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Consider I was designing a Monopoly game:

data Board = GO | A1 | CC1 | A2 | T1 | R1 | B1 | CH1 | B2 | B3 | 
  JAIL | C1 | U1 | C2 | C3 | R2 | D1 | CC2 | D2 | D3 | 
  FP | E1 | CH2 | E2 | E3 | R3 | F1 | F2 | U2 | F3 | 
  G2J | G1 | G2 | CC3 | G3 | R4 | CH3 | H1 | T2 | H2
  deriving (Show, Enum, Eq)

I want:

succ H2 == GO

But instead:

*** Exception: succ{Board}: tried to take `succ' of last tag in enumeration

Is there a typeclass for expressing an enumeration that wraps around?

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

3 Answers 3

up vote 13 down vote accepted

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.

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2  
I recommend against making succ maxBound = minBound; the Bounded typeclass explicitly says that succ maxBound should result in a runtime error. –  Edward Z. Yang Apr 16 '11 at 9:35
    
This still doesn't let you do, say [H1 .. A1], which should logically be equal to [H1, T2, H2, GO, A1]. –  Anschel Schaffer-Cohen Apr 16 '11 at 19:18
    
@Edward: The second solution doesn't have Board an instance of Bounded, so that problem doesn't occur. I'll make that more explicit that the type cannot be Bounded when implementing Enum that way in the answer though. –  David Miani Apr 17 '11 at 2:23
    
Ah, I suppose, then, that this is OK. :-) –  Edward Z. Yang Apr 17 '11 at 8:23

A simpler solution than nanothief:

nextBoard :: Board -> Board
nextBoard H2 = GO
nextBoard t = succ t

I don't think you'll be able to use Enum directly for what you want, but this solution quickly wraps it to form the behaviour you want.

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I know this is an old question but I just had this problem and I solved it this way.

data SomeEnum = E0 | E1 | E2 | E3
               deriving (Enum, Bounded, Eq)

-- | a `succ` that wraps 
succB :: (Bounded a, Enum a, Eq a) => a -> a 
succB en | en == maxBound = minBound
         | otherwise = succ en

-- | a `pred` that wraps
predB :: (Bounded a, Enum a, Eq a) => a -> a
predB en | en == minBound = maxBound
         | otherwise = pred en  

The solution derives both Enum and Bounded but avoids abusing pred and succ as suggested.

Incidently, I found that having

allSomeEnum = [minBound..maxBound] :: [SomeEnum] 

can be useful. That requires Bounded.

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