{-# LANGUAGE CPP #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE DefaultSignatures #-}
{-# LANGUAGE Trustworthy #-}
{-# OPTIONS_GHC -fno-warn-warnings-deprecations #-}
module Data.Bytes.Get
( MonadGet(..)
, runGetL
, runGetS
) where
#if __GLASGOW_HASKELL__ < 710
import Control.Applicative
#endif
import Control.Monad.Reader
import Control.Monad.Trans.Except as Except
import Control.Monad.RWS.Lazy as Lazy
import Control.Monad.RWS.Strict as Strict
import Control.Monad.State.Lazy as Lazy
import Control.Monad.State.Strict as Strict
import Control.Monad.Writer.Lazy as Lazy
import Control.Monad.Writer.Strict as Strict
import qualified Data.Binary.Get as B
import qualified Data.ByteString.Lazy as Lazy
import qualified Data.ByteString as Strict
import Data.Int
import qualified Data.Serialize.Get as S
import Data.Word
import Control.Monad.Trans.Instances ()
import Data.Binary.Orphans ()
import qualified Control.Monad.Fail as Fail
class (Integral (Remaining m), Fail.MonadFail m, Applicative m) => MonadGet m where
type Remaining m :: *
type Bytes m :: *
skip :: Int -> m ()
#ifndef HLINT
default skip :: (MonadTrans t, MonadGet n, m ~ t n) => Int -> m ()
skip = lift . skip
#endif
ensure :: Int -> m Strict.ByteString
#ifndef HLINT
default ensure :: (MonadTrans t, MonadGet n, m ~ t n) => Int -> m Strict.ByteString
ensure = lift . ensure
#endif
lookAhead :: m a -> m a
lookAheadM :: m (Maybe a) -> m (Maybe a)
lookAheadE :: m (Either a b) -> m (Either a b)
getBytes :: Int -> m Strict.ByteString
#ifndef HLINT
default getBytes :: (MonadTrans t, MonadGet n, m ~ t n) => Int -> m Strict.ByteString
getBytes = lift . getBytes
#endif
remaining :: m (Remaining m)
#ifndef HLINT
default remaining :: (MonadTrans t, MonadGet n, m ~ t n, Remaining m ~ Remaining n)
=> m (Remaining m)
remaining = lift remaining
#endif
isEmpty :: m Bool
#ifndef HLINT
default isEmpty :: (MonadTrans t, MonadGet n, m ~ t n) => m Bool
isEmpty = lift isEmpty
#endif
getWord8 :: m Word8
#ifndef HLINT
default getWord8 :: (MonadTrans t, MonadGet n, m ~ t n) => m Word8
getWord8 = lift getWord8
#endif
getByteString :: Int -> m Strict.ByteString
#ifndef HLINT
default getByteString :: (MonadTrans t, MonadGet n, m ~ t n) => Int -> m Strict.ByteString
getByteString = lift . getByteString
#endif
getLazyByteString :: Int64 -> m Lazy.ByteString
#ifndef HLINT
default getLazyByteString :: (MonadTrans t, MonadGet n, m ~ t n) => Int64 -> m Lazy.ByteString
getLazyByteString = lift . getLazyByteString
#endif
getWord16be :: m Word16
#ifndef HLINT
default getWord16be :: (MonadTrans t, MonadGet n, m ~ t n) => m Word16
getWord16be = lift getWord16be
#endif
getWord16le :: m Word16
#ifndef HLINT
default getWord16le :: (MonadTrans t, MonadGet n, m ~ t n) => m Word16
getWord16le = lift getWord16le
#endif
getWord16host :: m Word16
#ifndef HLINT
default getWord16host :: (MonadTrans t, MonadGet n, m ~ t n) => m Word16
getWord16host = lift getWord16host
#endif
getWord32be :: m Word32
#ifndef HLINT
default getWord32be :: (MonadTrans t, MonadGet n, m ~ t n) => m Word32
getWord32be = lift getWord32be
#endif
getWord32le :: m Word32
#ifndef HLINT
default getWord32le :: (MonadTrans t, MonadGet n, m ~ t n) => m Word32
getWord32le = lift getWord32le
#endif
getWord32host :: m Word32
#ifndef HLINT
default getWord32host :: (MonadTrans t, MonadGet n, m ~ t n) => m Word32
getWord32host = lift getWord32host
#endif
getWord64be :: m Word64
#ifndef HLINT
default getWord64be :: (MonadTrans t, MonadGet n, m ~ t n) => m Word64
getWord64be = lift getWord64be
#endif
getWord64le :: m Word64
#ifndef HLINT
default getWord64le :: (MonadTrans t, MonadGet n, m ~ t n) => m Word64
getWord64le = lift getWord64le
#endif
getWord64host :: m Word64
#ifndef HLINT
default getWord64host :: (MonadTrans t, MonadGet n, m ~ t n) => m Word64
getWord64host = lift getWord64host
#endif
getWordhost :: m Word
#ifndef HLINT
default getWordhost :: (MonadTrans t, MonadGet n, m ~ t n) => m Word
getWordhost = lift getWordhost
#endif
instance MonadGet B.Get where
type Remaining B.Get = Int64
type Bytes B.Get = Lazy.ByteString
skip = B.skip
{-# INLINE skip #-}
lookAhead = B.lookAhead
{-# INLINE lookAhead #-}
lookAheadM = B.lookAheadM
{-# INLINE lookAheadM #-}
lookAheadE = B.lookAheadE
{-# INLINE lookAheadE #-}
ensure n = do
bs <- lookAhead $ getByteString n
unless (Strict.length bs >= n) $ Fail.fail "ensure: Required more bytes"
return bs
{-# INLINE ensure #-}
getBytes = B.getByteString
{-# INLINE getBytes #-}
remaining = B.remaining
{-# INLINE remaining #-}
isEmpty = B.isEmpty
{-# INLINE isEmpty #-}
getWord8 = B.getWord8
{-# INLINE getWord8 #-}
getByteString = B.getByteString
{-# INLINE getByteString #-}
getLazyByteString = B.getLazyByteString
{-# INLINE getLazyByteString #-}
getWord16be = B.getWord16be
{-# INLINE getWord16be #-}
getWord16le = B.getWord16le
{-# INLINE getWord16le #-}
getWord16host = B.getWord16host
{-# INLINE getWord16host #-}
getWord32be = B.getWord32be
{-# INLINE getWord32be #-}
getWord32le = B.getWord32le
{-# INLINE getWord32le #-}
getWord32host = B.getWord32host
{-# INLINE getWord32host #-}
getWord64be = B.getWord64be
{-# INLINE getWord64be #-}
getWord64le = B.getWord64le
{-# INLINE getWord64le #-}
getWord64host = B.getWord64host
{-# INLINE getWord64host #-}
getWordhost = B.getWordhost
{-# INLINE getWordhost #-}
instance MonadGet S.Get where
type Remaining S.Get = Int
type Bytes S.Get = Strict.ByteString
skip = S.skip
{-# INLINE skip #-}
lookAhead = S.lookAhead
{-# INLINE lookAhead #-}
lookAheadM = S.lookAheadM
{-# INLINE lookAheadM #-}
lookAheadE = S.lookAheadE
{-# INLINE lookAheadE #-}
getBytes = S.getBytes
{-# INLINE getBytes #-}
ensure = S.ensure
{-# INLINE ensure #-}
remaining = S.remaining
{-# INLINE remaining #-}
isEmpty = S.isEmpty
{-# INLINE isEmpty #-}
getWord8 = S.getWord8
{-# INLINE getWord8 #-}
getByteString = S.getByteString
{-# INLINE getByteString #-}
getLazyByteString = S.getLazyByteString
{-# INLINE getLazyByteString #-}
getWord16be = S.getWord16be
{-# INLINE getWord16be #-}
getWord16le = S.getWord16le
{-# INLINE getWord16le #-}
getWord16host = S.getWord16host
{-# INLINE getWord16host #-}
getWord32be = S.getWord32be
{-# INLINE getWord32be #-}
getWord32le = S.getWord32le
{-# INLINE getWord32le #-}
getWord32host = S.getWord32host
{-# INLINE getWord32host #-}
getWord64be = S.getWord64be
{-# INLINE getWord64be #-}
getWord64le = S.getWord64le
{-# INLINE getWord64le #-}
getWord64host = S.getWord64host
{-# INLINE getWord64host #-}
getWordhost = S.getWordhost
{-# INLINE getWordhost #-}
instance MonadGet m => MonadGet (Lazy.StateT s m) where
type Remaining (Lazy.StateT s m) = Remaining m
type Bytes (Lazy.StateT s m) = Bytes m
lookAhead (Lazy.StateT m) = Lazy.StateT (lookAhead . m)
{-# INLINE lookAhead #-}
lookAheadM (Lazy.StateT m) = Lazy.StateT (liftM factor . lookAheadE . liftM distribute . m)
where
distribute (Nothing, s') = Left (Nothing, s')
distribute (Just a, s') = Right (Just a, s')
factor = either id id
{-# INLINE lookAheadM #-}
lookAheadE (Lazy.StateT m) = Lazy.StateT (liftM factor . lookAheadE . liftM distribute . m)
where
distribute (Left a, s') = Left (Left a, s')
distribute (Right b, s') = Right (Right b, s')
factor = either id id
{-# INLINE lookAheadE #-}
instance MonadGet m => MonadGet (Strict.StateT s m) where
type Remaining (Strict.StateT s m) = Remaining m
type Bytes (Strict.StateT s m) = Bytes m
lookAhead (Strict.StateT m) = Strict.StateT (lookAhead . m)
{-# INLINE lookAhead #-}
lookAheadM (Strict.StateT m) = Strict.StateT (liftM factor . lookAheadE . liftM distribute . m)
where
distribute (Nothing, s') = Left (Nothing, s')
distribute (Just a, s') = Right (Just a, s')
factor = either id id
{-# INLINE lookAheadM #-}
lookAheadE (Strict.StateT m) = Strict.StateT (liftM factor . lookAheadE . liftM distribute . m)
where
distribute (Left a, s') = Left (Left a, s')
distribute (Right b, s') = Right (Right b, s')
factor = either id id
{-# INLINE lookAheadE #-}
instance MonadGet m => MonadGet (ReaderT e m) where
type Remaining (ReaderT e m) = Remaining m
type Bytes (ReaderT e m) = Bytes m
lookAhead (ReaderT m) = ReaderT (lookAhead . m)
{-# INLINE lookAhead #-}
lookAheadM (ReaderT m) = ReaderT (lookAheadM . m)
{-# INLINE lookAheadM #-}
lookAheadE (ReaderT m) = ReaderT (lookAheadE . m)
{-# INLINE lookAheadE #-}
instance (MonadGet m, Monoid w) => MonadGet (Lazy.WriterT w m) where
type Remaining (Lazy.WriterT w m) = Remaining m
type Bytes (Lazy.WriterT w m) = Bytes m
lookAhead (Lazy.WriterT m) = Lazy.WriterT (lookAhead m)
{-# INLINE lookAhead #-}
lookAheadM (Lazy.WriterT m) = Lazy.WriterT (liftM factor $ lookAheadE $ liftM distribute m)
where
distribute (Nothing, s') = Left (Nothing, s')
distribute (Just a, s') = Right (Just a, s')
factor = either id id
{-# INLINE lookAheadM #-}
lookAheadE (Lazy.WriterT m) = Lazy.WriterT (liftM factor $ lookAheadE $ liftM distribute m)
where
distribute (Left a, s') = Left (Left a, s')
distribute (Right b, s') = Right (Right b, s')
factor = either id id
{-# INLINE lookAheadE #-}
instance (MonadGet m, Monoid w) => MonadGet (Strict.WriterT w m) where
type Remaining (Strict.WriterT w m) = Remaining m
type Bytes (Strict.WriterT w m) = Bytes m
lookAhead (Strict.WriterT m) = Strict.WriterT (lookAhead m)
{-# INLINE lookAhead #-}
lookAheadM (Strict.WriterT m) = Strict.WriterT (liftM factor $ lookAheadE $ liftM distribute m)
where
distribute (Nothing, s') = Left (Nothing, s')
distribute (Just a, s') = Right (Just a, s')
factor = either id id
{-# INLINE lookAheadM #-}
lookAheadE (Strict.WriterT m) = Strict.WriterT (liftM factor $ lookAheadE $ liftM distribute m)
where
distribute (Left a, s') = Left (Left a, s')
distribute (Right b, s') = Right (Right b, s')
factor = either id id
{-# INLINE lookAheadE #-}
instance (MonadGet m, Monoid w) => MonadGet (Strict.RWST r w s m) where
type Remaining (Strict.RWST r w s m) = Remaining m
type Bytes (Strict.RWST r w s m) = Bytes m
lookAhead (Strict.RWST m) = Strict.RWST $ \r s -> lookAhead (m r s)
{-# INLINE lookAhead #-}
lookAheadM (Strict.RWST m) = Strict.RWST (\r s -> liftM factor $ lookAheadE $ liftM distribute $ m r s )
where
distribute (Nothing, s',w') = Left (Nothing, s', w')
distribute (Just a, s',w') = Right (Just a, s', w')
factor = either id id
{-# INLINE lookAheadM #-}
lookAheadE (Strict.RWST m) = Strict.RWST (\r s -> liftM factor $ lookAheadE $ liftM distribute $ m r s)
where
distribute (Left a, s', w') = Left (Left a, s', w')
distribute (Right b, s', w') = Right (Right b, s', w')
factor = either id id
{-# INLINE lookAheadE #-}
instance (MonadGet m, Monoid w) => MonadGet (Lazy.RWST r w s m) where
type Remaining (Lazy.RWST r w s m) = Remaining m
type Bytes (Lazy.RWST r w s m) = Bytes m
lookAhead (Lazy.RWST m) = Lazy.RWST $ \r s -> lookAhead (m r s)
{-# INLINE lookAhead #-}
lookAheadM (Lazy.RWST m) = Lazy.RWST (\r s -> liftM factor $ lookAheadE $ liftM distribute $ m r s )
where
distribute (Nothing, s',w') = Left (Nothing, s', w')
distribute (Just a, s',w') = Right (Just a, s', w')
factor = either id id
{-# INLINE lookAheadM #-}
lookAheadE (Lazy.RWST m) = Lazy.RWST (\r s -> liftM factor $ lookAheadE $ liftM distribute $ m r s)
where
distribute (Left a, s', w') = Left (Left a, s', w')
distribute (Right b, s', w') = Right (Right b, s', w')
factor = either id id
{-# INLINE lookAheadE #-}
instance MonadGet m => MonadGet (ExceptT e m) where
type Remaining (ExceptT e m) = Remaining m
type Bytes (ExceptT e m) = Bytes m
lookAhead = mapExceptT lookAhead
{-# INLINE lookAhead #-}
lookAheadM (ExceptT m) = ExceptT (liftM factor $ lookAheadE $ liftM distribute m)
where
distribute (Left e) = (Left (Left e))
distribute (Right j) = (Right (Right j))
factor = either id id
{-# INLINE lookAheadM #-}
lookAheadE (ExceptT m) = ExceptT (liftM factor $ lookAheadE $ liftM distribute m)
where
distribute (Left e) = (Left (Left e))
distribute (Right a) = (Right (Right a))
factor = either id id
{-# INLINE lookAheadE #-}
runGetL :: B.Get a -> Lazy.ByteString -> a
runGetL = B.runGet
runGetS :: S.Get a -> Strict.ByteString -> Either String a
runGetS = S.runGet