{-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE PatternGuards #-} {-# LANGUAGE ImpredicativeTypes #-} {-# LANGUAGE BangPatterns #-} -- | This module provides both a native Haskell solution for parsing XML -- documents into a stream of events, and a set of parser combinators for -- dealing with a stream of events. -- -- As a simple example, if you have the following XML file: -- -- > -- > -- > Michael -- > Eliezer -- > -- -- Then this code: -- -- > {-# LANGUAGE OverloadedStrings #-} -- > import Control.Monad.Trans.Resource -- > import Data.Conduit (($$)) -- > import Data.Text (Text, unpack) -- > import Text.XML.Stream.Parse -- > -- > data Person = Person Int Text -- > deriving Show -- > -- > parsePerson = tagName "person" (requireAttr "age") $ \age -> do -- > name <- content -- > return $ Person (read $ unpack age) name -- > -- > parsePeople = tagNoAttr "people" $ many parsePerson -- > -- > main = do -- > people <- runResourceT $ -- > parseFile def "people.xml" $$ force "people required" parsePeople -- > print people -- -- will produce: -- -- > [Person {age = 25, name = "Michael"},Person {age = 2, name = "Eliezer"}] -- -- Previous versions of this module contained a number of more sophisticated -- functions written by Aristid Breitkreuz and Dmitry Olshansky. To keep this -- package simpler, those functions are being moved to a separate package. This -- note will be updated with the name of the package(s) when available. module Text.XML.Stream.Parse ( -- * Parsing XML files parseBytes , parseBytesPos , parseText' , parseText , parseTextPos , detectUtf , parseFile , parseLBS -- ** Parser settings , ParseSettings , def , DecodeEntities , psDecodeEntities , psRetainNamespaces -- *** Entity decoding , decodeXmlEntities , decodeHtmlEntities -- * Event parsing , tag , tagPredicate , tagName , tagNoAttr , content , contentMaybe -- * Attribute parsing , AttrParser , requireAttr , optionalAttr , requireAttrRaw , optionalAttrRaw , ignoreAttrs -- * Combinators , orE , choose , many , force -- * Exceptions , XmlException (..) -- * Other types , PositionRange , EventPos ) where import Data.Attoparsec.Text ( char, Parser, takeWhile1, skipWhile, string , manyTill, takeWhile, try, anyChar ) import qualified Control.Applicative as A import Control.Monad.Trans.Resource (MonadThrow, monadThrow, MonadResource) import Data.Conduit.Attoparsec (conduitParser, PositionRange) import Data.XML.Types ( Name (..), Event (..), Content (..) , Instruction (..), ExternalID (..) ) import Filesystem.Path.CurrentOS (FilePath, encodeString) import Control.Applicative (Applicative(..), Alternative(empty,(<|>)), (<$>)) import Data.Text (Text, pack) import Control.Arrow ((***)) import qualified Data.Text as T import Data.Text.Read (Reader, decimal, hexadecimal) import Data.Text.Encoding (decodeUtf32BEWith) import Data.Text.Encoding.Error (ignore) import Data.Word (Word32) import Blaze.ByteString.Builder (fromWord32be, toByteString) import Text.XML.Stream.Token import Prelude hiding (takeWhile, FilePath) import qualified Data.ByteString as S import qualified Data.ByteString.Lazy as L import qualified Data.Map as Map import Data.Conduit import qualified Data.Conduit.Text as CT import qualified Data.Conduit.List as CL import qualified Data.Conduit.Internal as CI import Control.Monad (ap, liftM, void, guard) import qualified Data.Text as TS import Data.List (foldl') import Data.Typeable (Typeable) import Control.Exception (Exception) import Data.Conduit.Binary (sourceFile) import Data.Char (isSpace) import Data.Default (Default (..)) import Control.Monad.Trans.Class (lift) import Data.Maybe (fromMaybe, isNothing) type Ents = [(Text, Text)] tokenToEvent :: ParseSettings -> Ents -> [NSLevel] -> Token -> (Ents, [NSLevel], [Event]) tokenToEvent _ es n (TokenBeginDocument _) = (es, n, []) tokenToEvent _ es n (TokenInstruction i) = (es, n, [EventInstruction i]) tokenToEvent ps es n (TokenBeginElement name as isClosed _) = (es, n', if isClosed then [begin, end] else [begin]) where l0 = case n of [] -> NSLevel Nothing Map.empty x:_ -> x (as', l') = foldl' go (id, l0) as go (front, l) (TName kpref kname, val) = (addNS front, l'') where isPrefixed = kpref == Just "xmlns" isUnprefixed = isNothing kpref && kname == "xmlns" addNS | not (psRetainNamespaces ps) && (isPrefixed || isUnprefixed) = id | otherwise = (((tname, map resolve val):) .) where tname | isPrefixed = TName Nothing ("xmlns:" `T.append` kname) | otherwise = TName kpref kname l'' | isPrefixed = l { prefixes = Map.insert kname (contentsToText val) $ prefixes l } | isUnprefixed = l { defaultNS = if T.null $ contentsToText val then Nothing else Just $ contentsToText val } | otherwise = l resolve (ContentEntity e) | Just t <- lookup e es = ContentText t resolve c = c n' = if isClosed then n else l' : n fixAttName (name', val) = (tnameToName True l' name', val) elementName = tnameToName False l' name begin = EventBeginElement elementName $ map fixAttName $ as' [] end = EventEndElement elementName tokenToEvent _ es n (TokenEndElement name) = (es, n', [EventEndElement $ tnameToName False l name]) where (l, n') = case n of [] -> (NSLevel Nothing Map.empty, []) x:xs -> (x, xs) tokenToEvent _ es n (TokenContent (ContentEntity e)) | Just t <- lookup e es = (es, n, [EventContent $ ContentText t]) tokenToEvent _ es n (TokenContent c) = (es, n, [EventContent c]) tokenToEvent _ es n (TokenComment c) = (es, n, [EventComment c]) tokenToEvent _ es n (TokenDoctype t eid es') = (es ++ es', n, [EventBeginDoctype t eid, EventEndDoctype]) tokenToEvent _ es n (TokenCDATA t) = (es, n, [EventCDATA t]) tnameToName :: Bool -> NSLevel -> TName -> Name tnameToName _ _ (TName (Just "xml") name) = Name name (Just "http://www.w3.org/XML/1998/namespace") (Just "xml") tnameToName isAttr (NSLevel def' _) (TName Nothing name) = Name name (if isAttr then Nothing else def') Nothing tnameToName _ (NSLevel _ m) (TName (Just pref) name) = case Map.lookup pref m of Just ns -> Name name (Just ns) (Just pref) Nothing -> Name name Nothing (Just pref) -- FIXME is this correct? -- | Automatically determine which UTF variant is being used. This function -- first checks for BOMs, removing them as necessary, and then check for the -- equivalent of Conduit S.ByteString m TS.Text detectUtf = conduit id where conduit front = await >>= maybe (return ()) (push front) push front bss = either conduit (\(bss', continue) -> leftover bss' >> continue) (getEncoding front bss) getEncoding front bs' | S.length bs < 4 = Left (bs `S.append`) | otherwise = Right (bsOut, CT.decode codec) where bs = front bs' bsOut = S.append (S.drop toDrop x) y (x, y) = S.splitAt 4 bs (toDrop, codec) = case S.unpack x of [0x00, 0x00, 0xFE, 0xFF] -> (4, CT.utf32_be) [0xFF, 0xFE, 0x00, 0x00] -> (4, CT.utf32_le) 0xFE : 0xFF: _ -> (2, CT.utf16_be) 0xFF : 0xFE: _ -> (2, CT.utf16_le) 0xEF : 0xBB: 0xBF : _ -> (3, CT.utf8) [0x00, 0x00, 0x00, 0x3C] -> (0, CT.utf32_be) [0x3C, 0x00, 0x00, 0x00] -> (0, CT.utf32_le) [0x00, 0x3C, 0x00, 0x3F] -> (0, CT.utf16_be) [0x3C, 0x00, 0x3F, 0x00] -> (0, CT.utf16_le) _ -> (0, CT.utf8) -- Assuming UTF-8 type EventPos = (Maybe PositionRange, Event) -- | Parses a byte stream into 'Event's. This function is implemented fully in -- Haskell using attoparsec-text for parsing. The produced error messages do -- not give line/column information, so you may prefer to stick with the parser -- provided by libxml-enumerator. However, this has the advantage of not -- relying on any C libraries. -- -- This relies on 'detectUtf' to determine character encoding, and 'parseText'' -- to do the actual parsing. parseBytes :: MonadThrow m => ParseSettings -> Conduit S.ByteString m Event parseBytes = mapOutput snd . parseBytesPos parseBytesPos :: MonadThrow m => ParseSettings -> Conduit S.ByteString m EventPos parseBytesPos ps = detectUtf =$= parseTextPos ps dropBOM :: Monad m => Conduit TS.Text m TS.Text dropBOM = await >>= maybe (return ()) push where push t = case T.uncons t of Nothing -> dropBOM Just (c, cs) -> let output | c == '\xfeef' = cs | otherwise = t in yield output >> idConduit idConduit = await >>= maybe (return ()) (\x -> yield x >> idConduit) -- | Parses a character stream into 'Event's. This function is implemented -- fully in Haskell using attoparsec-text for parsing. The produced error -- messages do not give line/column information, so you may prefer to stick -- with the parser provided by libxml-enumerator. However, this has the -- advantage of not relying on any C libraries. -- -- Since 1.2.4 parseText' :: MonadThrow m => ParseSettings -> Conduit TS.Text m Event parseText' = mapOutput snd . parseTextPos {-# DEPRECATED parseText "Please use 'parseText'' or 'parseTextPos'." #-} parseText :: MonadThrow m => ParseSettings -> Conduit TS.Text m EventPos parseText = parseTextPos -- | Same as 'parseText'', but includes the position of each event. -- -- Since 1.2.4 parseTextPos :: MonadThrow m => ParseSettings -> Conduit TS.Text m EventPos parseTextPos de = dropBOM =$= tokenize =$= toEventC de =$= addBeginEnd where tokenize = conduitToken de addBeginEnd = yield (Nothing, EventBeginDocument) >> addEnd addEnd = await >>= maybe (yield (Nothing, EventEndDocument)) (\e -> yield e >> addEnd) toEventC :: Monad m => ParseSettings -> Conduit (PositionRange, Token) m EventPos toEventC ps = go [] [] where go !es !levels = await >>= maybe (return ()) push where push (position, token) = mapM_ (yield . (,) (Just position)) events >> go es' levels' where (es', levels', events) = tokenToEvent ps es levels token data ParseSettings = ParseSettings { psDecodeEntities :: DecodeEntities , psRetainNamespaces :: Bool -- ^ Whether the original xmlns attributes should be retained in the parsed -- values. For more information on motivation, see: -- -- -- -- Default: False -- -- Since 1.2.1 } instance Default ParseSettings where def = ParseSettings { psDecodeEntities = decodeXmlEntities , psRetainNamespaces = False } conduitToken :: MonadThrow m => ParseSettings -> Conduit TS.Text m (PositionRange, Token) conduitToken = conduitParser . parseToken . psDecodeEntities parseToken :: DecodeEntities -> Parser Token parseToken de = (char '<' >> parseLt) <|> TokenContent <$> parseContent de False False where parseLt = (char '?' >> parseInstr) <|> (char '!' >> (parseComment <|> parseCdata <|> parseDoctype)) <|> parseBegin <|> (char '/' >> parseEnd) parseInstr = do name <- parseIdent if name == "xml" then do as <- A.many $ parseAttribute de skipSpace char' '?' char' '>' newline <|> return () return $ TokenBeginDocument as else do skipSpace x <- T.pack <$> manyTill anyChar (try $ string "?>") return $ TokenInstruction $ Instruction name x parseComment = do char' '-' char' '-' c <- T.pack <$> manyTill anyChar (string "-->") -- FIXME use takeWhile instead return $ TokenComment c parseCdata = do _ <- string "[CDATA[" t <- T.pack <$> manyTill anyChar (string "]]>") -- FIXME use takeWhile instead return $ TokenCDATA t parseDoctype = do _ <- string "DOCTYPE" skipSpace name <- parseName let i = case name of TName Nothing x -> x TName (Just x) y -> T.concat [x, ":", y] skipSpace eid <- fmap Just parsePublicID <|> fmap Just parseSystemID <|> return Nothing skipSpace ents <- (do char' '[' ents <- parseEntities id skipSpace return ents) <|> return [] char' '>' newline <|> return () return $ TokenDoctype i eid ents parseEntities front = (char ']' >> return (front [])) <|> (parseEntity >>= \e -> parseEntities (front . (e:))) <|> (char '<' >> parseEntities front) <|> (skipWhile (\t -> t /= ']' && t /= '<') >> parseEntities front) parseEntity = try $ do _ <- string "' return (i, t) parsePublicID = do _ <- string "PUBLIC" x <- quotedText y <- quotedText return $ PublicID x y parseSystemID = do _ <- string "SYSTEM" x <- quotedText return $ SystemID x quotedText = do skipSpace between '"' <|> between '\'' between c = do char' c x <- takeWhile (/=c) char' c return x parseEnd = do skipSpace n <- parseName skipSpace char' '>' return $ TokenEndElement n parseBegin = do skipSpace n <- parseName as <- A.many $ parseAttribute de skipSpace isClose <- (char '/' >> skipSpace >> return True) <|> return False char' '>' return $ TokenBeginElement n as isClose 0 parseAttribute :: DecodeEntities -> Parser TAttribute parseAttribute de = do skipSpace key <- parseName skipSpace char' '=' skipSpace val <- squoted <|> dquoted return (key, val) where squoted = char '\'' *> manyTill (parseContent de False True) (char '\'') dquoted = char '"' *> manyTill (parseContent de True False) (char '"') parseName :: Parser TName parseName = name <$> parseIdent <*> A.optional (char ':' >> parseIdent) where name i1 Nothing = TName Nothing i1 name i1 (Just i2) = TName (Just i1) i2 parseIdent :: Parser Text parseIdent = takeWhile1 valid where valid '&' = False valid '<' = False valid '>' = False valid ':' = False valid '?' = False valid '=' = False valid '"' = False valid '\'' = False valid '/' = False valid c = not $ isXMLSpace c parseContent :: DecodeEntities -> Bool -- break on double quote -> Bool -- break on single quote -> Parser Content parseContent de breakDouble breakSingle = parseEntity <|> parseText' where parseEntity = do char' '&' t <- takeWhile1 (/= ';') char' ';' return $ de t parseText' = do bs <- takeWhile1 valid return $ ContentText bs valid '"' = not breakDouble valid '\'' = not breakSingle valid '&' = False -- amp valid '<' = False -- lt valid _ = True skipSpace :: Parser () skipSpace = skipWhile isXMLSpace -- | Determines whether a character is an XML white space. The list of -- white spaces is given by -- -- > S ::= (#x20 | #x9 | #xD | #xA)+ -- -- in . isXMLSpace :: Char -> Bool isXMLSpace ' ' = True isXMLSpace '\t' = True isXMLSpace '\r' = True isXMLSpace '\n' = True isXMLSpace _ = False newline :: Parser () newline = ((char '\r' >> char '\n') <|> char '\n') >> return () char' :: Char -> Parser () char' = void . char data ContentType = Ignore | IsContent Text | IsError String | NotContent -- | Grabs the next piece of content if available. This function skips over any -- comments and instructions and concatenates all content until the next start -- or end tag. contentMaybe :: MonadThrow m => Consumer Event m (Maybe Text) contentMaybe = do x <- CL.peek case pc' x of Ignore -> CL.drop 1 >> contentMaybe IsContent t -> CL.drop 1 >> fmap Just (takeContents (t:)) IsError e -> lift $ monadThrow $ XmlException e x NotContent -> return Nothing where pc' Nothing = NotContent pc' (Just x) = pc x pc (EventContent (ContentText t)) = IsContent t pc (EventContent (ContentEntity e)) = IsError $ "Unknown entity: " ++ show e pc (EventCDATA t) = IsContent t pc EventBeginElement{} = NotContent pc EventEndElement{} = NotContent pc EventBeginDocument{} = Ignore pc EventEndDocument = Ignore pc EventBeginDoctype{} = Ignore pc EventEndDoctype = Ignore pc EventInstruction{} = Ignore pc EventComment{} = Ignore takeContents front = do x <- CL.peek case pc' x of Ignore -> CL.drop 1 >> takeContents front IsContent t -> CL.drop 1 >> takeContents (front . (:) t) IsError e -> lift $ monadThrow $ XmlException e x NotContent -> return $ T.concat $ front [] -- | Grabs the next piece of content. If none if available, returns 'T.empty'. -- This is simply a wrapper around 'contentMaybe'. content :: MonadThrow m => Consumer Event m Text content = fromMaybe T.empty <$> contentMaybe -- | The most generic way to parse a tag. It takes a predicate for checking if -- this is the correct tag name, an 'AttrParser' for handling attributes, and -- then a parser for dealing with content. -- -- This function automatically absorbs its balancing closing tag, and will -- throw an exception if not all of the attributes or child elements are -- consumed. If you want to allow extra attributes, see 'ignoreAttrs'. -- -- This function automatically ignores comments, instructions and whitespace. tag :: MonadThrow m => (Name -> Maybe a) -- ^ Check if this is a correct tag name -- and return a value that can be used to get an @AttrParser@. -- If this returns @Nothing@, the function will also return @Nothing@ -> (a -> AttrParser b) -- ^ Given the value returned by the name checker, this function will -- be used to get an @AttrParser@ appropriate for the specific tag. -> (b -> CI.ConduitM Event o m c) -- ^ Handler function to handle the attributes and children -- of a tag, given the value return from the @AttrParser@ -> CI.ConduitM Event o m (Maybe c) tag checkName attrParser f = do x <- dropWS case x of Just (EventBeginElement name as) -> case checkName name of Just y -> case runAttrParser' (attrParser y) as of Left e -> lift $ monadThrow e Right z -> do CL.drop 1 z' <- f z a <- dropWS case a of Just (EventEndElement name') | name == name' -> CL.drop 1 >> return (Just z') _ -> lift $ monadThrow $ XmlException ("Expected end tag for: " ++ show name) a Nothing -> return Nothing _ -> return Nothing where -- Drop Events until we encount a non-whitespace element dropWS = do x <- CL.peek let isWS = case x of Just EventBeginDocument -> True Just EventEndDocument -> True Just EventBeginDoctype{} -> True Just EventEndDoctype -> True Just EventInstruction{} -> True Just EventBeginElement{} -> False Just EventEndElement{} -> False Just (EventContent (ContentText t)) | T.all isSpace t -> True | otherwise -> False Just (EventContent ContentEntity{}) -> False Just EventComment{} -> True Just EventCDATA{} -> False Nothing -> False if isWS then CL.drop 1 >> dropWS else return x runAttrParser' p as = case runAttrParser p as of Left e -> Left e Right ([], x) -> Right x Right (attr, _) -> Left $ UnparsedAttributes attr -- | A simplified version of 'tag' which matches against boolean predicates. tagPredicate :: MonadThrow m => (Name -> Bool) -- ^ Name predicate that returns @True@ if the name matches the parser -> AttrParser a -- ^ The attribute parser to be used for tags matching the predicate -> (a -> CI.ConduitM Event o m b) -- ^ Handler function to handle the attributes and children -- of a tag, given the value return from the @AttrParser@ -> CI.ConduitM Event o m (Maybe b) tagPredicate p attrParser = tag (guard . p) (const attrParser) -- | A simplified version of 'tag' which matches for specific tag names instead -- of taking a predicate function. This is often sufficient, and when combined -- with OverloadedStrings and the IsString instance of 'Name', can prove to be -- very concise. -- . -- Note that @Name@ is namespace sensitive. When using the @IsString@ instance of name, -- use -- > "{http://a/b}c" :: Name -- to match the tag @c@ in the XML namespace @http://a/b@ tagName :: MonadThrow m => Name -- ^ The tag name this parser matches to (includes namespaces) -> AttrParser a -- ^ The attribute parser to be used for tags matching the predicate -> (a -> CI.ConduitM Event o m b) -- ^ Handler function to handle the attributes and children -- of a tag, given the value return from the @AttrParser@ -> CI.ConduitM Event o m (Maybe b) tagName name = tagPredicate (== name) -- | A further simplified tag parser, which requires that no attributes exist. tagNoAttr :: MonadThrow m => Name -- ^ The name this parser matches to -> CI.ConduitM Event o m a -- ^ Handler function to handle the children of the matched tag -> CI.ConduitM Event o m (Maybe a) tagNoAttr name f = tagName name (return ()) $ const f -- | Get the value of the first parser which returns 'Just'. If no parsers -- succeed (i.e., return @Just@), this function returns 'Nothing'. -- -- > orE a b = choose [a, b] orE :: Monad m => Consumer Event m (Maybe a) -- ^ The first (preferred) parser -> Consumer Event m (Maybe a) -- ^ The second parser, only executed if the first parser fails -> Consumer Event m (Maybe a) orE a b = a >>= \x -> maybe b (const $ return x) x -- | Get the value of the first parser which returns 'Just'. If no parsers -- succeed (i.e., return 'Just'), this function returns 'Nothing'. choose :: Monad m => [Consumer Event m (Maybe a)] -- ^ List of parsers that will be tried in order. -> Consumer Event m (Maybe a) -- ^ Result of the first parser to succeed, or @Nothing@ -- if no parser succeeded choose [] = return Nothing choose (i:is) = i >>= maybe (choose is) (return . Just) -- | Force an optional parser into a required parser. All of the 'tag' -- functions, 'choose' and 'many' deal with 'Maybe' parsers. Use this when you -- want to finally force something to happen. force :: MonadThrow m => String -- ^ Error message -> CI.ConduitM Event o m (Maybe a) -- ^ Optional parser to be forced -> CI.ConduitM Event o m a force msg i = i >>= maybe (lift $ monadThrow $ XmlException msg Nothing) return -- | A helper function which reads a file from disk using 'enumFile', detects -- character encoding using 'detectUtf', parses the XML using 'parseBytes', and -- then hands off control to your supplied parser. parseFile :: MonadResource m => ParseSettings -> FilePath -> Producer m Event parseFile ps fp = sourceFile (encodeString fp) =$= parseBytes ps -- | Parse an event stream from a lazy 'L.ByteString'. parseLBS :: MonadThrow m => ParseSettings -> L.ByteString -> Producer m Event parseLBS ps lbs = CL.sourceList (L.toChunks lbs) =$= parseBytes ps data XmlException = XmlException { xmlErrorMessage :: String , xmlBadInput :: Maybe Event } | InvalidEndElement Name | InvalidEntity Text | UnparsedAttributes [(Name, [Content])] deriving (Show, Typeable) instance Exception XmlException -- | A monad for parsing attributes. By default, it requires you to deal with -- all attributes present on an element, and will throw an exception if there -- are unhandled attributes. Use the 'requireAttr', 'optionalAttr' et al -- functions for handling an attribute, and 'ignoreAttrs' if you would like to -- skip the rest of the attributes on an element. -- -- 'Alternative' instance behave like 'First' monoid. It chooses first -- parser which doesn't fail. newtype AttrParser a = AttrParser { runAttrParser :: [(Name, [Content])] -> Either XmlException ([(Name, [Content])], a) } instance Monad AttrParser where return a = AttrParser $ \as -> Right (as, a) (AttrParser f) >>= g = AttrParser $ \as -> either Left (\(as', f') -> runAttrParser (g f') as') (f as) instance Functor AttrParser where fmap = liftM instance Applicative AttrParser where pure = return (<*>) = ap instance Alternative AttrParser where empty = AttrParser $ const $ Left $ XmlException "AttrParser.empty" Nothing AttrParser f <|> AttrParser g = AttrParser $ \x -> either (const $ g x) Right (f x) optionalAttrRaw :: ((Name, [Content]) -> Maybe b) -> AttrParser (Maybe b) optionalAttrRaw f = AttrParser $ go id where go front [] = Right (front [], Nothing) go front (a:as) = maybe (go (front . (:) a) as) (\b -> Right (front as, Just b)) (f a) requireAttrRaw :: String -> ((Name, [Content]) -> Maybe b) -> AttrParser b requireAttrRaw msg f = optionalAttrRaw f >>= maybe (AttrParser $ const $ Left $ XmlException msg Nothing) return -- | Require that a certain attribute be present and return its value. requireAttr :: Name -> AttrParser Text requireAttr n = requireAttrRaw ("Missing attribute: " ++ show n) (\(x, y) -> if x == n then Just (contentsToText y) else Nothing) -- | Return the value for an attribute if present. optionalAttr :: Name -> AttrParser (Maybe Text) optionalAttr n = optionalAttrRaw (\(x, y) -> if x == n then Just (contentsToText y) else Nothing) contentsToText :: [Content] -> Text contentsToText = T.concat . map toText where toText (ContentText t) = t toText (ContentEntity e) = T.concat ["&", e, ";"] -- | Skip the remaining attributes on an element. Since this will clear the -- list of attributes, you must call this /after/ any calls to 'requireAttr', -- 'optionalAttr', etc. ignoreAttrs :: AttrParser () ignoreAttrs = AttrParser $ const $ Right ([], ()) -- | Keep parsing elements as long as the parser returns 'Just'. many :: Monad m => Consumer Event m (Maybe a) -> Consumer Event m [a] many i = go id where go front = i >>= maybe (return $ front []) (\y -> go $ front . (:) y) type DecodeEntities = Text -> Content -- | Default implementation of 'DecodeEntities': handles numeric entities and -- the five standard character entities (lt, gt, amp, quot, apos). decodeXmlEntities :: DecodeEntities decodeXmlEntities "lt" = ContentText "<" decodeXmlEntities "gt" = ContentText ">" decodeXmlEntities "amp" = ContentText "&" decodeXmlEntities "quot" = ContentText "\"" decodeXmlEntities "apos" = ContentText "'" decodeXmlEntities t = let backup = ContentEntity t in case T.uncons t of Just ('#', t') -> case T.uncons t' of Just ('x', t'') | T.length t'' > 6 -> backup | otherwise -> decodeChar hexadecimal backup t'' _ | T.length t' > 7 -> backup | otherwise -> decodeChar decimal backup t' _ -> backup -- | HTML4-compliant entity decoder. Handles numerics, the five standard -- character entities, and the additional 248 entities defined by HTML 4 and -- XHTML 1. -- -- Note that HTML 5 introduces a drastically larger number of entities, and -- this code does not recognize most of them. decodeHtmlEntities :: DecodeEntities decodeHtmlEntities t = case decodeXmlEntities t of x@ContentText{} -> x backup@ContentEntity{} -> maybe backup ContentText $ Map.lookup t htmlEntities htmlEntities :: Map.Map T.Text T.Text htmlEntities = Map.fromList $ map (pack *** pack) -- Work around the long-compile-time bug [ ("nbsp", "\160") , ("iexcl", "\161") , ("cent", "\162") , ("pound", "\163") , ("curren", "\164") , ("yen", "\165") , ("brvbar", "\166") , ("sect", "\167") , ("uml", "\168") , ("copy", "\169") , ("ordf", "\170") , ("laquo", "\171") , ("not", "\172") , ("shy", "\173") , ("reg", "\174") , ("macr", "\175") , ("deg", "\176") , ("plusmn", "\177") , ("sup2", "\178") , ("sup3", "\179") , ("acute", "\180") , ("micro", "\181") , ("para", "\182") , ("middot", "\183") , ("cedil", "\184") , ("sup1", "\185") , ("ordm", "\186") , ("raquo", "\187") , ("frac14", "\188") , ("frac12", "\189") , ("frac34", "\190") , ("iquest", "\191") , ("Agrave", "\192") , ("Aacute", "\193") , ("Acirc", "\194") , ("Atilde", "\195") , ("Auml", "\196") , ("Aring", "\197") , ("AElig", "\198") , ("Ccedil", "\199") , ("Egrave", "\200") , ("Eacute", "\201") , ("Ecirc", "\202") , ("Euml", "\203") , ("Igrave", "\204") , ("Iacute", "\205") , ("Icirc", "\206") , ("Iuml", "\207") , ("ETH", "\208") , ("Ntilde", "\209") , ("Ograve", "\210") , ("Oacute", "\211") , ("Ocirc", "\212") , ("Otilde", "\213") , ("Ouml", "\214") , ("times", "\215") , ("Oslash", "\216") , ("Ugrave", "\217") , ("Uacute", "\218") , ("Ucirc", "\219") , ("Uuml", "\220") , ("Yacute", "\221") , ("THORN", "\222") , ("szlig", "\223") , ("agrave", "\224") , ("aacute", "\225") , ("acirc", "\226") , ("atilde", "\227") , ("auml", "\228") , ("aring", "\229") , ("aelig", "\230") , ("ccedil", "\231") , ("egrave", "\232") , ("eacute", "\233") , ("ecirc", "\234") , ("euml", "\235") , ("igrave", "\236") , ("iacute", "\237") , ("icirc", "\238") , ("iuml", "\239") , ("eth", "\240") , ("ntilde", "\241") , ("ograve", "\242") , ("oacute", "\243") , ("ocirc", "\244") , ("otilde", "\245") , ("ouml", "\246") , ("divide", "\247") , ("oslash", "\248") , ("ugrave", "\249") , ("uacute", "\250") , ("ucirc", "\251") , ("uuml", "\252") , ("yacute", "\253") , ("thorn", "\254") , ("yuml", "\255") , ("OElig", "\338") , ("oelig", "\339") , ("Scaron", "\352") , ("scaron", "\353") , ("Yuml", "\376") , ("fnof", "\402") , ("circ", "\710") , ("tilde", "\732") , ("Alpha", "\913") , ("Beta", "\914") , ("Gamma", "\915") , ("Delta", "\916") , ("Epsilon", "\917") , ("Zeta", "\918") , ("Eta", "\919") , ("Theta", "\920") , ("Iota", "\921") , ("Kappa", "\922") , ("Lambda", "\923") , ("Mu", "\924") , ("Nu", "\925") , ("Xi", "\926") , ("Omicron", "\927") , ("Pi", "\928") , ("Rho", "\929") , ("Sigma", "\931") , ("Tau", "\932") , ("Upsilon", "\933") , ("Phi", "\934") , ("Chi", "\935") , ("Psi", "\936") , ("Omega", "\937") , ("alpha", "\945") , ("beta", "\946") , ("gamma", "\947") , ("delta", "\948") , ("epsilon", "\949") , ("zeta", "\950") , ("eta", "\951") , ("theta", "\952") , ("iota", "\953") , ("kappa", "\954") , ("lambda", "\955") , ("mu", "\956") , ("nu", "\957") , ("xi", "\958") , ("omicron", "\959") , ("pi", "\960") , ("rho", "\961") , ("sigmaf", "\962") , ("sigma", "\963") , ("tau", "\964") , ("upsilon", "\965") , ("phi", "\966") , ("chi", "\967") , ("psi", "\968") , ("omega", "\969") , ("thetasym", "\977") , ("upsih", "\978") , ("piv", "\982") , ("ensp", "\8194") , ("emsp", "\8195") , ("thinsp", "\8201") , ("zwnj", "\8204") , ("zwj", "\8205") , ("lrm", "\8206") , ("rlm", "\8207") , ("ndash", "\8211") , ("mdash", "\8212") , ("lsquo", "\8216") , ("rsquo", "\8217") , ("sbquo", "\8218") , ("ldquo", "\8220") , ("rdquo", "\8221") , ("bdquo", "\8222") , ("dagger", "\8224") , ("Dagger", "\8225") , ("bull", "\8226") , ("hellip", "\8230") , ("permil", "\8240") , ("prime", "\8242") , ("Prime", "\8243") , ("lsaquo", "\8249") , ("rsaquo", "\8250") , ("oline", "\8254") , ("frasl", "\8260") , ("euro", "\8364") , ("image", "\8465") , ("weierp", "\8472") , ("real", "\8476") , ("trade", "\8482") , ("alefsym", "\8501") , ("larr", "\8592") , ("uarr", "\8593") , ("rarr", "\8594") , ("darr", "\8595") , ("harr", "\8596") , ("crarr", "\8629") , ("lArr", "\8656") , ("uArr", "\8657") , ("rArr", "\8658") , ("dArr", "\8659") , ("hArr", "\8660") , ("forall", "\8704") , ("part", "\8706") , ("exist", "\8707") , ("empty", "\8709") , ("nabla", "\8711") , ("isin", "\8712") , ("notin", "\8713") , ("ni", "\8715") , ("prod", "\8719") , ("sum", "\8721") , ("minus", "\8722") , ("lowast", "\8727") , ("radic", "\8730") , ("prop", "\8733") , ("infin", "\8734") , ("ang", "\8736") , ("and", "\8743") , ("or", "\8744") , ("cap", "\8745") , ("cup", "\8746") , ("int", "\8747") , ("there4", "\8756") , ("sim", "\8764") , ("cong", "\8773") , ("asymp", "\8776") , ("ne", "\8800") , ("equiv", "\8801") , ("le", "\8804") , ("ge", "\8805") , ("sub", "\8834") , ("sup", "\8835") , ("nsub", "\8836") , ("sube", "\8838") , ("supe", "\8839") , ("oplus", "\8853") , ("otimes", "\8855") , ("perp", "\8869") , ("sdot", "\8901") , ("lceil", "\8968") , ("rceil", "\8969") , ("lfloor", "\8970") , ("rfloor", "\8971") , ("lang", "\9001") , ("rang", "\9002") , ("loz", "\9674") , ("spades", "\9824") , ("clubs", "\9827") , ("hearts", "\9829") , ("diams", "\9830") ] decodeChar :: Reader Word32 -> Content -> Text -> Content decodeChar readNum backup = either (const backup) toContent . readNum where toContent (num, extra) | T.null extra = case decodeUtf32BEWith ignore . toByteString $ fromWord32be num of c | T.length c == 1 -> ContentText c | otherwise -> backup toContent _ = backup