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I am looking for an OpenCV function that can find connected components and perform a few tasks on them ( like getting the number of pixels, contour, list of pixels in the object etc.. )

Is there a function of OpenCV (C++) that is similar to MatLab's regionprops ?

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4 Answers 4

Have a look at the cvFindContours function. It's very versatile -- it can find both interior and exterior contours, and return the results in a variety of formats (e.g. flat list vs. tree structure). Once you have the contours, functions like cvContourArea allow you to determine basic properties of the connected component corresponding to a particular contour.

If you prefer to use the newer C++ interface (as opposed to the older C-style interface I described above), then the function names are similar.

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OpenCV version 3.0 alpha has connectedComponents function.

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set -std=c++0x option when compiling

.h file

//connected_components.h
#ifndef CONNECTED_COMPONENTS_H_
#define CONNECTED_COMPONENTS_H_
#include <opencv2/core/core.hpp>
#include <memory>

class DisjointSet {
  private:
    std::vector<int> m_disjoint_array;
    int m_subset_num;
  public:
    DisjointSet();
    DisjointSet(int size);
    ~DisjointSet();
    int add(); //add a new element, which is a subset by itself;
    int find(int x); //return the root of x
    void unite(int x, int y);
    int getSubsetNum(void);
};

class ConnectedComponent {
private:
  cv::Rect m_bb;
  int m_pixel_count;
  std::shared_ptr< std::vector<cv::Point2i> > m_pixels;
public:
  ConnectedComponent();
  ConnectedComponent(int x, int y);
  ~ConnectedComponent();
  void addPixel(int x, int y);
  int getBoundingBoxArea(void) const;
  cv::Rect getBoundingBox(void) const;
  int getPixelCount(void) const;
  std::shared_ptr< const std::vector<cv::Point2i> > getPixels(void) const;
};

void findCC(const cv::Mat& src, std::vector<ConnectedComponent>& cc);
#endif //CONNECTED_COMPONENTS_H_

.cc file

//connected_components.cpp
#include "connected_components.h"

using namespace std;
/** DisjointSet **/
DisjointSet::DisjointSet() :
  m_disjoint_array(),
  m_subset_num(0)
{  }

DisjointSet::DisjointSet(int size) :
  m_disjoint_array(),
  m_subset_num(0)
{
  m_disjoint_array.reserve(size);
}

DisjointSet::~DisjointSet()
{  }

//add a new element, which is a subset by itself;
int DisjointSet::add()
{
  int cur_size = m_disjoint_array.size();
  m_disjoint_array.push_back(cur_size);
  m_subset_num ++;
  return cur_size;
}
//return the root of x
int DisjointSet::find(int x)
{
  if (m_disjoint_array[x] < 0 || m_disjoint_array[x] == x)
    return x;
  else {
    m_disjoint_array[x] = this->find(m_disjoint_array[x]);
    return m_disjoint_array[x];
  }
}
// point the x and y to smaller root of the two
void DisjointSet::unite(int x, int y)
{
  if (x==y) {
    return;
  }
  int xRoot = find(x);
  int yRoot = find(y);
  if (xRoot == yRoot)
    return;
  else if (xRoot < yRoot) {
    m_disjoint_array[yRoot] = xRoot;
  }
  else {
    m_disjoint_array[xRoot] = yRoot;
  }
  m_subset_num--;
}

int DisjointSet::getSubsetNum()
{
  return m_subset_num;
}

/** ConnectedComponent **/
ConnectedComponent::ConnectedComponent() :
  m_bb(0,0,0,0),
  m_pixel_count(0),
  m_pixels()
{
  m_pixels = std::make_shared< std::vector<cv::Point2i> > ();
}

ConnectedComponent::ConnectedComponent(int x, int y) :
  m_bb(x,y,1,1),
  m_pixel_count(1),
  m_pixels()
{
  m_pixels = std::make_shared< std::vector<cv::Point2i> > ();
}

ConnectedComponent::~ConnectedComponent(void)
{ }

void ConnectedComponent::addPixel(int x, int y) {
  m_pixel_count++;
  // new bounding box;
  if (m_pixel_count == 0) {
    m_bb = cv::Rect(x,y,1,1);
  }
  // extend bounding box if necessary
  else {
    if (x < m_bb.x ) {
      m_bb.width+=(m_bb.x-x);
      m_bb.x = x;
    }
    else if ( x > (m_bb.x+m_bb.width) ) {
      m_bb.width=(x-m_bb.x);
    }
    if (y < m_bb.y ) {
      m_bb.height+=(m_bb.y-y);
      m_bb.y = y;
    }
    else if ( y > (m_bb.y+m_bb.height) ) {
      m_bb.height=(y-m_bb.y);
    }
  }
  m_pixels->push_back(cv::Point(x,y));
}

int ConnectedComponent::getBoundingBoxArea(void) const {
  return (m_bb.width*m_bb.height);
}

cv::Rect ConnectedComponent::getBoundingBox(void) const {
  return m_bb;
}

std::shared_ptr< const std::vector<cv::Point2i> > ConnectedComponent::getPixels(void) const {
  return m_pixels;
}


int ConnectedComponent::getPixelCount(void) const {
  return m_pixel_count;
}

/** find connected components **/

void findCC(const cv::Mat& src, std::vector<ConnectedComponent>& cc) {
  if (src.empty()) return;
  CV_Assert(src.type() == CV_8U);
  cc.clear();
  int total_pix = src.total();
  int frame_label[total_pix];
  DisjointSet labels(total_pix);
  int root_map[total_pix];
  int x, y;
  const uchar* cur_p;
  const uchar* prev_p = src.ptr<uchar>(0);
  int left_val, up_val;
  int cur_idx, left_idx, up_idx;
  cur_idx = 0;
  //first logic loop
  for (y = 0; y < src.rows; y++ ) {
    cur_p = src.ptr<uchar>(y);
    for (x = 0; x < src.cols; x++, cur_idx++) {
      left_idx = cur_idx - 1;
      up_idx = cur_idx - src.size().width;
      if ( x == 0)
        left_val = 0;
      else
        left_val = cur_p[x-1];
      if (y == 0)
        up_val = 0;
      else
        up_val = prev_p[x];
      if (cur_p[x] > 0) {
        //current pixel is foreground and has no connected neighbors
        if (left_val == 0 && up_val == 0) {
          frame_label[cur_idx] = (int)labels.add();
          root_map[frame_label[cur_idx]] = -1;
        }
        //current pixel is foreground and has left neighbor connected
        else if (left_val != 0 && up_val == 0) {
          frame_label[cur_idx] = frame_label[left_idx];
        }
        //current pixel is foreground and has up neighbor connect
        else if (up_val != 0 && left_val == 0) {
          frame_label[cur_idx] = frame_label[up_idx];
        }
        //current pixel is foreground and is connected to left and up neighbors
        else {
          frame_label[cur_idx] = (frame_label[left_idx] > frame_label[up_idx]) ? frame_label[up_idx] : frame_label[left_idx];
          labels.unite(frame_label[left_idx], frame_label[up_idx]);
        }
      }//endif
      else {
        frame_label[cur_idx] = -1;
      }
    } //end for x
    prev_p = cur_p;
  }//end for y
  //second loop logic
  cur_idx = 0;
  int curLabel;
  int connCompIdx = 0;
  for (y = 0; y < src.size().height; y++ ) {
    for (x = 0; x < src.size().width; x++, cur_idx++) {
      curLabel = frame_label[cur_idx];
      if (curLabel != -1) {
        curLabel = labels.find(curLabel);
        if( root_map[curLabel] != -1 ) {
          cc[root_map[curLabel]].addPixel(x, y);
        }
        else {
          cc.push_back(ConnectedComponent(x,y));
          root_map[curLabel] = connCompIdx;
          connCompIdx++;
        }
      }
    }//end for x
  }//end for y
}
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total_pix is not an constant expression - at least Visual Studio 2012 would compile it , because it expects a compile-time-constant to create an array on the stack. Using std::vector<int> frame_label(total_pix); and std::vector<int> root_map(total_pix); instead solved it for me. –  Constantin Jul 24 '14 at 15:51
    
can you please comment on marko.ristin's question below? –  Shai Oct 2 '14 at 10:30
    
disjoint set is so efficient and the solution is well structured! Excellent! –  rookiepig Jul 29 at 15:00
    
ConnectedComponent::ConnectedComponent(int x, int y) : m_bb(x,y,1,1), m_pixel_count(1), m_pixels() { m_pixels = std::make_shared< std::vector<cv::Point2i> > (); /* bug without add (x,y) to m_pixels */ } I think there is a bug here, right? –  rookiepig Aug 5 at 2:43

If you don't mind using an external library that uses OpenCV, you can do that using cvBlobsLib.

A library to perform binary images connected component labelling (similar to regionprops Matlab function). It also provides functions to manipulate, filter and extract results from the extracted blobs, see features section for more information.

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Thanks!, how can i use it with cvMat ? –  EyalG Oct 2 '12 at 12:01
    
@EyalG If you look at the examples you will see they use IplImage, so I guess you can easily use cvMat as well. –  Dan Oct 2 '12 at 12:09
1  
You don't need to use a separate library for this. OpenCV handles connected components by itself perfectly well. –  misha Oct 3 '12 at 4:27
1  
I agree with misha, cv::findContours explicitly finds connected components. –  Quentin Geissmann Oct 3 '12 at 9:19

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