OpenCV  3.0.0-rc1 Open Source Computer Vision
contours2.cpp

An example using the drawContour functionality

#include <math.h>
#include <iostream>
using namespace cv;
using namespace std;
static void help()
{
cout
<< "\nThis program illustrates the use of findContours and drawContours\n"
<< "The original image is put up along with the image of drawn contours\n"
<< "Usage:\n"
<< "./contours2\n"
<< "\nA trackbar is put up which controls the contour level from -3 to 3\n"
<< endl;
}
const int w = 500;
int levels = 3;
vector<vector<Point> > contours;
vector<Vec4i> hierarchy;
static 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, LINE_AA, hierarchy, std::abs(_levels) );
imshow("contours", cnt_img);
}
int main( int argc, char**)
{
Mat img = Mat::zeros(w, w, CV_8UC1);
if(argc > 1)
{
help();
return -1;
}
//Draw 6 faces
for( int i = 0; i < 6; i++ )
{
int dx = (i%2)*250 - 30;
int dy = (i/2)*150;
const Scalar white = Scalar(255);
const Scalar black = Scalar(0);
if( i == 0 )
{
for( int j = 0; j <= 10; j++ )
{
double angle = (j+5)*CV_PI/21;
line(img, Point(cvRound(dx+100+j*10-80*cos(angle)),
cvRound(dy+100-90*sin(angle))),
Point(cvRound(dx+100+j*10-30*cos(angle)),
cvRound(dy+100-30*sin(angle))), white, 1, 8, 0);
}
}
ellipse( img, Point(dx+150, dy+100), Size(100,70), 0, 0, 360, white, -1, 8, 0 );
ellipse( img, Point(dx+115, dy+70), Size(30,20), 0, 0, 360, black, -1, 8, 0 );
ellipse( img, Point(dx+185, dy+70), Size(30,20), 0, 0, 360, black, -1, 8, 0 );
ellipse( img, Point(dx+115, dy+70), Size(15,15), 0, 0, 360, white, -1, 8, 0 );
ellipse( img, Point(dx+185, dy+70), Size(15,15), 0, 0, 360, white, -1, 8, 0 );
ellipse( img, Point(dx+115, dy+70), Size(5,5), 0, 0, 360, black, -1, 8, 0 );
ellipse( img, Point(dx+185, dy+70), Size(5,5), 0, 0, 360, black, -1, 8, 0 );
ellipse( img, Point(dx+150, dy+100), Size(10,5), 0, 0, 360, black, -1, 8, 0 );
ellipse( img, Point(dx+150, dy+150), Size(40,10), 0, 0, 360, black, -1, 8, 0 );
ellipse( img, Point(dx+27, dy+100), Size(20,35), 0, 0, 360, white, -1, 8, 0 );
ellipse( img, Point(dx+273, dy+100), Size(20,35), 0, 0, 360, white, -1, 8, 0 );
}
//show the faces
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++ )
approxPolyDP(Mat(contours0[k]), contours[k], 3, true);
namedWindow( "contours", 1 );
createTrackbar( "levels+3", "contours", &levels, 7, on_trackbar );
on_trackbar(0,0);
return 0;
}