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I've a stl::vector<int> and I need to remove all elements at given indexes (the vector usually has high dimensionality). I would like to know, which is the most efficient way to do such an operation having in mind that the order of the original vector should be preserved.

Although, I found related posts on this issue, some of them needed to remove one single element or multiple elements where the remove-erase idiom seemed to be a good solution. In my case, however, I need to delete multiple elements and since I'm using indexes instead of direct values, the remove-erase idiom can't be applied, right? My code is given below and I would like to know if it's possible to do better than that in terms of efficiency?

bool find_element(const vector<int> & vMyVect, int nElem){
    return (std::find(vMyVect.begin(), vMyVect.end(), nElem)!=vMyVect.end()) ? true : false;

void remove_elements(){

    srand ( time(NULL) );

    int nSize = 20;
    std::vector<int> vMyValues;
    for(int i = 0; i < nSize; ++i){

    int nRandIdx;
    std::vector<int> vMyIndexes;
    for(int i = 0; i < 6; ++i){
        nRandIdx = rand() % nSize;

    std::vector<int> vMyResult;
    for(int i=0; i < (int)vMyValues.size(); i++){
share|improve this question
The problem is, that the indices won't be valid anymore after the first element is erased, same with iterators (you can get an iterator from an index with vec.begin() + index). – Xeo Jul 7 '11 at 11:11
@Georg, the code does what it should. The idea is to remove the element that is at a given position. In my code, an element is represented by vMyValues and the position by the vMyIndexes. – Peter Jul 7 '11 at 11:39
I think i had the same blind spot as Andy while reading... your current code doesn't remove in place so that issue isn't there ;) – Georg Fritzsche Jul 7 '11 at 11:45
If efficiency is an issue, and if you are doing a lot of deleting-by-position (and maybe also inserting), consider using other container than std::vector --- sdt::list (linked-list container) or std::set (container where the key is the values themselves) – Itamar Katz Jul 7 '11 at 11:50

I think it could be more efficient, if you just just sort your indices and then delete those elements from your vector from the highest to the lowest. Deleting the highest index on a list will not invalidate the lower indices you want to delete, because only the elements higher than the deleted ones change their index.

If it is really more efficient will depend on how fast the sorting is. One more pro about this solultion is, that you don't need a copy of your value vector, you can work directly on the original vector. code should look something like this:

... fill up the vectors ...

sort (vMyIndexes.begin(), vMyIndexes.end());

for(int i=vMyIndexes.size() - 1; i >= 0; i--){
    vMyValues.erase(vMyValues.begin() + vMyIndexes[i])
share|improve this answer
+1 (with emphasis on 'highest to lowest') – Andre Holzner Jul 7 '11 at 11:47
+1 for elegant solution. I'm not sure about its efficiency, because erasing from highest to lowest you'll move tail elements many times – Andy T Jul 7 '11 at 12:18
@Andy T.: no matter how you erase, you will always move all the elements "after" the removed element. By erasing from the end, you minimize the number of elements to move for each "index", and therefore it is the most efficient "in-place" solution. – Matthieu M. Jul 7 '11 at 16:53
@Matthieu: right, order doesn't matter, but I don't agree about the most efficient in-place solution, please see my post – Andy T Jul 7 '11 at 16:59
@AndyT: right, my comment on efficiency should be reduced to those strategies that rely on calling erase. They are other strategies. – Matthieu M. Jul 7 '11 at 17:10

to avoid moving the same elements many times, we can move them by ranges between deleted indexes

// fill vMyIndexes, take care about duplicated values
vMyIndexes.push_back(-1); // to handle range from 0 to the first index to remove
vMyIndexes.push_back(vMyValues.size()); // to handle range from the last index to remove and to the end of values
std::sort(vMyIndexes.begin(), vMyIndexes.end());
std::vector<int>::iterator last = vMyValues.begin();
for (size_t i = 1; i != vMyIndexes.size(); ++i) {
    size_t range_begin = vMyIndexes[i - 1] + 1;
    size_t range_end = vMyIndexes[i];
    std::copy(vMyValues.begin() + range_begin, vMyValues.begin() + range_end,   last);
    last += range_end - range_begin;
vMyValues.erase(last, vMyValues.end());

P.S. fixed a bug, thanks to Steve Jessop that patiently tried to show me it

share|improve this answer
+1 this should really bring it from O(n^2) to O(n) I think – Christian Goltz Jul 7 '11 at 12:41
@Andy T, I'm not sure if it works properly in situations where the indexes to be removed are contiguous, e.g. (13,14,15,16) – Peter Jul 7 '11 at 13:47
@Peter: why? .. – Andy T Jul 7 '11 at 13:59
@Peter: it should, since std::copy will be passed two iterators that are equal, and hence will copy nothing. I'm worried about the first time through the loop, though. We copy the second range that we're supposed to keep, from indexes vMyIndexes[0]+1 to vMyIndexes[1], so I think we lose some values at the front if the first value in vMyIndexes is not 0. Possibly we should put a -1 at the start of vMyIndexes, or equivalently add vMyIndexes[0] to last before we start. – Steve Jessop Jul 7 '11 at 15:07
@Steve: I put vMyValues.size() at the end, it's similar to what you propose – Andy T Jul 7 '11 at 15:11

What you can do is split the vector (actually any non-associative container) in two groups, one corresponding to the indices to be erased and one containing the rest.

template<typename Cont, typename It>
auto ToggleIndices(Cont &cont, It beg, It end) -> decltype(std::end(cont))
    int helpIndx(0);
    return std::stable_partition(std::begin(cont), std::end(cont), 
        [&](typename Cont::value_type const& val) -> bool {
            return std::find(beg, end, helpIndx++) != end;

you can then delete from (or up to) the split point to erase (keep only) the elements corresponding to the indices

std::vector<int> v;

int ar[] = { 2, 0, 4 };
v.erase(ToggleIndices(v, std::begin(ar), std::end(ar)), v.end());
  • If the 'keep only by index' operation is not needed you can use remove_if insted of stable_partition (O(n) vs O(nlogn) complexity)
  • To work for C arrays as containers the lambda function should be [&](decltype(*(std::begin(cont))) const& val) -> bool { return std::find(beg, end, helpIndx++) != end; } but then the .erase() method is no longer an option
share|improve this answer

If you want to ensure that every element is only moved once, you can simply iterate through each element, copy those that are to remain into a new, second container, do not copy the ones you wish to remove, and then delete the old container and replace it with the new one :)

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