Can't understand how to get (x', y') of original (x, y) in image, for Barrel/Pincushion distortion.
Section 2 of this paper explains the transformation. Basically:
Here I made an example in Mathematica:

2When recreating this code in openGL without trimming (like you have in the 1st 2 pictures) the image looked disjointed. I had more success using this algorithm geeks3d.com/20140213/… – user819640 Sep 29 '15 at 8:42

Your transform is only valid for turning a rectilinear image into a distorted image, to reverse that distortion you need the inverse function which is
p1 = cbrt(2 / (3 * a)); p2 = cbrt( sqrt(3*a) * sqrt( 27*a*x*x + 4 )  9*a*x ); p3 = cbrt(2) * pow(3*a, 2/3); return p1/p2  p2/p3;
– Michel Rouzic Apr 16 '17 at 19:43
An approximation of the polynomial radial distortion model you can find in Fitzgibbon, 2001
is
where rd and ru are the distances from the center of distortion. This is also used to filter the distortion out of a wideangle camera image for computer vision and image processing purposes.
You can find a more detailed explanation of the principle and the shader code to implement the undistortion filtering (and also the forward transformation) here: http://marcodiiga.github.io/radiallensundistortionfiltering
I'm also posting the papers you should take a look at if you want to know the mathematical details for the method I posted
 Zhang Z. (1999). Flexible camera calibration by viewing a plane from unknown orientation
 Andrew W. Fitzgibbon (2001). Simultaneous linear estimation of multiple view geometry and lens distortion
simple barrel\pincushion distortion in opencv c++
IplImage* barrel_pincusion_dist(IplImage* img, double Cx,double Cy,double kx,double ky)
{
IplImage* mapx = cvCreateImage( cvGetSize(img), IPL_DEPTH_32F, 1 );
IplImage* mapy = cvCreateImage( cvGetSize(img), IPL_DEPTH_32F, 1 );
int w= img>width;
int h= img>height;
float* pbuf = (float*)mapx>imageData;
for (int y = 0; y < h; y++)
{
for (int x = 0; x < w; x++)
{
float u= Cx+(xCx)*(1+kx*((xCx)*(xCx)+(yCy)*(yCy)));
*pbuf = u;
++pbuf;
}
}
pbuf = (float*)mapy>imageData;
for (int y = 0;y < h; y++)
{
for (int x = 0; x < w; x++)
{
*pbuf = Cy+(yCy)*(1+ky*((xCx)*(xCx)+(yCy)*(yCy)));
++pbuf;
}
}
/*float* pbuf = (float*)mapx>imageData;
for (int y = 0; y < h; y++)
{
int ty= yCy;
for (int x = 0; x < w; x++)
{
int tx= xCx;
int rt= tx*tx+ty*ty;
*pbuf = (float)(tx*(1+kx*rt)+Cx);
++pbuf;
}
}
pbuf = (float*)mapy>imageData;
for (int y = 0;y < h; y++)
{
int ty= yCy;
for (int x = 0; x < w; x++)
{
int tx= xCx;
int rt= tx*tx+ty*ty;
*pbuf = (float)(ty*(1+ky*rt)+Cy);
++pbuf;
}
}*/
IplImage* temp = cvCloneImage(img);
cvRemap( temp, img, mapx, mapy );
cvReleaseImage(&temp);
cvReleaseImage(&mapx);
cvReleaseImage(&mapy);
return img;
}
more complicated form http://opencv.willowgarage.com/documentation/camera_calibration_and_3d_reconstruction.html
According to Wikipedia, there can also be an r to the power 4 term too. The signs of the two constants (for the r to the 2 and r to the 4 terms) can be opposite giving handlebar distortion where the centre of the image has barrel distortion and the edge has pincushion distortion giving straight lines the appearance of a handlebar moustache.