module Text.Regex.PCRE.ByteString.Lazy(
Regex,
MatchOffset,
MatchLength,
CompOption(CompOption),
ExecOption(ExecOption),
ReturnCode,
WrapError,
unusedOffset,
getVersion,
compile,
execute,
regexec,
compBlank,
compAnchored,
compAutoCallout,
compCaseless,
compDollarEndOnly,
compDotAll,
compExtended,
compExtra,
compFirstLine,
compMultiline,
compNoAutoCapture,
compUngreedy,
compUTF8,
compNoUTF8Check,
execBlank,
execAnchored,
execNotBOL,
execNotEOL,
execNotEmpty,
execNoUTF8Check,
execPartial
) where
import Text.Regex.PCRE.Wrap
import Data.Array(Array)
import qualified Data.ByteString.Lazy as L(ByteString,toChunks,fromChunks,last,null,snoc)
import qualified Data.ByteString as B(ByteString,concat,pack)
#ifdef SPLIT_BASE
import qualified Data.ByteString.Unsafe as B(unsafeUseAsCString,unsafeUseAsCStringLen)
#else
import qualified Data.ByteString.Base as B(unsafeUseAsCString,unsafeUseAsCStringLen)
#endif
import System.IO.Unsafe(unsafePerformIO)
import Text.Regex.Base.RegexLike(RegexContext(..),RegexMaker(..),RegexLike(..),MatchOffset,MatchLength)
import Text.Regex.Base.Impl(polymatch,polymatchM)
import qualified Text.Regex.PCRE.ByteString as BS(execute,regexec)
import Foreign.C.String(CString,CStringLen)
import Foreign(nullPtr)
instance RegexContext Regex L.ByteString L.ByteString where
match = polymatch
matchM = polymatchM
fromLazy :: L.ByteString -> B.ByteString
fromLazy = B.concat . L.toChunks
toLazy :: B.ByteString -> L.ByteString
toLazy = L.fromChunks . return
unwrap :: (Show e) => Either e v -> IO v
unwrap x = case x of Left err -> fail ("Text.Regex.PCRE.ByteString.Lazy died: "++ show err)
Right v -> return v
asCString :: L.ByteString -> (CString -> IO a) -> IO a
asCString s = if (not (L.null s)) && (0==L.last s)
then B.unsafeUseAsCString (fromLazy s)
else B.unsafeUseAsCString (fromLazy (L.snoc s 0))
asCStringLen :: L.ByteString -> (CStringLen -> IO a) -> IO a
asCStringLen ls op = B.unsafeUseAsCStringLen (fromLazy ls) checked
where checked cs@(ptr,_) | ptr == nullPtr = B.unsafeUseAsCStringLen myEmpty (op . trim)
| otherwise = op cs
myEmpty = B.pack [0]
trim (ptr,_) = (ptr,0)
instance RegexMaker Regex CompOption ExecOption L.ByteString where
makeRegexOpts c e pattern = unsafePerformIO $
compile c e pattern >>= unwrap
makeRegexOptsM c e pattern = either (fail.show) return $ unsafePerformIO $
compile c e pattern
instance RegexLike Regex L.ByteString where
matchTest regex bs = unsafePerformIO $
asCStringLen bs (wrapTest 0 regex) >>= unwrap
matchOnce regex bs = unsafePerformIO $
execute regex bs >>= unwrap
matchAll regex bs = unsafePerformIO $
asCStringLen bs (wrapMatchAll regex) >>= unwrap
matchCount regex bs = unsafePerformIO $
asCStringLen bs (wrapCount regex) >>= unwrap
compile :: CompOption
-> ExecOption
-> L.ByteString
-> IO (Either (MatchOffset,String) Regex)
compile c e pattern = do
asCString pattern (wrapCompile c e)
execute :: Regex
-> L.ByteString
-> IO (Either WrapError (Maybe (Array Int (MatchOffset,MatchLength))))
execute regex bs = BS.execute regex (fromLazy bs)
regexec :: Regex
-> L.ByteString
-> IO (Either WrapError (Maybe (L.ByteString, L.ByteString, L.ByteString, [L.ByteString])))
regexec regex bs = do
x <- BS.regexec regex (fromLazy bs)
return $ case x of
Left e -> Left e
Right Nothing -> Right Nothing
Right (Just (a,b,c,ds)) -> Right (Just (toLazy a,toLazy b,toLazy c,map toLazy ds))