There once was an image, possibly with alpha transparency, overlaid onto both a white background and black background. I have access to the two resulting images, but not the original, and I want to retrieve the original.
I have some Ruby code written up to do this, but, I think simply by nature of being in Ruby, it's not as fast as it needs to be. Here's the basic logic, iterating pixel by pixel:
if pixel_on_black == pixel_on_white # Matching pixels indicate 100% opacity in the original. original_pixel = pixel_on_black elsif color_on_black == BLACK && color_on_white == WHITE # Black on black and white on white indicate 0% opacity in the original. original_pixel = TRANSPARENT else # Since it's not one of the simple cases, then we'll do some math. # Fancy algebra tells us the following. (MAX_VALUE is the largest value # a channel can have. So, in most cases, 255.) # First, find the alpha value. This equation follows from the equations # for composing on black and composing on white. alpha = pixel_on_black.red - pixel_on_white.red + MAX_VALUE # Now that we know the alpha value, undo its multiplicative effect on the # pixel on black. By dividing. Ta da. alpha_ratio = alpha / MAX_VALUE original_pixel = Pixel.new original_pixel.red = pixel_on_black.red / alpha_ratio original_pixel.green = pixel_on_black.green / alpha_ratio original_pixel.blue = pixel_on_black.blue / alpha_ratio original_pixel.alpha = alpha end
So that's nice, and it works and all. However, this code needs to end up running blazing-fast, and iterating pixels in Ruby is not acceptable. It looks like, unless this function already exists somewhere, it would be in my best interest to come up with a series of ImageMagick options that would do the trick.
I'm researching ImageMagick's command line tool now, because it looks really, really powerful, and it looks like either
-fx or a series of fancy
-function arguments would do the same thing as my code above. I'll keep trying, too, but are there any ImageMagick pros out there who already know how to put all that together?
EDIT: I have an
-fx version running now :)
convert image_on_black.png image_on_white.png -matte -channel alpha -fx "u.r + 1 - v.r" -channel RGB -fx "(u.a == 0) ? 1 : (u / u.a)" output.png
Almost an exact translation of the original code, broken into channels. Iterate over the alpha channel, and set the correct alpha values. Then iterate over the RGB channels, and dividing the channel by the alpha value (unless it's zero, in which case we can set it to anything, since dividing by zero throws an error—in this case, I chose 1 for white).
Now time to work on converting these into more explicit arguments, since the
-fx expression is reevaluated for each pixel, which isn't great.