I was trying to understand why Haskell's show treats a list of chars different from a list of e.g. integers even without the FlexibleInstances Pragma.

Having read through the documentation of Show, I realized that I don't really understand how Haskell chooses methods for instances of type classes.

Consider the following code:

class MyShow a where
    myShow :: a -> String
    myShowList :: [a] -> String
    myShowTuple :: (a, b) -> String

    myShowList xs = "Default List Implementation"
    myShowTuple t = "Default Tuple Implementation"

instance MyShow Char where
    myShow c = "One Char"
    myShowList xs = "List of Chars"
    myShowTuple t = "Char Tuple"

instance MyShow Int where
    myShow n = "One Int"
    myShowList xs = "List of Integers"
    myShowTuple t = "Int Tuple"

instance MyShow Float where
    myShow n = show n

instance (MyShow a) => MyShow [a] where
    myShow = myShowList

instance (MyShow a) => MyShow (a, b) where
    myShowTuple t = "foo"
    myShow = myShowTuple

Now if I call e.g.

myShow (5::Int,5::Int)

I would expect that Haskell thinks 'Oh, myShow got a tuple as an argument. Let's see which implementation I have to call.' and chooses the last one which in return would result in "foo". Obviously, this is not the case. Haskell seems to look at the content of the tuple (namely the type of a) and decides to call the corresponding method, resulting in "Int Tuple".

Why is this?


When you write myShow (5::Int, 5::Int), Haskell does say "Oh, myShow got a tuple as an argument. Let's see which implementation I have to call." and it does choose the last one, i.e. myShow = myShowTuple. But that doesn't mean the result will be "foo". It means that the result of calling myShow (5::Int, 5::Int) will be the same as the result of calling myShowTuple (5 :: Int, 5 :: Int).

So now Haskell has to decide which version of myShowTuple it has to call. Since myShowTuple has type MyShow a => (a, b) -> String, the version of myShowTuple that's defined on the second-to-last line has type MyShow a => ((a, c), b) -> String, so that one doesn't fit. The one defined on line 17 has type (Int, b) -> String, so that one does fit. So that's the one that is picked.

  • Thanks for your answer, but I still don't understand why myShowTuple on the second-to-last line has type ((a, c), b) as tuples aren't the only instance of MyShow. – Aton Jun 2 '13 at 19:13
  • 1
    @Aton (Renaming type variables to avoid ambiguity). Because inside the class definition of MyShow t you have myShowTuple :: (t, t2) -> String and on the second to last line, you're in the instance definition for MyShow (a,b), so t is (a,b), thus (t, t2) -> String becomes ((a,b), t2) -> String. – sepp2k Jun 2 '13 at 20:11

Haskell's thought process is something like this:

  1. It tries to figure out the instance of MyShow for (5 :: Int, 5 :: Int) or (Int, Int)
  2. It then finds the instance MyShow a => MyShow (a, b)
  3. Since this unifies, (a => a and b => a) it selects this instance.
  4. It checks to make sure a, in this case Int, is also an instance of MyShow, which it is. Notice: This check happens after the instance is selected.
  5. myShow (5 :: Int, 5 :: Int) call's the tuple's myShow and becomes myShowTuple (5 :: Int, 5 :: Int)
    • It doesn't call myShowTuple since this has the type (a, b) and in the tuple's case, a is (a, b) so myShowTuple has the type ((a, b) ,c) which is clearly not a match.
  6. This has the type MyShow a => (a, b) -> String) and since a in this case has the type Int haskell resolves this to the Int instance of MyShow
  7. It runs the appropriate myShowTuple
  8. You get "Int Tuple"

Just a sidenote, if this was an actual implementation of Show you'd want something like this for myShowTuple

myShowTuple :: MyShow b => (a, b) -> String

Otherwise you have no way to actual format that b which is after all, any type.

This would make

instance (MyShow a) => MyShow (a, b) where


instance (MyShow a, MyShow b) => MyShow (a, b) where

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