# Sprite Sheet Detect Individual Sprite Bounds Automatically

Given a sprite sheet like this:

I would like to write an algorithm that can loop through the pixel data and determine the bounding rectangle of each discreet sprite.

If we assume that for each pixel X, Y that I can pull either true (pixel is not totally transparent) or false (pixel is totally transparent), how would I go about automatically generating the bounding rectangles for each sprite?

The resulting data should be an array of rectangle objects with {x, y, width, height}.

Here's the same image but with the bounds of the first four sprites marked in light blue:

Can anyone give a step-by-step on how to detect these bounds as described above?

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Are sprites always fully connected? –  Nick Johnson Nov 27 '12 at 16:30
Not always, but the important bit is that there will be a straight line of transparency between them. –  Rob Evans Nov 27 '12 at 17:45

How about this? The only downside is that you'll need a writable version of your image to mark visited pixels in, or the floodfill will never terminate.

Process each* scan line in turn
For each scanline, walk from left to right, until you find a non-transparent pixel P.
If the location of P is already inside a known bounded box
Continue to the right of the bounded box
Else
BBox = ExploreBoundedBox(P)
Add BBox to the collection of known bounded boxes

Function ExploreBoundedBox(pStart)
Q = new Queue(pStart)
B = new BoundingBox(pStart)

While Q is not empty
Dequeue the front element as P
Expand B to include P

For each of the four neighbouring pixels N
If N is not transparent and N is not marked
Mark N
Enqueue N at the back of Q

return B

You don't need to process every scanline, you could do every 10th, or every 30th scanline. As long as it doesn't exceed the minimum sprite height.

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Good answer. I have two comments: 1. If you don't have a writable version of the image, you can use a Set to keep track of the marked pixels. 2. When finding the neighboring pixels in ExploreBoundedBox, it might be better to get the eight neighboring pixels (i.e. the diagonals too). See the pine tree in the first row; its rightmost pixel is only diagonally connected to the main body. –  Kevin Nov 27 '12 at 13:41
Thanks @Astrotrain and Kevin. I am going to implement this and let you know the result! –  Rob Evans Nov 27 '12 at 13:48
@Kevin: You're right, good points. But I'd suggest a Hashtable rather than a Set, because it's performance over large collections is better (and the number of pixels in a sprite is pretty large). Drawing inside the image is still the fastest, so if that's an option... –  Astrotrain Nov 27 '12 at 14:13
Great, this works perfectly... and it is fast too. ~59 milliseconds using that image above in JavaScript and using HTML canvas :) –  Rob Evans Nov 27 '12 at 19:40
Cool, thanks for letting us know the results :) –  Astrotrain Nov 27 '12 at 21:53