{-# OPTIONS_GHC -fglasgow-exts -fno-warn-orphans #-} {-| This exports instances of the high level API and the medium level API of 'compile','execute', and 'regexec'. -} {- Copyright : (c) Chris Kuklewicz 2007 -} module Text.Regex.TRE.ByteString.Lazy( -- ** Types Regex, MatchOffset, MatchLength, CompOption(CompOption), ExecOption(ExecOption), ReturnCode, WrapError, -- ** Miscellaneous unusedOffset, getVersion, -- ** Medium level API functions compile, execute, regexec, -- ** CompOption flags compBlank, compExtended, -- use extended regex syntax compIgnoreCase, -- ignore case when matching compNoSub, -- no substring matching needed compNewline, -- '.' doesn't match newline -- ** ExecOption flags execBlank, execNotBOL, -- not at begining of line execNotEOL -- not at end of line ) where import Text.Regex.TRE.Wrap -- all import Data.Array(Array) import qualified Data.ByteString.Lazy as L(ByteString,toChunks,fromChunks) import qualified Data.ByteString as B(ByteString,concat) import qualified Data.ByteString.Base as B(unsafeUseAsCStringLen) import System.IO.Unsafe(unsafePerformIO) import Foreign.C.String(CStringLen) import Text.Regex.Base.RegexLike(RegexContext(..),RegexMaker(..),RegexLike(..),MatchOffset,MatchLength) import qualified Text.Regex.TRE.ByteString as BS(execute,regexec) import Text.Regex.Base.Impl(polymatch,polymatchM) instance RegexContext Regex L.ByteString L.ByteString where match = polymatch matchM = polymatchM {-# INLINE fromLazy #-} fromLazy :: L.ByteString -> B.ByteString fromLazy = B.concat . L.toChunks {-# INLINE toLazy #-} 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.TRE.ByteString died: "++show err) Right v -> return v {-# INLINE asCStringLen #-} asCStringLen :: L.ByteString -> (CStringLen -> IO a) -> IO a asCStringLen s = B.unsafeUseAsCStringLen (fromLazy s) 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 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 -- --------------------------------------------------------------------- -- | Compiles a regular expression -- compile :: CompOption -- ^ (summed together) -> ExecOption -- ^ (summed together) -> L.ByteString -- ^ The regular expression to compile -> IO (Either WrapError Regex) -- ^ Returns: the compiled regular expression compile c e pattern = asCStringLen pattern (wrapCompile c e) -- --------------------------------------------------------------------- -- | Matches a regular expression against a buffer, returning the buffer -- indicies of the match, and any submatches -- -- | Matches a regular expression against a string execute :: Regex -- ^ Compiled regular expression -> L.ByteString -- ^ String to match against -> IO (Either WrapError (Maybe (Array Int (MatchOffset,MatchLength)))) -- ^ Returns: 'Nothing' if the regex did not match the -- string, or: -- 'Just' an array of (offset,length) pairs where index 0 is whole match, and the rest are the captured subexpressions. execute regex bs = BS.execute regex (fromLazy bs) regexec :: Regex -- ^ Compiled regular expression -> L.ByteString -- ^ String to match against -> 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)) unusedOffset :: Int unusedOffset = fromIntegral unusedRegOffset