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Using C++, and hopefully the standard library, I want to sort a sequence of samples in ascending order, but I also want to remember the original indexes of the newly samples.

For example, I have a set, or vector, or matrix of samples A : [5, 2, 1, 4, 3]. I want to sort these to be B : [1,2,3,4,5], but I also want to remember the original indexes of the values, so I can get another set which would be: C : [2, 1, 4, 3, 0 ] - which corresponds to the index of the each element in 'B', in the original 'A'.

For example, in Matlab you can do:

 [a,b]=sort([5, 8, 7])
 a = 5 7 8
 b = 1 3 2

Can anyone see a good way to do this?

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12 Answers 12

Using C++11 lambdas

template <typename T>
vector<size_t> sort_indexes(const vector<T> &v) {

  // initialize original index locations
  vector<size_t> idx(v.size());
  iota(idx.begin(), idx.end(), 0);

  // sort indexes based on comparing values in v
  sort(idx.begin(), idx.end(),
       [&v](size_t i1, size_t i2) {return v[i1] < v[i2];});

  return idx;

Now you can use the returned index vector in iterations such as

for (auto i: sort_indexes(v)) {
  cout << v[i] << endl;

Obviously, you can also choose to supply your own original index vector, sort function, comparator, or automatically reorder v in the sort_indexes function using an extra vector.

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Love this answer.If your compiler does not support lambdas, you can use a class: template<typename T> class CompareIndicesByAnotherVectorValues { std::vector<T>* _values; public: CompareIndicesByAnotherVectorValues(std::vector<T>* values) : _values(values) {} public: bool operator() (const int& a, const int& b) const { return (_values)[a] > (_values)[b]; } }; – Ben-Uri Oct 18 '12 at 7:47
I love this answer too, there is no need to copy the original vector to create the vector of pairs. – headmyshoulder Jan 28 '13 at 22:43
This is much better than the accepted answer in my opinion! Awesome! – Ela782 Nov 6 '14 at 15:39
Beautiful solution! – Anonymous Jan 21 '15 at 13:31
Rather than the hand-crafted for (size_t i = 0; i != idx.size(); ++i) idx[i] = i; I prefer the standard std::iota( idx.begin(), idx.end(), 0 ); – Wyck Apr 30 '15 at 17:53

You could sort std::pair instead of just ints - first int is original data, second int is original index. Then supply a comparator that only sorts on the first int. Example:

Your problem instance: v = [5 7 8]
New problem instance: v_prime = [<5,0>, <8,1>, <7,2>]

Sort the new problem instance using a comparator like:

typedef std::pair<int,int> mypair;
bool comparator ( const mypair& l, const mypair& r)
   { return l.first < r.first; }
// forgetting the syntax here but intent is clear enough

The result of std::sort on v_prime, using that comparator, should be:

v_prime = [<5,0>, <7,2>, <8,1>]

You can peel out the indices by walking the vector, grabbing .second from each std::pair.

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This is exactly how I would do it as well. The basic sort function doesn't track the old versus new positions as that would add extra unnecessary overhead. – the_mandrill Oct 16 '09 at 12:13
stl only, minimal coding; too simple to think of it myself... – gimpf Oct 16 '09 at 12:32
A lovely answer, making good use of the comparator option. – Bill Cheatham Nov 30 '11 at 16:28
The drawback with this function is that it requires you to reallocate memory for all values. – Ben-Uri Oct 18 '12 at 7:50

I wrote generic version of index sort.

template <class RAIter, class Compare>
void argsort(RAIter iterBegin, RAIter iterEnd, Compare comp, 
    std::vector<size_t>& indexes) {

    std::vector< std::pair<size_t,RAIter> > pv ;
    pv.reserve(iterEnd - iterBegin) ;

    RAIter iter ;
    size_t k ;
    for (iter = iterBegin, k = 0 ; iter != iterEnd ; iter++, k++) {
        pv.push_back( std::pair<int,RAIter>(k,iter) ) ;

    std::sort(pv.begin(), pv.end(), 
        [&comp](const std::pair<size_t,RAIter>& a, const std::pair<size_t,RAIter>& b) -> bool 
        { return comp(*a.second, *b.second) ; }) ;

    indexes.resize(pv.size()) ;
    std::transform(pv.begin(), pv.end(), indexes.begin(), 
        [](const std::pair<size_t,RAIter>& a) -> size_t { return a.first ; }) ;

Usage is the same as that of std::sort except for an index container to receive sorted indexes. testing:

int a[] = { 3, 1, 0, 4 } ;
std::vector<size_t> indexes ;
argsort(a, a + sizeof(a) / sizeof(a[0]), std::less<int>(), indexes) ;
for (size_t i : indexes) printf("%d\n", int(i)) ;

you should get 2 1 0 3. for the compilers without c++0x support, replace the lamba expression as a class template:

template <class RAIter, class Compare> 
class PairComp {
  Compare comp ;
  PairComp(Compare comp_) : comp(comp_) {}
  bool operator() (const std::pair<size_t,RAIter>& a, 
    const std::pair<size_t,RAIter>& b) const { return comp(*a.second, *b.second) ; }        
} ;

and rewrite std::sort as

std::sort(pv.begin(), pv.end(), PairComp(comp)()) ;
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I came across this question, and figured out sorting the iterators directly would be a way to sort the values and keep track of indices; There is no need to define an extra container of pairs of ( value, index ) which is helpful when the values are large objects; The iterators provides the access to both the value and the index:

 * a function object that allows to compare
 * the iterators by the value they point to
template < class RAIter, class Compare >
class IterSortComp
        IterSortComp ( Compare comp ): m_comp ( comp ) { }
        inline bool operator( ) ( const RAIter & i, const RAIter & j ) const
            return m_comp ( * i, * j );
        const Compare m_comp;

template <class INIter, class RAIter, class Compare>
void itersort ( INIter first, INIter last, std::vector < RAIter > & idx, Compare comp )
    idx.resize ( std::distance ( first, last ) );
    for ( typename std::vector < RAIter >::iterator j = idx.begin( ); first != last; ++ j, ++ first )
        * j = first;

    std::sort ( idx.begin( ), idx.end( ), IterSortComp< RAIter, Compare > ( comp ) );

as for the usage example:

std::vector < int > A ( n );

// populate A with some random values
std::generate ( A.begin( ), A.end( ), rand );

std::vector < std::vector < int >::const_iterator > idx;
itersort ( A.begin( ), A.end( ), idx, std::less < int > ( ) );

now, for example, the 5th smallest element in the sorted vector would have value **idx[ 5 ] and its index in the original vector would be distance( A.begin( ), *idx[ 5 ] ) or simply *idx[ 5 ] - A.begin( ).

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When dealing with multiple views on a container, always consider boost::multi_index_container. It might be a bit overkill, but it also might be just what you needed. You just insert and access and take a sorted view.

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Make a std::pair in function then sort pair :

generic version :

template< class RandomAccessIterator,class Compare >
auto sort2(RandomAccessIterator begin,RandomAccessIterator end,Compare cmp) ->
    using valueType=typename std::iterator_traits<RandomAccessIterator>::value_type;
    using Pair=std::pair<std::uint32_t,RandomAccessIterator>;

    std::vector<Pair> index_pair;

    for(uint32_t idx=0;begin!=end;++begin,++idx){

    std::sort( index_pair.begin(),index_pair.end(),[&](const Pair& lhs,const Pair& rhs){
          return cmp(*lhs.second,*rhs.second);

    return index_pair;


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If it's possible, you can build the position array using find function, and then sort the array.

Or maybe you can use a map where the key would be the element, and the values a list of its position in the upcoming arrays (A, B and C)

It depends on later uses of that arrays.

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Are the items in the vector unique? If so, copy the vector, sort one of the copies with STL Sort then you can find which index each item had in the original vector.

If the vector is supposed to handle duplicate items, I think youre better of implementing your own sort routine.

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no, not necessarily unique, it's the indexes I want – Mingus Oct 16 '09 at 11:50

There is another way to solve this, using a map:

vector<double> v = {...}; // input data
map<double, unsigned> m; // mapping from value to its index
for (auto it = v.begin(); it != v.end(); ++it)
    m[*it] = it - v.begin();

This will eradicate non-unique elements though. If that's not acceptable, use a multimap:

vector<double> v = {...}; // input data
multimap<double, unsigned> m; // mapping from value to its index
for (auto it = v.begin(); it != v.end(); ++it)
    m.insert(make_pair(*it, it - v.begin()));

In order to output the indices, iterate over the map or multimap:

for (auto it = m.begin(); it != m.end(); ++it)
    cout << it->second << endl;
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Well, my solution uses residue technique. We can place the values under sorting in the upper 2 bytes and the indices of the elements - in the lower 2 bytes:

int myints[] = {32,71,12,45,26,80,53,33};

for (int i = 0; i < 8; i++)
   myints[i] = myints[i]*(1 << 16) + i;

Then sort the array myints as usual:

std::vector<int> myvector(myints, myints+8);
sort(myvector.begin(), myvector.begin()+8, std::less<int>());

After that you can access the elements' indices via residuum. The following code prints the indices of the values sorted in the ascending order:

for (std::vector<int>::iterator it = myvector.begin(); it != myvector.end(); ++it)
   std::cout << ' ' << (*it)%(1 << 16);

Of course, this technique works only for the relatively small values in the original array myints (i.e. those which can fit into upper 2 bytes of int). But it has additional benefit of distinguishing identical values of myints: their indices will be printed in the right order.

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For this type of question Store the orignal array data into a new data and then binary search the first element of the sorted array into the duplicated array and that indice should be stored into a vector or array.

input array=>a
duplicate array=>b
vector=>c(Stores the indices(position) of the orignal array

Here binarysearch is a function which takes the array,size of array,searching item and would return the position of the searched item

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You can also do this using map or tuples!

    // Example program
          #include <iostream>
          #include <string>
          #include <vector>
          #include <tuple>
          #include <algorithm>
          #include <random>

          typedef std::tuple<double, int> mytuple;
          bool comparator(const mytuple& l, const mytuple& r)
           return std::get<0>(l) < std::get<0>(r);

int main()
       // declare vector of tuples double and int
        std::vector<std::tuple<double, int> > vtA; 
        //vector of doubles
        std::vector<double> vB;

        //for exemple, fill "vB" with something
        int j = 0;
        for(int i = 10; i < 20 ; i++)
            j = rand()% i;

        for (int k = 0; k < vB.size(); k++)
            //make a tuple with double and int (int is a indexis you want to save)
            vtA.emplace_back(vB[k], k);
            //print members before ordering
            std::cout << std::get<0>(vtA[k]) << " - " << std::get<1>(vtA[k]) << std::endl;

        std::cout << "\n";
        std::cout << "\n";
        std::sort(vtA.begin(), vtA.end(), comparator); //call function to increasing order
        std::cout << "\n";
        std::cout << "\n";

        //prints vector with the old indices
        for (int k = 0; k < vB.size(); k++)
            std::cout << std::get<0>(vtA[k]) << " - " << std::get<1>(vtA[k]) << std::endl;
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