I have had exactly the same need.
Here is a possible solution :

```
void MyDistortPoints(const std::vector<cv::Point2d> & src, std::vector<cv::Point2d> & dst,
const cv::Mat & cameraMatrix, const cv::Mat & distorsionMatrix)
{
dst.clear();
double fx = cameraMatrix.at<double>(0,0);
double fy = cameraMatrix.at<double>(1,1);
double ux = cameraMatrix.at<double>(0,2);
double uy = cameraMatrix.at<double>(1,2);
double k1 = distorsionMatrix.at<double>(0, 0);
double k2 = distorsionMatrix.at<double>(0, 1);
double p1 = distorsionMatrix.at<double>(0, 2);
double p2 = distorsionMatrix.at<double>(0, 3);
double k3 = distorsionMatrix.at<double>(0, 4);
//BOOST_FOREACH(const cv::Point2d &p, src)
for (unsigned int i = 0; i < src.size(); i++)
{
const cv::Point2d &p = src[i];
double x = p.x;
double y = p.y;
double xCorrected, yCorrected;
//Step 1 : correct distorsion
{
double r2 = x*x + y*y;
//radial distorsion
xCorrected = x * (1. + k1 * r2 + k2 * r2 * r2 + k3 * r2 * r2 * r2);
yCorrected = y * (1. + k1 * r2 + k2 * r2 * r2 + k3 * r2 * r2 * r2);
//tangential distorsion
//The "Learning OpenCV" book is wrong here !!!
//False equations from the "Learning OpenCv" book
//xCorrected = xCorrected + (2. * p1 * y + p2 * (r2 + 2. * x * x));
//yCorrected = yCorrected + (p1 * (r2 + 2. * y * y) + 2. * p2 * x);
//Correct formulae found at : http://www.vision.caltech.edu/bouguetj/calib_doc/htmls/parameters.html
xCorrected = xCorrected + (2. * p1 * x * y + p2 * (r2 + 2. * x * x));
yCorrected = yCorrected + (p1 * (r2 + 2. * y * y) + 2. * p2 * x * y);
}
//Step 2 : ideal coordinates => actual coordinates
{
xCorrected = xCorrected * fx + ux;
yCorrected = yCorrected * fy + uy;
}
dst.push_back(cv::Point2d(xCorrected, yCorrected));
}
}
void MyDistortPoints(const std::vector<cv::Point2d> & src, std::vector<cv::Point2d> & dst,
const cv::Matx33d & cameraMatrix, const cv::Matx<double, 1, 5> & distorsionMatrix)
{
cv::Mat cameraMatrix2(cameraMatrix);
cv::Mat distorsionMatrix2(distorsionMatrix);
return MyDistortPoints(src, dst, cameraMatrix2, distorsionMatrix2);
}
void TestDistort()
{
cv::Matx33d cameraMatrix = 0.;
{
//cameraMatrix Init
double fx = 1000., fy = 950.;
double ux = 324., uy = 249.;
cameraMatrix(0, 0) = fx;
cameraMatrix(1, 1) = fy;
cameraMatrix(0, 2) = ux;
cameraMatrix(1, 2) = uy;
cameraMatrix(2, 2) = 1.;
}
cv::Matx<double, 1, 5> distorsionMatrix;
{
//distorsion Init
const double k1 = 0.5, k2 = -0.5, k3 = 0.000005, p1 = 0.07, p2 = -0.05;
distorsionMatrix(0, 0) = k1;
distorsionMatrix(0, 1) = k2;
distorsionMatrix(0, 2) = p1;
distorsionMatrix(0, 3) = p2;
distorsionMatrix(0, 4) = k3;
}
std::vector<cv::Point2d> distortedPoints;
std::vector<cv::Point2d> undistortedPoints;
std::vector<cv::Point2d> redistortedPoints;
distortedPoints.push_back(cv::Point2d(324., 249.));// equals to optical center
distortedPoints.push_back(cv::Point2d(340., 200));
distortedPoints.push_back(cv::Point2d(785., 345.));
distortedPoints.push_back(cv::Point2d(0., 0.));
cv::undistortPoints(distortedPoints, undistortedPoints, cameraMatrix, distorsionMatrix);
MyDistortPoints(undistortedPoints, redistortedPoints, cameraMatrix, distorsionMatrix);
cv::undistortPoints(redistortedPoints, undistortedPoints, cameraMatrix, distorsionMatrix);
//Poor man's unit test ensuring we have an accuracy that is better than 0.001 pixel
for (unsigned int i = 0; i < undistortedPoints.size(); i++)
{
cv::Point2d dist = redistortedPoints[i] - distortedPoints[i];
double norm = sqrt(dist.dot(dist));
std::cout << "norm = " << norm << std::endl;
assert(norm < 1E-3);
}
}
```