Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

How can I sort two vectors in the same way, with criteria that uses only one of the vectors in C++?

For example, suppose I have two vectors of the same size:

vector<MyObject> vectorA;
vector<int> vectorB;

I then sort vectorA using some comparison function. That sorting reordered vectorA. How can I have the same reordering applied to vectorB?

One option is to create a struct:

struct ExampleStruct {
    MyObject mo;
    int i;

and then sort a vector that contains the contents of vectorA and vectorB zipped up into a single vector:

// vectorC[i] is vectorA[i] and vectorB[i] combined
vector<ExampleStruct> vectorC;

This doesn't seem like an ideal solution. Are there other options, especially in C++11?

share|improve this question
Can you perhaps provide an example with some input and the corresponding desired output? I am having troubles understanding the question –  Andy Prowl Jun 12 '13 at 20:06
I think he wants to (effectively) sort the contents vectorA and vectorB both by the contents of vectorB. –  Mooing Duck Jun 12 '13 at 20:13
I think this question is a near duplicate if not an exact duplicate –  Mooing Duck Jun 12 '13 at 20:16
What about sorting a third vector (of indices 0, ... vectorA.size()), based on the values in vectorA and "apply" those indices on vectorB? E.g. like in stackoverflow.com/a/10581051/417197 –  Andre Jun 12 '13 at 20:26
Personally, i'd rather have a vector<pair<MyObject, int>>. Then you wouldn't have to worry about the two lists getting out of sync; one sort reorders both sets of data simultaneously. And there's no extra struct to have to write. –  cHao Jun 12 '13 at 21:03

5 Answers 5

up vote 35 down vote accepted

Finding a sort permutation

Given a std::vector<T> and a comparison for T's, we want to be able to find the permutation you would use if you were to sort the vector using this comparison.

template <typename T, typename Compare>
std::vector<int> sort_permutation(
    std::vector<T> const& vec,
    Compare compare)
    std::vector<int> p(vec.size());
    std::iota(p.begin(), p.end(), 0);
    std::sort(p.begin(), p.end(),
        [&](int i, int j){ return compare(vec[i], vec[j]); });
    return p;

Applying a sort permutation

Given a std::vector<T> and a permutation, we want to be able to build a new std::vector<T> that is reordered according to the permutation.

template <typename T>
std::vector<T> apply_permutation(
    std::vector<T> const& vec,
    std::vector<int> const& p)
    std::vector<T> sorted_vec(p.size());
    std::transform(p.begin(), p.end(), sorted_vec.begin(),
        [&](int i){ return vec[i]; });
    return sorted_vec;

You could of course modify apply_permutation to mutate the vector you give it rather than returning a new sorted copy.


vector<MyObject> vectorA;
vector<int> vectorB;

auto p = sort_permutation(vectorA,
    [](T const& a, T const& b){ /*some comparison*/ });

vectorA = apply_permutation(vectorA, p);
vectorB = apply_permutation(vectorB, p);


share|improve this answer

I'm assuming that vectorA and vectorB have equal lengths. You could create another vector, let's call it pos, where:

pos[i] = the position of vectorA[i] after sorting phase

and then, you can sort vectorB using pos, i.e create vectorBsorted where:

vectorBsorted[pos[i]] = vectorB[i]

and then vectorBsorted is sorted by the same permutation of indexes as vectorA is.

share|improve this answer
  1. Make a vector of pairs out of your individual vectors.
    initialize vector of pairs
    Adding to a vector of pair

  2. Make a custom sort comparator:
    Sorting a vector of custom objects

  3. Sort your vector of pairs.

  4. Separate your vector of pairs into individual vectors.

  5. Put all of these into a function.


std::vector<MyObject> vectorA;
std::vector<int> vectorB;

struct less_than_int
    inline bool operator() (const std::pair<MyObject,int>& a, const std::pair<MyObject,int>& b)
        return (a.second < b.second);

sortVecPair(vectorA, vectorB, less_than_int());

// make sure vectorA and vectorB are of the same size, before calling function
template <typename T, typename R, typename Compare>
sortVecPair(std::vector<T>& vecA, std::vector<R>& vecB, Compare cmp)

    std::vector<pair<T,R>> vecC;
    for(int i=0; i<vecA.size(); i++)

    std::sort(vecC.begin(), vecC.end(), cmp);

    for(int i=0; i<vecC.size(); i++)
share|improve this answer
vector of pairs of references? –  Mooing Duck Jun 12 '13 at 20:31
I get what you mean, but pairs of references is not going to easily work. –  ruben2020 Jun 12 '13 at 20:47
@ruben2020: It can, but doing so just band-aids the issue. If you have two pieces of data intertwined enough that sorting one should sort the other, it would seem that what you really have is a not-yet-integrated object. –  cHao Jun 13 '13 at 15:06

In-place sorting using permutation

I would use a permutation like Timothy, although if your data is too large and you don't want to allocate more memory for the sorted vector you should do it in-place. Here is a example of a O(n) (linear complexity) in-place sorting using permutation:

The trick is to get the permutation and the reverse permutation to know where to put the data overwritten by the last sorting step.

template <class K, class T> 
void sortByKey(K * keys, T * data, size_t size){
    std::vector<size_t> p(size,0);
    std::vector<size_t> rp(size);
    std::vector<bool> sorted(size, false);
    size_t i = 0;

    // Sort
    std::iota(p.begin(), p.end(), 0);
    std::sort(p.begin(), p.end(),
                    [&](size_t i, size_t j){ return keys[i] < keys[j]; });

    // ----------- Apply permutation in-place ---------- //

    // Get reverse permutation item>position
    for (i = 0; i < size; ++i){
        rp[p[i]] = i;

    i = 0;
    K savedKey;
    T savedData;
    while ( i < size){
        size_t pos = i;
        // Save This element;
        if ( ! sorted[pos] ){
            savedKey = keys[p[pos]];
            savedData = data[p[pos]];
        while ( ! sorted[pos] ){
            // Hold item to be replaced
            K heldKey  = keys[pos];
            T heldData = data[pos];
            // Save where it should go
            size_t heldPos = rp[pos];

            // Replace 
            keys[pos] = savedKey;
            data[pos] = savedData;

            // Get last item to be the pivot
            savedKey = heldKey;
            savedData = heldData;

            // Mark this item as sorted
            sorted[pos] = true;

            // Go to the held item proper location
            pos = heldPos;
share|improve this answer
Though it looks like it is O(N^2), it is not. The inner while is only executed if the item is not sorted. As the inner while sorts the data, it kinda skips outer while iterations... –  MtCS Aug 2 '14 at 16:28

Implement operator< for ExampleStruct

bool operator<(ExampleStruct const& es1, ExampleStruct const& es2) {
    return es1.i < es2.i;

Then just use std::sort for vectorC.

std::sort(vectorC.begin(), vectorC.end());
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.