I have a Set-like data structure, implemented as a Trie, with a definition like this:

import qualified Data.Map as M
import Data.Foldable (Foldable, foldr)
import Prelude hiding (foldr)
import Data.Maybe (fromMaybe)

data Trie a = Trie { endHere :: Bool 
                   , getTrie :: M.Map a (Trie a)
                   } deriving (Eq)

And an insert operation that looks like this:

insert :: (Ord a, Foldable f) => f a -> Trie a -> Trie a
insert = foldr f (\(Trie _ m) -> Trie True m) where
  f e a = overMap (M.alter (Just . a . fromMaybe (Trie False M.empty)) e)

overMap :: Ord b => (M.Map a (Trie a) -> M.Map b (Trie b)) -> Trie a -> Trie b
overMap f (Trie e m) = Trie e (f m)

And I can get a kind of foldr that looks like this:

foldrTrie :: ([a] -> b -> b) -> b -> Trie a -> b
foldrTrie f i (Trie a m) = M.foldrWithKey ff s m where
  s    = if a then f [] i else i
  ff k = flip (foldrTrie $ f . (k :))

But I can't figure out the Foldable instance for Trie. The foldrTrie seems to have all of the necessary functionality, but I just can't figure out the types.

Here's an example of the foldr behaviour I'm looking for:

fromList :: (Ord a, Foldable f, Foldable g) => f (g a) -> Trie a
fromList = foldr insert (Trie False M.empty)

toList :: (Ord a) => Trie a -> [[a]]
toList = foldr (:) [] -- replace foldr here with foldrTrie and you'll get the 
                      -- desired behaviour

toList (fromList ["abc", "def"]) -- ["abc","def"]

What I can't manage is the type signature for Foldable:

instance Foldable Trie a where

I tried making my Trie have a second type parameter:

data Trie a (f a) = Trie { endHere :: Bool
                         , getTrie :: M.Map a (Trie a (f a))
                         } deriving (Eq)

So that I might be able to do something like this:

instance Foldable Trie a f where
  foldr f i (Trie a m) = M.foldrWithKey ff s m where
    s    = if a then f [] i else i
    ff k = flip (foldrTrie $ f . (k :))

but I couldn't figure out the types.

A more general way to frame the question might be like this: if I had a data structure which could store only lists, would I be able to define foldr on that data structure, so it treated the lists it stored as each element? What would the type for that data structure look like?

  • 1
    instance Foldable Trie where foldr f = foldrTrie $ flip $ foldr f. I see no reason why a "Trie can only store Foldable things". – user2407038 Nov 2 '15 at 1:51
  • This Trie is intended as a Data structure to store sequences (or, more generally, Foldables), of Ord elements. The things stored in the Trie have to be Foldable, because that's the only way to insert something into the Trie. I'd like to be able to access the things in the Trie again, using foldr, preserving their sequence-like structure. – oisdk Nov 2 '15 at 2:03
  • I'm sure there are many ways to represent a sequence, but I fail to see how Foldable does so. Using only the Foldable interface to Trie, I see no way to write your desired function, because a Foldable simply doesn't do that. foldrTrie is more general than foldr : (a -> b -> b) -> b -> Trie a -> b. – user2407038 Nov 2 '15 at 2:19
  • I suppose what I'm asking is, if I had a data structure that could store only (say) lists, could I implement Foldable on that data structure? I can manage the mechanics (I think); but it's the types that are holding me up. What would the type signature for that structure look like? – oisdk Nov 2 '15 at 2:26

This is probably not what you want to do, but you could wrap a generic data structure into a GADT that only allows lists to be stored on the leafs. Simple example using trees instead of Tries for simplicity's sake: suppose the generic data structure is Tree, and we want to make LTree which only allows trees of lists:


import Prelude hiding (foldr)
import Data.Foldable
import Data.Tree

foldrForListTrees :: ([a] -> b -> b) -> b -> Tree [a] -> b
foldrForListTrees = error "This is the one you are supposed to be able to write"

data LTree a where
    MkLTree :: Tree [a] -> LTree [a]

instance Foldable LTree where
    foldr f ys0 (MkLTree xs) = foldrForListTrees f ys0 xs
  • 1
    In this case, it would also be possible to define Trie as such a GADT directly, at the cost of adding [] around its type parameter everywhere. – Ørjan Johansen Nov 2 '15 at 12:12
  • 1
    I think this might actually be a really good option. I had intended to generalise the Trie a little bit more anyway (i.e, having it as a mapping structure, by replacing endHere with types other than just Bool) so possibly I could have an STrie GADT (with the [] around its type parameter everywhere), and then another Trie which could implement Foldable in a different way. Thanks! – oisdk Nov 2 '15 at 12:58

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