You have a constant for what the scoring is

```
scoring :: [Int]
scoring = [25, 18, 15, 12, 10, 8, 6, 4, 2, 1]
```

Then you need a way for pairing up a driver with the score they got. Whenever you're pairing two things in Haskell, the canonical choice is to use a tuple. The easiest way to construct a list of tuples from two lists is the `zip`

function:

```
zip :: [a] -> [b] -> [(a, b)]
```

And in this case can be used to assign scores for a race:

```
assignScores :: [String] -> [(String, Int)]
assignScores race = zip race scoring
```

Now, we need a way to total up the scores for a driver for each race. We want to be able to turn something like

```
[("Bob", 12), ("Joe", 10), ("Bob", 18), ("Joe", 25)]
```

into

```
[("Bob", 30), ("Joe", 35)]
```

The easiest way would be to make a single list of all the scores for all the races

```
assignAllScores :: [[String]] -> [(String, Int)]
assignAllScores races = concatMap assignScores races
```

Then we can use `sortBy`

from `Data.List`

to get all the same names next to each other

```
sortBy :: (a -> a -> Ordering) -> [a] -> [a]
compare :: Ord a => a -> a -> Ordering
sortByDriver :: [(String, Int)] -> [(String, Int)]
sortByDriver races = sortBy (\(n1, s1) (n2, s2) -> compare n1 n2) races
```

Then we can use `groupBy`

(also from `Data.List`

) to group them all by name

```
groupBy :: (a -> a -> Bool) -> [a] -> [[a]]
groupByDriver :: [(String, Int)] -> [[(String, Int)]]
groupByDriver races = groupBy (\(n1, s1) (n2, s2) -> n1 == n2) races
```

But this gives us a list like

```
[[("Bob", 12), ("Bob", 18)], [("Joe", 10), ("Joe", 25)]]
```

We now need a way to convert this into the form

```
[("Bob", [12, 18]), ("Joe", [10, 25])]
```

where all the scores are aggregated back into a list, and we don't repeat the names at all. This is left as an exercise.

```
aggregateScores :: [[(String, Int)]] -> [(String, [Int])]
```

Then we can finally calculate the sum of these scores

```
sumScores :: [(String, [Int])] -> [(String, Int)]
sumScores races = map (\(name, scores) -> (name, sum scores)) races
```

Then finally we can sort by the scores to get everyone in order

```
sortByScore :: [(String, Int)] -> [(String, Int)]
sortByScore races = sortBy (\(n1, s1) (n2, s2) -> compare s2 s1) races
```

Notice that I have `compare s2 s1`

instead of `compare s1 s2`

, this means it will be sorted in descending order instead of ascending order.

The last step is to strip out the scores, now we have our list of drivers in order from winner to loser

```
removeScores :: [(String, Int)] -> [String]
removeScores races = map fst races
```

So to combine everything together into one function

```
f1Results :: [[String]] -> [String]
f1Results races =
removeScores $
sortByScore $
sumScores $
aggregateScores $
groupByDriver $
sortByDriver $
assignAllScores races
```

There are several tricks that can make this code shorter, namely `Data.Function.on`

, `Data.Ord.comparing`

, and a fun operator from `Control.Arrow`

. Don't turn this in as homework, I just wanted to show an alternative that uses less code.

```
import Data.List
import Data.Function (on)
import Data.Ord (comparing)
scoring :: [Int]
scoring = [25, 18, 15, 12, 10, 8, 6, 4, 2, 1]
f1Results :: [[String]] -> [String]
f1Results =
map fst . sortBy (on (flip compare) snd) .
map ((head *** sum) . unzip) .
groupBy (on (==) fst) . sortBy (comparing fst) .
concatMap (`zip` scoring)
```

Or using `Data.Map`

:

```
import Data.Map (assocs, fromListWith)
import Data.List
import Data.Ord (comparing)
scoring :: [Int]
scoring = [25, 18, 15, 12, 10, 8, 6, 4, 2, 1]
f1Results :: [[String]] -> [String]
f1Results =
reverse . map fst . sortBy (comparing snd) .
assocs . fromListWith (+) .
concatMap (`zip` scoring)
```