If you are interested in arbitrary nested lists, then you can write something like this (an arbitrary nested list is essentially a tree):

```
data Nested a = Leaf a | Nest [Nested a] deriving Show
traverse :: Nested Integer -> Nested Char
traverse (Leaf x) = Leaf (valueOf x)
traverse (Nest xs) = Nest (map traverse xs)
valueOf :: Integer -> Char
valueOf 0 = 'x'
valueOf 1 = 'y'
valueOf _ = 'z'
```

With that you can do:

```
Main> let nl = Nest [Leaf 1, Leaf 0, Nest [Leaf 0, Leaf 0, Leaf 1, Nest [Leaf 1, Leaf 1, Leaf 0]], Nest [Leaf 1, Leaf 1]]
Main> traverse nl
Nest [Leaf 'y',Leaf 'x',Nest [Leaf 'x',Leaf 'x',Leaf 'y',Nest [Leaf 'y',Leaf 'y',Leaf 'x']],Nest [Leaf 'y',Leaf 'y']]
```

The function `traverse`

takes an arbitrary nested list of `Integer`

s and returns a corresponding nested list of `Char`

s according to the `valueOf`

rule

`map`

and`filter`

. – MatrixFrog Sep 27 '11 at 6:14