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I try to use convexHull and convexityDefects to define a hand. But when the program hit the convexityDefects, there is always an error says "vector subscript out of range". here is my code.

Did I use the function in a wrong way?

#include "stdafx.h"
#include <opencv2\opencv.hpp>
#include <math.h>
#include <iostream>

using namespace cv;
using namespace std;
const int w = 500;

int levels = 3;

vector<vector<Point> > contours;

vector<Vec4i> hierarchy;

void on_trackbar(int, void*)
{
    Mat cnt_img = Mat::zeros(w, w, CV_8UC3);
    int _levels = levels - 3;
    drawContours( cnt_img, contours, _levels <= 0 ? 3 : -1, Scalar(128,255,255),
            3, CV_AA, hierarchy, std::abs(_levels) );

    imshow("contours", cnt_img);
}

int main( int argc, char**)
{
    Mat img = imread("out.jpg",0);
    threshold(img,img,200,255,cv::THRESH_BINARY);


    namedWindow( "image", 1 );
    imshow( "image", img );
    //Extract the contours so that
    vector<vector<Point> > contours0;
    findContours( img, contours0, hierarchy, RETR_TREE, CHAIN_APPROX_SIMPLE);

    contours.resize(contours0.size());
    for( size_t k = 0; k < contours0.size(); k++ ){
        std::cout<<"contours0.size"<<contours0[k].size()<<endl;
        approxPolyDP(Mat(contours0[k]), contours[k], 0, true);
    }

    std::vector<Vec4i> defects; 
    vector<cv::vector<int> >hull( contours.size() );

    for (int i = 0; i < contours.size(); i++)
    {  
        std::cout<<"contours.size"<<contours[i].size()<<endl;
        convexHull( contours[i], hull[i], false );
        if (contours[i].size() >150 )
        {
            convexityDefects(contours[i], hull[i], defects[i]); 
            std::cout<<"defects"<<defects[i].depth<<endl;
        }
    }


    namedWindow( "contours", 1 );
    createTrackbar( "levels+3", "contours", &levels, 7, on_trackbar );

    on_trackbar(0,0);
    waitKey();

    return 0;
}

Thank you in advance!

2 Answers 2

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It looks like the issue is that convexityDefects() expects an array for the contourDefects parameter:

void convexityDefects(InputArray contour, InputArray convexhull, OutputArray convexityDefects);

Both contours and hull are vector<vector<>> types, which is correct, but defects also needs to be a vector<vector<>>. That way when you loop through the contours array, defects[i] will contain an array to pass to convexityDefects():

...

vector<std::vector<Vec4i>> defects( contours.size() ); 

...

Later on in your code, you will have to loop through the defects[i] vector to print the depth as well, if that is what you were trying to do.

3
  • Thank you for your help, but unfortunately I don't think this is the reason why it doesn't work.
    – C J Wang
    Jan 7, 2013 at 18:34
  • @JaneWang I got around to testing this code, and it works on the standard Lena image for me without crashing, but it never hits the call to convexityDefects(). Can you post the out.jpg image you are using? There are a lot of hardcoded numbers in your code, (like _levels <= 0 ? 3 : -1, so if you could post the line number where it is crashing that would be helpful as well. Jan 7, 2013 at 20:40
  • @JaneWang Aha, I think I replicated your problem now, see my edited answer. Jan 7, 2013 at 20:52
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I am going to post a later answer with complete working source code because I spent way too much time attempting to figure out how to use this convexityDefects() API. Also note that the OpenCV 3.0 release contained a bug in convexityDefects() where the wrong indexes were being returned (this was not a problem in OpenCV 2.X). So, update to the most recent github if you are running into problems with the 3.0 release.

#include <iostream>
#include "opencv2/highgui/highgui.hpp"
#include "opencv2/opencv.hpp"

// Test case for C++ impl of convexityDefects() that returns indexes into the
// contours vector.

using namespace cv;
using namespace std;

int main(int argc, char **argv)
{
  if (argc != 1) {
    fprintf(stderr, "usage : convexity_defects\n");
    exit(1);
  }

  const bool debugDumpImages = true;

  // Result from findContours(binMat, contours, CV_RETR_LIST, CHAIN_APPROX_NONE);

  // 4 point star pattern at 100x100

  Point2i contour[140];
  contour[0] = Point2i(49,3);
  contour[1] = Point2i(49,7);
  contour[2] = Point2i(48,8);
  contour[3] = Point2i(48,12);
  contour[4] = Point2i(47,13);
  contour[5] = Point2i(47,16);
  contour[6] = Point2i(46,17);
  contour[7] = Point2i(46,21);
  contour[8] = Point2i(45,22);
  contour[9] = Point2i(45,25);
  contour[10] = Point2i(44,26);
  contour[11] = Point2i(44,30);
  contour[12] = Point2i(43,31);
  contour[13] = Point2i(43,35);
  contour[14] = Point2i(42,36);
  contour[15] = Point2i(42,39);
  contour[16] = Point2i(41,40);
  contour[17] = Point2i(41,41);
  contour[18] = Point2i(40,42);
  contour[19] = Point2i(36,42);
  contour[20] = Point2i(35,43);
  contour[21] = Point2i(32,43);
  contour[22] = Point2i(31,44);
  contour[23] = Point2i(27,44);
  contour[24] = Point2i(26,45);
  contour[25] = Point2i(22,45);
  contour[26] = Point2i(21,46);
  contour[27] = Point2i(18,46);
  contour[28] = Point2i(17,47);
  contour[29] = Point2i(13,47);
  contour[30] = Point2i(12,48);
  contour[31] = Point2i(8,48);
  contour[32] = Point2i(7,49);
  contour[33] = Point2i(3,49);
  contour[34] = Point2i(2,50);
  contour[35] = Point2i(1,50);
  contour[36] = Point2i(5,50);
  contour[37] = Point2i(6,51);
  contour[38] = Point2i(10,51);
  contour[39] = Point2i(11,52);
  contour[40] = Point2i(14,52);
  contour[41] = Point2i(15,53);
  contour[42] = Point2i(19,53);
  contour[43] = Point2i(20,54);
  contour[44] = Point2i(24,54);
  contour[45] = Point2i(25,55);
  contour[46] = Point2i(29,55);
  contour[47] = Point2i(30,56);
  contour[48] = Point2i(33,56);
  contour[49] = Point2i(34,57);
  contour[50] = Point2i(38,57);
  contour[51] = Point2i(39,58);
  contour[52] = Point2i(40,58);
  contour[53] = Point2i(42,60);
  contour[54] = Point2i(42,63);
  contour[55] = Point2i(43,64);
  contour[56] = Point2i(43,68);
  contour[57] = Point2i(44,69);
  contour[58] = Point2i(44,73);
  contour[59] = Point2i(45,74);
  contour[60] = Point2i(45,77);
  contour[61] = Point2i(46,78);
  contour[62] = Point2i(46,82);
  contour[63] = Point2i(47,83);
  contour[64] = Point2i(47,87);
  contour[65] = Point2i(48,88);
  contour[66] = Point2i(48,91);
  contour[67] = Point2i(49,92);
  contour[68] = Point2i(49,96);
  contour[69] = Point2i(50,97);
  contour[70] = Point2i(50,93);
  contour[71] = Point2i(51,92);
  contour[72] = Point2i(51,89);
  contour[73] = Point2i(52,88);
  contour[74] = Point2i(52,84);
  contour[75] = Point2i(53,83);
  contour[76] = Point2i(53,80);
  contour[77] = Point2i(54,79);
  contour[78] = Point2i(54,75);
  contour[79] = Point2i(55,74);
  contour[80] = Point2i(55,70);
  contour[81] = Point2i(56,69);
  contour[82] = Point2i(56,66);
  contour[83] = Point2i(57,65);
  contour[84] = Point2i(57,61);
  contour[85] = Point2i(58,60);
  contour[86] = Point2i(58,59);
  contour[87] = Point2i(59,58);
  contour[88] = Point2i(60,58);
  contour[89] = Point2i(61,57);
  contour[90] = Point2i(65,57);
  contour[91] = Point2i(66,56);
  contour[92] = Point2i(70,56);
  contour[93] = Point2i(71,55);
  contour[94] = Point2i(75,55);
  contour[95] = Point2i(76,54);
  contour[96] = Point2i(79,54);
  contour[97] = Point2i(80,53);
  contour[98] = Point2i(84,53);
  contour[99] = Point2i(85,52);
  contour[100] = Point2i(89,52);
  contour[101] = Point2i(90,51);
  contour[102] = Point2i(93,51);
  contour[103] = Point2i(94,50);
  contour[104] = Point2i(98,50);
  contour[105] = Point2i(97,50);
  contour[106] = Point2i(96,49);
  contour[107] = Point2i(92,49);
  contour[108] = Point2i(91,48);
  contour[109] = Point2i(87,48);
  contour[110] = Point2i(86,47);
  contour[111] = Point2i(82,47);
  contour[112] = Point2i(81,46);
  contour[113] = Point2i(78,46);
  contour[114] = Point2i(77,45);
  contour[115] = Point2i(73,45);
  contour[116] = Point2i(72,44);
  contour[117] = Point2i(68,44);
  contour[118] = Point2i(67,43);
  contour[119] = Point2i(64,43);
  contour[120] = Point2i(63,42);
  contour[121] = Point2i(59,42);
  contour[122] = Point2i(58,41);
  contour[123] = Point2i(58,40);
  contour[124] = Point2i(57,39);
  contour[125] = Point2i(57,35);
  contour[126] = Point2i(56,34);
  contour[127] = Point2i(56,31);
  contour[128] = Point2i(55,30);
  contour[129] = Point2i(55,26);
  contour[130] = Point2i(54,25);
  contour[131] = Point2i(54,21);
  contour[132] = Point2i(53,20);
  contour[133] = Point2i(53,17);
  contour[134] = Point2i(52,16);
  contour[135] = Point2i(52,12);
  contour[136] = Point2i(51,11);
  contour[137] = Point2i(51,8);
  contour[138] = Point2i(50,7);
  contour[139] = Point2i(50,3);

  vector<Point2i> contourVec;

  for ( int i = 0; i < sizeof(contour)/sizeof(Point2i); i++ ) {
    Point2i p = contour[i];
    contourVec.push_back(p);
  }

  vector<vector<Point2i> > contoursVec;
  contoursVec.push_back(contourVec);

  if (debugDumpImages) {
    Mat binMat(100, 100, CV_8UC1, Scalar(0));

    drawContours(binMat, contoursVec, 0, Scalar(0xFF));

    string fname = "contour_rendered.png";
    imwrite(fname, binMat);
    cout << "wrote " << fname << endl;
  }

  assert(contourVec.size() > 3);

  // hull around contour points

  Mat contourMat(contourVec);

  vector<int> hullVec;

  convexHull(contourMat, hullVec, false);

  int hullCount = (int)hullVec.size();

  if (1) {
    cout << "convexHull returned " << hullCount << " hull indexes" << endl;
  }

  if (debugDumpImages) {
    // Convert hull indexes into points so that result can be rendered with drawContours()

    vector<Point2i> hullContourVec;

    for ( int i = 0; i < hullCount; i++ ) {
      int offset = hullVec[i];
      Point pt = contourVec[offset];
      hullContourVec.push_back(pt);
    }

    vector<vector<Point2i> > hullContoursVec;
    hullContoursVec.push_back(hullContourVec);

    Mat binMat(100, 100, CV_8UC1, Scalar(0));

    drawContours(binMat, hullContoursVec, 0, Scalar(0xFF));

    string fname = "hull_contour_rendered.png";
    imwrite(fname, binMat);
    cout << "wrote " << fname << endl;
  }

  // calculate convexityDefects()

  vector<Vec4i> defectVec;

  convexityDefects(contourVec, hullVec, defectVec);

  Mat defectBinMat(100, 100, CV_8UC1, Scalar(0));
  Mat colorMat(100, 100, CV_8UC3, Scalar(0,0,0));

  drawContours(colorMat, contoursVec, 0, Scalar(0,0xFF,0), CV_FILLED, 8); // Draw contour as green filled region

  for (int cDefIt = 0; cDefIt < defectVec.size(); cDefIt++) {
    int startIdx = defectVec[cDefIt].val[0];
    int endIdx = defectVec[cDefIt].val[1];
    int defectPtIdx = defectVec[cDefIt].val[2];
    double depth = (double)defectVec[cDefIt].val[3]/256.0f;  // see documentation link below why this

    Point2i startP = contour[startIdx];
    Point2i endP = contour[endIdx];
    Point2i defectP = contour[defectPtIdx];

    printf("start  %8d = (%4d,%4d)\n", startIdx, startP.x, startP.y);
    printf("end    %8d = (%4d,%4d)\n", endIdx, endP.x, endP.y);
    printf("defect %8d = (%4d,%4d)\n", defectPtIdx, defectP.x, defectP.y);
    printf("depth  %0.3f\n", depth);

    if (debugDumpImages) {
      line(defectBinMat, startP, defectP, Scalar(255), 1, 0);
      line(defectBinMat, endP, defectP, Scalar(128), 1, 0);
    }

    line(colorMat, startP, endP, Scalar(0xFF,0,0), 1, 0);
    circle(colorMat, defectP, 4, Scalar(0,0,0xFF), 2);
  }

  if (debugDumpImages) {
    string fname = "hull_contour_defects_rendered.png";
    imwrite(fname, defectBinMat);
    cout << "wrote " << fname << endl;
  }

  if (debugDumpImages) {
    string fname = "contour_defects_rendered.png";
    imwrite(fname, colorMat);
    cout << "wrote " << fname << endl;
  }

  imshow( "defects", colorMat );
  waitKey(0);
}

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