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I want a datatype to represent a finite set of integers that can be addressed by specific names. I figure the best way to do that is to use Enum. However, there is one small problem. The only way I know for defining an Enum is something like this:

data MyDataType = Foo | Bar | Baz

instance Enum MyDataType 
 toEnum 0 = Foo
 toEnum 1 = Bar
 toEnum 2 = Baz

 fromEnum Foo = 0
 fromEnum Bar = 1
 fromEnum Baz = 2 

Note that I have to repeat the same pair two times - one time when defining an integer-to-enum mapping and the other time when defining an enum-to-integer mapping. Is there a way to avoid this repetition?

Thanks.

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7  
Do you know about deriving Enum ? It is magical! –  Don Stewart May 14 '11 at 7:50
1  
Ok, but it probably will not work if the values that are assigned to the names are not sequential, e.g. Foo should be 2, Bar should be 4, Baz should be 8, etc. –  user500944 May 14 '11 at 7:52
1  
Aside from Augustss's suggestion, a method I've used is to derive Enum and place filler types in the gaps (when the gaps are small): data SomeEnum = ValueA | Reserved1 | Reserved2 | ValueB | Reserved3 | ValueC –  Thomas M. DuBuisson May 14 '11 at 9:17
1  
Something to note, though - long hand, as per the code in the question, is both efficient and clear. Sometimes scraping boilerplate isn't the best path. –  stephen tetley May 14 '11 at 11:10
1  
If the values you want are in fact 2, 4, 8, 16, etc. it seems to me there might be another way. Like, use deriving Enum, but then write your own version of the toEnum' and fromEnum' which call toEnum and fromEnum and then do the 2^x conversion. Whether this is any better, I don't know. –  MatrixFrog May 15 '11 at 3:39

4 Answers 4

up vote 17 down vote accepted
instance Enum MyDataType where
    fromEnum = fromJust . flip lookup table
    toEnum = fromJust . flip lookup (map swap table)
table = [(Foo, 0), (Bar, 1), (Baz, 2)]
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...where swap is the obvious swap (x,y) = (y,x) (defined in Data.Tuple in the latest Haskell Platform) –  Robin Green May 14 '11 at 9:10
11  
I know I am not supposed to care, but will this be optimized into something efficient by ghc? –  Florian Apr 11 '13 at 9:51
    
@Florian, probably not. It's possible to write similar things that probably will be. –  dfeuer Feb 22 at 16:53
data MyDataType = Foo | Bar | Baz deriving (Enum)
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Good for sequential enum values (like in my example), but will it work if the values are not sequential (e.g. Foo should be 2, Bar should be 4, and so on?) –  user500944 May 14 '11 at 7:53
    
Not directly - but if you can write a bijective function f which turns the consecutive integers from 0..n into the integers you want, you can define a newtype MyRealDataType = MyRealDataType MyDataType and give it an Enum instance which "corrects" the values produced by the Enum instance of MyDataType. The disadvantage is you have to unwrap it when you want to pattern match directly on the names, etc. –  Robin Green May 14 '11 at 8:02
    
Problem is, there is no specific law according to which the values change (they are not powers of 2, for example). –  user500944 May 14 '11 at 8:06

Since you say the numbers are not generated by any regular law, you could use generic programming (e.g. with Scrap Your Boilerplate) or Template Haskell to implement a generic solution to this problem. I tend to prefer Template Haskell because it actually generates code and compiles it, so you get all the type-checking and optimisation benefits of GHC.

I wouldn't be surprised if someone had implemented this already. It should be trivial.

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OK, I should have thought of augustss's solution. The only advantage of this one is that you don't need to list out all the constructor names twice. –  Robin Green May 14 '11 at 9:05
    
And yours gets optimized.and checked properly. –  dfeuer Mar 1 at 7:15

The problem with the accepted solution is the compiler won't tell you when you are missing an enum in your table. The deriving Enum solution is great, but it won't work if you want to have an arbitrary mapping to numbers. Another answer suggests Generics or Template Haskell. This follows up on that by using Data.

{-# Language DeriveDataTypeable -#}
import Data.Data
data MyDataType = Foo | Bar | Baz deriving (Eq, Show, Data, Typeable)

toNumber enum = case enum of
   Foo -> 1
   Bar -> 2
   Baz -> 4

We will get compiler warning in the toNumber case mapping when a new constructor is added.

Now we just need the ability to turn that code into data so that the mapping can be automatically reversed. Here we generate the same table mentioned in the accepted solution.

table = map (\cData -> let c = (fromConstr cData :: MyDataType) in (c, toNumber c) )
      $ dataTypeConstrs $ dataTypeOf Foo

You can fill out an Enum class just the same as in the accepted answer. Unmentioned there is that you can also fill out the Bounded class.

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