • 2
    What does your answer add that hasn't already been provided in other answers? – Mat Dec 27 '16 at 6:53
  • 8
    @Mat: Bold characters. – marcv81 Mar 24 '17 at 13:34
  • If the original vector(s) are no longer needed after, it may be better to use std::move_iterator so that elements are moved instead of copied. (see en.cppreference.com/w/cpp/iterator/move_iterator). – tmlen Feb 23 at 15:36

protected by Potatoswatter Dec 27 '16 at 7:03

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