module Data.Trie.Rooted where
import Control.Applicative
import Data.List.NonEmpty hiding (head, tail)
import qualified Data.List.NonEmpty as NE
import Data.Monoid
import Data.Trie.Pseudo as P
import Test.QuickCheck
import Test.QuickCheck.Instances
data Rooted t a = Rooted (Maybe a) [PseudoTrie t a]
deriving (Show, Eq, Functor)
instance (Arbitrary a) => Arbitrary (Rooted String a) where
arbitrary = do
(mx :: Maybe a) <- arbitrary
(xs :: [PseudoTrie String a]) <- arbitrary
return $ Rooted mx xs
instance (Eq t) => Applicative (Rooted t) where
pure x = Rooted (Just x) []
(<*>) (Rooted mf fs) (Rooted mx xs) =
Rooted (mf <*> mx)
[intersectionWith ($) f x | f <- fs, x <- xs]
instance (Eq t, Monoid a) => Monoid (Rooted t a) where
mempty = Rooted Nothing []
mappend = unionWith mappend
newtype MergeRooted t a = MergeRooted
{ unMergeRooted :: Rooted t a }
deriving (Functor)
instance (Eq t) => Monoid (MergeRooted t a) where
mempty = MergeRooted $ Rooted Nothing []
(MergeRooted x) `mappend` (MergeRooted y) =
MergeRooted $ x `Data.Trie.Rooted.merge` y
assign :: (Eq t) => [t] -> Maybe a -> Rooted t a -> Rooted t a
assign [] mx (Rooted _ ys) = Rooted mx ys
assign tss@(t:ts) mx (Rooted my ys)
| any (`beginsWith` t) ys =
Rooted my $ fmap (P.assign (NE.fromList tss) mx) ys
| otherwise = case mx of
Nothing -> Rooted my ys
Just x -> Rooted my $ Rest (NE.fromList tss) x : ys
lookup :: (Eq t) => [t] -> Rooted t a -> Maybe a
lookup [] (Rooted mx _) = mx
lookup ts (Rooted _ xs) = foldr (go ts) Nothing xs
where
go ts x Nothing = P.lookup (NE.fromList ts) x
go ts x ma@(Just a) = ma
merge :: (Eq t) =>
Rooted t a
-> Rooted t a
-> Rooted t a
merge (Rooted mx xs) (Rooted my ys) =
Rooted (getLast $ Last mx <> Last my) $
foldr go [] $ xs ++ ys
where
go q [] = [q]
go q (z:zs) | areDisjoint q z = q : z : zs
| otherwise = P.merge q z : zs
unionWith :: (Eq t) =>
(a -> a -> a)
-> Rooted t a
-> Rooted t a
-> Rooted t a
unionWith f (Rooted mx xs) (Rooted my ys) =
Rooted (f <$> mx <*> my) $
Prelude.concat [process f x y | x <- xs, y <- ys]
where
process f x y | areDisjoint x y = [unionWith' f x y]
| otherwise = x : [y]
unionWith' _ Nil Nil = Nil
unionWith' _ Nil y = y
unionWith' _ x Nil = x
unionWith' f (Rest tss@(t:|ts) x) (Rest pss@(p:|ps) y)
| tss == pss = Rest pss $ f x y
| t == p = case (ts,ps) of
([], p':ps') -> More (t, Just x) $ Rest (fromList ps) y :| []
(t':ts', []) -> More (p, Just y) $ Rest (fromList ts) x :| []
(_,_) -> More (t,Nothing) $ fromList
[unionWith' f (Rest (NE.fromList ts) x)
(Rest (NE.fromList ps) y)]
unionWith' f (More (t,mx) xs) (More (p,my) ys)
| t == p = let zs = NE.toList xs ++ NE.toList ys in
More (p,f <$> mx <*> my) $ NE.fromList $
foldr (\q (z':zs') -> unionWith' f z' q : zs') [head zs] (tail zs)
unionWith' f (More (t,mx) xs) (Rest pss@(p:|ps) y)
| t == p = case ps of
[] -> More (p,f <$> mx <*> Just y) xs
_ -> More (t,mx) $ fmap (flip (unionWith' f) $ Rest (fromList ps) y) xs
unionWith' f (Rest tss@(t:|ts) x) (More (p,my) ys)
| t == p = case ts of
[] -> More (t,f <$> Just x <*> my) ys
_ -> More (p,my) $ fmap (unionWith' f $ Rest (fromList ts) x) ys