module Data.Text.Array
(
Array(aBA)
, MArray(maBA)
, copyM
, copyI
, empty
, equal
#if defined(ASSERTS)
, length
#endif
, run
, run2
, toList
, unsafeFreeze
, unsafeIndex
, new
, unsafeWrite
) where
#if defined(ASSERTS)
# define CHECK_BOUNDS(_func_,_len_,_k_) \
if (_k_) < 0 || (_k_) >= (_len_) then error ("Data.Text.Array." ++ (_func_) ++ ": bounds error, offset " ++ show (_k_) ++ ", length " ++ show (_len_)) else
#else
# define CHECK_BOUNDS(_func_,_len_,_k_)
#endif
#include "MachDeps.h"
#if defined(ASSERTS)
import Control.Exception (assert)
#endif
#if __GLASGOW_HASKELL__ >= 702
import Control.Monad.ST.Unsafe (unsafeIOToST)
#else
import Control.Monad.ST (unsafeIOToST)
#endif
import Data.Bits ((.&.), xor)
import Data.Text.Unsafe.Base (inlinePerformIO)
import Data.Text.UnsafeShift (shiftL, shiftR)
#if __GLASGOW_HASKELL__ >= 703
import Foreign.C.Types (CInt(CInt), CSize(CSize))
#else
import Foreign.C.Types (CInt, CSize)
#endif
import GHC.Base (ByteArray#, MutableByteArray#, Int(..),
indexWord16Array#, newByteArray#,
unsafeCoerce#, writeWord16Array#)
import GHC.ST (ST(..), runST)
import GHC.Word (Word16(..))
import Prelude hiding (length, read)
data Array = Array {
aBA :: ByteArray#
#if defined(ASSERTS)
, aLen :: !Int
#endif
}
data MArray s = MArray {
maBA :: MutableByteArray# s
#if defined(ASSERTS)
, maLen :: !Int
#endif
}
#if defined(ASSERTS)
class IArray a where
length :: a -> Int
instance IArray Array where
length = aLen
instance IArray (MArray s) where
length = maLen
#endif
new :: forall s. Int -> ST s (MArray s)
new n
| n < 0 || n .&. highBit /= 0 = error $ "Data.Text.Array.new: size overflow"
| otherwise = ST $ \s1# ->
case newByteArray# len# s1# of
(# s2#, marr# #) -> (# s2#, MArray marr#
#if defined(ASSERTS)
n
#endif
#)
where !(I# len#) = bytesInArray n
highBit = maxBound `xor` (maxBound `shiftR` 1)
unsafeFreeze :: MArray s -> ST s Array
unsafeFreeze MArray{..} = ST $ \s# ->
(# s#, Array (unsafeCoerce# maBA)
#if defined(ASSERTS)
maLen
#endif
#)
bytesInArray :: Int -> Int
bytesInArray n = n `shiftL` 1
unsafeIndex :: Array -> Int -> Word16
unsafeIndex Array{..} i@(I# i#) =
CHECK_BOUNDS("unsafeIndex",aLen,i)
case indexWord16Array# aBA i# of r# -> (W16# r#)
unsafeWrite :: MArray s -> Int -> Word16 -> ST s ()
unsafeWrite MArray{..} i@(I# i#) (W16# e#) = ST $ \s1# ->
CHECK_BOUNDS("unsafeWrite",maLen,i)
case writeWord16Array# maBA i# e# s1# of
s2# -> (# s2#, () #)
toList :: Array -> Int -> Int -> [Word16]
toList ary off len = loop 0
where loop i | i < len = unsafeIndex ary (off+i) : loop (i+1)
| otherwise = []
empty :: Array
empty = runST (new 0 >>= unsafeFreeze)
run :: (forall s. ST s (MArray s)) -> Array
run k = runST (k >>= unsafeFreeze)
run2 :: (forall s. ST s (MArray s, a)) -> (Array, a)
run2 k = runST (do
(marr,b) <- k
arr <- unsafeFreeze marr
return (arr,b))
copyM :: MArray s
-> Int
-> MArray s
-> Int
-> Int
-> ST s ()
copyM dest didx src sidx count
| count <= 0 = return ()
| otherwise =
#if defined(ASSERTS)
assert (sidx + count <= length src) .
assert (didx + count <= length dest) .
#endif
unsafeIOToST $ memcpyM (maBA dest) (fromIntegral didx)
(maBA src) (fromIntegral sidx)
(fromIntegral count)
copyI :: MArray s
-> Int
-> Array
-> Int
-> Int
-> ST s ()
copyI dest i0 src j0 top
| i0 >= top = return ()
| otherwise = unsafeIOToST $
memcpyI (maBA dest) (fromIntegral i0)
(aBA src) (fromIntegral j0)
(fromIntegral (topi0))
equal :: Array
-> Int
-> Array
-> Int
-> Int
-> Bool
equal arrA offA arrB offB count = inlinePerformIO $ do
i <- memcmp (aBA arrA) (fromIntegral offA)
(aBA arrB) (fromIntegral offB) (fromIntegral count)
return $! i == 0
foreign import ccall unsafe "_hs_text_memcpy" memcpyI
:: MutableByteArray# s -> CSize -> ByteArray# -> CSize -> CSize -> IO ()
foreign import ccall unsafe "_hs_text_memcmp" memcmp
:: ByteArray# -> CSize -> ByteArray# -> CSize -> CSize -> IO CInt
foreign import ccall unsafe "_hs_text_memcpy" memcpyM
:: MutableByteArray# s -> CSize -> MutableByteArray# s -> CSize -> CSize
-> IO ()