I would ideally like to write something like this:

myValue1 = 1 :: Int
myValue2 = 2 :: Int

myFunc :: Int -> Bool
myFunc myValue1 = True
myFunc myValue2 = False

Calling myFunc myValue2 returns True - not what I intend. I know why this happens, but is there a way to express this in Haskell without resorting to C-style #define statements?

  • Thanks everyone, for the extremely quick responses! – Kevin Sep 16 '10 at 18:20

Well, Haskell doesn't unify names like this. Those new 'myValue1' and '2' identifiers are new variables you're binding.

The most Haskelly way is to use strong types and pattern matching:

data Values
   = D1
   | D2

myFunc :: Values -> Bool
myFunc D1 = True
myFunc D2 = False

Giving you a static guarantee only "1" or "2" can be passed to myFunc, proper symbolic matching and you even retain conversion to integers by deriving Enum.

  • Thanks, this seems to be the closest to what I want to do - I hadn't thought of deriving Enum, which will be just the ticket. – Kevin Sep 16 '10 at 18:20

You cannot match against variable values as Don explained.

But you can use guards in this case:

myValue1 = 1 :: Int
myValue2 = 2 :: Int

myFunc :: Int -> Bool
myFunc x
  | x == myValue1 = True
  | x == myValue2 = False

If you don't want to create another data type, the usual solution is to use guards:

myValue1 = 1 :: Int
myValue2 = 2 :: Int

myFunc :: Int -> Bool
myFunc val | val == myValue1 = True
           | val == myValue2 = False

What you put after the pipe can be any boolean condition; if it's true, the corresponding function body will be run.


If the idea is just to define some constants to use in patterns, you can also use the language extension PatternSynonyms:

{-# LANGUAGE PatternSynonyms #-}

pattern MyValue1 = 1
pattern MyValue2 = 2

myFunc :: Int -> Bool
myFunc MyValue1 = True
myFunc MyValue2 = False

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