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|
%
% (c) The University of Glasgow 2006
% (c) The University of Glasgow, 1997-2006
%
Buffers for scanning string input stored in external arrays.
\begin{code}
{-# LANGUAGE BangPatterns #-}
{-# OPTIONS_GHC -O -funbox-strict-fields #-}
-- We always optimise this, otherwise performance of a non-optimised
-- compiler is severely affected
module StringBuffer
(
StringBuffer(..),
-- non-abstract for vs\/HaskellService
-- * Creation\/destruction
hGetStringBuffer,
hGetStringBufferBlock,
appendStringBuffers,
stringToStringBuffer,
-- * Inspection
nextChar,
currentChar,
prevChar,
atEnd,
-- * Moving and comparison
stepOn,
offsetBytes,
byteDiff,
-- * Conversion
lexemeToString,
lexemeToFastString,
-- * Parsing integers
parseUnsignedInteger,
) where
#include "HsVersions.h"
import Encoding
import FastString
import FastTypes
import FastFunctions
import System.IO ( hGetBuf, hFileSize,IOMode(ReadMode), hClose
, Handle, hTell, openBinaryFile )
import System.IO.Unsafe ( unsafePerformIO )
import GHC.Exts
import Foreign.Safe
-- -----------------------------------------------------------------------------
-- The StringBuffer type
-- |A StringBuffer is an internal pointer to a sized chunk of bytes.
-- The bytes are intended to be *immutable*. There are pure
-- operations to read the contents of a StringBuffer.
--
-- A StringBuffer may have a finalizer, depending on how it was
-- obtained.
--
data StringBuffer
= StringBuffer {
buf :: {-# UNPACK #-} !(ForeignPtr Word8),
len :: {-# UNPACK #-} !Int, -- length
cur :: {-# UNPACK #-} !Int -- current pos
}
-- The buffer is assumed to be UTF-8 encoded, and furthermore
-- we add three '\0' bytes to the end as sentinels so that the
-- decoder doesn't have to check for overflow at every single byte
-- of a multibyte sequence.
instance Show StringBuffer where
showsPrec _ s = showString "<stringbuffer("
. shows (len s) . showString "," . shows (cur s)
. showString ")>"
-- -----------------------------------------------------------------------------
-- Creation / Destruction
hGetStringBuffer :: FilePath -> IO StringBuffer
hGetStringBuffer fname = do
h <- openBinaryFile fname ReadMode
size_i <- hFileSize h
let size = fromIntegral size_i
buf <- mallocForeignPtrArray (size+3)
withForeignPtr buf $ \ptr -> do
r <- if size == 0 then return 0 else hGetBuf h ptr size
hClose h
if (r /= size)
then ioError (userError "short read of file")
else newUTF8StringBuffer buf ptr size
hGetStringBufferBlock :: Handle -> Int -> IO StringBuffer
hGetStringBufferBlock handle wanted
= do size_i <- hFileSize handle
offset_i <- hTell handle
let size = min wanted (fromIntegral $ size_i-offset_i)
buf <- mallocForeignPtrArray (size+3)
withForeignPtr buf $ \ptr ->
do r <- if size == 0 then return 0 else hGetBuf handle ptr size
if r /= size
then ioError (userError $ "short read of file: "++show(r,size,size_i,handle))
else newUTF8StringBuffer buf ptr size
newUTF8StringBuffer :: ForeignPtr Word8 -> Ptr Word8 -> Int -> IO StringBuffer
newUTF8StringBuffer buf ptr size = do
pokeArray (ptr `plusPtr` size :: Ptr Word8) [0,0,0]
-- sentinels for UTF-8 decoding
let
sb0 = StringBuffer buf size 0
(first_char, sb1) = nextChar sb0
-- skip the byte-order mark if there is one (see #1744)
-- This is better than treating #FEFF as whitespace,
-- because that would mess up layout. We don't have a concept
-- of zero-width whitespace in Haskell: all whitespace codepoints
-- have a width of one column.
return (if first_char == '\xfeff' then sb1 else sb0)
appendStringBuffers :: StringBuffer -> StringBuffer -> IO StringBuffer
appendStringBuffers sb1 sb2
= do newBuf <- mallocForeignPtrArray (size+3)
withForeignPtr newBuf $ \ptr ->
withForeignPtr (buf sb1) $ \sb1Ptr ->
withForeignPtr (buf sb2) $ \sb2Ptr ->
do copyArray ptr (sb1Ptr `advancePtr` cur sb1) sb1_len
copyArray (ptr `advancePtr` sb1_len) (sb2Ptr `advancePtr` cur sb2) sb2_len
pokeArray (ptr `advancePtr` size) [0,0,0]
return (StringBuffer newBuf size 0)
where sb1_len = calcLen sb1
sb2_len = calcLen sb2
calcLen sb = len sb - cur sb
size = sb1_len + sb2_len
stringToStringBuffer :: String -> StringBuffer
stringToStringBuffer str =
unsafePerformIO $ do
let size = utf8EncodedLength str
buf <- mallocForeignPtrArray (size+3)
withForeignPtr buf $ \ptr -> do
utf8EncodeString ptr str
pokeArray (ptr `plusPtr` size :: Ptr Word8) [0,0,0]
-- sentinels for UTF-8 decoding
return (StringBuffer buf size 0)
-- -----------------------------------------------------------------------------
-- Grab a character
-- Getting our fingers dirty a little here, but this is performance-critical
{-# INLINE nextChar #-}
nextChar :: StringBuffer -> (Char,StringBuffer)
nextChar (StringBuffer buf len (I# cur#)) =
inlinePerformIO $ do
withForeignPtr buf $ \(Ptr a#) -> do
case utf8DecodeChar# (a# `plusAddr#` cur#) of
(# c#, b# #) ->
let cur' = I# (b# `minusAddr#` a#) in
return (C# c#, StringBuffer buf len cur')
currentChar :: StringBuffer -> Char
currentChar = fst . nextChar
prevChar :: StringBuffer -> Char -> Char
prevChar (StringBuffer _ _ 0) deflt = deflt
prevChar (StringBuffer buf _ cur) _ =
inlinePerformIO $ do
withForeignPtr buf $ \p -> do
p' <- utf8PrevChar (p `plusPtr` cur)
return (fst (utf8DecodeChar p'))
-- -----------------------------------------------------------------------------
-- Moving
stepOn :: StringBuffer -> StringBuffer
stepOn s = snd (nextChar s)
offsetBytes :: Int -> StringBuffer -> StringBuffer
offsetBytes i s = s { cur = cur s + i }
byteDiff :: StringBuffer -> StringBuffer -> Int
byteDiff s1 s2 = cur s2 - cur s1
atEnd :: StringBuffer -> Bool
atEnd (StringBuffer _ l c) = l == c
-- -----------------------------------------------------------------------------
-- Conversion
lexemeToString :: StringBuffer -> Int {-bytes-} -> String
lexemeToString _ 0 = ""
lexemeToString (StringBuffer buf _ cur) bytes =
inlinePerformIO $
withForeignPtr buf $ \ptr ->
utf8DecodeString (ptr `plusPtr` cur) bytes
lexemeToFastString :: StringBuffer -> Int {-bytes-} -> FastString
lexemeToFastString _ 0 = nilFS
lexemeToFastString (StringBuffer buf _ cur) len =
inlinePerformIO $
withForeignPtr buf $ \ptr ->
return $! mkFastStringBytes (ptr `plusPtr` cur) len
-- -----------------------------------------------------------------------------
-- Parsing integer strings in various bases
{-
byteOff :: StringBuffer -> Int -> Char
byteOff (StringBuffer buf _ cur) i =
inlinePerformIO $ withForeignPtr buf $ \ptr -> do
-- return $! cBox (indexWord8OffFastPtrAsFastChar
-- (pUnbox ptr) (iUnbox (cur+i)))
--or
-- w <- peek (ptr `plusPtr` (cur+i))
-- return (unsafeChr (fromIntegral (w::Word8)))
-}
-- | XXX assumes ASCII digits only (by using byteOff)
parseUnsignedInteger :: StringBuffer -> Int -> Integer -> (Char->Int) -> Integer
parseUnsignedInteger (StringBuffer buf _ cur) len radix char_to_int
= inlinePerformIO $ withForeignPtr buf $ \ptr -> return $! let
--LOL, in implementations where the indexing needs slow unsafePerformIO,
--this is less (not more) efficient than using the IO monad explicitly
--here.
!ptr' = pUnbox ptr
byteOff i = cBox (indexWord8OffFastPtrAsFastChar ptr' (iUnbox (cur + i)))
go i x | i == len = x
| otherwise = case byteOff i of
char -> go (i + 1) (x * radix + toInteger (char_to_int char))
in go 0 0
\end{code}
|
