The simplest option is to make Board an instance of `Bounded`

(can be auto derived as well), and use the following helper functions:

```
next :: (Enum a, Bounded a) => a -> a
next = turn 1
prev :: (Enum a, Bounded a) => a -> a
prev = turn (-1)
turn :: (Enum a, Bounded a) => Int -> a -> a
turn n e = toEnum (add (fromEnum (maxBound `asTypeOf` e) + 1) (fromEnum e) n)
where
add mod x y = (x + y + mod) `rem` mod
```

Example Use:

```
> next H2
G0
> prev G0
H2
> next F1
F2
```

(inspired by the the thread at http://www.mail-archive.com/haskell-cafe@haskell.org/msg37258.html ).

If you really need to use `succ`

and `pred`

instead, I don't believe there is any laws regarding implementations of `Enum`

such that `succ (succ x) /= x`

for all `x`

(even though that is how most work). Therefore you could just write a custom implementation of `Enum`

for your type that exhibits the wraparound you desire:

```
instance Enum Board where
toEnum 0 = G0
toEnum 1 = A1
...
toEnum 40 = H2
toEnum x = toEnum (x `mod` 40)
fromEnum G0 = 0
fromEnum A1 = 1
...
fromEnum H2 = 40
```

That is very tedious to implement though. Also, the type shouldn't also implement `Bounded`

when using a circular definition of `Enum`

, as that breaks a rule regarding `Bounded`

that `succ maxBound`

should result in a runtime error.

`Enum`

. You just need to write your own instead of deriving it automatically. – R. Martinho Fernandes Apr 16 '11 at 2:27