{-# LANGUAGE BangPatterns #-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE DeriveFunctor #-}
{-# LANGUAGE MagicHash #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TupleSections #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE UnboxedTuples #-}
module Data.Store.Core
(
Poke(..), PokeException(..), pokeException
, Peek(..), PeekResult(..), PeekException(..), peekException, tooManyBytes
, PokeState, pokeStatePtr
, PeekState, peekStateEndPtr
, Offset
, unsafeEncodeWith
, decodeWith
, decodeExWith, decodeExPortionWith
, decodeIOWith, decodeIOPortionWith
, decodeIOWithFromPtr, decodeIOPortionWithFromPtr
, pokeStorable, peekStorable, peekStorableTy
, pokeFromForeignPtr, peekToPlainForeignPtr, pokeFromPtr
, pokeFromByteArray, peekToByteArray
, unsafeMakePokeState, unsafeMakePeekState, maybeAlignmentBufferSize
) where
import Control.Applicative
import Control.Exception (Exception(..), throwIO, try)
import Control.Monad (when)
import Control.Monad.IO.Class (MonadIO(..))
import Control.Monad.Primitive (PrimMonad (..))
import Data.ByteString (ByteString)
import qualified Data.ByteString.Internal as BS
import Data.Monoid ((<>))
import Data.Primitive.ByteArray (ByteArray, MutableByteArray(..), newByteArray, unsafeFreezeByteArray)
import qualified Data.Text as T
import Data.Typeable
import Data.Word
import Foreign.ForeignPtr (ForeignPtr, withForeignPtr, castForeignPtr)
import Foreign.Ptr
import Foreign.Storable as Storable
import GHC.Prim (unsafeCoerce#, RealWorld, ByteArray#, copyByteArrayToAddr#, copyAddrToByteArray#)
import GHC.Ptr (Ptr(..))
import GHC.Types (IO(..), Int(..))
import Prelude
import System.IO.Unsafe (unsafePerformIO)
#if MIN_VERSION_base(4,9,0)
import qualified Control.Monad.Fail as Fail
#endif
#if ALIGNED_MEMORY
import Foreign.Marshal.Alloc (allocaBytesAligned)
#endif
type Offset = Int
newtype Poke a = Poke
{ runPoke :: PokeState -> Offset -> IO (Offset, a)
}
deriving Functor
instance Applicative Poke where
pure x = Poke $ \_ptr offset -> pure (offset, x)
{-# INLINE pure #-}
Poke f <*> Poke g = Poke $ \ptr offset1 -> do
(offset2, f') <- f ptr offset1
(offset3, g') <- g ptr offset2
return (offset3, f' g')
{-# INLINE (<*>) #-}
Poke f *> Poke g = Poke $ \ptr offset1 -> do
(offset2, _) <- f ptr offset1
g ptr offset2
{-# INLINE (*>) #-}
instance Monad Poke where
return = pure
{-# INLINE return #-}
(>>) = (*>)
{-# INLINE (>>) #-}
Poke x >>= f = Poke $ \ptr offset1 -> do
(offset2, x') <- x ptr offset1
runPoke (f x') ptr offset2
{-# INLINE (>>=) #-}
fail = pokeException . T.pack
{-# INLINE fail #-}
#if MIN_VERSION_base(4,9,0)
instance Fail.MonadFail Poke where
fail = pokeException . T.pack
{-# INLINE fail #-}
#endif
instance MonadIO Poke where
liftIO f = Poke $ \_ offset -> (offset, ) <$> f
{-# INLINE liftIO #-}
#if ALIGNED_MEMORY
data PokeState = PokeState
{ pokeStatePtr :: {-# UNPACK #-} !(Ptr Word8)
, pokeStateAlignPtr :: {-# UNPACK #-} !(Ptr Word8)
}
#else
newtype PokeState = PokeState
{ pokeStatePtr :: Ptr Word8
}
#endif
unsafeMakePokeState :: Ptr Word8
-> IO (Ptr Word8)
-> IO PokeState
#if ALIGNED_MEMORY
unsafeMakePokeState ptr f = PokeState ptr <$> f
#else
unsafeMakePokeState ptr _ = return $ PokeState ptr
#endif
data PokeException = PokeException
{ pokeExByteIndex :: Offset
, pokeExMessage :: T.Text
}
deriving (Eq, Show, Typeable)
instance Exception PokeException where
#if MIN_VERSION_base(4,8,0)
displayException (PokeException offset msg) =
"Exception while poking, at byte index " ++
show offset ++
" : " ++
T.unpack msg
#endif
pokeException :: T.Text -> Poke a
pokeException msg = Poke $ \_ off -> throwIO (PokeException off msg)
newtype Peek a = Peek
{ runPeek :: PeekState -> Ptr Word8 -> IO (PeekResult a)
} deriving (Functor)
data PeekResult a = PeekResult {-# UNPACK #-} !(Ptr Word8) !a
deriving (Functor)
instance Applicative Peek where
pure x = Peek (\_ ptr -> return $ PeekResult ptr x)
{-# INLINE pure #-}
Peek f <*> Peek g = Peek $ \end ptr1 -> do
PeekResult ptr2 f' <- f end ptr1
PeekResult ptr3 g' <- g end ptr2
return $ PeekResult ptr3 (f' g')
{-# INLINE (<*>) #-}
Peek f *> Peek g = Peek $ \end ptr1 -> do
PeekResult ptr2 _ <- f end ptr1
g end ptr2
{-# INLINE (*>) #-}
instance Monad Peek where
return = pure
{-# INLINE return #-}
(>>) = (*>)
{-# INLINE (>>) #-}
Peek x >>= f = Peek $ \end ptr1 -> do
PeekResult ptr2 x' <- x end ptr1
runPeek (f x') end ptr2
{-# INLINE (>>=) #-}
fail = peekException . T.pack
{-# INLINE fail #-}
#if MIN_VERSION_base(4,9,0)
instance Fail.MonadFail Peek where
fail = peekException . T.pack
{-# INLINE fail #-}
#endif
instance PrimMonad Peek where
type PrimState Peek = RealWorld
primitive action = Peek $ \_ ptr -> do
x <- primitive (unsafeCoerce# action)
return $ PeekResult ptr x
{-# INLINE primitive #-}
instance MonadIO Peek where
liftIO f = Peek $ \_ ptr -> PeekResult ptr <$> f
{-# INLINE liftIO #-}
#if ALIGNED_MEMORY
data PeekState = PeekState
{ peekStateEndPtr :: {-# UNPACK #-} !(Ptr Word8)
, peekStateAlignPtr :: {-# UNPACK #-} !(Ptr Word8)
}
#else
newtype PeekState = PeekState
{ peekStateEndPtr :: Ptr Word8 }
#endif
unsafeMakePeekState :: Ptr Word8
-> IO (Ptr Word8)
-> IO PeekState
#if ALIGNED_MEMORY
unsafeMakePeekState ptr f = PeekState ptr <$> f
#else
unsafeMakePeekState ptr _ = return $ PeekState ptr
#endif
data PeekException = PeekException
{ peekExBytesFromEnd :: Offset
, peekExMessage :: T.Text
} deriving (Eq, Show, Typeable)
instance Exception PeekException where
#if MIN_VERSION_base(4,8,0)
displayException (PeekException offset msg) =
"Exception while peeking, " ++
show offset ++
" bytes from end: " ++
T.unpack msg
#endif
peekException :: T.Text -> Peek a
peekException msg = Peek $ \ps ptr -> throwIO (PeekException (peekStateEndPtr ps `minusPtr` ptr) msg)
tooManyBytes :: Int -> Int -> String -> IO void
tooManyBytes needed remaining ty =
throwIO $ PeekException remaining $ T.pack $
"Attempted to read too many bytes for " ++
ty ++
". Needed " ++
show needed ++ ", but only " ++
show remaining ++ " remain."
negativeBytes :: Int -> Int -> String -> IO void
negativeBytes needed remaining ty =
throwIO $ PeekException remaining $ T.pack $
"Attempted to read negative number of bytes for " ++
ty ++
". Tried to read " ++
show needed ++ ". This probably means that we're trying to read invalid data."
unsafeEncodeWith :: Poke () -> Int -> ByteString
unsafeEncodeWith f l =
BS.unsafeCreate l $ \ptr -> do
#if ALIGNED_MEMORY
allocaBytesAligned alignBufferSize 8 $ \aptr -> do
#endif
let ps = PokeState
{ pokeStatePtr = ptr
#if ALIGNED_MEMORY
, pokeStateAlignPtr = aptr
#endif
}
(o, ()) <- runPoke f ps 0
checkOffset o l
#if ALIGNED_MEMORY
alignBufferSize :: Int
alignBufferSize = 32
#endif
maybeAlignmentBufferSize :: Maybe Int
maybeAlignmentBufferSize =
#if ALIGNED_MEMORY
Just alignBufferSize
#else
Nothing
#endif
checkOffset :: Int -> Int -> IO ()
checkOffset o l
| o > l = throwIO $ PokeException o $ T.pack $
"encode overshot end of " ++
show l ++
" byte long buffer"
| o < l = throwIO $ PokeException o $ T.pack $
"encode undershot end of " <>
show l <>
" byte long buffer"
| otherwise = return ()
decodeWith :: Peek a -> ByteString -> Either PeekException a
decodeWith mypeek = unsafePerformIO . try . decodeIOWith mypeek
decodeExWith :: Peek a -> ByteString -> a
decodeExWith f = unsafePerformIO . decodeIOWith f
decodeExPortionWith :: Peek a -> ByteString -> (Offset, a)
decodeExPortionWith f = unsafePerformIO . decodeIOPortionWith f
decodeIOWith :: Peek a -> ByteString -> IO a
decodeIOWith mypeek (BS.PS x s len) =
withForeignPtr x $ \ptr0 ->
let ptr = ptr0 `plusPtr` s
in decodeIOWithFromPtr mypeek ptr len
decodeIOPortionWith :: Peek a -> ByteString -> IO (Offset, a)
decodeIOPortionWith mypeek (BS.PS x s len) =
withForeignPtr x $ \ptr0 ->
let ptr = ptr0 `plusPtr` s
in decodeIOPortionWithFromPtr mypeek ptr len
decodeIOWithFromPtr :: Peek a -> Ptr Word8 -> Int -> IO a
decodeIOWithFromPtr mypeek ptr len = do
(offset, x) <- decodeIOPortionWithFromPtr mypeek ptr len
if len /= offset
then throwIO $ PeekException (len - offset) "Didn't consume all input."
else return x
decodeIOPortionWithFromPtr :: Peek a -> Ptr Word8 -> Int -> IO (Offset, a)
decodeIOPortionWithFromPtr mypeek ptr len =
let end = ptr `plusPtr` len
remaining = end `minusPtr` ptr
in do PeekResult ptr2 x' <-
#if ALIGNED_MEMORY
allocaBytesAligned alignBufferSize 8 $ \aptr -> do
runPeek mypeek (PeekState end aptr) ptr
#else
runPeek mypeek (PeekState end) ptr
#endif
if len > remaining
then throwIO $ PeekException (end `minusPtr` ptr2) "Overshot end of buffer"
else return (ptr2 `minusPtr` ptr, x')
pokeStorable :: Storable a => a -> Poke ()
pokeStorable x = Poke $ \ps offset -> do
let targetPtr = pokeStatePtr ps `plusPtr` offset
#if ALIGNED_MEMORY
let bufStart = pokeStateAlignPtr ps
alignStart = alignPtr (pokeStateAlignPtr ps) (alignment x)
sz = sizeOf x
if targetPtr == alignPtr targetPtr (alignment x)
then poke targetPtr x
else (if (alignStart `plusPtr` sz) < (bufStart `plusPtr` alignBufferSize)
then do
poke (castPtr alignStart) x
BS.memcpy (castPtr targetPtr) alignStart sz
else do
allocaBytesAligned sz (alignment x) $ \tempPtr -> do
poke tempPtr x
BS.memcpy (castPtr targetPtr) (castPtr tempPtr) sz)
#else
poke targetPtr x
#endif
let !newOffset = offset + sizeOf x
return (newOffset, ())
{-# INLINE pokeStorable #-}
peekStorable :: forall a. (Storable a, Typeable a) => Peek a
peekStorable = peekStorableTy (show (typeRep (Proxy :: Proxy a)))
{-# INLINE peekStorable #-}
peekStorableTy :: forall a. Storable a => String -> Peek a
peekStorableTy ty = Peek $ \ps ptr -> do
let ptr' = ptr `plusPtr` sz
sz = sizeOf (undefined :: a)
remaining = peekStateEndPtr ps `minusPtr` ptr
when (sz > remaining) $
tooManyBytes sz remaining ty
#if ALIGNED_MEMORY
let bufStart = peekStateAlignPtr ps
alignStart = alignPtr (peekStateAlignPtr ps) alignAmount
alignAmount = alignment (undefined :: a)
x <- if ptr == alignPtr ptr alignAmount
then Storable.peek (castPtr ptr)
else (if (alignStart `plusPtr` sz) < (bufStart `plusPtr` alignBufferSize)
then do
BS.memcpy (castPtr alignStart) ptr sz
Storable.peek (castPtr alignStart)
else do
allocaBytesAligned sz alignAmount $ \tempPtr -> do
BS.memcpy tempPtr (castPtr ptr) sz
Storable.peek (castPtr tempPtr))
#else
x <- Storable.peek (castPtr ptr)
#endif
return $ PeekResult ptr' x
{-# INLINE peekStorableTy #-}
pokeFromForeignPtr :: ForeignPtr a -> Int -> Int -> Poke ()
pokeFromForeignPtr sourceFp sourceOffset len =
Poke $ \targetState targetOffset -> do
let targetPtr = pokeStatePtr targetState
withForeignPtr sourceFp $ \sourcePtr ->
BS.memcpy (targetPtr `plusPtr` targetOffset)
(sourcePtr `plusPtr` sourceOffset)
len
let !newOffset = targetOffset + len
return (newOffset, ())
peekToPlainForeignPtr :: String -> Int -> Peek (ForeignPtr a)
peekToPlainForeignPtr ty len =
Peek $ \ps sourcePtr -> do
let ptr2 = sourcePtr `plusPtr` len
remaining = peekStateEndPtr ps `minusPtr` sourcePtr
when (len > remaining) $
tooManyBytes len remaining ty
when (len < 0) $
negativeBytes len remaining ty
fp <- BS.mallocByteString len
withForeignPtr fp $ \targetPtr ->
BS.memcpy targetPtr (castPtr sourcePtr) len
return $ PeekResult ptr2 (castForeignPtr fp)
pokeFromPtr :: Ptr a -> Int -> Int -> Poke ()
pokeFromPtr sourcePtr sourceOffset len =
Poke $ \targetState targetOffset -> do
let targetPtr = pokeStatePtr targetState
BS.memcpy (targetPtr `plusPtr` targetOffset)
(sourcePtr `plusPtr` sourceOffset)
len
let !newOffset = targetOffset + len
return (newOffset, ())
pokeFromByteArray :: ByteArray# -> Int -> Int -> Poke ()
pokeFromByteArray sourceArr sourceOffset len =
Poke $ \targetState targetOffset -> do
let target = (pokeStatePtr targetState) `plusPtr` targetOffset
copyByteArrayToAddr sourceArr sourceOffset target len
let !newOffset = targetOffset + len
return (newOffset, ())
peekToByteArray :: String -> Int -> Peek ByteArray
peekToByteArray ty len =
Peek $ \ps sourcePtr -> do
let ptr2 = sourcePtr `plusPtr` len
remaining = peekStateEndPtr ps `minusPtr` sourcePtr
when (len > remaining) $
tooManyBytes len remaining ty
when (len < 0) $
negativeBytes len remaining ty
marr <- newByteArray len
copyAddrToByteArray sourcePtr marr 0 len
x <- unsafeFreezeByteArray marr
return $ PeekResult ptr2 x
copyByteArrayToAddr :: ByteArray# -> Int -> Ptr a -> Int -> IO ()
copyByteArrayToAddr arr (I# offset) (Ptr addr) (I# len) =
IO (\s -> (# copyByteArrayToAddr# arr offset addr len s, () #))
{-# INLINE copyByteArrayToAddr #-}
copyAddrToByteArray :: Ptr a -> MutableByteArray (PrimState IO) -> Int -> Int -> IO ()
copyAddrToByteArray (Ptr addr) (MutableByteArray arr) (I# offset) (I# len) =
IO (\s -> (# copyAddrToByteArray# addr arr offset len s, () #))
{-# INLINE copyAddrToByteArray #-}