I have an algorithm that creates a grayscale gradient based on a distance to a closest pixel in a mask. I find the pixel by constructing a circle with an increasing radius and sampling all of the pixels in a mask against pixels of the circle:

```
for (x = 0; x < width; x++){
for (y = 0; y < height; y++) {
bool pixelFound = false;
for (radius = 0; radius < resolution, pixelFound == false; radius++) {
for (alpha = 0; alpha < 2 * PI; alpha += 1/radius) {
xx = x + cos(alpha)*radius;
yy = y + sin(alpha)*radius;
if ( MaskHasPixel(xx, yy) ) {
pixelFound = true;
gradient = 1 - Magnitude(xx-x, yy-y) / resolution;
WriteGradientForPixel(x,y, gradient);
}
}
}
}
}
```

Currently the algorithm is incredibly slow - for an image of 512x512 and mask size of 128x128 it will have to do 512*512*384*41 = 4 127 195 136 comparisons, which takes a tremendous amount of time to compute on the CPU. One of the options would be to do the computations on the GPU, but is it possible to optimize this algorithm to make it work much faster? I want eventually to get a nice smooth gradient relatively fast.

Thanks!

`,`

with`&&`

in`radius < resolution, pixelFound == false`

. – Mark Ransom Feb 13 '13 at 16:32`sin(alpha)`

&`cos(alpha)`

- these functions are slowly. Also you do everything wrong! Don't scanallpixels, but make a gradient mask based on your mask (mark pixels with values of their distance to mark). You can do it with subsequent dilations. – Eddy_Em Feb 13 '13 at 16:35