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Im trying to understand what a functor is, i found this tutorial/example:


 data Tree a = Node a [Tree a]

The functor for the above type being:

 instance Functor Tree where
   fmap f (Node a ts) = Node (f a) (map (fmap f) ts)

could someone help explain what exactly they have done and why they have done it? My understanding is that a functor allows you to iterate over a data type. I cant seem to understand the syntax used though?

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Another good place to learn about functors is the Typeclassopedia. Which part of the syntax is giving you trouble in particular? –  Michael Steele Nov 8 '11 at 22:37
i dont get what ts is? –  user997112 Nov 8 '11 at 22:49
@user997112 ts is bound to the value of the second field of Node which is of type [Tree a], so ts is the subtree held by that node. –  Ionuț G. Stan Nov 8 '11 at 23:09
@user997112 Adding to what @ionu said, Haskell uses pattern matching in function definitions on the left-hand side of the equals sign. fmap f (Node a ts) binds a and ts to the first and second parts of Node respectively. It's common for Haskell programmers to give lists plural names. The name ts hints that it is a "list of trees". –  Michael Steele Nov 8 '11 at 23:15
@Michael, the only bit i dont get is the (fmap f) part? –  user997112 Nov 8 '11 at 23:21

3 Answers 3

up vote 3 down vote accepted

A Functor is useful for mapping between two data representations. Sometimes that might resemble iteration, sometimes not. Having this common Functor typeclass allows us to ignore the actual structure of the data type (Maybe, List, Tree) and focus only on the data they contain. The author of that data type should know how that data structure might be traversed/iterated so he should provide the implementation for that (in the form of a Functor instance of that data type). All we have to provide is that function f which takes an a and maps it to a b. For example:

import Data.Char (toLower)

data Tree a = Node a [Tree a]
  deriving Show

instance Functor Tree where
  fmap f (Node a ts) = Node (f a) (map (fmap f) ts)

main :: IO ()
main = do print (toLower `fmap` (Node 'F' [])) -- Node 'f' []
          print (toLower `fmap` (Just 'F'))    -- Just 'f'
          print (toLower `fmap` "FOO")         -- "foo"

We were able to lowercase those chars using the same code toLower combined with fmap.

So, what you should do when defining that Functor instance is to extract inner data using pattern matching, and the apply the received callback function f to each of these results.

An infix synonym for fmap can be found in the Control.Applicative module, called <$>.

main :: IO ()
main = do print (toLower <$> (Node 'F' [])) -- Node 'f' []
          print (toLower <$> (Just 'F'))    -- Just 'f'
          print (toLower <$> "FOO")         -- "foo"
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I've never seen Haskell before in my life, but I'm guessing that it's defining a data type (called Tree) that consists of a Node that contains a value, and an array of Trees (which would be the branches of the original tree). It then defines a function that operates on a function and a tree, and creates a new tree by applying the function to the Node's value, and applying itself recursively to all the branches in the array (using the map function as a shortcut).

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If you have never see. Haskell before that was very well done. –  augustss Nov 9 '11 at 1:17
@augustss Thanks! –  Neil Nov 9 '11 at 21:00

Basically, in Haskell, you can think of a functor as:

  1. a box that contains a value in a special context (IO, Maybe, Either a)
  2. a structure that holds multiple values (Tree, Map a, List)

Additionally, a functor has an operation -- fmap -- that understands its specific structure.

Using fmap, you can easily apply a structure-preserving transformation to a functor. For example, fmap (+ 1) is a function that adds 1 to any functor:

Prelude> fmap (+ 1) [1,2 ] -- using a list functor
Prelude> fmap (+ 1) (Just 2) -- using a maybe functor
Just 3

In the example you've given, Tree is given a Functor instance -- an implementation of fmap -- that understands the structure of a tree, and abstracts that away for you.

A great resource for Functors, Applicative Functors, Monads, Monoids is Learn You A Haskell.

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So is it basically defining 'map' for a custom data type? –  user997112 Nov 8 '11 at 22:52
@user997112 -- that's a good way of looking at it. fmap is a generalization of map. –  Matt Fenwick Nov 9 '11 at 0:13

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