# Return local square from grid in Haskell

I have the following grid:

[["a1","b1",    "c1","d1"],
["a2","b2",    "c2","d2"],

["a3","b3",    "c3","d3"],
["a4","b4",    "c4","d4"]]


and would like to extract a range of values in their 'squares' so I end up with a list of square values. The x-values are horizontal and y-values are vertical.

I have the following function started:

type Coordinate = (Int,Int)

return :: [[String]] -> Coordinate -> [String]
return grid (x,y) = .....


where (0,0) is the top left corner of the grid. Using the above function I would like to be able to extract a square so I get like this (if my coordinates are (2,0), (3,0), (2,1), (3,1)):

["c1","d1","c2","d2"]


I have tried some methods including the map function but need some tips on how to proceed.

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Did I understand right, that the size of the local square should always be n/2 * n/2, when the squares size is n * n? –  phynfo May 27 '11 at 19:43
@phynfo I think so. I'm pretty sure that's right! –  maclunian May 27 '11 at 19:53
You're trying to extract values from the grid, right? So the grid won't always be in such repetitious order? Because right now, we could convert (x,y) values into "letter-number" values just by counting the letters of the alphabet appropriately, without looking at the grid at all. –  amindfv May 28 '11 at 2:48

localSquare :: [[a]] -> (Int,Int) -> [[a]]
localSquare xss (x,y) = map (take y . drop n) $(take x . drop n) xss where n = length xss div 2 matrix = replicate 10 [1..10]  applied: > localSquare matrix (5,5) [[6,7,8,9,10],[6,7,8,9,10],[6,7,8,9,10],[6,7,8,9,10],[6,7,8,9,10]]  If you indeed need a plain list, apply just type concat$ localSquare matrix (5,5)
We haven't used the $ symbols at all – maclunian May 27 '11 at 19:55 f$ x is the same as f x or concat $localSquare matrix (5,5) is the same as concat (localSquare matrix (5,5)). I.E. you can use $ to avoid parantheses and to make your code more readable... –  phynfo May 27 '11 at 20:03