{-# LANGUAGE CPP #-}
{-# LANGUAGE BangPatterns #-}
{-# LANGUAGE Rank2Types #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE UndecidableInstances #-}
module Data.ByteArray.Types
( ByteArrayAccess(..)
, ByteArray(..)
) where
import Foreign.Ptr
import Data.Monoid
#ifdef WITH_BYTESTRING_SUPPORT
import qualified Data.ByteString as Bytestring (length)
import qualified Data.ByteString.Internal as Bytestring
import Foreign.ForeignPtr (withForeignPtr)
#endif
import Data.Memory.PtrMethods (memCopy)
#ifdef WITH_BASEMENT_SUPPORT
import Data.Proxy (Proxy(..))
import Data.Word (Word8)
import qualified Basement.Types.OffsetSize as Base
import qualified Basement.UArray as Base
import qualified Basement.String as Base (String, toBytes, Encoding(UTF8))
import qualified Basement.PrimType as Base (primSizeInBytes)
import qualified Basement.UArray.Mutable as BaseMutable (withMutablePtrHint)
import qualified Basement.Block as Block
import qualified Basement.Block.Mutable as Block
import Basement.Nat
import qualified Basement.Sized.Block as BlockN
#endif
import Prelude hiding (length)
class ByteArrayAccess ba where
length :: ba -> Int
withByteArray :: ba -> (Ptr p -> IO a) -> IO a
copyByteArrayToPtr :: ba -> Ptr p -> IO ()
copyByteArrayToPtr a dst = withByteArray a $ \src -> memCopy (castPtr dst) src (length a)
class (Eq ba, Ord ba, Monoid ba, ByteArrayAccess ba) => ByteArray ba where
allocRet :: Int
-> (Ptr p -> IO a)
-> IO (a, ba)
#ifdef WITH_BYTESTRING_SUPPORT
instance ByteArrayAccess Bytestring.ByteString where
length = Bytestring.length
withByteArray (Bytestring.PS fptr off _) f = withForeignPtr fptr $ \ptr -> f $! (ptr `plusPtr` off)
instance ByteArray Bytestring.ByteString where
allocRet sz f = do
fptr <- Bytestring.mallocByteString sz
r <- withForeignPtr fptr (f . castPtr)
return (r, Bytestring.PS fptr 0 sz)
#endif
#ifdef WITH_BASEMENT_SUPPORT
baseBlockRecastW8 :: Base.PrimType ty => Block.Block ty -> Block.Block Word8
baseBlockRecastW8 = Block.unsafeCast
instance Base.PrimType ty => ByteArrayAccess (Block.Block ty) where
length a = let Base.CountOf i = Block.length (baseBlockRecastW8 a) in i
withByteArray a f = Block.withPtr (baseBlockRecastW8 a) (f . castPtr)
copyByteArrayToPtr ba dst = do
mb <- Block.unsafeThaw (baseBlockRecastW8 ba)
Block.copyToPtr mb 0 (castPtr dst) (Block.length $ baseBlockRecastW8 ba)
instance (KnownNat n, Base.PrimType ty, Base.Countable ty n) => ByteArrayAccess (BlockN.BlockN n ty) where
length a = let Base.CountOf i = BlockN.lengthBytes a in i
withByteArray a f = BlockN.withPtr a (f . castPtr)
copyByteArrayToPtr bna = copyByteArrayToPtr (BlockN.toBlock bna)
baseUarrayRecastW8 :: Base.PrimType ty => Base.UArray ty -> Base.UArray Word8
baseUarrayRecastW8 = Base.recast
instance Base.PrimType ty => ByteArrayAccess (Base.UArray ty) where
length a = let Base.CountOf i = Base.length (baseUarrayRecastW8 a) in i
withByteArray a f = Base.withPtr (baseUarrayRecastW8 a) (f . castPtr)
copyByteArrayToPtr ba dst = Base.copyToPtr ba (castPtr dst)
instance ByteArrayAccess Base.String where
length str = let Base.CountOf i = Base.length bytes in i
where
bytes = Base.toBytes Base.UTF8 str
withByteArray s f = withByteArray (Base.toBytes Base.UTF8 s) f
instance (Ord ty, Base.PrimType ty) => ByteArray (Block.Block ty) where
allocRet sz f = do
mba <- Block.new $ sizeRecastBytes sz Proxy
a <- Block.withMutablePtrHint True False mba (f . castPtr)
ba <- Block.unsafeFreeze mba
return (a, ba)
instance (Ord ty, Base.PrimType ty) => ByteArray (Base.UArray ty) where
allocRet sz f = do
mba <- Base.new $ sizeRecastBytes sz Proxy
a <- BaseMutable.withMutablePtrHint True False mba (f . castPtr)
ba <- Base.unsafeFreeze mba
return (a, ba)
sizeRecastBytes :: Base.PrimType ty => Int -> Proxy ty -> Base.CountOf ty
sizeRecastBytes w p = Base.CountOf $
let (q,r) = w `Prelude.quotRem` szTy
in q + (if r == 0 then 0 else 1)
where !(Base.CountOf szTy) = Base.primSizeInBytes p
{-# INLINE [1] sizeRecastBytes #-}
#endif