module Data.ByteArray.Pack.Internal
( Result(..)
, Packer(..)
, actionPacker
, actionPackerWithRemain
) where
import Foreign.Ptr (Ptr)
import Data.ByteArray.MemView
import Data.Memory.Internal.Imports
data Result a =
PackerMore a MemView
| PackerFail String
deriving (Show)
newtype Packer a = Packer { runPacker_ :: MemView -> IO (Result a) }
instance Functor Packer where
fmap = fmapPacker
instance Applicative Packer where
pure = returnPacker
(<*>) = appendPacker
instance Monad Packer where
return = returnPacker
(>>=) = bindPacker
fmapPacker :: (a -> b) -> Packer a -> Packer b
fmapPacker f p = Packer $ \cache -> do
rv <- runPacker_ p cache
return $ case rv of
PackerMore v cache' -> PackerMore (f v) cache'
PackerFail err -> PackerFail err
{-# INLINE fmapPacker #-}
returnPacker :: a -> Packer a
returnPacker v = Packer $ \cache -> return $ PackerMore v cache
{-# INLINE returnPacker #-}
bindPacker :: Packer a -> (a -> Packer b) -> Packer b
bindPacker p fp = Packer $ \cache -> do
rv <- runPacker_ p cache
case rv of
PackerMore v cache' -> runPacker_ (fp v) cache'
PackerFail err -> return $ PackerFail err
{-# INLINE bindPacker #-}
appendPacker :: Packer (a -> b) -> Packer a -> Packer b
appendPacker p1f p2 = p1f >>= \p1 -> p2 >>= \v -> return (p1 v)
{-# INLINE appendPacker #-}
actionPacker :: Int -> (Ptr Word8 -> IO a) -> Packer a
actionPacker s action = Packer $ \m@(MemView ptr size) ->
case compare size s of
LT -> return $ PackerFail "Not enough space in destination"
_ -> do
v <- action ptr
return $ PackerMore v (m `memViewPlus` s)
{-# INLINE actionPacker #-}
actionPackerWithRemain :: Int -> (Ptr Word8 -> Int -> IO (Int, a)) -> Packer a
actionPackerWithRemain s action = Packer $ \m@(MemView ptr size) ->
case compare size s of
LT -> return $ PackerFail "Not enough space in destination"
_ -> do
(remain, v) <- action ptr size
return $ if remain > s
then PackerFail "remaining bytes higher than the destination's size"
else PackerMore v (m `memViewPlus` (s+remain))
{-# INLINE actionPackerWithRemain #-}