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I've defined a polymorphic data type called Tree a as follows:

data Tree a = Leaf | Node a (Tree a) (Tree a)

I want to define a function mapT that takes a function and applies it to every data item of type a within a tree of type Tree a. The essential purpose of this function would be to operate on trees the same way the map function operates on list so I've written a function based off of that idea:

mapT :: (a -> b) -> Tree a -> Tree b
mapT f Leaf = Leaf
mapT f ((Tree a) left right) = (Tree a) (mapT f left) (mapT f right)

However, when I run this, I get a Parse error in pattern: (Tree a) and I can't figure out what's wrong. Does anyone have any idea how to get passed this?

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2 Answers 2

up vote 2 down vote accepted


data Tree a = Leaf | Node a (Tree a) (Tree a)

mapT :: (a -> b) -> Tree a -> Tree b
mapT f Leaf = Leaf
mapT f (Node a left right) = Node (f a)  (mapT f left) (mapT f right)

Note that your Leaf constructor doesn't have any data associated with is, so perhaps you really want:

data Tree a = Leaf a | Node ...

with the corresponding change in mapT.

Also, once you have got mapT working for you, you should read up on the Functor type class, and why you might want to create a Functor instance for Tree a:

instance Functor Tree where
  fmap (Leaf ...)  = ...
  fmap (Node x l r) = Node ...
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thanks for the quick response. it worked :) –  NuNu Oct 18 '12 at 19:17
  1. Tree is a type constructor, not a data constructor. You probably meant Node.

  2. The error message is trying to tell you that you can't have arbitrary application in a pattern. You can only match a fully applied constructor, so (Node a left right) is a valid pattern while ((Node a) left right) is not, even though both are valid as expressions.

  3. You'll need to apply f to a to get something of type b to put in the transformed node. Otherwise the type checker will complain that it can't match a with b.

The end result should look something like this:

mapT :: (a -> b) -> Tree a -> Tree b
mapT f Leaf = Leaf
mapT f (Node a left right) = Node (f a) (mapT f left) (mapT f right)
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