binary-file-0.15.9: src/File/Binary/Classes.hs
{-# LANGUAGE TypeFamilies, TupleSections #-}
module File.Binary.Classes (Field(..), Binary(..), pop, push) where
import Data.ByteString.Lazy (ByteString, unpack, singleton)
import Data.Bits ((.&.), (.|.), shiftL, shiftR)
import Data.Monoid (Monoid, mappend, mempty)
import Control.Arrow (first, second)
import Control.Applicative
type AddBits b = ([Bool], b)
class Field f where
type FieldArgument f
fromBinary :: Binary b => FieldArgument f -> b -> Either String (f, b)
toBinary :: Binary b => FieldArgument f -> f -> b
fromBits :: Binary b => FieldArgument f -> AddBits b -> Either String (f, AddBits b)
consToBits :: Binary b => FieldArgument f -> f -> AddBits b -> AddBits b
fromBits a ([], b) = second ([] ,) <$> fromBinary a b
fromBits _ _ = error "fromBits: not bytes (1 byte = 8 bits)"
consToBits a f ([], b) = ([], toBinary a f `mappend` b)
consToBits _ _ _ = error "consToBits: not bytes (1 byte = 8 bits)"
fromBinary a b = do
ret <- fromBits a ([], b)
case ret of
(f, ([], rest)) -> return (f, rest)
_ -> Left "fromBinary: not bytes (1 byte = 8 bits)"
toBinary a f = case consToBits a f ([], mempty) of
([], bin) -> bin
_ -> error "toBinary: not bytes (1 byte = 8 bits)"
pop :: Binary b => b -> AddBits b
pop = first (wtbs (8 :: Int) . head . unpack) . getBytes 1
where
wtbs 0 _ = []
wtbs n w = toEnum (fromIntegral $ 1 .&. w) : wtbs (n - 1) (w `shiftR` 1)
push :: Binary b => AddBits b -> b
push = uncurry $ mappend . makeBinary . singleton . bstw
where
bstw = foldr (\b w -> w `shiftL` 1 .|. fromIntegral (fromEnum b)) 0
class (Eq b, Monoid b) => Binary b where
getBytes :: Int -> b -> (ByteString, b)
makeBinary :: ByteString -> b