{-# LANGUAGE RelaxedPolyRec #-} -- needed for inlinesBetween on GHC < 7 {-# LANGUAGE ScopedTypeVariables #-} {- Copyright (C) 2006-2015 John MacFarlane This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -} {- | Module : Text.Pandoc.Readers.Markdown Copyright : Copyright (C) 2006-2015 John MacFarlane License : GNU GPL, version 2 or above Maintainer : John MacFarlane Stability : alpha Portability : portable Conversion of markdown-formatted plain text to 'Pandoc' document. -} module Text.Pandoc.Readers.Markdown ( readMarkdown ) where import Data.List ( transpose, sortBy, findIndex, intercalate ) import qualified Data.Map as M import Data.Scientific (coefficient, base10Exponent) import Data.Ord ( comparing ) import Data.Char ( isSpace, isAlphaNum, toLower, isPunctuation ) import Data.Maybe import Text.Pandoc.Definition import Text.Pandoc.Emoji (emojis) import Text.Pandoc.Generic (bottomUp) import qualified Data.Text as T import Data.Text (Text) import qualified Data.Yaml as Yaml import Data.Yaml (ParseException(..), YamlException(..), YamlMark(..)) import qualified Data.HashMap.Strict as H import qualified Text.Pandoc.Builder as B import qualified Text.Pandoc.UTF8 as UTF8 import qualified Data.Vector as V import Text.Pandoc.Builder (Inlines, Blocks, trimInlines) import Text.Pandoc.Options import Text.Pandoc.Logging import Text.Pandoc.Shared import Text.Pandoc.Pretty (charWidth) import Text.Pandoc.XML (fromEntities) import Text.Pandoc.Parsing hiding (tableWith) import Text.Pandoc.Readers.LaTeX ( rawLaTeXInline, rawLaTeXBlock ) import Text.Pandoc.Readers.HTML ( htmlTag, htmlInBalanced, isInlineTag, isBlockTag, isTextTag, isCommentTag ) import Control.Monad import System.FilePath (takeExtension, addExtension) import Text.HTML.TagSoup import Data.Monoid ((<>)) import Control.Monad.Trans (lift) import Control.Monad.Except (throwError, catchError) import Text.Pandoc.Class (PandocMonad, report) type MarkdownParser m = ParserT [Char] ParserState m -- | Read markdown from an input string and return a Pandoc document. readMarkdown :: PandocMonad m => ReaderOptions -- ^ Reader options -> String -- ^ String to parse (assuming @'\n'@ line endings) -> m Pandoc readMarkdown opts s = do parsed <- (readWithM parseMarkdown) def{ stateOptions = opts } (s ++ "\n\n") case parsed of Right result -> return result Left e -> throwError e trimInlinesF :: F Inlines -> F Inlines trimInlinesF = liftM trimInlines -- -- Constants and data structure definitions -- isBulletListMarker :: Char -> Bool isBulletListMarker '*' = True isBulletListMarker '+' = True isBulletListMarker '-' = True isBulletListMarker _ = False isHruleChar :: Char -> Bool isHruleChar '*' = True isHruleChar '-' = True isHruleChar '_' = True isHruleChar _ = False setextHChars :: String setextHChars = "=-" isBlank :: Char -> Bool isBlank ' ' = True isBlank '\t' = True isBlank '\n' = True isBlank _ = False -- -- auxiliary functions -- -- | Succeeds when we're in list context. inList :: PandocMonad m => MarkdownParser m () inList = do ctx <- stateParserContext <$> getState guard (ctx == ListItemState) spnl :: PandocMonad m => ParserT [Char] st m () spnl = try $ do skipSpaces optional newline skipSpaces notFollowedBy (char '\n') indentSpaces :: PandocMonad m => MarkdownParser m String indentSpaces = try $ do tabStop <- getOption readerTabStop count tabStop (char ' ') <|> string "\t" "indentation" nonindentSpaces :: PandocMonad m => MarkdownParser m String nonindentSpaces = do tabStop <- getOption readerTabStop sps <- many (char ' ') if length sps < tabStop then return sps else unexpected "indented line" -- returns number of spaces parsed skipNonindentSpaces :: PandocMonad m => MarkdownParser m Int skipNonindentSpaces = do tabStop <- getOption readerTabStop atMostSpaces (tabStop - 1) <* notFollowedBy (char ' ') atMostSpaces :: PandocMonad m => Int -> MarkdownParser m Int atMostSpaces n | n > 0 = (char ' ' >> (+1) <$> atMostSpaces (n-1)) <|> return 0 | otherwise = return 0 litChar :: PandocMonad m => MarkdownParser m Char litChar = escapedChar' <|> characterReference <|> noneOf "\n" <|> try (newline >> notFollowedBy blankline >> return ' ') -- | Parse a sequence of inline elements between square brackets, -- including inlines between balanced pairs of square brackets. inlinesInBalancedBrackets :: PandocMonad m => MarkdownParser m (F Inlines) inlinesInBalancedBrackets = do char '[' (_, raw) <- withRaw $ charsInBalancedBrackets 1 guard $ not $ null raw parseFromString (trimInlinesF . mconcat <$> many inline) (init raw) charsInBalancedBrackets :: PandocMonad m => Int -> MarkdownParser m () charsInBalancedBrackets 0 = return () charsInBalancedBrackets openBrackets = (char '[' >> charsInBalancedBrackets (openBrackets + 1)) <|> (char ']' >> charsInBalancedBrackets (openBrackets - 1)) <|> (( (() <$ code) <|> (() <$ (escapedChar')) <|> (newline >> notFollowedBy blankline) <|> skipMany1 (noneOf "[]`\n\\") <|> (() <$ count 1 (oneOf "`\\")) ) >> charsInBalancedBrackets openBrackets) -- -- document structure -- rawTitleBlockLine :: PandocMonad m => MarkdownParser m String rawTitleBlockLine = do char '%' skipSpaces first <- anyLine rest <- many $ try $ do spaceChar notFollowedBy blankline skipSpaces anyLine return $ trim $ unlines (first:rest) titleLine :: PandocMonad m => MarkdownParser m (F Inlines) titleLine = try $ do raw <- rawTitleBlockLine res <- parseFromString (many inline) raw return $ trimInlinesF $ mconcat res authorsLine :: PandocMonad m => MarkdownParser m (F [Inlines]) authorsLine = try $ do raw <- rawTitleBlockLine let sep = (char ';' <* spaces) <|> newline let pAuthors = sepEndBy (trimInlinesF . mconcat <$> many (try $ notFollowedBy sep >> inline)) sep sequence <$> parseFromString pAuthors raw dateLine :: PandocMonad m => MarkdownParser m (F Inlines) dateLine = try $ do raw <- rawTitleBlockLine res <- parseFromString (many inline) raw return $ trimInlinesF $ mconcat res titleBlock :: PandocMonad m => MarkdownParser m () titleBlock = pandocTitleBlock <|> mmdTitleBlock pandocTitleBlock :: PandocMonad m => MarkdownParser m () pandocTitleBlock = try $ do guardEnabled Ext_pandoc_title_block lookAhead (char '%') title <- option mempty titleLine author <- option (return []) authorsLine date <- option mempty dateLine optional blanklines let meta' = do title' <- title author' <- author date' <- date return $ (if B.isNull title' then id else B.setMeta "title" title') . (if null author' then id else B.setMeta "author" author') . (if B.isNull date' then id else B.setMeta "date" date') $ nullMeta updateState $ \st -> st{ stateMeta' = stateMeta' st <> meta' } -- Adapted from solution at -- http://stackoverflow.com/a/29448764/1901888 foldrWithKeyM :: Monad m => (k -> b -> a -> m a) -> a -> H.HashMap k b -> m a foldrWithKeyM f acc = H.foldrWithKey f' (return acc) where f' k b ma = ma >>= \a -> f k b a yamlMetaBlock :: PandocMonad m => MarkdownParser m (F Blocks) yamlMetaBlock = try $ do guardEnabled Ext_yaml_metadata_block pos <- getPosition string "---" blankline notFollowedBy blankline -- if --- is followed by a blank it's an HRULE rawYamlLines <- manyTill anyLine stopLine -- by including --- and ..., we allow yaml blocks with just comments: let rawYaml = unlines ("---" : (rawYamlLines ++ ["..."])) optional blanklines opts <- stateOptions <$> getState meta' <- case Yaml.decodeEither' $ UTF8.fromString rawYaml of Right (Yaml.Object hashmap) -> foldrWithKeyM (\k v m -> do if ignorable k then return m else (do v' <- lift $ yamlToMeta opts v return $ B.setMeta (T.unpack k) v' m) `catchError` (\_ -> return m) ) nullMeta hashmap Right Yaml.Null -> return nullMeta Right _ -> do report $ CouldNotParseYamlMetadata "not an object" pos return nullMeta Left err' -> do case err' of InvalidYaml (Just YamlParseException{ yamlProblem = problem , yamlContext = _ctxt , yamlProblemMark = Yaml.YamlMark { yamlLine = yline , yamlColumn = ycol }}) -> report $ CouldNotParseYamlMetadata problem (setSourceLine (setSourceColumn pos (sourceColumn pos + ycol)) (sourceLine pos + 1 + yline)) _ -> report $ CouldNotParseYamlMetadata (show err') pos return nullMeta updateState $ \st -> st{ stateMeta' = stateMeta' st <> (return meta') } return mempty -- ignore fields ending with _ ignorable :: Text -> Bool ignorable t = (T.pack "_") `T.isSuffixOf` t toMetaValue :: PandocMonad m => ReaderOptions -> Text -> m MetaValue toMetaValue opts x = toMeta <$> readMarkdown opts' (T.unpack x) where toMeta p = case p of Pandoc _ [Plain xs] -> MetaInlines xs Pandoc _ [Para xs] | endsWithNewline x -> MetaBlocks [Para xs] | otherwise -> MetaInlines xs Pandoc _ bs -> MetaBlocks bs endsWithNewline t = T.pack "\n" `T.isSuffixOf` t opts' = opts{readerExtensions = disableExtension Ext_pandoc_title_block $ disableExtension Ext_mmd_title_block $ disableExtension Ext_yaml_metadata_block $ readerExtensions opts } yamlToMeta :: PandocMonad m => ReaderOptions -> Yaml.Value -> m MetaValue yamlToMeta opts (Yaml.String t) = toMetaValue opts t yamlToMeta _ (Yaml.Number n) -- avoid decimal points for numbers that don't need them: | base10Exponent n >= 0 = return $ MetaString $ show $ coefficient n * (10 ^ base10Exponent n) | otherwise = return $ MetaString $ show n yamlToMeta _ (Yaml.Bool b) = return $ MetaBool b yamlToMeta opts (Yaml.Array xs) = B.toMetaValue <$> mapM (yamlToMeta opts) (V.toList xs) yamlToMeta opts (Yaml.Object o) = MetaMap <$> H.foldrWithKey (\k v m -> if ignorable k then m else (do v' <- yamlToMeta opts v m' <- m return (M.insert (T.unpack k) v' m'))) (return M.empty) o yamlToMeta _ _ = return $ MetaString "" stopLine :: PandocMonad m => MarkdownParser m () stopLine = try $ (string "---" <|> string "...") >> blankline >> return () mmdTitleBlock :: PandocMonad m => MarkdownParser m () mmdTitleBlock = try $ do guardEnabled Ext_mmd_title_block firstPair <- kvPair False restPairs <- many (kvPair True) let kvPairs = firstPair : restPairs blanklines updateState $ \st -> st{ stateMeta' = stateMeta' st <> return (Meta $ M.fromList kvPairs) } kvPair :: PandocMonad m => Bool -> MarkdownParser m (String, MetaValue) kvPair allowEmpty = try $ do key <- many1Till (alphaNum <|> oneOf "_- ") (char ':') val <- trim <$> manyTill anyChar (try $ newline >> lookAhead (blankline <|> nonspaceChar)) guard $ allowEmpty || not (null val) let key' = concat $ words $ map toLower key let val' = MetaBlocks $ B.toList $ B.plain $ B.text $ val return (key',val') parseMarkdown :: PandocMonad m => MarkdownParser m Pandoc parseMarkdown = do optional titleBlock blocks <- parseBlocks st <- getState let meta = runF (stateMeta' st) st let Pandoc _ bs = B.doc $ runF blocks st eastAsianLineBreaks <- option False $ True <$ guardEnabled Ext_east_asian_line_breaks return $ (if eastAsianLineBreaks then bottomUp softBreakFilter else id) $ Pandoc meta bs softBreakFilter :: [Inline] -> [Inline] softBreakFilter (x:SoftBreak:y:zs) = case (stringify x, stringify y) of (xs@(_:_), (c:_)) | charWidth (last xs) == 2 && charWidth c == 2 -> x:y:zs _ -> x:SoftBreak:y:zs softBreakFilter xs = xs referenceKey :: PandocMonad m => MarkdownParser m (F Blocks) referenceKey = try $ do pos <- getPosition skipNonindentSpaces (_,raw) <- reference char ':' skipSpaces >> optional newline >> skipSpaces >> notFollowedBy (char '[') let sourceURL = liftM unwords $ many $ try $ do skipMany spaceChar notFollowedBy' referenceTitle notFollowedBy' $ guardEnabled Ext_link_attributes >> attributes notFollowedBy' (() <$ reference) many1 $ notFollowedBy space >> litChar let betweenAngles = try $ char '<' >> manyTill litChar (char '>') src <- try betweenAngles <|> sourceURL tit <- option "" referenceTitle attr <- option nullAttr $ try $ guardEnabled Ext_link_attributes >> skipSpaces >> attributes addKvs <- option [] $ guardEnabled Ext_mmd_link_attributes >> many (try $ spnl >> keyValAttr) blanklines let attr' = extractIdClass $ foldl (\x f -> f x) attr addKvs target = (escapeURI $ trimr src, tit) st <- getState let oldkeys = stateKeys st let key = toKey raw case M.lookup key oldkeys of Just _ -> report $ DuplicateLinkReference raw pos Nothing -> return () updateState $ \s -> s { stateKeys = M.insert key (target, attr') oldkeys } return $ return mempty referenceTitle :: PandocMonad m => MarkdownParser m String referenceTitle = try $ do skipSpaces >> optional newline >> skipSpaces quotedTitle '"' <|> quotedTitle '\'' <|> charsInBalanced '(' ')' litChar -- A link title in quotes quotedTitle :: PandocMonad m => Char -> MarkdownParser m String quotedTitle c = try $ do char c notFollowedBy spaces let pEnder = try $ char c >> notFollowedBy (satisfy isAlphaNum) let regChunk = many1 (noneOf ['\\','\n','&',c]) <|> count 1 litChar let nestedChunk = (\x -> [c] ++ x ++ [c]) <$> quotedTitle c unwords . words . concat <$> manyTill (nestedChunk <|> regChunk) pEnder -- | PHP Markdown Extra style abbreviation key. Currently -- we just skip them, since Pandoc doesn't have an element for -- an abbreviation. abbrevKey :: PandocMonad m => MarkdownParser m (F Blocks) abbrevKey = do guardEnabled Ext_abbreviations try $ do char '*' reference char ':' skipMany (satisfy (/= '\n')) blanklines return $ return mempty noteMarker :: PandocMonad m => MarkdownParser m String noteMarker = string "[^" >> many1Till (satisfy $ not . isBlank) (char ']') rawLine :: PandocMonad m => MarkdownParser m String rawLine = try $ do notFollowedBy blankline notFollowedBy' $ try $ skipNonindentSpaces >> noteMarker optional indentSpaces anyLine rawLines :: PandocMonad m => MarkdownParser m String rawLines = do first <- anyLine rest <- many rawLine return $ unlines (first:rest) noteBlock :: PandocMonad m => MarkdownParser m (F Blocks) noteBlock = try $ do pos <- getPosition skipNonindentSpaces ref <- noteMarker char ':' optional blankline optional indentSpaces first <- rawLines rest <- many $ try $ blanklines >> indentSpaces >> rawLines let raw = unlines (first:rest) ++ "\n" optional blanklines parsed <- parseFromString parseBlocks raw let newnote = (ref, parsed) oldnotes <- stateNotes' <$> getState case lookup ref oldnotes of Just _ -> report $ DuplicateNoteReference ref pos Nothing -> return () updateState $ \s -> s { stateNotes' = newnote : oldnotes } return mempty -- -- parsing blocks -- parseBlocks :: PandocMonad m => MarkdownParser m (F Blocks) parseBlocks = mconcat <$> manyTill block eof block :: PandocMonad m => MarkdownParser m (F Blocks) block = do pos <- getPosition res <- choice [ mempty <$ blanklines , codeBlockFenced , yamlMetaBlock -- note: bulletList needs to be before header because of -- the possibility of empty list items: - , bulletList , header , lhsCodeBlock , divHtml , htmlBlock , table , codeBlockIndented , guardEnabled Ext_latex_macros *> (macro >>= return . return) , rawTeXBlock , lineBlock , blockQuote , hrule , orderedList , definitionList , noteBlock , referenceKey , abbrevKey , para , plain ] "block" report $ ParsingTrace (take 60 $ show $ B.toList $ runF res defaultParserState) pos return res -- -- header blocks -- header :: PandocMonad m => MarkdownParser m (F Blocks) header = setextHeader <|> atxHeader "header" atxChar :: PandocMonad m => MarkdownParser m Char atxChar = do exts <- getOption readerExtensions return $ if extensionEnabled Ext_literate_haskell exts then '=' else '#' atxHeader :: PandocMonad m => MarkdownParser m (F Blocks) atxHeader = try $ do level <- atxChar >>= many1 . char >>= return . length notFollowedBy $ guardEnabled Ext_fancy_lists >> (char '.' <|> char ')') -- this would be a list skipSpaces (text, raw) <- withRaw $ trimInlinesF . mconcat <$> many (notFollowedBy atxClosing >> inline) attr <- atxClosing attr' <- registerHeader attr (runF text defaultParserState) guardDisabled Ext_implicit_header_references <|> registerImplicitHeader raw attr' return $ B.headerWith attr' level <$> text atxClosing :: PandocMonad m => MarkdownParser m Attr atxClosing = try $ do attr' <- option nullAttr (guardEnabled Ext_mmd_header_identifiers >> mmdHeaderIdentifier) skipMany . char =<< atxChar skipSpaces attr <- option attr' (guardEnabled Ext_header_attributes >> attributes) blanklines return attr setextHeaderEnd :: PandocMonad m => MarkdownParser m Attr setextHeaderEnd = try $ do attr <- option nullAttr $ (guardEnabled Ext_mmd_header_identifiers >> mmdHeaderIdentifier) <|> (guardEnabled Ext_header_attributes >> attributes) blanklines return attr mmdHeaderIdentifier :: PandocMonad m => MarkdownParser m Attr mmdHeaderIdentifier = do ident <- stripFirstAndLast . snd <$> reference skipSpaces return (ident,[],[]) setextHeader :: PandocMonad m => MarkdownParser m (F Blocks) setextHeader = try $ do -- This lookahead prevents us from wasting time parsing Inlines -- unless necessary -- it gives a significant performance boost. lookAhead $ anyLine >> many1 (oneOf setextHChars) >> blankline skipSpaces (text, raw) <- withRaw $ trimInlinesF . mconcat <$> many1 (notFollowedBy setextHeaderEnd >> inline) attr <- setextHeaderEnd underlineChar <- oneOf setextHChars many (char underlineChar) blanklines let level = (fromMaybe 0 $ findIndex (== underlineChar) setextHChars) + 1 attr' <- registerHeader attr (runF text defaultParserState) guardDisabled Ext_implicit_header_references <|> registerImplicitHeader raw attr' return $ B.headerWith attr' level <$> text registerImplicitHeader :: PandocMonad m => String -> Attr -> MarkdownParser m () registerImplicitHeader raw attr@(ident, _, _) = do let key = toKey $ "[" ++ raw ++ "]" updateState (\s -> s { stateHeaderKeys = M.insert key (('#':ident,""), attr) (stateHeaderKeys s) }) -- -- hrule block -- hrule :: PandocMonad m => ParserT [Char] st m (F Blocks) hrule = try $ do skipSpaces start <- satisfy isHruleChar count 2 (skipSpaces >> char start) skipMany (spaceChar <|> char start) newline optional blanklines return $ return B.horizontalRule -- -- code blocks -- indentedLine :: PandocMonad m => MarkdownParser m String indentedLine = indentSpaces >> anyLine >>= return . (++ "\n") blockDelimiter :: PandocMonad m => (Char -> Bool) -> Maybe Int -> ParserT [Char] st m Int blockDelimiter f len = try $ do c <- lookAhead (satisfy f) case len of Just l -> count l (char c) >> many (char c) >> return l Nothing -> count 3 (char c) >> many (char c) >>= return . (+ 3) . length attributes :: PandocMonad m => MarkdownParser m Attr attributes = try $ do char '{' spnl attrs <- many (attribute <* spnl) char '}' return $ foldl (\x f -> f x) nullAttr attrs attribute :: PandocMonad m => MarkdownParser m (Attr -> Attr) attribute = identifierAttr <|> classAttr <|> keyValAttr <|> specialAttr identifier :: PandocMonad m => MarkdownParser m String identifier = do first <- letter rest <- many $ alphaNum <|> oneOf "-_:." return (first:rest) identifierAttr :: PandocMonad m => MarkdownParser m (Attr -> Attr) identifierAttr = try $ do char '#' result <- identifier return $ \(_,cs,kvs) -> (result,cs,kvs) classAttr :: PandocMonad m => MarkdownParser m (Attr -> Attr) classAttr = try $ do char '.' result <- identifier return $ \(id',cs,kvs) -> (id',cs ++ [result],kvs) keyValAttr :: PandocMonad m => MarkdownParser m (Attr -> Attr) keyValAttr = try $ do key <- identifier char '=' val <- enclosed (char '"') (char '"') litChar <|> enclosed (char '\'') (char '\'') litChar <|> many (escapedChar' <|> noneOf " \t\n\r}") return $ \(id',cs,kvs) -> case key of "id" -> (val,cs,kvs) "class" -> (id',cs ++ words val,kvs) _ -> (id',cs,kvs ++ [(key,val)]) specialAttr :: PandocMonad m => MarkdownParser m (Attr -> Attr) specialAttr = do char '-' return $ \(id',cs,kvs) -> (id',cs ++ ["unnumbered"],kvs) codeBlockFenced :: PandocMonad m => MarkdownParser m (F Blocks) codeBlockFenced = try $ do c <- try (guardEnabled Ext_fenced_code_blocks >> lookAhead (char '~')) <|> (guardEnabled Ext_backtick_code_blocks >> lookAhead (char '`')) size <- blockDelimiter (== c) Nothing skipMany spaceChar attr <- option ([],[],[]) $ try (guardEnabled Ext_fenced_code_attributes >> attributes) <|> ((\x -> ("",[toLanguageId x],[])) <$> many1 nonspaceChar) blankline contents <- manyTill anyLine (blockDelimiter (== c) (Just size)) blanklines return $ return $ B.codeBlockWith attr $ intercalate "\n" contents -- correctly handle github language identifiers toLanguageId :: String -> String toLanguageId = map toLower . go where go "c++" = "cpp" go "objective-c" = "objectivec" go x = x codeBlockIndented :: PandocMonad m => MarkdownParser m (F Blocks) codeBlockIndented = do contents <- many1 (indentedLine <|> try (do b <- blanklines l <- indentedLine return $ b ++ l)) optional blanklines classes <- getOption readerIndentedCodeClasses return $ return $ B.codeBlockWith ("", classes, []) $ stripTrailingNewlines $ concat contents lhsCodeBlock :: PandocMonad m => MarkdownParser m (F Blocks) lhsCodeBlock = do guardEnabled Ext_literate_haskell (return . B.codeBlockWith ("",["sourceCode","literate","haskell"],[]) <$> (lhsCodeBlockBird <|> lhsCodeBlockLaTeX)) <|> (return . B.codeBlockWith ("",["sourceCode","haskell"],[]) <$> lhsCodeBlockInverseBird) lhsCodeBlockLaTeX :: PandocMonad m => MarkdownParser m String lhsCodeBlockLaTeX = try $ do string "\\begin{code}" manyTill spaceChar newline contents <- many1Till anyChar (try $ string "\\end{code}") blanklines return $ stripTrailingNewlines contents lhsCodeBlockBird :: PandocMonad m => MarkdownParser m String lhsCodeBlockBird = lhsCodeBlockBirdWith '>' lhsCodeBlockInverseBird :: PandocMonad m => MarkdownParser m String lhsCodeBlockInverseBird = lhsCodeBlockBirdWith '<' lhsCodeBlockBirdWith :: PandocMonad m => Char -> MarkdownParser m String lhsCodeBlockBirdWith c = try $ do pos <- getPosition when (sourceColumn pos /= 1) $ fail "Not in first column" lns <- many1 $ birdTrackLine c -- if (as is normal) there is always a space after >, drop it let lns' = if all (\ln -> null ln || take 1 ln == " ") lns then map (drop 1) lns else lns blanklines return $ intercalate "\n" lns' birdTrackLine :: PandocMonad m => Char -> ParserT [Char] st m String birdTrackLine c = try $ do char c -- allow html tags on left margin: when (c == '<') $ notFollowedBy letter anyLine -- -- block quotes -- emailBlockQuoteStart :: PandocMonad m => MarkdownParser m Char emailBlockQuoteStart = try $ skipNonindentSpaces >> char '>' <* optional (char ' ') emailBlockQuote :: PandocMonad m => MarkdownParser m [String] emailBlockQuote = try $ do emailBlockQuoteStart let emailLine = many $ nonEndline <|> try (endline >> notFollowedBy emailBlockQuoteStart >> return '\n') let emailSep = try (newline >> emailBlockQuoteStart) first <- emailLine rest <- many $ try $ emailSep >> emailLine let raw = first:rest newline <|> (eof >> return '\n') optional blanklines return raw blockQuote :: PandocMonad m => MarkdownParser m (F Blocks) blockQuote = do raw <- emailBlockQuote -- parse the extracted block, which may contain various block elements: contents <- parseFromString parseBlocks $ (intercalate "\n" raw) ++ "\n\n" return $ B.blockQuote <$> contents -- -- list blocks -- bulletListStart :: PandocMonad m => MarkdownParser m () bulletListStart = try $ do optional newline -- if preceded by a Plain block in a list context startpos <- sourceColumn <$> getPosition skipNonindentSpaces notFollowedBy' (() <$ hrule) -- because hrules start out just like lists satisfy isBulletListMarker endpos <- sourceColumn <$> getPosition tabStop <- getOption readerTabStop lookAhead (newline <|> spaceChar) () <$ atMostSpaces (tabStop - (endpos - startpos)) anyOrderedListStart :: PandocMonad m => MarkdownParser m (Int, ListNumberStyle, ListNumberDelim) anyOrderedListStart = try $ do optional newline -- if preceded by a Plain block in a list context startpos <- sourceColumn <$> getPosition skipNonindentSpaces notFollowedBy $ string "p." >> spaceChar >> digit -- page number res <- do guardDisabled Ext_fancy_lists start <- many1 digit >>= safeRead char '.' return (start, DefaultStyle, DefaultDelim) <|> do (num, style, delim) <- anyOrderedListMarker -- if it could be an abbreviated first name, -- insist on more than one space when (delim == Period && (style == UpperAlpha || (style == UpperRoman && num `elem` [1, 5, 10, 50, 100, 500, 1000]))) $ () <$ spaceChar return (num, style, delim) endpos <- sourceColumn <$> getPosition tabStop <- getOption readerTabStop lookAhead (newline <|> spaceChar) atMostSpaces (tabStop - (endpos - startpos)) return res listStart :: PandocMonad m => MarkdownParser m () listStart = bulletListStart <|> (anyOrderedListStart >> return ()) listLine :: PandocMonad m => MarkdownParser m String listLine = try $ do notFollowedBy' (do indentSpaces many spaceChar listStart) notFollowedByHtmlCloser optional (() <$ indentSpaces) listLineCommon listLineCommon :: PandocMonad m => MarkdownParser m String listLineCommon = concat <$> manyTill ( many1 (satisfy $ \c -> c /= '\n' && c /= '<') <|> liftM snd (htmlTag isCommentTag) <|> count 1 anyChar ) newline -- parse raw text for one list item, excluding start marker and continuations rawListItem :: PandocMonad m => MarkdownParser m a -> MarkdownParser m String rawListItem start = try $ do start first <- listLineCommon rest <- many (notFollowedBy listStart >> notFollowedBy blankline >> listLine) blanks <- many blankline return $ unlines (first:rest) ++ blanks -- continuation of a list item - indented and separated by blankline -- or (in compact lists) endline. -- note: nested lists are parsed as continuations listContinuation :: PandocMonad m => MarkdownParser m String listContinuation = try $ do lookAhead indentSpaces result <- many1 listContinuationLine blanks <- many blankline return $ concat result ++ blanks notFollowedByHtmlCloser :: PandocMonad m => MarkdownParser m () notFollowedByHtmlCloser = do inHtmlBlock <- stateInHtmlBlock <$> getState case inHtmlBlock of Just t -> notFollowedBy' $ htmlTag (~== TagClose t) Nothing -> return () listContinuationLine :: PandocMonad m => MarkdownParser m String listContinuationLine = try $ do notFollowedBy blankline notFollowedBy' listStart notFollowedByHtmlCloser optional indentSpaces result <- anyLine return $ result ++ "\n" listItem :: PandocMonad m => MarkdownParser m a -> MarkdownParser m (F Blocks) listItem start = try $ do first <- rawListItem start continuations <- many listContinuation -- parsing with ListItemState forces markers at beginning of lines to -- count as list item markers, even if not separated by blank space. -- see definition of "endline" state <- getState let oldContext = stateParserContext state setState $ state {stateParserContext = ListItemState} -- parse the extracted block, which may contain various block elements: let raw = concat (first:continuations) contents <- parseFromString parseBlocks raw updateState (\st -> st {stateParserContext = oldContext}) return contents orderedList :: PandocMonad m => MarkdownParser m (F Blocks) orderedList = try $ do (start, style, delim) <- lookAhead anyOrderedListStart unless (style `elem` [DefaultStyle, Decimal, Example] && delim `elem` [DefaultDelim, Period]) $ guardEnabled Ext_fancy_lists when (style == Example) $ guardEnabled Ext_example_lists items <- fmap sequence $ many1 $ listItem ( try $ do optional newline -- if preceded by Plain block in a list startpos <- sourceColumn <$> getPosition skipNonindentSpaces res <- orderedListMarker style delim endpos <- sourceColumn <$> getPosition tabStop <- getOption readerTabStop lookAhead (newline <|> spaceChar) atMostSpaces (tabStop - (endpos - startpos)) return res ) start' <- option 1 $ guardEnabled Ext_startnum >> return start return $ B.orderedListWith (start', style, delim) <$> fmap compactify items bulletList :: PandocMonad m => MarkdownParser m (F Blocks) bulletList = do items <- fmap sequence $ many1 $ listItem bulletListStart return $ B.bulletList <$> fmap compactify items -- definition lists defListMarker :: PandocMonad m => MarkdownParser m () defListMarker = do sps <- nonindentSpaces char ':' <|> char '~' tabStop <- getOption readerTabStop let remaining = tabStop - (length sps + 1) if remaining > 0 then try (count remaining (char ' ')) <|> string "\t" <|> many1 spaceChar else mzero return () definitionListItem :: PandocMonad m => Bool -> MarkdownParser m (F (Inlines, [Blocks])) definitionListItem compact = try $ do rawLine' <- anyLine raw <- many1 $ defRawBlock compact term <- parseFromString (trimInlinesF . mconcat <$> many inline) rawLine' contents <- mapM (parseFromString parseBlocks . (++"\n")) raw optional blanklines return $ liftM2 (,) term (sequence contents) defRawBlock :: PandocMonad m => Bool -> MarkdownParser m String defRawBlock compact = try $ do hasBlank <- option False $ blankline >> return True defListMarker firstline <- anyLine let dline = try ( do notFollowedBy blankline notFollowedByHtmlCloser if compact -- laziness not compatible with compact then () <$ indentSpaces else (() <$ indentSpaces) <|> notFollowedBy defListMarker anyLine ) rawlines <- many dline cont <- liftM concat $ many $ try $ do trailing <- option "" blanklines ln <- indentSpaces >> notFollowedBy blankline >> anyLine lns <- many dline return $ trailing ++ unlines (ln:lns) return $ trimr (firstline ++ "\n" ++ unlines rawlines ++ cont) ++ if hasBlank || not (null cont) then "\n\n" else "" definitionList :: PandocMonad m => MarkdownParser m (F Blocks) definitionList = try $ do lookAhead (anyLine >> optional (blankline >> notFollowedBy (table >> return ())) >> -- don't capture table caption as def list! defListMarker) compactDefinitionList <|> normalDefinitionList compactDefinitionList :: PandocMonad m => MarkdownParser m (F Blocks) compactDefinitionList = do guardEnabled Ext_compact_definition_lists items <- fmap sequence $ many1 $ definitionListItem True return $ B.definitionList <$> fmap compactifyDL items normalDefinitionList :: PandocMonad m => MarkdownParser m (F Blocks) normalDefinitionList = do guardEnabled Ext_definition_lists items <- fmap sequence $ many1 $ definitionListItem False return $ B.definitionList <$> items -- -- paragraph block -- para :: PandocMonad m => MarkdownParser m (F Blocks) para = try $ do exts <- getOption readerExtensions result <- trimInlinesF . mconcat <$> many1 inline option (B.plain <$> result) $ try $ do newline (blanklines >> return mempty) <|> (guardDisabled Ext_blank_before_blockquote >> () <$ lookAhead blockQuote) <|> (guardEnabled Ext_backtick_code_blocks >> () <$ lookAhead codeBlockFenced) <|> (guardDisabled Ext_blank_before_header >> () <$ lookAhead header) <|> (guardEnabled Ext_lists_without_preceding_blankline >> -- Avoid creating a paragraph in a nested list. notFollowedBy' inList >> () <$ lookAhead listStart) <|> do guardEnabled Ext_native_divs inHtmlBlock <- stateInHtmlBlock <$> getState case inHtmlBlock of Just "div" -> () <$ lookAhead (htmlTag (~== TagClose "div")) _ -> mzero return $ do result' <- result case B.toList result' of [Image attr alt (src,tit)] | Ext_implicit_figures `extensionEnabled` exts -> -- the fig: at beginning of title indicates a figure return $ B.para $ B.singleton $ Image attr alt (src,'f':'i':'g':':':tit) _ -> return $ B.para result' plain :: PandocMonad m => MarkdownParser m (F Blocks) plain = fmap B.plain . trimInlinesF . mconcat <$> many1 inline -- -- raw html -- htmlElement :: PandocMonad m => MarkdownParser m String htmlElement = rawVerbatimBlock <|> strictHtmlBlock <|> liftM snd (htmlTag isBlockTag) htmlBlock :: PandocMonad m => MarkdownParser m (F Blocks) htmlBlock = do guardEnabled Ext_raw_html try (do (TagOpen t attrs) <- lookAhead $ fst <$> htmlTag isBlockTag (guard (t `elem` ["pre","style","script"]) >> (return . B.rawBlock "html") <$> rawVerbatimBlock) <|> (do guardEnabled Ext_markdown_attribute oldMarkdownAttribute <- stateMarkdownAttribute <$> getState markdownAttribute <- case lookup "markdown" attrs of Just "0" -> False <$ updateState (\st -> st{ stateMarkdownAttribute = False }) Just _ -> True <$ updateState (\st -> st{ stateMarkdownAttribute = True }) Nothing -> return oldMarkdownAttribute res <- if markdownAttribute then rawHtmlBlocks else htmlBlock' updateState $ \st -> st{ stateMarkdownAttribute = oldMarkdownAttribute } return res) <|> (guardEnabled Ext_markdown_in_html_blocks >> rawHtmlBlocks)) <|> htmlBlock' htmlBlock' :: PandocMonad m => MarkdownParser m (F Blocks) htmlBlock' = try $ do first <- htmlElement skipMany spaceChar optional blanklines return $ return $ B.rawBlock "html" first strictHtmlBlock :: PandocMonad m => MarkdownParser m String strictHtmlBlock = htmlInBalanced (not . isInlineTag) rawVerbatimBlock :: PandocMonad m => MarkdownParser m String rawVerbatimBlock = htmlInBalanced isVerbTag where isVerbTag (TagOpen "pre" _) = True isVerbTag (TagOpen "style" _) = True isVerbTag (TagOpen "script" _) = True isVerbTag _ = False rawTeXBlock :: PandocMonad m => MarkdownParser m (F Blocks) rawTeXBlock = do guardEnabled Ext_raw_tex result <- (B.rawBlock "latex" . concat <$> rawLaTeXBlock `sepEndBy1` blankline) <|> (B.rawBlock "context" . concat <$> rawConTeXtEnvironment `sepEndBy1` blankline) spaces return $ return result rawHtmlBlocks :: PandocMonad m => MarkdownParser m (F Blocks) rawHtmlBlocks = do (TagOpen tagtype _, raw) <- htmlTag isBlockTag -- try to find closing tag -- we set stateInHtmlBlock so that closing tags that can be either block or -- inline will not be parsed as inline tags oldInHtmlBlock <- stateInHtmlBlock <$> getState updateState $ \st -> st{ stateInHtmlBlock = Just tagtype } let closer = htmlTag (\x -> x ~== TagClose tagtype) contents <- mconcat <$> many (notFollowedBy' closer >> block) result <- (closer >>= \(_, rawcloser) -> return ( return (B.rawBlock "html" $ stripMarkdownAttribute raw) <> contents <> return (B.rawBlock "html" rawcloser))) <|> return (return (B.rawBlock "html" raw) <> contents) updateState $ \st -> st{ stateInHtmlBlock = oldInHtmlBlock } return result -- remove markdown="1" attribute stripMarkdownAttribute :: String -> String stripMarkdownAttribute s = renderTags' $ map filterAttrib $ parseTags s where filterAttrib (TagOpen t as) = TagOpen t [(k,v) | (k,v) <- as, k /= "markdown"] filterAttrib x = x -- -- line block -- lineBlock :: PandocMonad m => MarkdownParser m (F Blocks) lineBlock = try $ do guardEnabled Ext_line_blocks lines' <- lineBlockLines >>= mapM (parseFromString (trimInlinesF . mconcat <$> many inline)) return $ B.lineBlock <$> sequence lines' -- -- Tables -- -- Parse a dashed line with optional trailing spaces; return its length -- and the length including trailing space. dashedLine :: PandocMonad m => Char -> ParserT [Char] st m (Int, Int) dashedLine ch = do dashes <- many1 (char ch) sp <- many spaceChar let lengthDashes = length dashes lengthSp = length sp return (lengthDashes, lengthDashes + lengthSp) -- Parse a table header with dashed lines of '-' preceded by -- one (or zero) line of text. simpleTableHeader :: PandocMonad m => Bool -- ^ Headerless table -> MarkdownParser m (F [Blocks], [Alignment], [Int]) simpleTableHeader headless = try $ do rawContent <- if headless then return "" else anyLine initSp <- nonindentSpaces dashes <- many1 (dashedLine '-') newline let (lengths, lines') = unzip dashes let indices = scanl (+) (length initSp) lines' -- If no header, calculate alignment on basis of first row of text rawHeads <- liftM (tail . splitStringByIndices (init indices)) $ if headless then lookAhead anyLine else return rawContent let aligns = zipWith alignType (map (\a -> [a]) rawHeads) lengths let rawHeads' = if headless then replicate (length dashes) "" else rawHeads heads <- fmap sequence $ mapM (parseFromString (mconcat <$> many plain)) $ map trim rawHeads' return (heads, aligns, indices) -- Returns an alignment type for a table, based on a list of strings -- (the rows of the column header) and a number (the length of the -- dashed line under the rows. alignType :: [String] -> Int -> Alignment alignType [] _ = AlignDefault alignType strLst len = let nonempties = filter (not . null) $ map trimr strLst (leftSpace, rightSpace) = case sortBy (comparing length) nonempties of (x:_) -> (head x `elem` " \t", length x < len) [] -> (False, False) in case (leftSpace, rightSpace) of (True, False) -> AlignRight (False, True) -> AlignLeft (True, True) -> AlignCenter (False, False) -> AlignDefault -- Parse a table footer - dashed lines followed by blank line. tableFooter :: PandocMonad m => MarkdownParser m String tableFooter = try $ skipNonindentSpaces >> many1 (dashedLine '-') >> blanklines -- Parse a table separator - dashed line. tableSep :: PandocMonad m => MarkdownParser m Char tableSep = try $ skipNonindentSpaces >> many1 (dashedLine '-') >> char '\n' -- Parse a raw line and split it into chunks by indices. rawTableLine :: PandocMonad m => [Int] -> MarkdownParser m [String] rawTableLine indices = do notFollowedBy' (blanklines <|> tableFooter) line <- many1Till anyChar newline return $ map trim $ tail $ splitStringByIndices (init indices) line -- Parse a table line and return a list of lists of blocks (columns). tableLine :: PandocMonad m => [Int] -> MarkdownParser m (F [Blocks]) tableLine indices = rawTableLine indices >>= fmap sequence . mapM (parseFromString (mconcat <$> many plain)) -- Parse a multiline table row and return a list of blocks (columns). multilineRow :: PandocMonad m => [Int] -> MarkdownParser m (F [Blocks]) multilineRow indices = do colLines <- many1 (rawTableLine indices) let cols = map unlines $ transpose colLines fmap sequence $ mapM (parseFromString (mconcat <$> many plain)) cols -- Parses a table caption: inlines beginning with 'Table:' -- and followed by blank lines. tableCaption :: PandocMonad m => MarkdownParser m (F Inlines) tableCaption = try $ do guardEnabled Ext_table_captions skipNonindentSpaces string ":" <|> string "Table:" trimInlinesF . mconcat <$> many1 inline <* blanklines -- Parse a simple table with '---' header and one line per row. simpleTable :: PandocMonad m => Bool -- ^ Headerless table -> MarkdownParser m ([Alignment], [Double], F [Blocks], F [[Blocks]]) simpleTable headless = do (aligns, _widths, heads', lines') <- tableWith (simpleTableHeader headless) tableLine (return ()) (if headless then tableFooter else tableFooter <|> blanklines) -- Simple tables get 0s for relative column widths (i.e., use default) return (aligns, replicate (length aligns) 0, heads', lines') -- Parse a multiline table: starts with row of '-' on top, then header -- (which may be multiline), then the rows, -- which may be multiline, separated by blank lines, and -- ending with a footer (dashed line followed by blank line). multilineTable :: PandocMonad m => Bool -- ^ Headerless table -> MarkdownParser m ([Alignment], [Double], F [Blocks], F [[Blocks]]) multilineTable headless = tableWith (multilineTableHeader headless) multilineRow blanklines tableFooter multilineTableHeader :: PandocMonad m => Bool -- ^ Headerless table -> MarkdownParser m (F [Blocks], [Alignment], [Int]) multilineTableHeader headless = try $ do unless headless $ tableSep >> notFollowedBy blankline rawContent <- if headless then return $ repeat "" else many1 $ notFollowedBy tableSep >> anyLine initSp <- nonindentSpaces dashes <- many1 (dashedLine '-') newline let (lengths, lines') = unzip dashes let indices = scanl (+) (length initSp) lines' rawHeadsList <- if headless then liftM (map (:[]) . tail . splitStringByIndices (init indices)) $ lookAhead anyLine else return $ transpose $ map (tail . splitStringByIndices (init indices)) rawContent let aligns = zipWith alignType rawHeadsList lengths let rawHeads = if headless then replicate (length dashes) "" else map (unlines . map trim) rawHeadsList heads <- fmap sequence $ mapM (parseFromString (mconcat <$> many plain)) $ map trim rawHeads return (heads, aligns, indices) -- Parse a grid table: starts with row of '-' on top, then header -- (which may be grid), then the rows, -- which may be grid, separated by blank lines, and -- ending with a footer (dashed line followed by blank line). gridTable :: PandocMonad m => Bool -- ^ Headerless table -> MarkdownParser m ([Alignment], [Double], F [Blocks], F [[Blocks]]) gridTable headless = tableWith (gridTableHeader headless) gridTableRow (gridTableSep '-') gridTableFooter gridTableSplitLine :: [Int] -> String -> [String] gridTableSplitLine indices line = map removeFinalBar $ tail $ splitStringByIndices (init indices) $ trimr line gridPart :: PandocMonad m => Char -> ParserT [Char] st m ((Int, Int), Alignment) gridPart ch = do leftColon <- option False (True <$ char ':') dashes <- many1 (char ch) rightColon <- option False (True <$ char ':') char '+' let lengthDashes = length dashes + (if leftColon then 1 else 0) + (if rightColon then 1 else 0) let alignment = case (leftColon, rightColon) of (True, True) -> AlignCenter (True, False) -> AlignLeft (False, True) -> AlignRight (False, False) -> AlignDefault return ((lengthDashes, lengthDashes + 1), alignment) gridDashedLines :: PandocMonad m => Char -> ParserT [Char] st m [((Int, Int), Alignment)] gridDashedLines ch = try $ char '+' >> many1 (gridPart ch) <* blankline removeFinalBar :: String -> String removeFinalBar = reverse . dropWhile (`elem` " \t") . dropWhile (=='|') . reverse -- | Separator between rows of grid table. gridTableSep :: PandocMonad m => Char -> MarkdownParser m Char gridTableSep ch = try $ gridDashedLines ch >> return '\n' -- | Parse header for a grid table. gridTableHeader :: PandocMonad m => Bool -- ^ Headerless table -> MarkdownParser m (F [Blocks], [Alignment], [Int]) gridTableHeader headless = try $ do optional blanklines dashes <- gridDashedLines '-' rawContent <- if headless then return [] else many1 (try (char '|' >> anyLine)) underDashes <- if headless then return dashes else gridDashedLines '=' guard $ length dashes == length underDashes let lines' = map (snd . fst) underDashes let indices = scanl (+) 0 lines' let aligns = map snd underDashes let rawHeads = if headless then replicate (length underDashes) "" else map (unlines . map trim) $ transpose $ map (gridTableSplitLine indices) rawContent heads <- fmap sequence $ mapM (parseFromString parseBlocks . trim) rawHeads return (heads, aligns, indices) gridTableRawLine :: PandocMonad m => [Int] -> MarkdownParser m [String] gridTableRawLine indices = do char '|' line <- anyLine return (gridTableSplitLine indices line) -- | Parse row of grid table. gridTableRow :: PandocMonad m => [Int] -> MarkdownParser m (F [Blocks]) gridTableRow indices = do colLines <- many1 (gridTableRawLine indices) let cols = map ((++ "\n") . unlines . removeOneLeadingSpace) $ transpose colLines fmap compactify <$> fmap sequence (mapM (parseFromString parseBlocks) cols) removeOneLeadingSpace :: [String] -> [String] removeOneLeadingSpace xs = if all startsWithSpace xs then map (drop 1) xs else xs where startsWithSpace "" = True startsWithSpace (y:_) = y == ' ' -- | Parse footer for a grid table. gridTableFooter :: PandocMonad m => MarkdownParser m [Char] gridTableFooter = blanklines pipeBreak :: PandocMonad m => MarkdownParser m ([Alignment], [Int]) pipeBreak = try $ do nonindentSpaces openPipe <- (True <$ char '|') <|> return False first <- pipeTableHeaderPart rest <- many $ sepPipe *> pipeTableHeaderPart -- surrounding pipes needed for a one-column table: guard $ not (null rest && not openPipe) optional (char '|') blankline return $ unzip (first:rest) pipeTable :: PandocMonad m => MarkdownParser m ([Alignment], [Double], F [Blocks], F [[Blocks]]) pipeTable = try $ do nonindentSpaces lookAhead nonspaceChar (heads,(aligns, seplengths)) <- (,) <$> pipeTableRow <*> pipeBreak let heads' = take (length aligns) <$> heads lines' <- many pipeTableRow let lines'' = map (take (length aligns) <$>) lines' let maxlength = maximum $ map (\x -> length . stringify $ runF x def) (heads' : lines'') numColumns <- getOption readerColumns let widths = if maxlength > numColumns then map (\len -> fromIntegral (len + 1) / fromIntegral numColumns) seplengths else replicate (length aligns) 0.0 return $ (aligns, widths, heads', sequence lines'') sepPipe :: PandocMonad m => MarkdownParser m () sepPipe = try $ do char '|' <|> char '+' notFollowedBy blankline -- parse a row, also returning probable alignments for org-table cells pipeTableRow :: PandocMonad m => MarkdownParser m (F [Blocks]) pipeTableRow = try $ do scanForPipe skipMany spaceChar openPipe <- (True <$ char '|') <|> return False -- split into cells let chunk = void (code <|> rawHtmlInline <|> escapedChar <|> rawLaTeXInline') <|> void (noneOf "|\n\r") let cellContents = ((trim . snd) <$> withRaw (many chunk)) >>= parseFromString pipeTableCell cells <- cellContents `sepEndBy1` (char '|') -- surrounding pipes needed for a one-column table: guard $ not (length cells == 1 && not openPipe) blankline return $ sequence cells pipeTableCell :: PandocMonad m => MarkdownParser m (F Blocks) pipeTableCell = do result <- many inline if null result then return mempty else return $ B.plain . mconcat <$> sequence result pipeTableHeaderPart :: PandocMonad m => ParserT [Char] st m (Alignment, Int) pipeTableHeaderPart = try $ do skipMany spaceChar left <- optionMaybe (char ':') pipe <- many1 (char '-') right <- optionMaybe (char ':') skipMany spaceChar let len = length pipe + maybe 0 (const 1) left + maybe 0 (const 1) right return $ ((case (left,right) of (Nothing,Nothing) -> AlignDefault (Just _,Nothing) -> AlignLeft (Nothing,Just _) -> AlignRight (Just _,Just _) -> AlignCenter), len) -- Succeed only if current line contains a pipe. scanForPipe :: PandocMonad m => ParserT [Char] st m () scanForPipe = do inp <- getInput case break (\c -> c == '\n' || c == '|') inp of (_,'|':_) -> return () _ -> mzero -- | Parse a table using 'headerParser', 'rowParser', -- 'lineParser', and 'footerParser'. Variant of the version in -- Text.Pandoc.Parsing. tableWith :: PandocMonad m => MarkdownParser m (F [Blocks], [Alignment], [Int]) -> ([Int] -> MarkdownParser m (F [Blocks])) -> MarkdownParser m sep -> MarkdownParser m end -> MarkdownParser m ([Alignment], [Double], F [Blocks], F [[Blocks]]) tableWith headerParser rowParser lineParser footerParser = try $ do (heads, aligns, indices) <- headerParser lines' <- fmap sequence $ rowParser indices `sepEndBy1` lineParser footerParser numColumns <- getOption readerColumns let widths = if (indices == []) then replicate (length aligns) 0.0 else widthsFromIndices numColumns indices return $ (aligns, widths, heads, lines') table :: PandocMonad m => MarkdownParser m (F Blocks) table = try $ do frontCaption <- option Nothing (Just <$> tableCaption) (aligns, widths, heads, lns) <- try (guardEnabled Ext_pipe_tables >> scanForPipe >> pipeTable) <|> try (guardEnabled Ext_multiline_tables >> multilineTable False) <|> try (guardEnabled Ext_simple_tables >> (simpleTable True <|> simpleTable False)) <|> try (guardEnabled Ext_multiline_tables >> multilineTable True) <|> try (guardEnabled Ext_grid_tables >> (gridTable False <|> gridTable True)) "table" optional blanklines caption <- case frontCaption of Nothing -> option (return mempty) tableCaption Just c -> return c -- renormalize widths if greater than 100%: let totalWidth = sum widths let widths' = if totalWidth < 1 then widths else map (/ totalWidth) widths return $ do caption' <- caption heads' <- heads lns' <- lns return $ B.table caption' (zip aligns widths') heads' lns' -- -- inline -- inline :: PandocMonad m => MarkdownParser m (F Inlines) inline = choice [ whitespace , bareURL , str , endline , code , strongOrEmph , note , cite , bracketedSpan , link , image , math , strikeout , subscript , superscript , inlineNote -- after superscript because of ^[link](/foo)^ , autoLink , spanHtml , rawHtmlInline , escapedChar , rawLaTeXInline' , exampleRef , smart , return . B.singleton <$> charRef , emoji , symbol , ltSign ] "inline" escapedChar' :: PandocMonad m => MarkdownParser m Char escapedChar' = try $ do char '\\' (guardEnabled Ext_all_symbols_escapable >> satisfy (not . isAlphaNum)) <|> (guardEnabled Ext_angle_brackets_escapable >> oneOf "\\`*_{}[]()>#+-.!~\"<>") <|> (guardEnabled Ext_escaped_line_breaks >> char '\n') <|> oneOf "\\`*_{}[]()>#+-.!~\"" escapedChar :: PandocMonad m => MarkdownParser m (F Inlines) escapedChar = do result <- escapedChar' case result of ' ' -> return $ return $ B.str "\160" -- "\ " is a nonbreaking space '\n' -> guardEnabled Ext_escaped_line_breaks >> return (return B.linebreak) -- "\[newline]" is a linebreak _ -> return $ return $ B.str [result] ltSign :: PandocMonad m => MarkdownParser m (F Inlines) ltSign = do guardDisabled Ext_raw_html <|> (notFollowedByHtmlCloser >> notFollowedBy' (htmlTag isBlockTag)) char '<' return $ return $ B.str "<" exampleRef :: PandocMonad m => MarkdownParser m (F Inlines) exampleRef = try $ do guardEnabled Ext_example_lists char '@' lab <- many1 (alphaNum <|> oneOf "-_") return $ do st <- askF return $ case M.lookup lab (stateExamples st) of Just n -> B.str (show n) Nothing -> B.str ('@':lab) symbol :: PandocMonad m => MarkdownParser m (F Inlines) symbol = do result <- noneOf "<\\\n\t " <|> try (do lookAhead $ char '\\' notFollowedBy' (() <$ rawTeXBlock) char '\\') return $ return $ B.str [result] -- parses inline code, between n `s and n `s code :: PandocMonad m => MarkdownParser m (F Inlines) code = try $ do starts <- many1 (char '`') skipSpaces result <- many1Till (many1 (noneOf "`\n") <|> many1 (char '`') <|> (char '\n' >> notFollowedBy' blankline >> return " ")) (try (skipSpaces >> count (length starts) (char '`') >> notFollowedBy (char '`'))) attr <- option ([],[],[]) (try $ guardEnabled Ext_inline_code_attributes >> attributes) return $ return $ B.codeWith attr $ trim $ concat result math :: PandocMonad m => MarkdownParser m (F Inlines) math = (return . B.displayMath <$> (mathDisplay >>= applyMacros')) <|> (return . B.math <$> (mathInline >>= applyMacros')) <+?> (guardEnabled Ext_smart *> (return <$> apostrophe) <* notFollowedBy (space <|> satisfy isPunctuation)) -- Parses material enclosed in *s, **s, _s, or __s. -- Designed to avoid backtracking. enclosure :: PandocMonad m => Char -> MarkdownParser m (F Inlines) enclosure c = do -- we can't start an enclosure with _ if after a string and -- the intraword_underscores extension is enabled: guardDisabled Ext_intraword_underscores <|> guard (c == '*') <|> (guard =<< notAfterString) cs <- many1 (char c) (return (B.str cs) <>) <$> whitespace <|> do case length cs of 3 -> three c 2 -> two c mempty 1 -> one c mempty _ -> return (return $ B.str cs) ender :: PandocMonad m => Char -> Int -> MarkdownParser m () ender c n = try $ do count n (char c) guard (c == '*') <|> guardDisabled Ext_intraword_underscores <|> notFollowedBy alphaNum -- Parse inlines til you hit one c or a sequence of two cs. -- If one c, emit emph and then parse two. -- If two cs, emit strong and then parse one. -- Otherwise, emit ccc then the results. three :: PandocMonad m => Char -> MarkdownParser m (F Inlines) three c = do contents <- mconcat <$> many (notFollowedBy (ender c 1) >> inline) (ender c 3 >> return ((B.strong . B.emph) <$> contents)) <|> (ender c 2 >> one c (B.strong <$> contents)) <|> (ender c 1 >> two c (B.emph <$> contents)) <|> return (return (B.str [c,c,c]) <> contents) -- Parse inlines til you hit two c's, and emit strong. -- If you never do hit two cs, emit ** plus inlines parsed. two :: PandocMonad m => Char -> F Inlines -> MarkdownParser m (F Inlines) two c prefix' = do contents <- mconcat <$> many (try $ notFollowedBy (ender c 2) >> inline) (ender c 2 >> return (B.strong <$> (prefix' <> contents))) <|> return (return (B.str [c,c]) <> (prefix' <> contents)) -- Parse inlines til you hit a c, and emit emph. -- If you never hit a c, emit * plus inlines parsed. one :: PandocMonad m => Char -> F Inlines -> MarkdownParser m (F Inlines) one c prefix' = do contents <- mconcat <$> many ( (notFollowedBy (ender c 1) >> inline) <|> try (string [c,c] >> notFollowedBy (ender c 1) >> two c mempty) ) (ender c 1 >> return (B.emph <$> (prefix' <> contents))) <|> return (return (B.str [c]) <> (prefix' <> contents)) strongOrEmph :: PandocMonad m => MarkdownParser m (F Inlines) strongOrEmph = enclosure '*' <|> enclosure '_' -- | Parses a list of inlines between start and end delimiters. inlinesBetween :: PandocMonad m => (Show b) => MarkdownParser m a -> MarkdownParser m b -> MarkdownParser m (F Inlines) inlinesBetween start end = (trimInlinesF . mconcat) <$> try (start >> many1Till inner end) where inner = innerSpace <|> (notFollowedBy' (() <$ whitespace) >> inline) innerSpace = try $ whitespace <* notFollowedBy' end strikeout :: PandocMonad m => MarkdownParser m (F Inlines) strikeout = fmap B.strikeout <$> (guardEnabled Ext_strikeout >> inlinesBetween strikeStart strikeEnd) where strikeStart = string "~~" >> lookAhead nonspaceChar >> notFollowedBy (char '~') strikeEnd = try $ string "~~" superscript :: PandocMonad m => MarkdownParser m (F Inlines) superscript = fmap B.superscript <$> try (do guardEnabled Ext_superscript char '^' mconcat <$> many1Till (notFollowedBy spaceChar >> inline) (char '^')) subscript :: PandocMonad m => MarkdownParser m (F Inlines) subscript = fmap B.subscript <$> try (do guardEnabled Ext_subscript char '~' mconcat <$> many1Till (notFollowedBy spaceChar >> inline) (char '~')) whitespace :: PandocMonad m => MarkdownParser m (F Inlines) whitespace = spaceChar >> return <$> (lb <|> regsp) "whitespace" where lb = spaceChar >> skipMany spaceChar >> option B.space (endline >> return B.linebreak) regsp = skipMany spaceChar >> return B.space nonEndline :: PandocMonad m => ParserT [Char] st m Char nonEndline = satisfy (/='\n') str :: PandocMonad m => MarkdownParser m (F Inlines) str = do result <- many1 alphaNum updateLastStrPos let spacesToNbr = map (\c -> if c == ' ' then '\160' else c) isSmart <- extensionEnabled Ext_smart <$> getOption readerExtensions if isSmart then case likelyAbbrev result of [] -> return $ return $ B.str result xs -> choice (map (\x -> try (string x >> oneOf " \n" >> lookAhead alphaNum >> return (return $ B.str $ result ++ spacesToNbr x ++ "\160"))) xs) <|> (return $ return $ B.str result) else return $ return $ B.str result -- | if the string matches the beginning of an abbreviation (before -- the first period, return strings that would finish the abbreviation. likelyAbbrev :: String -> [String] likelyAbbrev x = let abbrevs = [ "Mr.", "Mrs.", "Ms.", "Capt.", "Dr.", "Prof.", "Gen.", "Gov.", "e.g.", "i.e.", "Sgt.", "St.", "vol.", "vs.", "Sen.", "Rep.", "Pres.", "Hon.", "Rev.", "Ph.D.", "M.D.", "M.A.", "p.", "pp.", "ch.", "sec.", "cf.", "cp."] abbrPairs = map (break (=='.')) abbrevs in map snd $ filter (\(y,_) -> y == x) abbrPairs -- an endline character that can be treated as a space, not a structural break endline :: PandocMonad m => MarkdownParser m (F Inlines) endline = try $ do newline notFollowedBy blankline -- parse potential list-starts differently if in a list: notFollowedBy (inList >> listStart) guardDisabled Ext_lists_without_preceding_blankline <|> notFollowedBy listStart guardEnabled Ext_blank_before_blockquote <|> notFollowedBy emailBlockQuoteStart guardEnabled Ext_blank_before_header <|> (notFollowedBy . char =<< atxChar) -- atx header guardDisabled Ext_backtick_code_blocks <|> notFollowedBy (() <$ (lookAhead (char '`') >> codeBlockFenced)) notFollowedByHtmlCloser (eof >> return mempty) <|> (guardEnabled Ext_hard_line_breaks >> return (return B.linebreak)) <|> (guardEnabled Ext_ignore_line_breaks >> return mempty) <|> (skipMany spaceChar >> return (return B.softbreak)) -- -- links -- -- a reference label for a link reference :: PandocMonad m => MarkdownParser m (F Inlines, String) reference = do notFollowedBy' (string "[^") -- footnote reference withRaw $ trimInlinesF <$> inlinesInBalancedBrackets parenthesizedChars :: PandocMonad m => MarkdownParser m [Char] parenthesizedChars = do result <- charsInBalanced '(' ')' litChar return $ '(' : result ++ ")" -- source for a link, with optional title source :: PandocMonad m => MarkdownParser m (String, String) source = do char '(' skipSpaces let urlChunk = try parenthesizedChars <|> (notFollowedBy (oneOf " )") >> (count 1 litChar)) <|> try (many1 spaceChar <* notFollowedBy (oneOf "\"')")) let sourceURL = (unwords . words . concat) <$> many urlChunk let betweenAngles = try $ char '<' >> manyTill litChar (char '>') src <- try betweenAngles <|> sourceURL tit <- option "" $ try $ spnl >> linkTitle skipSpaces char ')' return (escapeURI $ trimr src, tit) linkTitle :: PandocMonad m => MarkdownParser m String linkTitle = quotedTitle '"' <|> quotedTitle '\'' link :: PandocMonad m => MarkdownParser m (F Inlines) link = try $ do st <- getState guard $ stateAllowLinks st setState $ st{ stateAllowLinks = False } (lab,raw) <- reference setState $ st{ stateAllowLinks = True } regLink B.linkWith lab <|> referenceLink B.linkWith (lab,raw) bracketedSpan :: PandocMonad m => MarkdownParser m (F Inlines) bracketedSpan = try $ do guardEnabled Ext_bracketed_spans (lab,_) <- reference attr <- attributes let (ident,classes,keyvals) = attr case lookup "style" keyvals of Just s | null ident && null classes && map toLower (filter (`notElem` " \t;") s) == "font-variant:small-caps" -> return $ B.smallcaps <$> lab _ -> return $ B.spanWith attr <$> lab regLink :: PandocMonad m => (Attr -> String -> String -> Inlines -> Inlines) -> F Inlines -> MarkdownParser m (F Inlines) regLink constructor lab = try $ do (src, tit) <- source attr <- option nullAttr $ guardEnabled Ext_link_attributes >> attributes return $ constructor attr src tit <$> lab -- a link like [this][ref] or [this][] or [this] referenceLink :: PandocMonad m => (Attr -> String -> String -> Inlines -> Inlines) -> (F Inlines, String) -> MarkdownParser m (F Inlines) referenceLink constructor (lab, raw) = do sp <- (True <$ lookAhead (char ' ')) <|> return False (_,raw') <- option (mempty, "") $ lookAhead (try (guardEnabled Ext_citations >> spnl >> normalCite >> return (mempty, ""))) <|> try (spnl >> reference) when (raw' == "") $ guardEnabled Ext_shortcut_reference_links let labIsRef = raw' == "" || raw' == "[]" let key = toKey $ if labIsRef then raw else raw' parsedRaw <- parseFromString (mconcat <$> many inline) raw' fallback <- parseFromString (mconcat <$> many inline) $ dropBrackets raw implicitHeaderRefs <- option False $ True <$ guardEnabled Ext_implicit_header_references let makeFallback = do parsedRaw' <- parsedRaw fallback' <- fallback return $ B.str "[" <> fallback' <> B.str "]" <> (if sp && not (null raw) then B.space else mempty) <> parsedRaw' return $ do keys <- asksF stateKeys case M.lookup key keys of Nothing -> if implicitHeaderRefs then do headerKeys <- asksF stateHeaderKeys case M.lookup key headerKeys of Just ((src, tit), _) -> constructor nullAttr src tit <$> lab Nothing -> makeFallback else makeFallback Just ((src,tit), attr) -> constructor attr src tit <$> lab dropBrackets :: String -> String dropBrackets = reverse . dropRB . reverse . dropLB where dropRB (']':xs) = xs dropRB xs = xs dropLB ('[':xs) = xs dropLB xs = xs bareURL :: PandocMonad m => MarkdownParser m (F Inlines) bareURL = try $ do guardEnabled Ext_autolink_bare_uris getState >>= guard . stateAllowLinks (orig, src) <- uri <|> emailAddress notFollowedBy $ try $ spaces >> htmlTag (~== TagClose "a") return $ return $ B.link src "" (B.str orig) autoLink :: PandocMonad m => MarkdownParser m (F Inlines) autoLink = try $ do getState >>= guard . stateAllowLinks char '<' (orig, src) <- uri <|> emailAddress -- in rare cases, something may remain after the uri parser -- is finished, because the uri parser tries to avoid parsing -- final punctuation. for example: in ``, -- the URI parser will stop before the dashes. extra <- fromEntities <$> manyTill nonspaceChar (char '>') attr <- option nullAttr $ try $ guardEnabled Ext_link_attributes >> attributes return $ return $ B.linkWith attr (src ++ escapeURI extra) "" (B.str $ orig ++ extra) image :: PandocMonad m => MarkdownParser m (F Inlines) image = try $ do char '!' (lab,raw) <- reference defaultExt <- getOption readerDefaultImageExtension let constructor attr' src = case takeExtension src of "" -> B.imageWith attr' (addExtension src defaultExt) _ -> B.imageWith attr' src regLink constructor lab <|> referenceLink constructor (lab,raw) note :: PandocMonad m => MarkdownParser m (F Inlines) note = try $ do guardEnabled Ext_footnotes ref <- noteMarker return $ do notes <- asksF stateNotes' case lookup ref notes of Nothing -> return $ B.str $ "[^" ++ ref ++ "]" Just contents -> do st <- askF -- process the note in a context that doesn't resolve -- notes, to avoid infinite looping with notes inside -- notes: let contents' = runF contents st{ stateNotes' = [] } return $ B.note contents' inlineNote :: PandocMonad m => MarkdownParser m (F Inlines) inlineNote = try $ do guardEnabled Ext_inline_notes char '^' contents <- inlinesInBalancedBrackets return $ B.note . B.para <$> contents rawLaTeXInline' :: PandocMonad m => MarkdownParser m (F Inlines) rawLaTeXInline' = try $ do guardEnabled Ext_raw_tex lookAhead $ char '\\' >> notFollowedBy' (string "start") -- context env RawInline _ s <- rawLaTeXInline return $ return $ B.rawInline "tex" s -- "tex" because it might be context or latex rawConTeXtEnvironment :: PandocMonad m => ParserT [Char] st m String rawConTeXtEnvironment = try $ do string "\\start" completion <- inBrackets (letter <|> digit <|> spaceChar) <|> (many1 letter) contents <- manyTill (rawConTeXtEnvironment <|> (count 1 anyChar)) (try $ string "\\stop" >> string completion) return $ "\\start" ++ completion ++ concat contents ++ "\\stop" ++ completion inBrackets :: PandocMonad m => (ParserT [Char] st m Char) -> ParserT [Char] st m String inBrackets parser = do char '[' contents <- many parser char ']' return $ "[" ++ contents ++ "]" spanHtml :: PandocMonad m => MarkdownParser m (F Inlines) spanHtml = try $ do guardEnabled Ext_native_spans (TagOpen _ attrs, _) <- htmlTag (~== TagOpen "span" []) contents <- mconcat <$> manyTill inline (htmlTag (~== TagClose "span")) let ident = fromMaybe "" $ lookup "id" attrs let classes = maybe [] words $ lookup "class" attrs let keyvals = [(k,v) | (k,v) <- attrs, k /= "id" && k /= "class"] case lookup "style" keyvals of Just s | null ident && null classes && map toLower (filter (`notElem` " \t;") s) == "font-variant:small-caps" -> return $ B.smallcaps <$> contents _ -> return $ B.spanWith (ident, classes, keyvals) <$> contents divHtml :: PandocMonad m => MarkdownParser m (F Blocks) divHtml = try $ do guardEnabled Ext_native_divs (TagOpen _ attrs, rawtag) <- htmlTag (~== TagOpen "div" []) -- we set stateInHtmlBlock so that closing tags that can be either block or -- inline will not be parsed as inline tags oldInHtmlBlock <- stateInHtmlBlock <$> getState updateState $ \st -> st{ stateInHtmlBlock = Just "div" } bls <- option "" (blankline >> option "" blanklines) contents <- mconcat <$> many (notFollowedBy' (htmlTag (~== TagClose "div")) >> block) closed <- option False (True <$ htmlTag (~== TagClose "div")) if closed then do updateState $ \st -> st{ stateInHtmlBlock = oldInHtmlBlock } let ident = fromMaybe "" $ lookup "id" attrs let classes = maybe [] words $ lookup "class" attrs let keyvals = [(k,v) | (k,v) <- attrs, k /= "id" && k /= "class"] return $ B.divWith (ident, classes, keyvals) <$> contents else -- avoid backtracing return $ return (B.rawBlock "html" (rawtag <> bls)) <> contents rawHtmlInline :: PandocMonad m => MarkdownParser m (F Inlines) rawHtmlInline = do guardEnabled Ext_raw_html inHtmlBlock <- stateInHtmlBlock <$> getState let isCloseBlockTag t = case inHtmlBlock of Just t' -> t ~== TagClose t' Nothing -> False mdInHtml <- option False $ ( guardEnabled Ext_markdown_in_html_blocks <|> guardEnabled Ext_markdown_attribute ) >> return True (_,result) <- htmlTag $ if mdInHtml then (\x -> isInlineTag x && not (isCloseBlockTag x)) else not . isTextTag return $ return $ B.rawInline "html" result -- Emoji emojiChars :: [Char] emojiChars = ['a'..'z'] ++ ['0'..'9'] ++ ['_','+','-'] emoji :: PandocMonad m => MarkdownParser m (F Inlines) emoji = try $ do guardEnabled Ext_emoji char ':' emojikey <- many1 (oneOf emojiChars) char ':' case M.lookup emojikey emojis of Just s -> return (return (B.str s)) Nothing -> mzero -- Citations cite :: PandocMonad m => MarkdownParser m (F Inlines) cite = do guardEnabled Ext_citations citations <- textualCite <|> do (cs, raw) <- withRaw normalCite return $ (flip B.cite (B.text raw)) <$> cs return citations textualCite :: PandocMonad m => MarkdownParser m (F Inlines) textualCite = try $ do (_, key) <- citeKey let first = Citation{ citationId = key , citationPrefix = [] , citationSuffix = [] , citationMode = AuthorInText , citationNoteNum = 0 , citationHash = 0 } mbrest <- option Nothing $ try $ spnl >> Just <$> withRaw normalCite case mbrest of Just (rest, raw) -> return $ (flip B.cite (B.text $ '@':key ++ " " ++ raw) . (first:)) <$> rest Nothing -> (do (cs, raw) <- withRaw $ bareloc first let (spaces',raw') = span isSpace raw spc | null spaces' = mempty | otherwise = B.space lab <- parseFromString (mconcat <$> many inline) $ dropBrackets raw' fallback <- referenceLink B.linkWith (lab,raw') return $ do fallback' <- fallback cs' <- cs return $ case B.toList fallback' of Link{}:_ -> B.cite [first] (B.str $ '@':key) <> spc <> fallback' _ -> B.cite cs' (B.text $ '@':key ++ " " ++ raw)) <|> return (do st <- askF return $ case M.lookup key (stateExamples st) of Just n -> B.str (show n) _ -> B.cite [first] $ B.str $ '@':key) bareloc :: PandocMonad m => Citation -> MarkdownParser m (F [Citation]) bareloc c = try $ do spnl char '[' notFollowedBy $ char '^' suff <- suffix rest <- option (return []) $ try $ char ';' >> citeList spnl char ']' notFollowedBy $ oneOf "[(" return $ do suff' <- suff rest' <- rest return $ c{ citationSuffix = B.toList suff' } : rest' normalCite :: PandocMonad m => MarkdownParser m (F [Citation]) normalCite = try $ do char '[' spnl citations <- citeList spnl char ']' return citations suffix :: PandocMonad m => MarkdownParser m (F Inlines) suffix = try $ do hasSpace <- option False (notFollowedBy nonspaceChar >> return True) spnl rest <- trimInlinesF . mconcat <$> many (notFollowedBy (oneOf ";]") >> inline) return $ if hasSpace then (B.space <>) <$> rest else rest prefix :: PandocMonad m => MarkdownParser m (F Inlines) prefix = trimInlinesF . mconcat <$> manyTill inline (char ']' <|> liftM (const ']') (lookAhead citeKey)) citeList :: PandocMonad m => MarkdownParser m (F [Citation]) citeList = fmap sequence $ sepBy1 citation (try $ char ';' >> spnl) citation :: PandocMonad m => MarkdownParser m (F Citation) citation = try $ do pref <- prefix (suppress_author, key) <- citeKey suff <- suffix return $ do x <- pref y <- suff return $ Citation{ citationId = key , citationPrefix = B.toList x , citationSuffix = B.toList y , citationMode = if suppress_author then SuppressAuthor else NormalCitation , citationNoteNum = 0 , citationHash = 0 } smart :: PandocMonad m => MarkdownParser m (F Inlines) smart = do guardEnabled Ext_smart doubleQuoted <|> singleQuoted <|> choice (map (return <$>) [apostrophe, dash, ellipses]) singleQuoted :: PandocMonad m => MarkdownParser m (F Inlines) singleQuoted = try $ do singleQuoteStart withQuoteContext InSingleQuote $ fmap B.singleQuoted . trimInlinesF . mconcat <$> many1Till inline singleQuoteEnd -- doubleQuoted will handle regular double-quoted sections, as well -- as dialogues with an open double-quote without a close double-quote -- in the same paragraph. doubleQuoted :: PandocMonad m => MarkdownParser m (F Inlines) doubleQuoted = try $ do doubleQuoteStart contents <- mconcat <$> many (try $ notFollowedBy doubleQuoteEnd >> inline) (withQuoteContext InDoubleQuote $ doubleQuoteEnd >> return (fmap B.doubleQuoted . trimInlinesF $ contents)) <|> (return $ return (B.str "\8220") <> contents)