# algorithm to find area of largest sub-array(rectangle) consisting entirely of 1's [closed]

There is a 2D binary array (2D array of `0` and `1`) where `m` rows and `n` columns; give an efficient algorithm to find area of largest sub-array (rectangle) consisting entirely of `1`s.

``````public int findMaxRectangleArea(int[][] A,int m,int n);
``````

Can someone please help me with the algorithm part?

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## closed as not constructive by Andy Hayden, Bo Persson, Lafada, Niranjan Kala, JackFeb 6 '13 at 14:45

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are you in an interview? –  ogzd Feb 6 '13 at 10:43
A similar question has been posted for `C#`, with a slightly different condition (equal sums for 0 and 1). You will find the pseudo code in the accepted answer: Largest submatrix with equal no of 1's and 0's. –  Alex Filipovici Feb 6 '13 at 10:44
or doing homework? –  sotapme Feb 6 '13 at 10:59
Why all the language tags? Do you have to provide a solution in these? You'd might want to tag `language-agnostic` instead –  Kos Feb 6 '13 at 11:00

## 2 Answers

I'd try an approach like this:

Iterate left to right row by row until you find a `0`.

This `0` may already identify two rectangles of `1`s:

• all rows above it
• from the top left to the position to the left of the `0`

One of them is bigger, remember it.

Then recursively descend into the three unknown sectors (two of them partially unknown) that may still contain a rectangle bigger than what you have already found:

Make sure you don't iterate over the known rows again, that's redundant.

I believe this solution can look at each field at most twice (where a recursion step's sectors overlap), so it should run in θ(x*y).

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not quite there yet... there is a merging step that you omitted that is not trivial. so you've divided the problem after finding a 0, but then after recursively solving the smaller pieces, you need to merge... –  thang Feb 6 '13 at 11:06
Is the merging step really not trivial? If a solution is in smaller pieces, it's entirely contained in one of them, so the whole solution is just the greatest of the four. If I'm wrong, please show an example. –  Kos Feb 6 '13 at 11:24
i don't know but it's not listed... trivial or not is subjective. my point is the solution is incomplete. i haven't thought about it... –  thang Feb 6 '13 at 11:41

It all depends ion how large your smallest array dimension is. If it's smaller than the maximum word size on your target platform, you could make your array into a 1D array of bitmaps and use a series of sliding bitmask windows to find the rectangle.

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