Brzozowski derivatives are neat, but good old denotational semantics of regular expressions can be very elegant too:
data RE = Empty | Eps | Ch Char | App RE RE | Alt RE RE | Star RE
foldRE :: p -> p -> (Char -> p) -> (p -> p -> p) -> (p -> p -> p) -> (p -> p) -> RE -> p
foldRE emp eps ch app alt star = go where
go = \case
Empty -> emp
Eps -> eps
Ch c -> ch c
App p q -> app (go p) (go q)
Alt p q -> alt (go p) (go q)
Star p -> star (go p)
recognise :: RE -> String -> [String]
recognise =
foldRE (pure empty) pure (\c -> \case x : xs | c == x -> [xs]; _ -> [])
(>=>) (liftA2 (<|>)) (\p -> fix (\t -> liftA2 (<|>) pure (p >=> t)))
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It’s even nicer with Kleisli:
recognise' :: RE -> Kleisli [] String String recognise' = foldRE empty id ch (>>>) (<|>) (\p -> fix (\t -> id <|> (p >>> t))) where ch c = Kleisli (\case x : xs | c == x -> [xs]; _ -> [])
Of course
StateT
is perhaps more common and as elegant asKleisli
:recognise :: RE -> StateT String [] () recognise = foldRE empty (pure ()) ch (*>) (<|>) (\p -> fix (\t -> p *> t <|> pure ())) where ch c = StateT (\case x : xs | c == x -> [((), xs)]; _ -> [])
@jaror I’d deem it more elegant if there were any useful names in here eh
@mangoiv perhaps it is slightly easier to read like this?
data RE = Empty | Eps | Ch Char | App RE RE | Alt RE RE | Star RE data REalg a = REalg { emp :: a , eps :: a , ch :: Char -> a , app :: a -> a -> a , alt :: a -> a -> a , star :: a -> a } foldRE :: REalg a -> RE -> a foldRE alg = go where go = \case Empty -> emp alg Eps -> eps alg Ch c -> ch alg c App p q -> app alg (go p) (go q) Alt p q -> alt alg (go p) (go q) Star p -> star alg (go p) recognise :: RE -> StateT String [] () recognise = foldRE REalg { emp = empty , eps = pure () , ch = \c -> StateT (\case x : xs | c == x -> [((), xs)]; _ -> []) , app = (*>) , alt = (<|>) , star = \p -> fix (\t -> p *> t <|> pure ()) }
@jaror oh yeah much better. Lovely, thanks ;)