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Let's say I have the following type

type Key = String
type Score = Int
data Thing = Thing Key Score

And if I have an array of them like this:

[Thing "a" 7, Thing "b" 5, Thing "a" 10]

Is there a standard way to reduce this so that I don't have any duplicate keys? If two keys match, I want to take the better score

[Thing "b" 5, Thing "a" 10]
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4 Answers 4

up vote 4 down vote accepted

Basically first we must decide what is problem solving and what is implementation difficulties. So what If we first sort by Score, and then just keep the first occurrences in the sorted list with respect to Key? That should work, let's look at the haskell implementation:

import Data.List
import Data.Function

type Key = String
type Score = Int
data Thing = Thing { key :: Key, score :: Score }
  deriving (Show)

myNub  = nubBy  ((==) `on` key)
mySort = sortBy (compare `on` (negate . score))

selectFinest = myNub . mySort

Now we try run this in ghci:

Prelude> :load Test.hs 
[1 of 1] Compiling Main             ( Test.hs, interpreted )
Ok, modules loaded: Main.
*Main> selectFinest [Thing "a" 7, Thing "b" 5, Thing "a" 10]
[Thing {key = "a", score = 10},Thing {key = "b", score = 5}]

Checkout hoogle if you are uncertain about the functions I used in the solution. It indeed takes some time to learn how to use on and those functions.

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Uh, on. Could make my solution a lot better. –  pmr Nov 17 '11 at 22:23
on seems pretty dang handy. Thanks! –  Sean Clark Hess Nov 18 '11 at 0:11

A very simple solution is to use Data.Map.fromListWith, which converts a list of key-value pairs to a map, given a function to combine multiple values with the same key.

Prelude Data.Map> fromListWith max [("a", 7), ("b", 5), ("a", 10)]
fromList [("a",10),("b",5)]

Note that this expects tuples, so convert as necessary. Also, it does not preserve the order of the input elements. Run time is O(n log n).

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+1. Excellent solution! It was quite counter-intuitive, as you actually sort by the keys (unlike my solution), however max will let only the greatest of values remain. –  Tarrasch Nov 18 '11 at 7:38

Here is my feeble attempt. There surely is a nicer way but I'm not much of a Haskell programmer.

import Data.List

type Key = String
type Score = Int
data Thing = Thing Key Score
           deriving (Show, Ord)

instance Eq Thing where
    (Thing k1 _) == (Thing k2 _) = k1 == k2
    (Thing k1 _) /= (Thing k2 _) = k1 /= k2

thingSort :: [Thing] -> [Thing]
thingSort = Data.List.sortBy . flip $ compare 

ex = [Thing "a" 7, Thing "b" 5, Thing "a" 10]

filtered = nub (thingSort ex)
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I think you can use compare y x instead of having to do a negCompare... –  hugomg Nov 17 '11 at 22:42
@missingno flip is even better. –  pmr Nov 17 '11 at 22:47

I'm posting a O(n log n) solution, since everyone seems fine with being O(n^2)

consolidate :: (Ord a, Ord b) => [Thing a b] -> [Thing a b]
consolidate xs = 
    max_from_each_group (sortBy (compare `on` getKey) xs)
       max_from_each_group [] = []
       max_from_each_group (x:xs) = 
           let (same_key, rest) = span (\t -> x == getKey t) xs in
           let group_max = maximumBy (compare `on` getValue) (x:same_key) in
           group_max : max_from_each_group rest
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max_from_each_group (sortBy (compare on` getKey))` looks like a type error to me –  Philip JF Nov 18 '11 at 0:06
@PhilipJF: What? I don't see anything ;) –  hugomg Nov 18 '11 at 2:17

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