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In GNU Octave this code -

[e, ix] = min(X);

will return minimum element and it's location. How do you this in repa for arbitrary binary function?

This is what I came up with:

min x = z $ foldl' f (e,0,0) es
    (e:es) = toList x
    f (a,ix,r) b = let ix' = ix+1 in if a < b then (a,ix',r) else (b,ix',ix')
    z (a,ix,r) = (a,r)

In above example we convert repa 1D matrix to list and use foldl' (from Data.List) with two accumulators - one for counting iterations (ix) and other to save position of min element (r). But the whole point of using repa is to use arrays, not lists!

In repa there are two folds for Array type (foldS and foldP) - but they can only take function of type (a -> a -> a) - meaning, I cannot pass tuple with accumulators to it. There is also traverse, which can, in principle, reduce 1D array to a scalar array:

min x = traverse x to0D min
    to0D (Z:.i) = Z
    min f (Z) = ??? -- how to get elements for comparison?

The first thing that comes to mind is

[f (Z:.i) | i <- [1..n]], where n = (\(Z:.i) -> i) $ extent x

But this will also convert array to list, instead of doing computation on the array.

share|improve this question
Not really familiar with repa, but can't you just map each item to a tuple before using foldP?. For example, you can describe a subarray using a tuple of the minimum element, the index of the minimum and the length of the subarray. So you map each element x to (x, 0, 1) and then parallel fold using f (x, i, n) (y, j, m) = if x < y then (x, i, n+m) else (y, n+j, n+m). For an identity element, you can probably get away with (minBound, 0, 0). – hammar Nov 26 '12 at 22:10
Sorry, that should of course be maxBound. – hammar Nov 26 '12 at 22:27
In order to use foldP with a tuple you will have to have array with those tuples. It can be done, but this is kind of wasteful for image processing (millions of elements). – EvgenijM86 Nov 27 '12 at 15:05
@EvgenjiM86: The idea was that the intermediate array of tuples would be fused away. – hammar Nov 27 '12 at 15:15

I'm no expert on Repa, but this seems to work for 1-D arrays. It can probably be adapted for other dimensions.

import Data.Array.Repa

indexed arr = traverse arr id (\src idx@(Z :. i) -> (src idx, i))

minimize arr = foldP f h t
    (Z :. n) = extent arr
    arr' = indexed arr
    h = arr' ! (Z :. 0)
    t = extract (Z :. 1) (Z :. (n-1)) arr'
    f min@(valMin, iMin) x@(val, i) | val < valMin = x
                                    | otherwise = min
share|improve this answer
I'm facing the same issue and found no other solution. – olek Jul 17 '13 at 14:06

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