I have a vector<vector<Rect>>. Rect is a openCV rectangle object. I want to fill up a empty vector<pair<Rect,int>> with all the rectangles that are repeating (1 or more occurrences) in the vector and the number of found occurrences.

My implementation below is not giving me the expected result. Here is what I tried:

vector<vector<Rect>> vec;
//...fill up vector vec...
vector<pair<Rect,int>> constantsVec;
bool found=false;

for(int j=0;j<vec.size()-1;j++){
    vector<Rect> temp1=vec[j];
    vector<Rect> temp2=vec[j+1];
    for(int x=0;x<temp1.size();x++){
        for(int y=0;y<temp2.size();y++){
                for(int k=0;k<constantsVec.size();k++){

In an example with a rectangle that is repeating three times I end up with the correct rectangle in the constantsVec but with 1 as the number of found occurrences instead of 3.

I should add that one element (vector<Rect>) of the vec vector itself has no repeating rectangles but between the elements of the vec vector there can be repeating rectangles. Those are the ones I am trying to find and count.

  • It is a good idea when to reach two indented for loops to start using a function. Makes the code more readable – Ed Heal Mar 7 '15 at 14:55
  • If you are testing my answer, check it again as I edited and simplified it. Regards. – axelbrz Mar 7 '15 at 15:14
  • You should use const vector<Rect>& temp1=vec[j]; to avoid copying the vector. – Neil Kirk Mar 7 '15 at 15:16

An efficient and possibly the simplest way to do that in O(n · log n) is to use a map.

First create a Rect comparator to allow indexation by Rect (put it somewhere accessible):

// Needed for O(n · log n) complexity
struct RectComparator {
    bool operator () (const Rect & a,const Rect & b) {
        if (a.x != b.x) return a.x < b.x;
        if (a.y != b.y) return a.y < b.y;
        if (a.width != b.width) return a.width < b.width;
        return a.height < b.height;

To count how many Rect r you have in vec here's the code:

vector<vector<Rect> > vec;
//...fill up vector vec...

map<Rect, int, RectComparator> counts;
for (int i = 0; i < vec.size(); i++) {
    for (int j = 0; j < vec[i].size(); j++) {

I didn't check if vec[i][j] exists on counts as if it does not, it's initialized to zero by default.

At the end, counts[r] will have the amount of Rect r in vec.

The complexity is O(n · log n) with n the amount of Rect in vec vs. O(n^2) (yours).

To iterate over the counts map here's the code (adapted to build the constantsVec if you need it, with Rects that appear more than once):

vector<pair<Rect, int> > constantsVec;
map<Rect, int>::iterator iter;
for (iter = counts.begin(); iter != counts.end(); ++iter) {
    // iter->first is the Rect
    // iter->second is the count of the Rect iter->first in vec
    if (iter->second > 1)
        constantsVec.push_back(make_pair(iter->first, iter->second));

Take into account that it makes sense to build and use constantsVec only if you will use it many times and at the same time the difference between rectangles that appear once and those that appear more than once is significantly big. In other case, using the counts map should be as good as using the constantsVec.

  • I am not able to compile this. counts[vec[i][j]]++; seems to be the problem. I'm failing to see how this could work. Where does it compare two rectangles to see if they are the same? – testus Mar 7 '15 at 15:15
  • Oh, I'm sorry, you have to #include <map> first (I've added it to the answer). They are compared internally with the == operator. – axelbrz Mar 7 '15 at 15:16
  • Map is included. Where is the == operator in your code? – testus Mar 7 '15 at 15:18
  • It is not necessary. If you have a Rect r (any), the first time count[r]++; is executed count[r] will be 1. The second one 2, and so on. As I told you, the == operator is executed internally to index by the key (vec[i][j] in this case). – axelbrz Mar 7 '15 at 15:20
  • 1
    depending on how you're using the collection, it's possible you want unordered_map or unordered_set. Also note that if order is important (not sorted order) you'll need a different container. unordered_map has different requirements than map for its held types. – Ryan Haining Mar 7 '15 at 16:14

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