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Consider a MxN bitmap where the cells are 0 or 1. '1' means filled and '0' means empty.

Find the number of 'holes' in the bitmap, where a hole is a contiguous region of empty cells.

For example, this has two holes:


... and this has only one:


What is the fastest way, when M and N are both between 1 and 8?

Clarification: diagonals are not considered contiguous, only side-adjacency matters.

Note: I am looking for something that takes advantage of the data format. I know how to transform this into a graph and [BD]FS it but that seems overkill.

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Why does this smell of either homework or code-golf? @Florin, thanks for the update. Please consider this remark "rescinded". We'll take your word. –  jcolebrand Oct 26 '10 at 16:59
it TASTES like homework! –  Luiscencio Oct 26 '10 at 17:00
It is not homework, but it doesn't matter. I'm trying to solve a bigger problem and this is just a subproblem. –  florin Oct 26 '10 at 17:02
Are the holes only orthogonal connected? Or is diagnonal also allowed? –  Peer Stritzinger Oct 26 '10 at 17:02
I agree you need graph theory on this one. –  jcolebrand Oct 26 '10 at 17:03

3 Answers 3

up vote 13 down vote accepted

You need to do connected component labeling on your image. You can use the Two-pass algorithm described in the article I linked above. Given the small size of your problem, the One-pass algorithm may suffice.

You could also use BFS/DFS but I'd recommend the above algorithms.

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Yes, connected component labeling should do the trick. Also, congrats to 10k, @Jacob (or almost - I guess you hit rep-cap for today). –  Jonas Oct 26 '10 at 18:00
@Jonas: I know! Hopefully florin will accept this answer today :) –  Jacob Oct 26 '10 at 19:02
@Jonas: I can acknowledge the congrats now :D –  Jacob Oct 26 '10 at 22:03

This seems like a nice use of the disjoint-set data structure.
Convert the bitmap to a 2d array
loop through each element
if the current element is a 0, merge it with the set of one its 'previous' empty neighbors (already visited)
if it has no empty neighbors, add it to its own set

then just count the number of sets

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~ that's exactly what @Jacob already linked to. –  jcolebrand Oct 26 '10 at 17:23
I wrote this answer before looking at his. –  Sam Dufel Oct 26 '10 at 17:26

There may be advantages gained by using table lookups and bitwise operations.

For example whole line of 8 pixels may be looked up in 256 element table, so number of holes in a field 1xN is got by single lookup. Then there may be some lookup table of 256xK elements, where K is number of hole configurations in previous line, contatining number of complete holes and next hole configuration. That's just an idea.

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I just started building my 2^64 lookup table, but I ran out of the budget for the year for RAM 8^) –  florin Oct 26 '10 at 21:07
florin: Use distributed computing! =) –  Vovanium Oct 26 '10 at 21:14
I found this puzzle very interesting and I spent some free time to make a sketch of 'line by line' algorithm with lookups and bitwise operations, using only 560 bytes of tables (for 8 bit wide patterns). Here's the code: dl.dropbox.com/u/13343791/holecount2.c Sorry if code not well documented. –  Vovanium Nov 3 '10 at 12:14

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