# Combine equivalent items in a list

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]
``````
-

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 )
*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)
where
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