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I have vector of vectors of T:

std::vector<std::vector<T>> vector_of_vectors_of_T;

I want to merge all of them into single vector of T:

std::vector<T> vector_of_T;

I am currently using this method:

size_t total_size{ 0 };
for (auto const& items: vector_of_vectors_of_T){
    total_size += items.size();
for (auto const& items: vector_of_vectors_of_T){
    vector_of_T.insert(end(vector_of_T), begin(items), end(items));

Is there more straightforward method? Like a ready std function? If not, is there more efficient way to do it manually?

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I think this question would be a better fit for – Default Feb 9 at 9:08
@Luca Pizzamiglio Thanks for correcing – Humam Helfawi Feb 9 at 9:08
vector_of_vectors_of_T.SelectMany(... -- oh wait, wrong language :P – CompuChip Feb 9 at 9:08
@Humam You could use this for the reserve part if you want to get too much STL: vector_of_T.reserve(std::accumulate(std::begin(vector_of_vectors_of_T), std::end(vector_of_vectors_of_T), 0, [](size_t size, std::vector<T> const& vec) { return size + vec.size(); })); – LogicStuff Feb 9 at 9:18
There's not much room for improvement here, other than using move iterators (if you no longer need the original). This is action::join in range-v3, so you might see it in the day. – T.C. Feb 9 at 9:24
up vote 10 down vote accepted

It's a nice exercise to try and write up a generic join. The code below takes a nested container R1<R2<T> and returns a joined container R1<T>. Note that because of the allocator parameters in the Standard Library, this is a bit cumbersome. No attempt is being made to check for allocator compatibility etc.

Fortunately, there's action::join function in the upcoming range-v3 library by Eric Niebler, that is quite robust already and works today on Clang:

#include <range/v3/all.hpp>
#include <algorithm>
#include <iostream>
#include <iterator>
#include <numeric>
#include <vector>

// quick prototype
template<template<class, class...> class R1, template<class, class...> class R2, class T, class... A1, class... A2>
auto join(R1<R2<T, A2...>, A1...> const& outer)
    R1<T, A2...> joined;
    joined.reserve(std::accumulate(outer.begin(), outer.end(), std::size_t{}, [](auto size, auto const& inner) {
        return size + inner.size();
    for (auto const& inner : outer)
        joined.insert(joined.end(), inner.begin(), inner.end());
    return joined;

int main()
    std::vector<std::vector<int>> v = { { 1, 2 }, { 3, 4 } };

    // quick prototype
    std::vector<int> w = join(v);
    std::copy(w.begin(), w.end(), std::ostream_iterator<int>(std::cout, ",")); std::cout << "\n";

    // Eric Niebler's range-v3
    std::vector<int> u = ranges::action::join(v);
    std::copy(u.begin(), u.end(), std::ostream_iterator<int>(std::cout, ",")); std::cout << "\n";

Live Example

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BTW, the mathematical term for such “joinable containers” is monad. (The concept is rather more general than anything you can write with iterators.) – leftaroundabout Feb 9 at 13:38

Using back_inserter and move;

size_t total_size{ 0 };
for (auto const& items: vector_of_vectors_of_T){
    total_size += items.size();

for (auto& items: vector_of_vectors_of_T){    
    std::move(items.begin(), items.end(), std::back_inserter(vector_of_T));

Instead of copying, std::move gives it a bit performance enhancement.

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without benchmarking and from abstract point of view, should it be faster that mine? and does it need reserv before it too ? – Humam Helfawi Feb 9 at 9:12
@HubertApplebaum I see thanks – Humam Helfawi Feb 9 at 9:31
This may well be less efficient than the range insert version with move iterators, especially for trivially copyable element types (for which the range insert is likely to be heavily optimized). – T.C. Feb 10 at 9:20

I guess you could try std::merge/std::move used in a loop - that are already existing std algorithms. Don't know if that's faster.

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