{-# OPTIONS_GHC-funbox-strict-fields #-} {-# LANGUAGE BangPatterns #-} {-# LANGUAGE OverloadedStrings #-} module HaskellWorks.Data.Xml.Conduit.Blank ( blankXml , BlankData(..) ) where import Control.Monad import Control.Monad.Trans.Resource (MonadThrow) import Data.ByteString as BS import Data.Conduit import Data.Monoid ((<>)) import Data.Word import Data.Word8 import HaskellWorks.Data.Xml.Conduit.Words import Prelude as P type ExpectedChar = Word8 data BlankState = InXml | InTag | InAttrList | InCloseTag | InClose | InBang !Int | InString !ExpectedChar | InText | InMeta | InCdataTag | InCdata !Int | InRem !Int | InIdent data BlankData = BlankData { blankState :: !BlankState , blankA :: !Word8 , blankB :: !Word8 , blankC :: !ByteString } blankXml :: MonadThrow m => ConduitT BS.ByteString BS.ByteString m () blankXml = blankXmlPlan1 BS.empty InXml blankXmlPlan1 :: MonadThrow m => BS.ByteString -> BlankState -> ConduitT BS.ByteString BS.ByteString m () blankXmlPlan1 as lastState = do mbs <- await case mbs of Just bs -> do let cs = as <> bs case BS.uncons cs of Just (d, ds) -> case BS.uncons ds of Just (e, es) -> blankXmlRun False d e es lastState Nothing -> blankXmlPlan1 cs lastState Nothing -> blankXmlPlan1 cs lastState Nothing -> yield $ BS.map (const _space) as blankXmlPlan2 :: MonadThrow m => Word8 -> Word8 -> BlankState -> ConduitT BS.ByteString BS.ByteString m () blankXmlPlan2 a b lastState = do mcs <- await case mcs of Just cs -> blankXmlRun False a b cs lastState Nothing -> blankXmlRun True a b (BS.pack [_space, _space]) lastState blankXmlRun :: MonadThrow m => Bool -> Word8 -> Word8 -> BS.ByteString -> BlankState -> ConduitT BS.ByteString BS.ByteString m () blankXmlRun done a b cs lastState = do let (!ds, Just (BlankData !nextState _ _ _)) = unfoldrN (BS.length cs) blankByteString (BlankData lastState a b cs) yield ds let (yy, zz) = case BS.unsnoc cs of Just (ys, z) -> case BS.unsnoc ys of Just (_, y) -> (y, z) Nothing -> (b, z) Nothing -> (a, b) unless done (blankXmlPlan2 yy zz nextState) mkNext :: Word8 -> BlankState -> Word8 -> BS.ByteString -> Maybe (Word8, BlankData) mkNext w s a bs = case BS.uncons bs of Just (b, cs) -> Just (w, BlankData s a b cs) Nothing -> error "This should never happen" {-# INLINE mkNext #-} blankByteString :: BlankData -> Maybe (Word8, BlankData) blankByteString (BlankData InXml a b cs) | isMetaStart a b = mkNext _bracketleft InMeta b cs blankByteString (BlankData InXml a b cs) | isEndTag a b = mkNext _space InCloseTag b cs blankByteString (BlankData InXml a b cs) | isTextStart a = mkNext _t InText b cs blankByteString (BlankData InXml a b cs) | a == _less = mkNext _less InTag b cs blankByteString (BlankData InXml a b cs) | isSpace a = mkNext a InXml b cs blankByteString (BlankData InXml _ b cs) = mkNext _space InXml b cs blankByteString (BlankData InTag a b cs) | isSpace a = mkNext _parenleft InAttrList b cs blankByteString (BlankData InTag a b cs) | isTagClose a b = mkNext _space InClose b cs blankByteString (BlankData InTag a b cs) | a == _greater = mkNext _space InXml b cs blankByteString (BlankData InTag a b cs) | isSpace a = mkNext a InTag b cs blankByteString (BlankData InTag _ b cs) = mkNext _space InTag b cs blankByteString (BlankData InCloseTag a b cs) | a == _greater = mkNext _greater InXml b cs blankByteString (BlankData InCloseTag a b cs) | isSpace a = mkNext a InCloseTag b cs blankByteString (BlankData InCloseTag _ b cs) = mkNext _space InCloseTag b cs blankByteString (BlankData InAttrList a b cs) | a == _greater = mkNext _parenright InXml b cs blankByteString (BlankData InAttrList a b cs) | isTagClose a b = mkNext _parenright InClose b cs blankByteString (BlankData InAttrList a b cs) | isNameStartChar a = mkNext _a InIdent b cs blankByteString (BlankData InAttrList a b cs) | isQuote a = mkNext _v (InString a) b cs blankByteString (BlankData InAttrList a b cs) | isSpace a = mkNext a InAttrList b cs blankByteString (BlankData InAttrList _ b cs) = mkNext _space InAttrList b cs blankByteString (BlankData InClose _ b cs) = mkNext _greater InXml b cs blankByteString (BlankData InIdent a b cs) | isNameChar a = mkNext _space InIdent b cs blankByteString (BlankData InIdent a b cs) | isSpace a = mkNext _space InAttrList b cs blankByteString (BlankData InIdent a b cs) | a == _equal = mkNext _space InAttrList b cs blankByteString (BlankData InIdent a b cs) | isSpace a = mkNext a InAttrList b cs blankByteString (BlankData InIdent _ b cs) = mkNext _space InAttrList b cs blankByteString (BlankData (InString q ) a b cs) | a == q = mkNext _space InAttrList b cs blankByteString (BlankData (InString q ) a b cs) | isSpace a = mkNext a (InString q) b cs blankByteString (BlankData (InString q ) _ b cs) = mkNext _space (InString q) b cs blankByteString (BlankData InText a b cs) | isEndTag a b = mkNext _space InCloseTag b cs blankByteString (BlankData InText _ b cs) | b == _less = mkNext _space InXml b cs blankByteString (BlankData InText a b cs) | isSpace a = mkNext a InText b cs blankByteString (BlankData InText _ b cs) = mkNext _space InText b cs blankByteString (BlankData InMeta a b cs) | a == _exclam = mkNext _space InMeta b cs blankByteString (BlankData InMeta a b cs) | a == _hyphen = mkNext _space (InRem 0) b cs blankByteString (BlankData InMeta a b cs) | a == _bracketleft = mkNext _space InCdataTag b cs blankByteString (BlankData InMeta a b cs) | a == _greater = mkNext _bracketright InXml b cs blankByteString (BlankData InMeta a b cs) | isSpace a = mkNext a (InBang 1) b cs blankByteString (BlankData InMeta _ b cs) = mkNext _space (InBang 1) b cs blankByteString (BlankData InCdataTag a b cs) | a == _bracketleft = mkNext _space (InCdata 0) b cs blankByteString (BlankData InCdataTag a b cs) | isSpace a = mkNext a InCdataTag b cs blankByteString (BlankData InCdataTag _ b cs) = mkNext _space InCdataTag b cs blankByteString (BlankData (InCdata n ) a b cs) | a == _greater && n >= 2 = mkNext _bracketright InXml b cs blankByteString (BlankData (InCdata n ) a b cs) | isCdataEnd a b && n > 0 = mkNext _space (InCdata (n+1)) b cs blankByteString (BlankData (InCdata n ) a b cs) | a == _bracketright = mkNext _space (InCdata (n+1)) b cs blankByteString (BlankData (InCdata _ ) a b cs) | isSpace a = mkNext a (InCdata 0) b cs blankByteString (BlankData (InCdata _ ) _ b cs) = mkNext _space (InCdata 0) b cs blankByteString (BlankData (InRem n ) a b cs) | a == _greater && n >= 2 = mkNext _bracketright InXml b cs blankByteString (BlankData (InRem n ) a b cs) | a == _hyphen = mkNext _space (InRem (n+1)) b cs blankByteString (BlankData (InRem _ ) a b cs) | isSpace a = mkNext a (InRem 0) b cs blankByteString (BlankData (InRem _ ) _ b cs) = mkNext _space (InRem 0) b cs blankByteString (BlankData (InBang n ) a b cs) | a == _less = mkNext _bracketleft (InBang (n+1)) b cs blankByteString (BlankData (InBang n ) a b cs) | a == _greater && n == 1 = mkNext _bracketright InXml b cs blankByteString (BlankData (InBang n ) a b cs) | a == _greater = mkNext _bracketright (InBang (n-1)) b cs blankByteString (BlankData (InBang n ) a b cs) | isSpace a = mkNext a (InBang n) b cs blankByteString (BlankData (InBang n ) _ b cs) = mkNext _space (InBang n) b cs {-# INLINE blankByteString #-} isEndTag :: Word8 -> Word8 -> Bool isEndTag a b = a == _less && b == _slash {-# INLINE isEndTag #-} isTagClose :: Word8 -> Word8 -> Bool isTagClose a b = a == _slash || ((a == _slash || a == _question) && b == _greater) {-# INLINE isTagClose #-} isMetaStart :: Word8 -> Word8 -> Bool isMetaStart a b = a == _less && b == _exclam {-# INLINE isMetaStart #-} isCdataEnd :: Word8 -> Word8 -> Bool isCdataEnd a b = a == _bracketright && b == _greater {-# INLINE isCdataEnd #-}