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I have an array of integers that I need to remove duplicates from while maintaining the order of the first occurrence of each integer. I can see doing it like this, but imagine there is a better way that makes use of STL algorithms better?

int unsortedRemoveDuplicates(std::vector<int> &numbers) {
    std::set<int> uniqueNumbers;
    std::vector<int>::iterator allItr = numbers.begin();
    std::vector<int>::iterator unique = allItr;
    std::vector<int>::iterator endItr = numbers.end();

    for (; allItr != endItr; ++allItr) {
        const bool isUnique = uniqueNumbers.insert(*allItr).second;

        if (isUnique) {
            *unique = *allItr;

    const int duplicates = endItr - unique;

    numbers.erase(unique, endItr);
    return duplicates;

How can this be done using STL algorithms?

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Have you thought of using remove_if ? –  mathematician1975 Aug 30 '12 at 15:36
Can you check, if vector contains value before inserting? –  ErikEsTT Aug 30 '12 at 15:47
@ErikEsTT No, in this case, the insertion is out of my control. –  WilliamKF Aug 30 '12 at 16:10

4 Answers 4

up vote 6 down vote accepted

The naive way is to use std::set as everyone tells you. It's overkill and has poor cache locality (slow).
The smart way is to use std::vector appropriately:

#include <algorithm>
#include <vector>
struct target_less
    template<class It>
    bool operator()(It const &a, It const &b) const { return *a < *b; }
struct target_equal
    template<class It>
    bool operator()(It const &a, It const &b) const { return *a == *b; }
template<class It> It uniquify(It begin, It const end)
    std::vector<It> v;
    v.reserve(static_cast<size_t>(std::distance(begin, end)));
    for (It i = begin; i != end; ++i)
    { v.push_back(i); }
    std::sort(v.begin(), v.end(), target_less());
    v.erase(std::unique(v.begin(), v.end(), target_equal()), v.end());
    std::sort(v.begin(), v.end());
    size_t j = 0;
    for (It i = begin; i != end && j != v.size(); ++i)
        if (i == v[j])
            using std::iter_swap; iter_swap(i, begin);
    return begin;

Then you can use it like:

int main()
    std::vector<int> v;
    v.erase(uniquify(v.begin(), v.end()), v.end());
share|improve this answer
This works great, thanks. –  Balk May 15 '13 at 16:39

Sounds like a job for std::copy_if. Define a predicate that keeps track of elements that already have been processed and return false if they have.

If you don't have C++11 support, you can use the clumsily named std::remove_copy_if and invert the logic.

This is an untested example:

template <typename T>
struct NotDuplicate {
  bool operator()(const T& element) {
    return s_.insert(element).second; // true if s_.insert(element);
  std::set<T> s_;


std::vector<int> uniqueNumbers;
NotDuplicate<int> pred;
std::copy_if(numbers.begin(), numbers.end(), 

where an std::ref has been used to avoid potential problems with the algorithm internally copying what is a stateful functor, although std::copy_if does not place any requirements on side-effects of the functor being applied.

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return s_.insert(element).second would be more concise and efficient. –  ecatmur Aug 30 '12 at 15:56
@ecatmur Good point, but you mean second, right? –  juanchopanza Aug 30 '12 at 15:58
That's what I meant, yes :D –  ecatmur Aug 30 '12 at 16:00
Also, this could prove problematic as your functor is stateful. See stackoverflow.com/questions/6112995/… –  ecatmur Aug 30 '12 at 16:02
You can rescue the functor predicate by making s_ a std::shared_ptr<std::set<T>>, but it'd be simpler just to move it outside the predicate and pass in a raw pointer. –  ecatmur Aug 30 '12 at 16:06
int unsortedRemoveDuplicates(std::vector<int>& numbers)
    std::set<int> seenNums; //log(n) existence check

    auto itr = begin(numbers);
    while(itr != end(numbers))
        if(seenNums.find(*itr) != end(seenNums)) //seen? erase it
            itr = numbers.erase(itr); //itr now points to next element

    return seenNums.size();

//3 6 3 8 9 5 6 8
//3 6 8 9 5
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Here is what WilliamKF is searching for. It uses the erase statement. This code is good for lists but isn t good for vectors. For vectors you should not use the erase statement.

//makes uniques in one shot without sorting !! 
template<class listtype> inline
void uniques(listtype* In)

    listtype::iterator it = In->begin();
    listtype::iterator it2= In->begin();

    int tmpsize = In->size();

        it2 = it;
            if ((*it)==(*it2))


What I have tryed for vectors without using sort is that:

//makes vectors as fast as possible unique
template<typename T> inline
void vectoruniques(std::vector<T>* In)

    int tmpsize = In->size();

        for (std::vector<T>::iterator it = In->begin();it<In->end()-1;it++)
            T tmp = *it;
            for (std::vector<T>::iterator it2 = it+1;it2<In->end();it2++)
                if (*it2!=*it)
                    tmp = *it2;
                    *it2 = tmp;
        std::vector<T>::iterator it = std::unique(In->begin(),In->end());
        int newsize = std::distance(In->begin(),it);

Somehow it looks like this would work. I tested it a bit maybe can somebody tell if this really works ! This solution doesn t need any greater operator. I mean why use the greater operator for seaching unique elements ? Usage for Vectors:

int myints[] = {21,10,20,20,20,30,21,31,20,20,2}; 
std::vector<int> abc(myints , myints+11);
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