Ideally you would want to use a `vector<Vec3f>`

list to process the circles like this:

```
vector<Vec3f> circles;
// do HoughCircles...
for(size_t i = 0; i < circles.size(); i++)
{
Vec3f circle = circles[i];
Point2f center(circle[0] /* x */, circle[1] /* y */);
float radius = circle[2];
// use the circle...
}
```

**EDIT :** I tried the code just using a `Mat`

, and it appears that the circle parameters are stored as a `1xN`

matrix with elements of type `CV_32FC3`

, and where `N`

is the number of circles detected. So, each column contains the `(x, y, radius)`

vector you need.

Here is a sample I wrote in C++ showing this:

```
Mat circleImage = imread("circle.png", 0);
Mat circleDisp;
cvtColor(circleImage, circleDisp, CV_GRAY2RGB);
Mat circles;
HoughCircles(circleImage, circles, CV_HOUGH_GRADIENT, 2, circleImage.rows >> 2, 200, 100);
for( size_t i = 0; i < circles.cols; i++ )
{
Vec3f vCircle = circles.at<Vec3f>(i);
Point center(cvRound(vCircle[0]), cvRound(vCircle[1]));
int radius = cvRound(vCircle[2]);
// draw the circle center
circle( circleDisp, center, 3, Scalar(0,255,0), -1, 8, 0 );
// draw the circle outline
circle( circleDisp, center, radius, Scalar(0,0,255), 3, 8, 0 );
}
namedWindow( "circles", 1 );
imshow( "circles", circleDisp );
waitKey();
```

Hope that helps!