# Modifying arrays in Haskell and remembering indices

I need to make transformations to a subarray, and might need to make transformations on a subarray of the subarray, and so on.

Is there intuitive ways of doing this in Haskell, such as defining a subarray or something like that? I read the section on arrays in "a gentle introduction to haskell", and it doesn't address it, and I have a hard time finding a way to do it.

It's for an implementation of the Hungarian Algorithm as described here on wikipedia.

So so far I have done the following:

``````import Array

step1 :: (Ord a , Num a) => Array (Int,Int) a -> Array (Int,Int) a
step1 a      = a // [ ((i,j), f (i,j) ) | (i,j) <- range (bounds a) ] where
f (i,j)  = a!(i,j) - minRow i
minRow i = minimum [ a!(i,j) | j <- [1..(snd . snd . bounds) a] ]

step2 :: (Ord a , Num a) => Array (Int,Int) a -> Array (Int,Int) a
step2 a      = a // [ ((i,j), f (i,j) ) | (i,j) <- range (bounds a) ] where
f (i,j)  = a!(i,j) - minCol j
minCol j = minimum [ a!(i,j) | i <- [1..(fst . snd . bounds) a] ]
``````

The problem is that I don't know how to implement step 3 and 4, which continues the procedure on a submatrix, in case a solution is not readily available.

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There's some sample code on Hackage that might help out, see hackage.haskell.org/packages/archive/Munkres/0.1/doc/html/src/… –  Jeff Foster Mar 21 '12 at 16:46
There's a lot of code in here that I really don't understand. For example, how is the `@` operator defined? It is used in about every second line, in expressions like `xxs@(x:xs)`. –  Undreren Mar 23 '12 at 10:23
The `@` operator is used for giving a name to the components that match a pattern. It means `xxs` can be used to refer to the expression that matched `(x:xs)` –  Jeff Foster Mar 23 '12 at 10:35
While we're at it, i sometimes see people using `??`. What does that mean? –  Undreren Mar 23 '12 at 11:17
That one I'm not so sure - see haskell.org/haskellwiki/Keywords for the Haskell keywords. –  Jeff Foster Mar 23 '12 at 12:10

I found a way to work around, allthough it's a bit of a hack. And it only works on 2D arrays, ie arrays of type `Array (Int,Int) Int`. Here's what I did:

``````import Data.Array
import Control.Applicative

updateSubArr :: [Int] -> [Int] -> (Array (Int,Int) Int -> Array (Int,Int) Int)
-> Array (Int,Int) Int -> Array (Int,Int) Int
updateSubArr rows cols f arr    = arr // (zip [(i,j) | i <- rows, j <- cols ]
[ fSubArr!i | i <- range \$ bounds subArr ]) where
fSubArr = f subArr
subArr  = subArray cols rows arr

subArray rows cols arr  = subArr where
js      = length cols
is      = length rows
subArr      = array subBounds \$ zip (range subBounds)
[ arr!(i,j) | i <- rows, j <- cols ]
subRange    = range subBounds
subBounds   = ((1,1),(is,js))
``````

Could this be made to work for a general `Array a b`?

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