My tree is defined by

``````data Tree a = Leaf a | Node (Tree a) (Tree a)
deriving (Show)
``````

I also declare a testing tree.

``````myTree = Node (Node (Leaf 1) (Leaf 2)) (Leaf 3)
``````

What I want to do is create a function maptree f which will act on Leaf. To be more specifically, `f x = x +1`,

then `maptree f myTree` will return

``````Node (Node (Leaf 2) (Leaf 3)) (Leaf 4)
``````

My solution is

``````maptree f (Leaf a)= Leaf (f a)
maptree f (Node xl xr ) = Node (maptree xl) (maptree xr)
``````

but it will return the following error

``````Couldn't match expected type `Tree a'
against inferred type `Tree t -> Tree t'
Probable cause: `maptree' is applied to too few arguments
In the first argument of `Node', namely `(maptree xl)'
In the expression: Node (maptree xl) (maptree xr)
``````

However, if I do

``````maptree (Leaf a)= Leaf ( a + 1)
maptree (Node xl xr ) = Node (maptree xl) (maptree xr)
``````

it does work out.

I can not see the difference between the first function and the second one. How do I get error? Thanks.

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I got it working now. I'm stupid...>< –  DB Tsai Oct 2 '11 at 5:34
Should be maptree f (Node xl xr ) = Node (maptree f xl) (maptree f xr) instead of maptree f (Node xl xr ) = Node (maptree xl) (maptree xr) –  DB Tsai Oct 2 '11 at 5:34

One dumb way to not forget to pass along the function as you recurse deeper (for this sort of higher-order function) is to use a helper:

``````maptree f (Leaf a)     = Leaf (f a)
maptree f (Node xl xr) = Node (go xl) (go xr)
where go = maptree f
``````

Or, alternatively (and perhaps more commonly):

``````maptree f tree = go tree                      -- or eta reduce:   maptree f = go
where go (Leaf a)     = Leaf (f a)
go (Node xl xr) = Node (go xl) (go xr)
``````

In the first example, I use `go` sort of as a macro for `maptree f`. In the second example, I take advantage of the fact that `maptree`'s input `f` is in scope inside the `go` function because `go` is declared in a `where` clause of `maptree`.

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You are missing the function on the recursive maptree calls:

``````maptree f (Leaf a)= Leaf (f a)
maptree f (Node xl xr ) = Node (maptree xl) (maptree xr)
``````

should be

``````maptree f (Leaf a)= Leaf (f a)
maptree f (Node xl xr ) = Node (maptree f xl) (maptree f xr)
``````
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Note that this is the obvious `fmap` of a `Functor` instance for your `Tree` type. You can therefore use the `DeriveFunctor` extension to have GHC generate it for you.

``````{-# LANGUAGE DeriveFunctor #-}
data Tree a = Leaf a | Node (Tree a) (Tree a)
deriving (Functor, Show)
``````

Let's try it.

``````*Main> fmap (+1) (Node (Node (Leaf 1) (Leaf 2)) (Leaf 3))
Node (Node (Leaf 2) (Leaf 3)) (Leaf 4)
``````
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The error message basically tells you what's wrong: you are not passing `maptree` enough arguments. The definition `maptree f (Node xl xr)` says that `maptree` takes two arguments, a function and a tree. But when you call it like `maptree xl`, you're only giving it one argument (a tree).

In your second version, you've defined `maptree` to only take one argument (a tree), which is why it doesn't produce that error.

You can fix your problem by, for example, calling `maptree f xl` instead of `maptree xl`.

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