% % (c) The University of Glasgow 2006 % (c) The AQUA Project, Glasgow University, 1993-1998 % This is useful, general stuff for the Native Code Generator. Provide trees (of instructions), so that lists of instructions can be appended in linear time. \begin{code} module OrdList ( OrdList, nilOL, isNilOL, unitOL, appOL, consOL, snocOL, concatOL, mapOL, fromOL, toOL, foldrOL, foldlOL ) where infixl 5 `appOL` infixl 5 `snocOL` infixr 5 `consOL` data OrdList a = Many [a] -- Invariant: non-empty | Two (OrdList a) -- Invariant: non-empty (OrdList a) -- Invariant: non-empty | One a | None nilOL :: OrdList a isNilOL :: OrdList a -> Bool unitOL :: a -> OrdList a snocOL :: OrdList a -> a -> OrdList a consOL :: a -> OrdList a -> OrdList a appOL :: OrdList a -> OrdList a -> OrdList a concatOL :: [OrdList a] -> OrdList a nilOL = None unitOL as = One as snocOL None b = One b snocOL as b = Two as (One b) consOL a None = One a consOL a bs = Two (One a) bs concatOL aas = foldr appOL None aas isNilOL None = True isNilOL _ = False appOL None bs = bs appOL as None = as appOL as bs = Two as bs mapOL :: (a -> b) -> OrdList a -> OrdList b mapOL _ None = None mapOL f (One x) = One (f x) mapOL f (Two x y) = Two (mapOL f x) (mapOL f y) mapOL f (Many xs) = Many (map f xs) instance Functor OrdList where fmap = mapOL foldrOL :: (a->b->b) -> b -> OrdList a -> b foldrOL _ z None = z foldrOL k z (One x) = k x z foldrOL k z (Two b1 b2) = foldrOL k (foldrOL k z b2) b1 foldrOL k z (Many xs) = foldr k z xs foldlOL :: (b->a->b) -> b -> OrdList a -> b foldlOL _ z None = z foldlOL k z (One x) = k z x foldlOL k z (Two b1 b2) = foldlOL k (foldlOL k z b1) b2 foldlOL k z (Many xs) = foldl k z xs fromOL :: OrdList a -> [a] fromOL ol = flat ol [] where flat None rest = rest flat (One x) rest = x:rest flat (Two a b) rest = flat a (flat b rest) flat (Many xs) rest = xs ++ rest toOL :: [a] -> OrdList a toOL [] = None toOL xs = Many xs \end{code}