I'm trying to construct a datatype that is essentially a binary tree whose: each node's left branch is a function that can act on the variable in each node's right branch. I'm new to Haskell, and I'm not sure I'm going about this the right way, but my current problem is that I can't figure out how to add my type to the Show typeclass. Here is my attempt:

```
{-# LANGUAGE ExistentialQuantification #-}
-- file: TS.hs
data TypeSentence a = forall b. Apply (TypeSentence (b->a)) (TypeSentence b)
| Expr a
instance (Show a) => (Show (TypeSentence a)) where
show (Expr x) = show x
show (Apply x y) = (show x) ++ " " ++ (show y)
instance (Show (TypeSentence b->a)) where
show (Expr x) = show "hello"
x = Expr 1
f = Expr (+1)
s = Apply f x
```

However, when I load this into ghci I get the following error:

```
TS.hs:9:24:
Could not deduce (Show (b -> a)) from the context ()
arising from a use of `show' at TS.hs:9:24-29
Possible fix:
add (Show (b -> a)) to the context of the constructor `Apply'
or add an instance declaration for (Show (b -> a))
In the first argument of `(++)', namely `(show x)'
In the expression: (show x) ++ " " ++ (show y)
In the definition of `show':
show (Apply x y) = (show x) ++ " " ++ (show y)
Failed, modules loaded: none.
```

Any ideas how I go about adding the Show (b->a) declaration?

Thanks.

`Show`

instance forgeneral functions, how do you imagine that should work? I don't think you actually want this, either. — Anyway, first of all this tree of yours does not do what you say:`b->a`

can act on a`b`

, but in the other branch there's an`a`

. I believe you want to put a`b`

there? – leftaroundabout Jun 28 '12 at 19:31`instance Show (TypeSentence (b->a))`

? Note the brackets – sdcvvc Jun 28 '12 at 19:36`import Text.Show.Functions`

gives you a`Show`

instance for functions (`show _ = "<function>"`

). – Daniel Fischer Jun 28 '12 at 19:36`f :: (a -> b) -> String`

such that`f (+ 1) = "(+ 1)"`

and`f $ \x -> x + 1 = "\\x -> x + 1"`

would allow us to distinguish two equal functions; and function equality is undecidable, which prevents us from finding some "canonical form" to show. – Antal S-Z Jun 28 '12 at 19:47