data NestedList a = Elem a | List [NestedList a]
flatten :: NestedList a -> [a]
flatten (Elem element) = [element]
flatten (List []) = []
flatten (List (first:rest)) = flatten first ++ flatten (List (rest))
main = print $ flatten $ List []

I wrote the above seen code in haskell. When I execute this with any other parameter, for example

main = print $ flatten $ List [Elem 1, Elem 2]
main = print $ flatten $ Elem 1

It gives

[1, 2]


It fails when I execute it with an empty List.

main = print $ flatten $ List []

Error message

No instance for (Show a0) arising from a use of `print'
The type variable `a0' is ambiguous
Possible fix: add a type signature that fixes these type variable(s)
Note: there are several potential instances:
  instance Show Double -- Defined in `GHC.Float'
  instance Show Float -- Defined in `GHC.Float'
  instance (Integral a, Show a) => Show (GHC.Real.Ratio a)
    -- Defined in `GHC.Real'
  ...plus 23 others
In the expression: print
In the expression: print $ flatten $ List []
In an equation for `main': main = print $ flatten $ List []


  1. Why does it fail and how can I fix this?
  2. Should I change my NestedList definition to accept an empty List? If so, how do I do that. Its quite confusing.
  • 3
    GHC has no information which type to use. When you had Elem 1, in the list, that provided a Num a constraint, and then GHC could default the type variable to Integer. With no elements, it can't default the type variable a0. Give it a type signature, main = print $ flatten $ (List [] :: NestedList () ), for example, so the compiler knows which type to use. – Daniel Fischer Sep 4 '13 at 13:53

The problem is the compiler can't know the type of flatten $ List []. Try to figure out the type yourself, you'll see it's [a] for some a, whilst print requires its argument to be an instance of Show, and [a] is an instance of Show if a is an instance of Show. Even though your list is empty, so there's no need for any constraint on a to represent [], there's no way for the compiler to know.

As such, putting an explicit type annotation (for any type for which an instance of Show exists) should work:

main = print $ flatten $ List ([] :: [NestedList Int])


main = print $ flatten $ List ([] :: [NestedList ()])


main = print fl
    fl :: [()]
    fl = flatten $ List []
  • What does the empty parens mean after NestedList and in [()]? – thefourtheye Sep 5 '13 at 0:26
  • 1
    @thefourtheye () is a size-zero tuple. It's kind of Haskell's equivalent of void. – MathematicalOrchid Sep 5 '13 at 7:41
  • And haskell knows how to print an empty tuple? – thefourtheye Sep 5 '13 at 12:32
  • 1
    Yes, since there's a 'Show' instance for '()'. Unlike '[]' which is of type '[a]', '()' is of type '()', so nothing can influence printing, the 'show' result is always '()'. – Nicolas Trangez Sep 6 '13 at 13:35

The list type is polymorphic. Since you don't supply an element, just the empty list constructor [], there's no way to infer what list type this is.

Is it: [] :: [Int]

or [] :: [Maybe (Either String Double)]. Who's to say?

You are. Supply a type annotation to resolve the polymorphism, then GHC can dispatch to the correct show instance.


main = print $ flatten $ List ([] :: [Int])

To add to the answers here already, you may object "but what does it matter what type of things my list contains? it doesn't have any of them in it!"

Well, first of all, it is easy to construct situations in which it's unclear whether or not the list is empty, and anyway type checking hates to look at values, it only wants to look at types. This keeps things simpler, because it means that when it comes to deal with values, you can be sure you already know all the types.

Second of all, it actually does matter what kind of list it is, even if it's empty:

ghci> print ([] :: [Int])
ghci> print ([] :: [Char])

[] can be a list of floats, strings, booleans or actually any type at all. Thus, print does not know which instance of show to use.

Do as the error message says and give an explicit type, as in ([] :: [Int]).

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