I'd like help doing it "my way" because i can google other solutions if i want to know better/more Haskellic ways to do it

Now I get:

```
Couldn't match expected type `Int' with actual type `[Int]
```

Here is my thought, but somewhere it is wrong. How does one go about when sending accumulators (I've thought back and forth having it in the "base case" or not)

My thinking is that i select one of the coins, and then adding all others in separate recursions and seeing if it is equal to 200, if so then that is what i want to add to my results, if lower, add the coin to the list eg `[100,50]`

and then recurse the same way. If above 200, return null/empty or whatever. `Hand`

is what i call the added coins so far

```
module Main where
coins = [100,50,20,10,5,2,1]
euler31 :: Int
euler31 = 1 + length (twoPoundCombinations)
twoPoundCombinations = recursion [] [[]]
recursion :: [Int] -> [[Int]] -> [[Int]],
recursion hand result
| sum hand == 200 = [hand]
| sum hand > 200 = [[]]
| sum hand < 200 = result ++ map (\x -> recursion (x:hand) [[]]) coins
```

`1x£1 + 1x50p + 2x20p + 1x5p + 1x2p + 3x1p`

. this is how they show us what they mean by "one way to get 2 pounds in coins". This translates to`[(100,1),(50,1),(20,2),(5,1),(2,1),(1,3)]`

and should be counted onlyonce. If you generate your solutions inthisform, it's OK to count them by taking`length`

, as long as all such lists are unique, kept ordered by the pairs' first elements. But I notice you don't bother representing the unique solution`[(200,1)]`

, instead just counting it as ready made`1`

in your function, kind of a shortcut... – Will Ness Jul 16 '12 at 17:56