{-# LANGUAGE OverloadedStrings #-} {- | Module : Text.Pandoc.Readers.MediaWiki Copyright : Copyright (C) 2012-2020 John MacFarlane License : GNU GPL, version 2 or above Maintainer : John MacFarlane Stability : alpha Portability : portable Conversion of mediawiki text to 'Pandoc' document. -} {- TODO: _ correctly handle tables within tables _ parse templates? -} module Text.Pandoc.Readers.MediaWiki ( readMediaWiki ) where import Control.Monad import Control.Monad.Except (throwError) import Data.Char (isDigit, isSpace) import qualified Data.Foldable as F import Data.List (intersperse) import Data.Maybe (fromMaybe, maybeToList) import Data.Sequence (ViewL (..), viewl, (<|)) import qualified Data.Set as Set import Data.Text (Text) import qualified Data.Text as T import Text.HTML.TagSoup import Text.Pandoc.Builder (Blocks, Inlines, trimInlines) import qualified Text.Pandoc.Builder as B import Text.Pandoc.Class.PandocMonad (PandocMonad (..)) import Text.Pandoc.Definition import Text.Pandoc.Logging import Text.Pandoc.Options import Text.Pandoc.Parsing hiding (nested) import Text.Pandoc.Readers.HTML (htmlTag, isBlockTag, isCommentTag) import Text.Pandoc.Shared (crFilter, safeRead, stringify, stripTrailingNewlines, trim, splitTextBy, tshow) import Text.Pandoc.Walk (walk) import Text.Pandoc.XML (fromEntities) -- | Read mediawiki from an input string and return a Pandoc document. readMediaWiki :: PandocMonad m => ReaderOptions -- ^ Reader options -> Text -- ^ String to parse (assuming @'\n'@ line endings) -> m Pandoc readMediaWiki opts s = do parsed <- readWithM parseMediaWiki MWState{ mwOptions = opts , mwMaxNestingLevel = 4 , mwNextLinkNumber = 1 , mwCategoryLinks = [] , mwIdentifierList = Set.empty , mwLogMessages = [] , mwInTT = False } (crFilter s <> "\n") case parsed of Right result -> return result Left e -> throwError e data MWState = MWState { mwOptions :: ReaderOptions , mwMaxNestingLevel :: Int , mwNextLinkNumber :: Int , mwCategoryLinks :: [Inlines] , mwIdentifierList :: Set.Set Text , mwLogMessages :: [LogMessage] , mwInTT :: Bool } type MWParser m = ParserT Text MWState m instance HasReaderOptions MWState where extractReaderOptions = mwOptions instance HasIdentifierList MWState where extractIdentifierList = mwIdentifierList updateIdentifierList f st = st{ mwIdentifierList = f $ mwIdentifierList st } instance HasLogMessages MWState where addLogMessage m s = s{ mwLogMessages = m : mwLogMessages s } getLogMessages = reverse . mwLogMessages -- -- auxiliary functions -- -- This is used to prevent exponential blowups for things like: -- ''a'''a''a'''a''a'''a''a'''a nested :: PandocMonad m => MWParser m a -> MWParser m a nested p = do nestlevel <- mwMaxNestingLevel `fmap` getState guard $ nestlevel > 0 updateState $ \st -> st{ mwMaxNestingLevel = mwMaxNestingLevel st - 1 } res <- p updateState $ \st -> st{ mwMaxNestingLevel = nestlevel } return res specialChars :: [Char] specialChars = "'[]<=&*{}|\":\\" spaceChars :: [Char] spaceChars = " \n\t" sym :: PandocMonad m => Text -> MWParser m () sym s = () <$ try (string $ T.unpack s) newBlockTags :: [Text] newBlockTags = ["haskell","syntaxhighlight","source","gallery","references"] isBlockTag' :: Tag Text -> Bool isBlockTag' tag@(TagOpen t _) = (isBlockTag tag || t `elem` newBlockTags) && t `notElem` eitherBlockOrInline isBlockTag' tag@(TagClose t) = (isBlockTag tag || t `elem` newBlockTags) && t `notElem` eitherBlockOrInline isBlockTag' tag = isBlockTag tag isInlineTag' :: Tag Text -> Bool isInlineTag' (TagComment _) = True isInlineTag' t = not (isBlockTag' t) eitherBlockOrInline :: [Text] eitherBlockOrInline = ["applet", "button", "del", "iframe", "ins", "map", "area", "object"] htmlComment :: PandocMonad m => MWParser m () htmlComment = () <$ htmlTag isCommentTag inlinesInTags :: PandocMonad m => Text -> MWParser m Inlines inlinesInTags tag = try $ do (_,raw) <- htmlTag (~== TagOpen tag []) if T.any (== '/') raw -- self-closing tag then return mempty else trimInlines . mconcat <$> manyTill inline (htmlTag (~== TagClose tag)) blocksInTags :: PandocMonad m => Text -> MWParser m Blocks blocksInTags tag = try $ do (_,raw) <- htmlTag (~== TagOpen tag []) let closer = if tag == "li" then htmlTag (~== TagClose ("li" :: Text)) <|> lookAhead ( htmlTag (~== TagOpen ("li" :: Text) []) <|> htmlTag (~== TagClose ("ol" :: Text)) <|> htmlTag (~== TagClose ("ul" :: Text))) else htmlTag (~== TagClose tag) if T.any (== '/') raw -- self-closing tag then return mempty else mconcat <$> manyTill block closer textInTags :: PandocMonad m => Text -> MWParser m Text textInTags tag = try $ do (_,raw) <- htmlTag (~== TagOpen tag []) if T.any (== '/') raw -- self-closing tag then return "" else T.pack <$> manyTill anyChar (htmlTag (~== TagClose tag)) -- -- main parser -- parseMediaWiki :: PandocMonad m => MWParser m Pandoc parseMediaWiki = do bs <- mconcat <$> many block spaces eof categoryLinks <- reverse . mwCategoryLinks <$> getState let categories = if null categoryLinks then mempty else B.para $ mconcat $ intersperse B.space categoryLinks reportLogMessages return $ B.doc $ bs <> categories -- -- block parsers -- block :: PandocMonad m => MWParser m Blocks block = do res <- mempty <$ skipMany1 blankline <|> table <|> header <|> hrule <|> orderedList <|> bulletList <|> definitionList <|> mempty <$ try (spaces *> htmlComment) <|> preformatted <|> blockTag <|> (B.rawBlock "mediawiki" <$> template) <|> para trace (T.take 60 $ tshow $ B.toList res) return res para :: PandocMonad m => MWParser m Blocks para = do contents <- trimInlines . mconcat <$> many1 inline if F.all (==Space) contents then return mempty else return $ B.para contents table :: PandocMonad m => MWParser m Blocks table = do tableStart styles <- option [] $ parseAttrs <* skipMany spaceChar <* optional (char '|') skipMany spaceChar optional $ template >> skipMany spaceChar optional blanklines let tableWidth = case lookup "width" styles of Just w -> fromMaybe 1.0 $ parseWidth w Nothing -> 1.0 caption <- option mempty tableCaption optional rowsep hasheader <- option False $ True <$ lookAhead (skipSpaces *> char '!') (cellspecs',hdr) <- unzip <$> tableRow let widths = map ((tableWidth *) . snd) cellspecs' let restwidth = tableWidth - sum widths let zerocols = length $ filter (==0.0) widths let defaultwidth = if zerocols == 0 || zerocols == length widths then ColWidthDefault else ColWidth $ restwidth / fromIntegral zerocols let widths' = map (\w -> if w > 0 then ColWidth w else defaultwidth) widths let cellspecs = zip (map fst cellspecs') widths' rows' <- many $ try $ rowsep *> (map snd <$> tableRow) optional blanklines tableEnd let cols = length hdr let (headers,rows) = if hasheader then (hdr, rows') else (replicate cols mempty, hdr:rows') let toRow = Row nullAttr . map B.simpleCell toHeaderRow l = [toRow l | not (null l)] return $ B.table (B.simpleCaption $ B.plain caption) cellspecs (TableHead nullAttr $ toHeaderRow headers) [TableBody nullAttr 0 [] $ map toRow rows] (TableFoot nullAttr []) parseAttrs :: PandocMonad m => MWParser m [(Text,Text)] parseAttrs = many1 parseAttr parseAttr :: PandocMonad m => MWParser m (Text, Text) parseAttr = try $ do skipMany spaceChar k <- many1Char letter char '=' v <- (char '"' >> many1TillChar (satisfy (/='\n')) (char '"')) <|> many1Char (satisfy $ \c -> not (isSpace c) && c /= '|') return (k,v) tableStart :: PandocMonad m => MWParser m () tableStart = try $ guardColumnOne *> skipSpaces *> sym "{|" tableEnd :: PandocMonad m => MWParser m () tableEnd = try $ guardColumnOne *> skipSpaces *> sym "|}" rowsep :: PandocMonad m => MWParser m () rowsep = try $ guardColumnOne *> skipSpaces *> sym "|-" <* many (char '-') <* optional parseAttrs <* blanklines cellsep :: PandocMonad m => MWParser m () cellsep = try $ do col <- sourceColumn <$> getPosition skipSpaces let pipeSep = do char '|' notFollowedBy (oneOf "-}+") if col == 1 then optional (char '|') else void (char '|') let exclSep = do char '!' if col == 1 then optional (char '!') else void (char '!') pipeSep <|> exclSep tableCaption :: PandocMonad m => MWParser m Inlines tableCaption = try $ do guardColumnOne skipSpaces sym "|+" optional (try $ parseAttrs *> skipSpaces *> char '|' *> blanklines) trimInlines . mconcat <$> many (notFollowedBy (cellsep <|> rowsep) *> inline) tableRow :: PandocMonad m => MWParser m [((Alignment, Double), Blocks)] tableRow = try $ skipMany htmlComment *> many tableCell tableCell :: PandocMonad m => MWParser m ((Alignment, Double), Blocks) tableCell = try $ do cellsep skipMany spaceChar attrs <- option [] $ try $ parseAttrs <* skipSpaces <* char '|' <* notFollowedBy (char '|') skipMany spaceChar pos' <- getPosition ls <- T.concat <$> many (notFollowedBy (cellsep <|> rowsep <|> tableEnd) *> ((snd <$> withRaw table) <|> countChar 1 anyChar)) bs <- parseFromString (do setPosition pos' mconcat <$> many block) ls let align = case lookup "align" attrs of Just "left" -> AlignLeft Just "right" -> AlignRight Just "center" -> AlignCenter _ -> AlignDefault let width = case lookup "width" attrs of Just xs -> fromMaybe 0.0 $ parseWidth xs Nothing -> 0.0 return ((align, width), bs) parseWidth :: Text -> Maybe Double parseWidth s = case T.unsnoc s of Just (ds, '%') | T.all isDigit ds -> safeRead $ "0." <> ds _ -> Nothing template :: PandocMonad m => MWParser m Text template = try $ do string "{{" notFollowedBy (char '{') lookAhead $ letter <|> digit <|> char ':' let chunk = template <|> variable <|> many1Char (noneOf "{}") <|> countChar 1 anyChar contents <- manyTill chunk (try $ string "}}") return $ "{{" <> T.concat contents <> "}}" blockTag :: PandocMonad m => MWParser m Blocks blockTag = do (tag, _) <- lookAhead $ htmlTag isBlockTag' case tag of TagOpen "blockquote" _ -> B.blockQuote <$> blocksInTags "blockquote" TagOpen "pre" _ -> B.codeBlock . trimCode <$> textInTags "pre" TagOpen "syntaxhighlight" attrs -> syntaxhighlight "syntaxhighlight" attrs TagOpen "source" attrs -> syntaxhighlight "source" attrs TagOpen "haskell" _ -> B.codeBlockWith ("",["haskell"],[]) . trimCode <$> textInTags "haskell" TagOpen "gallery" _ -> blocksInTags "gallery" TagOpen "p" _ -> mempty <$ htmlTag (~== tag) TagClose "p" -> mempty <$ htmlTag (~== tag) _ -> B.rawBlock "html" . snd <$> htmlTag (~== tag) trimCode :: Text -> Text trimCode t = case T.uncons t of Just ('\n', xs) -> stripTrailingNewlines xs _ -> stripTrailingNewlines t syntaxhighlight :: PandocMonad m => Text -> [Attribute Text] -> MWParser m Blocks syntaxhighlight tag attrs = try $ do let mblang = lookup "lang" attrs let mbstart = lookup "start" attrs let mbline = lookup "line" attrs let classes = maybeToList mblang ++ maybe [] (const ["numberLines"]) mbline let kvs = maybe [] (\x -> [("startFrom",x)]) mbstart contents <- textInTags tag return $ B.codeBlockWith ("",classes,kvs) $ trimCode contents hrule :: PandocMonad m => MWParser m Blocks hrule = B.horizontalRule <$ try (string "----" *> many (char '-') *> newline) guardColumnOne :: PandocMonad m => MWParser m () guardColumnOne = getPosition >>= \pos -> guard (sourceColumn pos == 1) preformatted :: PandocMonad m => MWParser m Blocks preformatted = try $ do guardColumnOne char ' ' let endline' = B.linebreak <$ try (newline <* char ' ') let whitespace' = B.str <$> many1Char ('\160' <$ spaceChar) let spToNbsp ' ' = '\160' spToNbsp x = x let nowiki' = mconcat . intersperse B.linebreak . map B.str . T.lines . fromEntities . T.map spToNbsp <$> try (htmlTag (~== TagOpen ("nowiki" :: Text) []) *> manyTillChar anyChar (htmlTag (~== TagClose ("nowiki" :: Text)))) let inline' = whitespace' <|> endline' <|> nowiki' <|> try (notFollowedBy newline *> inline) contents <- mconcat <$> many1 inline' let spacesStr (Str xs) = T.all isSpace xs spacesStr _ = False if F.all spacesStr contents then return mempty else return $ B.para $ encode contents encode :: Inlines -> Inlines encode = B.fromList . normalizeCode . B.toList . walk strToCode where strToCode (Str s) = Code ("",[],[]) s strToCode Space = Code ("",[],[]) " " strToCode x = x normalizeCode [] = [] normalizeCode (Code a1 x : Code a2 y : zs) | a1 == a2 = normalizeCode $ Code a1 (x <> y) : zs normalizeCode (x:xs) = x : normalizeCode xs header :: PandocMonad m => MWParser m Blocks header = try $ do guardColumnOne lev <- length <$> many1 (char '=') guard $ lev <= 6 contents <- trimInlines . mconcat <$> manyTill inline (count lev $ char '=') opts <- mwOptions <$> getState attr <- (if isEnabled Ext_gfm_auto_identifiers opts then id else modifyIdentifier) <$> registerHeader nullAttr contents return $ B.headerWith attr lev contents -- See #4731: modifyIdentifier :: Attr -> Attr modifyIdentifier (ident,cl,kv) = (ident',cl,kv) where ident' = T.map (\c -> if c == '-' then '_' else c) ident bulletList :: PandocMonad m => MWParser m Blocks bulletList = B.bulletList <$> ( many1 (listItem '*') <|> (htmlTag (~== TagOpen ("ul" :: Text) []) *> spaces *> many (listItem '*' <|> li) <* optional (htmlTag (~== TagClose ("ul" :: Text)))) ) orderedList :: PandocMonad m => MWParser m Blocks orderedList = (B.orderedList <$> many1 (listItem '#')) <|> try (do (tag,_) <- htmlTag (~== TagOpen ("ol" :: Text) []) spaces items <- many (listItem '#' <|> li) optional (htmlTag (~== TagClose ("ol" :: Text))) let start = fromMaybe 1 $ safeRead $ fromAttrib "start" tag return $ B.orderedListWith (start, DefaultStyle, DefaultDelim) items) definitionList :: PandocMonad m => MWParser m Blocks definitionList = B.definitionList <$> many1 defListItem defListItem :: PandocMonad m => MWParser m (Inlines, [Blocks]) defListItem = try $ do terms <- mconcat . intersperse B.linebreak <$> many defListTerm -- we allow dd with no dt, or dt with no dd defs <- if B.isNull terms then notFollowedBy (try $ skipMany1 (char ':') >> string "") *> many1 (listItem ':') else many (listItem ':') return (terms, defs) defListTerm :: PandocMonad m => MWParser m Inlines defListTerm = do guardColumnOne char ';' skipMany spaceChar pos' <- getPosition anyLine >>= parseFromString (do setPosition pos' trimInlines . mconcat <$> many inline) listStart :: PandocMonad m => Char -> MWParser m () listStart c = char c *> notFollowedBy listStartChar listStartChar :: PandocMonad m => MWParser m Char listStartChar = oneOf "*#;:" anyListStart :: PandocMonad m => MWParser m Char anyListStart = guardColumnOne >> oneOf "*#:;" li :: PandocMonad m => MWParser m Blocks li = lookAhead (htmlTag (~== TagOpen ("li" :: Text) [])) *> (firstParaToPlain <$> blocksInTags "li") <* spaces listItem :: PandocMonad m => Char -> MWParser m Blocks listItem c = try $ do guardColumnOne extras <- many (try $ char c <* lookAhead listStartChar) if null extras then listItem' c else do skipMany spaceChar pos' <- getPosition first <- T.concat <$> manyTill listChunk newline rest <- many (try $ string extras *> lookAhead listStartChar *> (T.concat <$> manyTill listChunk newline)) contents <- parseFromString (do setPosition pos' many1 $ listItem' c) (T.unlines (first : rest)) case c of '*' -> return $ B.bulletList contents '#' -> return $ B.orderedList contents ':' -> return $ B.definitionList [(mempty, contents)] _ -> mzero -- The point of this is to handle stuff like -- * {{cite book -- | blah -- | blah -- }} -- * next list item -- which seems to be valid mediawiki. listChunk :: PandocMonad m => MWParser m Text listChunk = template <|> countChar 1 anyChar listItem' :: PandocMonad m => Char -> MWParser m Blocks listItem' c = try $ do listStart c skipMany spaceChar pos' <- getPosition first <- T.concat <$> manyTill listChunk newline rest <- many (try $ char c *> lookAhead listStartChar *> (T.concat <$> manyTill listChunk newline)) parseFromString (do setPosition pos' firstParaToPlain . mconcat <$> many1 block) $ T.unlines $ first : rest firstParaToPlain :: Blocks -> Blocks firstParaToPlain contents = case viewl (B.unMany contents) of Para xs :< ys -> B.Many $ Plain xs <| ys _ -> contents -- -- inline parsers -- inline :: PandocMonad m => MWParser m Inlines inline = whitespace <|> url <|> str <|> doubleQuotes <|> strong <|> emph <|> image <|> internalLink <|> externalLink <|> math <|> inlineTag <|> B.singleton <$> charRef <|> inlineHtml <|> (B.rawInline "mediawiki" <$> variable) <|> (B.rawInline "mediawiki" <$> template) <|> special str :: PandocMonad m => MWParser m Inlines str = B.str <$> many1Char (noneOf $ specialChars ++ spaceChars) math :: PandocMonad m => MWParser m Inlines math = (B.displayMath . trim <$> try (many1 (char ':') >> textInTags "math")) <|> (B.math . trim <$> textInTags "math") <|> (B.displayMath . trim <$> try (dmStart *> manyTillChar anyChar dmEnd)) <|> (B.math . trim <$> try (mStart *> manyTillChar (satisfy (/='\n')) mEnd)) where dmStart = string "\\[" dmEnd = try (string "\\]") mStart = string "\\(" mEnd = try (string "\\)") variable :: PandocMonad m => MWParser m Text variable = try $ do string "{{{" contents <- manyTillChar anyChar (try $ string "}}}") return $ "{{{" <> contents <> "}}}" inlineTag :: PandocMonad m => MWParser m Inlines inlineTag = do (tag, _) <- lookAhead $ htmlTag isInlineTag' case tag of TagOpen "ref" _ -> B.note . B.plain <$> inlinesInTags "ref" TagOpen "nowiki" _ -> try $ do (_,raw) <- htmlTag (~== tag) if T.any (== '/') raw then return mempty else B.text . fromEntities <$> manyTillChar anyChar (htmlTag (~== TagClose ("nowiki" :: Text))) TagOpen "br" _ -> B.linebreak <$ (htmlTag (~== TagOpen ("br" :: Text) []) -- will get /> too *> optional blankline) TagOpen "strike" _ -> B.strikeout <$> inlinesInTags "strike" TagOpen "del" _ -> B.strikeout <$> inlinesInTags "del" TagOpen "sub" _ -> B.subscript <$> inlinesInTags "sub" TagOpen "sup" _ -> B.superscript <$> inlinesInTags "sup" TagOpen "code" _ -> encode <$> inlinesInTags "code" TagOpen "tt" _ -> do inTT <- mwInTT <$> getState updateState $ \st -> st{ mwInTT = True } result <- encode <$> inlinesInTags "tt" updateState $ \st -> st{ mwInTT = inTT } return result TagOpen "hask" _ -> B.codeWith ("",["haskell"],[]) <$> textInTags "hask" _ -> B.rawInline "html" . snd <$> htmlTag (~== tag) special :: PandocMonad m => MWParser m Inlines special = B.str <$> countChar 1 (notFollowedBy' (htmlTag isBlockTag') *> oneOf specialChars) inlineHtml :: PandocMonad m => MWParser m Inlines inlineHtml = B.rawInline "html" . snd <$> htmlTag isInlineTag' whitespace :: PandocMonad m => MWParser m Inlines whitespace = B.space <$ (skipMany1 spaceChar <|> htmlComment) <|> B.softbreak <$ endline endline :: PandocMonad m => MWParser m () endline = () <$ try (newline <* notFollowedBy spaceChar <* notFollowedBy newline <* notFollowedBy' hrule <* notFollowedBy tableStart <* notFollowedBy' header <* notFollowedBy anyListStart) imageIdentifiers :: PandocMonad m => [MWParser m ()] imageIdentifiers = [sym (identifier <> ":") | identifier <- identifiers] where identifiers = ["File", "Image", "Archivo", "Datei", "Fichier", "Bild"] image :: PandocMonad m => MWParser m Inlines image = try $ do sym "[[" choice imageIdentifiers fname <- addUnderscores <$> many1Char (noneOf "|]") _ <- many imageOption dims <- try (char '|' *> sepBy (manyChar digit) (char 'x') <* string "px") <|> return [] _ <- many imageOption let kvs = case dims of [w] -> [("width", w)] [w, h] -> [("width", w), ("height", h)] _ -> [] let attr = ("", [], kvs) caption <- (B.str fname <$ sym "]]") <|> try (char '|' *> (mconcat <$> manyTill inline (sym "]]"))) return $ B.imageWith attr fname ("fig:" <> stringify caption) caption imageOption :: PandocMonad m => MWParser m Text imageOption = try $ char '|' *> opt where opt = try (oneOfStrings [ "border", "thumbnail", "frameless" , "thumb", "upright", "left", "right" , "center", "none", "baseline", "sub" , "super", "top", "text-top", "middle" , "bottom", "text-bottom" ]) <|> try (textStr "frame") <|> try (oneOfStrings ["link=","alt=","page=","class="] <* many (noneOf "|]")) addUnderscores :: Text -> Text addUnderscores = T.intercalate "_" . splitTextBy sep where sep c = isSpace c || c == '_' internalLink :: PandocMonad m => MWParser m Inlines internalLink = try $ do sym "[[" pagename <- T.unwords . T.words <$> manyChar (noneOf "|]") label <- option (B.text pagename) $ char '|' *> ( (mconcat <$> many1 (notFollowedBy (char ']') *> inline)) -- the "pipe trick" -- [[Help:Contents|] -> "Contents" <|> return (B.text $ T.drop 1 $ T.dropWhile (/=':') pagename) ) sym "]]" linktrail <- B.text <$> manyChar letter let link = B.link (addUnderscores pagename) "wikilink" (label <> linktrail) if "Category:" `T.isPrefixOf` pagename then do updateState $ \st -> st{ mwCategoryLinks = link : mwCategoryLinks st } return mempty else return link externalLink :: PandocMonad m => MWParser m Inlines externalLink = try $ do char '[' (_, src) <- uri lab <- try (trimInlines . mconcat <$> (skipMany1 spaceChar *> manyTill inline (char ']'))) <|> do char ']' num <- mwNextLinkNumber <$> getState updateState $ \st -> st{ mwNextLinkNumber = num + 1 } return $ B.str $ tshow num return $ B.link src "" lab url :: PandocMonad m => MWParser m Inlines url = do (orig, src) <- uri return $ B.link src "" (B.str orig) -- | Parses a list of inlines between start and end delimiters. inlinesBetween :: (PandocMonad m, Show b) => MWParser m a -> MWParser m b -> MWParser m Inlines inlinesBetween start end = trimInlines . mconcat <$> try (start >> many1Till inner end) where inner = innerSpace <|> (notFollowedBy' (() <$ whitespace) >> inline) innerSpace = try $ whitespace <* notFollowedBy' end emph :: PandocMonad m => MWParser m Inlines emph = B.emph <$> nested (inlinesBetween start end) where start = sym "''" >> lookAhead nonspaceChar end = try $ notFollowedBy' (() <$ strong) >> sym "''" strong :: PandocMonad m => MWParser m Inlines strong = B.strong <$> nested (inlinesBetween start end) where start = sym "'''" >> lookAhead nonspaceChar end = try $ sym "'''" doubleQuotes :: PandocMonad m => MWParser m Inlines doubleQuotes = do guardEnabled Ext_smart inTT <- mwInTT <$> getState guard (not inTT) B.doubleQuoted <$> nested (inlinesBetween openDoubleQuote closeDoubleQuote) where openDoubleQuote = sym "\"" >> lookAhead nonspaceChar closeDoubleQuote = try $ sym "\""