{-# LANGUAGE BangPatterns #-} {-# LANGUAGE CPP #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE PatternGuards #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE ViewPatterns #-} {- | Module : Text.Pandoc.Readers.LaTeX Copyright : Copyright (C) 2006-2020 John MacFarlane License : GNU GPL, version 2 or above Maintainer : John MacFarlane Stability : alpha Portability : portable Conversion of LaTeX to 'Pandoc' document. -} module Text.Pandoc.Readers.LaTeX ( readLaTeX, applyMacros, rawLaTeXInline, rawLaTeXBlock, inlineCommand, tokenize, untokenize ) where import Control.Applicative (many, optional, (<|>)) import Control.Monad import Control.Monad.Except (throwError) import Data.Char (isDigit, isLetter, toUpper, chr) import Data.Default import Data.Functor (($>)) import Data.List (intercalate) import qualified Data.Map as M import Data.Maybe (fromMaybe, maybeToList) import qualified Data.Set as Set import qualified Data.Sequence as Seq import Data.Text (Text) import qualified Data.Text as T import System.FilePath (addExtension, replaceExtension, takeExtension) import Text.Pandoc.BCP47 (Lang (..), renderLang) import Text.Pandoc.Builder import Text.Pandoc.Class.PandocPure (PandocPure) import Text.Pandoc.Class.PandocMonad (PandocMonad (..), getResourcePath, readFileFromDirs, report, setResourcePath, setTranslations, translateTerm) import Text.Pandoc.Error (PandocError (PandocParseError, PandocParsecError)) import Text.Pandoc.Highlighting (fromListingsLanguage, languagesByExtension) import Text.Pandoc.ImageSize (numUnit, showFl) import Text.Pandoc.Logging import Text.Pandoc.Options import Text.Pandoc.Parsing hiding (blankline, many, mathDisplay, mathInline, optional, space, spaces, withRaw, (<|>)) import Text.Pandoc.Readers.LaTeX.Types (ExpansionPoint (..), Macro (..), ArgSpec (..), Tok (..), TokType (..)) import Text.Pandoc.Readers.LaTeX.Parsing import Text.Pandoc.Readers.LaTeX.Lang (polyglossiaLangToBCP47, babelLangToBCP47) import Text.Pandoc.Readers.LaTeX.SIunitx import Text.Pandoc.Shared import qualified Text.Pandoc.Translations as Translations import Text.Pandoc.Walk import qualified Text.Pandoc.Builder as B import qualified Data.Text.Normalize as Normalize import Safe -- for debugging: -- import Text.Pandoc.Extensions (getDefaultExtensions) -- import Text.Pandoc.Class.PandocIO (runIOorExplode, PandocIO) -- import Debug.Trace (traceShowId) -- | Parse LaTeX from string and return 'Pandoc' document. readLaTeX :: PandocMonad m => ReaderOptions -- ^ Reader options -> Text -- ^ String to parse (assumes @'\n'@ line endings) -> m Pandoc readLaTeX opts ltx = do parsed <- runParserT parseLaTeX def{ sOptions = opts } "source" (tokenize "source" (crFilter ltx)) case parsed of Right result -> return result Left e -> throwError $ PandocParsecError ltx e parseLaTeX :: PandocMonad m => LP m Pandoc parseLaTeX = do bs <- blocks eof st <- getState let meta = sMeta st let doc' = doc bs let headerLevel (Header n _ _) = [n] headerLevel _ = [] #if MIN_VERSION_safe(0,3,18) let bottomLevel = minimumBound 1 $ query headerLevel doc' #else let bottomLevel = minimumDef 1 $ query headerLevel doc' #endif let adjustHeaders m (Header n attr ils) = Header (n+m) attr ils adjustHeaders _ x = x let (Pandoc _ bs') = -- handle the case where you have \part or \chapter (if bottomLevel < 1 then walk (adjustHeaders (1 - bottomLevel)) else id) $ walk (resolveRefs (sLabels st)) doc' return $ Pandoc meta bs' resolveRefs :: M.Map Text [Inline] -> Inline -> Inline resolveRefs labels x@(Link (ident,classes,kvs) _ _) = case (lookup "reference-type" kvs, lookup "reference" kvs) of (Just "ref", Just lab) -> case M.lookup lab labels of Just txt -> Link (ident,classes,kvs) txt ("#" <> lab, "") Nothing -> x _ -> x resolveRefs _ x = x -- testParser :: LP PandocIO a -> Text -> IO a -- testParser p t = do -- res <- runIOorExplode (runParserT p defaultLaTeXState{ -- sOptions = def{ readerExtensions = -- enableExtension Ext_raw_tex $ -- getDefaultExtensions "latex" }} "source" (tokenize "source" t)) -- case res of -- Left e -> error (show e) -- Right r -> return r rawLaTeXBlock :: (PandocMonad m, HasMacros s, HasReaderOptions s) => ParserT Text s m Text rawLaTeXBlock = do lookAhead (try (char '\\' >> letter)) inp <- getInput let toks = tokenize "source" inp snd <$> (rawLaTeXParser toks False (macroDef (const mempty)) blocks <|> rawLaTeXParser toks True (do choice (map controlSeq ["include", "input", "subfile", "usepackage"]) skipMany opt braced return mempty) blocks <|> rawLaTeXParser toks True (environment <|> blockCommand) (mconcat <$> many (block <|> beginOrEndCommand))) -- See #4667 for motivation; sometimes people write macros -- that just evaluate to a begin or end command, which blockCommand -- won't accept. beginOrEndCommand :: PandocMonad m => LP m Blocks beginOrEndCommand = try $ do Tok _ (CtrlSeq name) txt <- anyControlSeq guard $ name == "begin" || name == "end" (envname, rawargs) <- withRaw braced if M.member (untokenize envname) (inlineEnvironments :: M.Map Text (LP PandocPure Inlines)) then mzero else return $ rawBlock "latex" (txt <> untokenize rawargs) rawLaTeXInline :: (PandocMonad m, HasMacros s, HasReaderOptions s) => ParserT Text s m Text rawLaTeXInline = do lookAhead (try (char '\\' >> letter)) inp <- getInput let toks = tokenize "source" inp raw <- snd <$> ( rawLaTeXParser toks True (mempty <$ (controlSeq "input" >> skipMany opt >> braced)) inlines <|> rawLaTeXParser toks True (inlineEnvironment <|> inlineCommand') inlines ) finalbraces <- mconcat <$> many (try (string "{}")) -- see #5439 return $ raw <> T.pack finalbraces inlineCommand :: PandocMonad m => ParserT Text ParserState m Inlines inlineCommand = do lookAhead (try (char '\\' >> letter)) inp <- getInput let toks = tokenize "source" inp fst <$> rawLaTeXParser toks True (inlineEnvironment <|> inlineCommand') inlines -- inline elements: word :: PandocMonad m => LP m Inlines word = str . untoken <$> satisfyTok isWordTok regularSymbol :: PandocMonad m => LP m Inlines regularSymbol = str . untoken <$> satisfyTok isRegularSymbol where isRegularSymbol (Tok _ Symbol t) = not $ T.any isSpecial t isRegularSymbol _ = False isSpecial c = c `Set.member` specialChars inlineGroup :: PandocMonad m => LP m Inlines inlineGroup = do ils <- grouped inline if null ils then return mempty else return $ spanWith nullAttr ils -- we need the span so we can detitlecase bibtex entries; -- we need to know when something is {C}apitalized doLHSverb :: PandocMonad m => LP m Inlines doLHSverb = codeWith ("",["haskell"],[]) . untokenize <$> manyTill (satisfyTok (not . isNewlineTok)) (symbol '|') mkImage :: PandocMonad m => [(Text, Text)] -> Text -> LP m Inlines mkImage options (T.unpack -> src) = do let replaceTextwidth (k,v) = case numUnit v of Just (num, "\\textwidth") -> (k, showFl (num * 100) <> "%") _ -> (k, v) let kvs = map replaceTextwidth $ filter (\(k,_) -> k `elem` ["width", "height"]) options let attr = ("",[], kvs) let alt = str "image" defaultExt <- getOption readerDefaultImageExtension let exts' = [".pdf", ".png", ".jpg", ".mps", ".jpeg", ".jbig2", ".jb2"] let exts = exts' ++ map (map toUpper) exts' let findFile s [] = return s findFile s (e:es) = do let s' = addExtension s e exists <- fileExists s' if exists then return s' else findFile s es src' <- case takeExtension src of "" | not (T.null defaultExt) -> return $ addExtension src $ T.unpack defaultExt | otherwise -> findFile src exts _ -> return src return $ imageWith attr (T.pack src') "" alt doxspace :: PandocMonad m => LP m Inlines doxspace = (space <$ lookAhead (satisfyTok startsWithLetter)) <|> return mempty where startsWithLetter (Tok _ Word t) = case T.uncons t of Just (c, _) | isLetter c -> True _ -> False startsWithLetter _ = False lit :: Text -> LP m Inlines lit = pure . str removeDoubleQuotes :: Text -> Text removeDoubleQuotes t = Data.Maybe.fromMaybe t $ T.stripPrefix "\"" t >>= T.stripSuffix "\"" doubleQuote :: PandocMonad m => LP m Inlines doubleQuote = quoted' doubleQuoted (try $ count 2 $ symbol '`') (void $ try $ count 2 $ symbol '\'') <|> quoted' doubleQuoted ((:[]) <$> symbol '“') (void $ symbol '”') -- the following is used by babel for localized quotes: <|> quoted' doubleQuoted (try $ sequence [symbol '"', symbol '`']) (void $ try $ sequence [symbol '"', symbol '\'']) singleQuote :: PandocMonad m => LP m Inlines singleQuote = quoted' singleQuoted ((:[]) <$> symbol '`') (try $ symbol '\'' >> notFollowedBy (satisfyTok startsWithLetter)) <|> quoted' singleQuoted ((:[]) <$> symbol '‘') (try $ symbol '’' >> notFollowedBy (satisfyTok startsWithLetter)) where startsWithLetter (Tok _ Word t) = case T.uncons t of Just (c, _) | isLetter c -> True _ -> False startsWithLetter _ = False quoted' :: PandocMonad m => (Inlines -> Inlines) -> LP m [Tok] -> LP m () -> LP m Inlines quoted' f starter ender = do startchs <- untokenize <$> starter smart <- extensionEnabled Ext_smart <$> getOption readerExtensions if smart then do ils <- many (notFollowedBy ender >> inline) (ender >> return (f (mconcat ils))) <|> (<> mconcat ils) <$> lit (case startchs of "``" -> "“" "`" -> "‘" cs -> cs) else lit startchs enquote :: PandocMonad m => Bool -> Maybe Text -> LP m Inlines enquote starred mblang = do skipopts let lang = mblang >>= babelLangToBCP47 let langspan = case lang of Nothing -> id Just l -> spanWith ("",[],[("lang", renderLang l)]) quoteContext <- sQuoteContext <$> getState if starred || quoteContext == InDoubleQuote then singleQuoted . langspan <$> withQuoteContext InSingleQuote tok else doubleQuoted . langspan <$> withQuoteContext InDoubleQuote tok blockquote :: PandocMonad m => Bool -> Maybe Text -> LP m Blocks blockquote cvariant mblang = do citepar <- if cvariant then (\xs -> para (cite xs mempty)) <$> cites NormalCitation False else option mempty $ para <$> bracketed inline let lang = mblang >>= babelLangToBCP47 let langdiv = case lang of Nothing -> id Just l -> divWith ("",[],[("lang", renderLang l)]) _closingPunct <- option mempty $ bracketed inline -- currently ignored bs <- grouped block optional $ symbolIn (".:;?!" :: [Char]) -- currently ignored return $ blockQuote . langdiv $ (bs <> citepar) doAcronym :: PandocMonad m => Text -> LP m Inlines doAcronym form = do acro <- braced return . mconcat $ [spanWith ("",[],[("acronym-label", untokenize acro), ("acronym-form", "singular+" <> form)]) $ str $ untokenize acro] doAcronymPlural :: PandocMonad m => Text -> LP m Inlines doAcronymPlural form = do acro <- braced plural <- lit "s" return . mconcat $ [spanWith ("",[],[("acronym-label", untokenize acro), ("acronym-form", "plural+" <> form)]) $ mconcat [str $ untokenize acro, plural]] doverb :: PandocMonad m => LP m Inlines doverb = do Tok _ Symbol t <- anySymbol marker <- case T.uncons t of Just (c, ts) | T.null ts -> return c _ -> mzero withVerbatimMode $ code . untokenize <$> manyTill (notFollowedBy newlineTok >> verbTok marker) (symbol marker) verbTok :: PandocMonad m => Char -> LP m Tok verbTok stopchar = do t@(Tok pos toktype txt) <- anyTok case T.findIndex (== stopchar) txt of Nothing -> return t Just i -> do let (t1, t2) = T.splitAt i txt inp <- getInput setInput $ Tok (incSourceColumn pos i) Symbol (T.singleton stopchar) : totoks (incSourceColumn pos (i + 1)) (T.drop 1 t2) ++ inp return $ Tok pos toktype t1 listingsLanguage :: [(Text, Text)] -> Maybe Text listingsLanguage opts = case lookup "language" opts of Nothing -> Nothing Just l -> fromListingsLanguage l `mplus` Just l dolstinline :: PandocMonad m => LP m Inlines dolstinline = do options <- option [] keyvals let classes = maybeToList $ listingsLanguage options doinlinecode classes domintinline :: PandocMonad m => LP m Inlines domintinline = do skipopts cls <- untokenize <$> braced doinlinecode [cls] doinlinecode :: PandocMonad m => [Text] -> LP m Inlines doinlinecode classes = do Tok _ Symbol t <- anySymbol marker <- case T.uncons t of Just (c, ts) | T.null ts -> return c _ -> mzero let stopchar = if marker == '{' then '}' else marker withVerbatimMode $ codeWith ("",classes,[]) . T.map nlToSpace . untokenize <$> manyTill (verbTok stopchar) (symbol stopchar) nlToSpace :: Char -> Char nlToSpace '\n' = ' ' nlToSpace x = x mathDisplay :: Text -> Inlines mathDisplay = displayMath . trimMath mathInline :: Text -> Inlines mathInline = math . trimMath dollarsMath :: PandocMonad m => LP m Inlines dollarsMath = do symbol '$' display <- option False (True <$ symbol '$') (do contents <- try $ untokenize <$> pDollarsMath 0 if display then mathDisplay contents <$ symbol '$' else return $ mathInline contents) <|> (guard display >> return (mathInline "")) -- Int is number of embedded groupings pDollarsMath :: PandocMonad m => Int -> LP m [Tok] pDollarsMath n = do tk@(Tok _ toktype t) <- anyTok case toktype of Symbol | t == "$" , n == 0 -> return [] | t == "\\" -> do tk' <- anyTok (tk :) . (tk' :) <$> pDollarsMath n | t == "{" -> (tk :) <$> pDollarsMath (n+1) | t == "}" -> if n > 0 then (tk :) <$> pDollarsMath (n-1) else mzero _ -> (tk :) <$> pDollarsMath n -- citations addPrefix :: [Inline] -> [Citation] -> [Citation] addPrefix p (k:ks) = k {citationPrefix = p ++ citationPrefix k} : ks addPrefix _ _ = [] addSuffix :: [Inline] -> [Citation] -> [Citation] addSuffix s ks@(_:_) = let k = last ks in init ks ++ [k {citationSuffix = citationSuffix k ++ s}] addSuffix _ _ = [] simpleCiteArgs :: PandocMonad m => LP m [Citation] simpleCiteArgs = try $ do first <- optionMaybe $ toList <$> opt second <- optionMaybe $ toList <$> opt keys <- try $ bgroup *> manyTill citationLabel egroup let (pre, suf) = case (first , second ) of (Just s , Nothing) -> (mempty, s ) (Just s , Just t ) -> (s , t ) _ -> (mempty, mempty) conv k = Citation { citationId = k , citationPrefix = [] , citationSuffix = [] , citationMode = NormalCitation , citationHash = 0 , citationNoteNum = 0 } return $ addPrefix pre $ addSuffix suf $ map conv keys citationLabel :: PandocMonad m => LP m Text citationLabel = do sp untokenize <$> (many1 (satisfyTok isWordTok <|> symbolIn bibtexKeyChar) <* sp <* optional (symbol ',') <* sp) where bibtexKeyChar = ".:;?!`'()/*@_+=-&[]" :: [Char] cites :: PandocMonad m => CitationMode -> Bool -> LP m [Citation] cites mode multi = try $ do cits <- if multi then do multiprenote <- optionMaybe $ toList <$> paropt multipostnote <- optionMaybe $ toList <$> paropt let (pre, suf) = case (multiprenote, multipostnote) of (Just s , Nothing) -> (mempty, s) (Nothing , Just t) -> (mempty, t) (Just s , Just t ) -> (s, t) _ -> (mempty, mempty) tempCits <- many1 simpleCiteArgs case tempCits of (k:ks) -> case ks of (_:_) -> return $ (addMprenote pre k : init ks) ++ [addMpostnote suf (last ks)] _ -> return [addMprenote pre (addMpostnote suf k)] _ -> return [[]] else count 1 simpleCiteArgs let cs = concat cits return $ case mode of AuthorInText -> case cs of (c:rest) -> c {citationMode = mode} : rest [] -> [] _ -> map (\a -> a {citationMode = mode}) cs where mprenote (k:ks) = (k:ks) ++ [Space] mprenote _ = mempty mpostnote (k:ks) = [Str ",", Space] ++ (k:ks) mpostnote _ = mempty addMprenote mpn (k:ks) = let mpnfinal = case citationPrefix k of (_:_) -> mprenote mpn _ -> mpn in addPrefix mpnfinal (k:ks) addMprenote _ _ = [] addMpostnote = addSuffix . mpostnote citation :: PandocMonad m => Text -> CitationMode -> Bool -> LP m Inlines citation name mode multi = do (c,raw) <- withRaw $ cites mode multi return $ cite c (rawInline "latex" $ "\\" <> name <> untokenize raw) handleCitationPart :: Inlines -> [Citation] handleCitationPart ils = let isCite Cite{} = True isCite _ = False (pref, rest) = break isCite (toList ils) in case rest of (Cite cs _:suff) -> addPrefix pref $ addSuffix suff cs _ -> [] complexNatbibCitation :: PandocMonad m => CitationMode -> LP m Inlines complexNatbibCitation mode = try $ do (cs, raw) <- withRaw $ concat <$> do bgroup items <- mconcat <$> many1 (notFollowedBy (symbol ';') >> inline) `sepBy1` symbol ';' egroup return $ map handleCitationPart items case cs of [] -> mzero (c:cits) -> return $ cite (c{ citationMode = mode }:cits) (rawInline "latex" $ "\\citetext" <> untokenize raw) inNote :: Inlines -> Inlines inNote ils = note $ para $ ils <> str "." inlineCommand' :: PandocMonad m => LP m Inlines inlineCommand' = try $ do Tok _ (CtrlSeq name) cmd <- anyControlSeq guard $ name /= "begin" && name /= "end" && name /= "and" star <- option "" ("*" <$ symbol '*' <* sp) overlay <- option "" overlaySpecification let name' = name <> star <> overlay let names = ordNub [name', name] -- check non-starred as fallback let raw = do guard $ isInlineCommand name || not (isBlockCommand name) rawcommand <- getRawCommand name (cmd <> star) (guardEnabled Ext_raw_tex >> return (rawInline "latex" rawcommand)) <|> ignore rawcommand lookupListDefault raw names inlineCommands tok :: PandocMonad m => LP m Inlines tok = try $ spaces >> grouped inline <|> inlineCommand' <|> singleChar' where singleChar' = do Tok _ _ t <- singleChar return $ str t opt :: PandocMonad m => LP m Inlines opt = do toks <- try (sp *> bracketedToks <* sp) -- now parse the toks as inlines st <- getState parsed <- runParserT (mconcat <$> many inline) st "bracketed option" toks case parsed of Right result -> return result Left e -> throwError $ PandocParsecError (untokenize toks) e paropt :: PandocMonad m => LP m Inlines paropt = parenWrapped inline inBrackets :: Inlines -> Inlines inBrackets x = str "[" <> x <> str "]" unescapeURL :: Text -> Text unescapeURL = T.concat . go . T.splitOn "\\" where isEscapable c = c `elemText` "#$%&~_^\\{}" go (x:xs) = x : map unescapeInterior xs go [] = [] unescapeInterior t | Just (c, _) <- T.uncons t , isEscapable c = t | otherwise = "\\" <> t mathEnvWith :: PandocMonad m => (Inlines -> a) -> Maybe Text -> Text -> LP m a mathEnvWith f innerEnv name = f . mathDisplay . inner <$> mathEnv name where inner x = case innerEnv of Nothing -> x Just y -> "\\begin{" <> y <> "}\n" <> x <> "\\end{" <> y <> "}" mathEnv :: PandocMonad m => Text -> LP m Text mathEnv name = do skipopts optional blankline res <- manyTill anyTok (end_ name) return $ stripTrailingNewlines $ untokenize res inlineEnvironment :: PandocMonad m => LP m Inlines inlineEnvironment = try $ do controlSeq "begin" name <- untokenize <$> braced M.findWithDefault mzero name inlineEnvironments inlineEnvironments :: PandocMonad m => M.Map Text (LP m Inlines) inlineEnvironments = M.fromList [ ("displaymath", mathEnvWith id Nothing "displaymath") , ("math", math <$> mathEnv "math") , ("equation", mathEnvWith id Nothing "equation") , ("equation*", mathEnvWith id Nothing "equation*") , ("gather", mathEnvWith id (Just "gathered") "gather") , ("gather*", mathEnvWith id (Just "gathered") "gather*") , ("multline", mathEnvWith id (Just "gathered") "multline") , ("multline*", mathEnvWith id (Just "gathered") "multline*") , ("eqnarray", mathEnvWith id (Just "aligned") "eqnarray") , ("eqnarray*", mathEnvWith id (Just "aligned") "eqnarray*") , ("align", mathEnvWith id (Just "aligned") "align") , ("align*", mathEnvWith id (Just "aligned") "align*") , ("alignat", mathEnvWith id (Just "aligned") "alignat") , ("alignat*", mathEnvWith id (Just "aligned") "alignat*") , ("dmath", mathEnvWith id Nothing "dmath") , ("dmath*", mathEnvWith id Nothing "dmath*") , ("dgroup", mathEnvWith id (Just "aligned") "dgroup") , ("dgroup*", mathEnvWith id (Just "aligned") "dgroup*") , ("darray", mathEnvWith id (Just "aligned") "darray") , ("darray*", mathEnvWith id (Just "aligned") "darray*") ] inlineCommands :: PandocMonad m => M.Map Text (LP m Inlines) inlineCommands = M.union inlineLanguageCommands $ M.fromList [ ("emph", extractSpaces emph <$> tok) , ("textit", extractSpaces emph <$> tok) , ("textsl", extractSpaces emph <$> tok) , ("textsc", extractSpaces smallcaps <$> tok) , ("textsf", extractSpaces (spanWith ("",["sans-serif"],[])) <$> tok) , ("textmd", extractSpaces (spanWith ("",["medium"],[])) <$> tok) , ("textrm", extractSpaces (spanWith ("",["roman"],[])) <$> tok) , ("textup", extractSpaces (spanWith ("",["upright"],[])) <$> tok) , ("texttt", ttfamily) , ("sout", extractSpaces strikeout <$> tok) , ("alert", skipopts >> spanWith ("",["alert"],[]) <$> tok) -- beamer , ("lq", return (str "‘")) , ("rq", return (str "’")) , ("textquoteleft", return (str "‘")) , ("textquoteright", return (str "’")) , ("textquotedblleft", return (str "“")) , ("textquotedblright", return (str "”")) , ("textsuperscript", extractSpaces superscript <$> tok) , ("textsubscript", extractSpaces subscript <$> tok) , ("textbackslash", lit "\\") , ("backslash", lit "\\") , ("slash", lit "/") , ("textbf", extractSpaces strong <$> tok) , ("textnormal", extractSpaces (spanWith ("",["nodecor"],[])) <$> tok) , ("underline", underline <$> tok) , ("ldots", lit "…") , ("vdots", lit "\8942") , ("dots", lit "…") , ("mdots", lit "…") , ("sim", lit "~") , ("sep", lit ",") , ("label", rawInlineOr "label" dolabel) , ("ref", rawInlineOr "ref" $ doref "ref") , ("cref", rawInlineOr "cref" $ doref "ref") -- from cleveref.sty , ("vref", rawInlineOr "vref" $ doref "ref+page") -- from varioref.sty , ("eqref", rawInlineOr "eqref" $ doref "eqref") -- from amsmath.sty , ("mbox", rawInlineOr "mbox" $ processHBox <$> tok) , ("hbox", rawInlineOr "hbox" $ processHBox <$> tok) , ("lettrine", rawInlineOr "lettrine" lettrine) , ("(", mathInline . untokenize <$> manyTill anyTok (controlSeq ")")) , ("[", mathDisplay . untokenize <$> manyTill anyTok (controlSeq "]")) , ("ensuremath", mathInline . untokenize <$> braced) , ("texorpdfstring", const <$> tok <*> tok) , ("P", lit "¶") , ("S", lit "§") , ("$", lit "$") , ("%", lit "%") , ("&", lit "&") , ("#", lit "#") , ("_", lit "_") , ("{", lit "{") , ("}", lit "}") , ("qed", lit "\a0\x25FB") -- old TeX commands , ("em", extractSpaces emph <$> inlines) , ("it", extractSpaces emph <$> inlines) , ("sl", extractSpaces emph <$> inlines) , ("bf", extractSpaces strong <$> inlines) , ("tt", code . stringify . toList <$> inlines) , ("rm", inlines) , ("itshape", extractSpaces emph <$> inlines) , ("slshape", extractSpaces emph <$> inlines) , ("scshape", extractSpaces smallcaps <$> inlines) , ("bfseries", extractSpaces strong <$> inlines) , ("MakeUppercase", makeUppercase <$> tok) , ("MakeTextUppercase", makeUppercase <$> tok) -- textcase , ("uppercase", makeUppercase <$> tok) , ("MakeLowercase", makeLowercase <$> tok) , ("MakeTextLowercase", makeLowercase <$> tok) , ("lowercase", makeLowercase <$> tok) , ("/", pure mempty) -- italic correction , ("aa", lit "å") , ("AA", lit "Å") , ("ss", lit "ß") , ("o", lit "ø") , ("O", lit "Ø") , ("L", lit "Ł") , ("l", lit "ł") , ("ae", lit "æ") , ("AE", lit "Æ") , ("oe", lit "œ") , ("OE", lit "Œ") , ("pounds", lit "£") , ("euro", lit "€") , ("copyright", lit "©") , ("textasciicircum", lit "^") , ("textasciitilde", lit "~") , ("H", accent '\779' Nothing) -- hungarumlaut , ("`", accent '\768' (Just '`')) -- grave , ("'", accent '\769' (Just '\'')) -- acute , ("^", accent '\770' (Just '^')) -- circ , ("~", accent '\771' (Just '~')) -- tilde , ("\"", accent '\776' Nothing) -- umlaut , (".", accent '\775' Nothing) -- dot , ("=", accent '\772' Nothing) -- macron , ("|", accent '\781' Nothing) -- vertical line above , ("b", accent '\817' Nothing) -- macron below , ("c", accent '\807' Nothing) -- cedilla , ("G", accent '\783' Nothing) -- doublegrave , ("h", accent '\777' Nothing) -- hookabove , ("d", accent '\803' Nothing) -- dotbelow , ("f", accent '\785' Nothing) -- inverted breve , ("r", accent '\778' Nothing) -- ringabove , ("t", accent '\865' Nothing) -- double inverted breve , ("U", accent '\782' Nothing) -- double vertical line above , ("v", accent '\780' Nothing) -- hacek , ("u", accent '\774' Nothing) -- breve , ("k", accent '\808' Nothing) -- ogonek , ("textogonekcentered", accent '\808' Nothing) -- ogonek , ("i", lit "ı") -- dotless i , ("j", lit "ȷ") -- dotless j , ("newtie", accent '\785' Nothing) -- inverted breve , ("textcircled", accent '\8413' Nothing) -- combining circle , ("\\", linebreak <$ (do inTableCell <- sInTableCell <$> getState guard $ not inTableCell optional opt spaces)) , (",", lit "\8198") , ("@", pure mempty) , (" ", lit "\160") , ("ps", pure $ str "PS." <> space) , ("TeX", lit "TeX") , ("LaTeX", lit "LaTeX") , ("bar", lit "|") , ("textless", lit "<") , ("textgreater", lit ">") , ("thanks", skipopts >> note <$> grouped block) , ("footnote", skipopts >> note <$> grouped block) , ("passthrough", tok) -- \passthrough macro used by latex writer -- for listings , ("verb", doverb) , ("lstinline", dolstinline) , ("mintinline", domintinline) , ("Verb", doverb) , ("url", (\url -> link url "" (str url)) . unescapeURL . untokenize <$> bracedUrl) , ("nolinkurl", code . unescapeURL . untokenize <$> bracedUrl) , ("href", do url <- bracedUrl sp link (unescapeURL $ untokenize url) "" <$> tok) , ("includegraphics", do options <- option [] keyvals src <- braced mkImage options . unescapeURL . removeDoubleQuotes $ untokenize src) , ("enquote*", enquote True Nothing) , ("enquote", enquote False Nothing) -- foreignquote is supposed to use native quote marks , ("foreignquote*", braced >>= enquote True . Just . untokenize) , ("foreignquote", braced >>= enquote False . Just . untokenize) -- hypehnquote uses regular quotes , ("hyphenquote*", braced >>= enquote True . Just . untokenize) , ("hyphenquote", braced >>= enquote False . Just . untokenize) , ("figurename", doTerm Translations.Figure) , ("prefacename", doTerm Translations.Preface) , ("refname", doTerm Translations.References) , ("bibname", doTerm Translations.Bibliography) , ("chaptername", doTerm Translations.Chapter) , ("partname", doTerm Translations.Part) , ("contentsname", doTerm Translations.Contents) , ("listfigurename", doTerm Translations.ListOfFigures) , ("listtablename", doTerm Translations.ListOfTables) , ("indexname", doTerm Translations.Index) , ("abstractname", doTerm Translations.Abstract) , ("tablename", doTerm Translations.Table) , ("enclname", doTerm Translations.Encl) , ("ccname", doTerm Translations.Cc) , ("headtoname", doTerm Translations.To) , ("pagename", doTerm Translations.Page) , ("seename", doTerm Translations.See) , ("seealsoname", doTerm Translations.SeeAlso) , ("proofname", doTerm Translations.Proof) , ("glossaryname", doTerm Translations.Glossary) , ("lstlistingname", doTerm Translations.Listing) , ("cite", citation "cite" NormalCitation False) , ("Cite", citation "Cite" NormalCitation False) , ("citep", citation "citep" NormalCitation False) , ("citep*", citation "citep*" NormalCitation False) , ("citeal", citation "citeal" NormalCitation False) , ("citealp", citation "citealp" NormalCitation False) , ("citealp*", citation "citealp*" NormalCitation False) , ("autocite", citation "autocite" NormalCitation False) , ("smartcite", citation "smartcite" NormalCitation False) , ("footcite", inNote <$> citation "footcite" NormalCitation False) , ("parencite", citation "parencite" NormalCitation False) , ("supercite", citation "supercite" NormalCitation False) , ("footcitetext", inNote <$> citation "footcitetext" NormalCitation False) , ("citeyearpar", citation "citeyearpar" SuppressAuthor False) , ("citeyear", citation "citeyear" SuppressAuthor False) , ("autocite*", citation "autocite*" SuppressAuthor False) , ("cite*", citation "cite*" SuppressAuthor False) , ("parencite*", citation "parencite*" SuppressAuthor False) , ("textcite", citation "textcite" AuthorInText False) , ("citet", citation "citet" AuthorInText False) , ("citet*", citation "citet*" AuthorInText False) , ("citealt", citation "citealt" AuthorInText False) , ("citealt*", citation "citealt*" AuthorInText False) , ("textcites", citation "textcites" AuthorInText True) , ("cites", citation "cites" NormalCitation True) , ("autocites", citation "autocites" NormalCitation True) , ("footcites", inNote <$> citation "footcites" NormalCitation True) , ("parencites", citation "parencites" NormalCitation True) , ("supercites", citation "supercites" NormalCitation True) , ("footcitetexts", inNote <$> citation "footcitetexts" NormalCitation True) , ("Autocite", citation "Autocite" NormalCitation False) , ("Smartcite", citation "Smartcite" NormalCitation False) , ("Footcite", inNote <$> citation "Footcite" NormalCitation False) , ("Parencite", citation "Parencite" NormalCitation False) , ("Supercite", citation "Supercite" NormalCitation False) , ("Footcitetext", inNote <$> citation "Footcitetext" NormalCitation False) , ("Citeyearpar", citation "Citeyearpar" SuppressAuthor False) , ("Citeyear", citation "Citeyear" SuppressAuthor False) , ("Autocite*", citation "Autocite*" SuppressAuthor False) , ("Cite*", citation "Cite*" SuppressAuthor False) , ("Parencite*", citation "Parencite*" SuppressAuthor False) , ("Textcite", citation "Textcite" AuthorInText False) , ("Textcites", citation "Textcites" AuthorInText True) , ("Cites", citation "Cites" NormalCitation True) , ("Autocites", citation "Autocites" NormalCitation True) , ("Footcites", inNote <$> citation "Footcites" NormalCitation True) , ("Parencites", citation "Parencites" NormalCitation True) , ("Supercites", citation "Supercites" NormalCitation True) , ("Footcitetexts", inNote <$> citation "Footcitetexts" NormalCitation True) , ("citetext", complexNatbibCitation NormalCitation) , ("citeauthor", (try (tok *> sp *> controlSeq "citetext") *> complexNatbibCitation AuthorInText) <|> citation "citeauthor" AuthorInText False) , ("nocite", mempty <$ (citation "nocite" NormalCitation False >>= addMeta "nocite")) , ("hyperlink", hyperlink) , ("hypertarget", hypertargetInline) -- glossaries package , ("gls", doAcronym "short") , ("Gls", doAcronym "short") , ("glsdesc", doAcronym "long") , ("Glsdesc", doAcronym "long") , ("GLSdesc", doAcronym "long") , ("acrlong", doAcronym "long") , ("Acrlong", doAcronym "long") , ("acrfull", doAcronym "full") , ("Acrfull", doAcronym "full") , ("acrshort", doAcronym "abbrv") , ("Acrshort", doAcronym "abbrv") , ("glspl", doAcronymPlural "short") , ("Glspl", doAcronymPlural "short") , ("glsdescplural", doAcronymPlural "long") , ("Glsdescplural", doAcronymPlural "long") , ("GLSdescplural", doAcronymPlural "long") -- acronyms package , ("ac", doAcronym "short") , ("acf", doAcronym "full") , ("acs", doAcronym "abbrv") , ("acl", doAcronym "long") , ("acp", doAcronymPlural "short") , ("acfp", doAcronymPlural "full") , ("acsp", doAcronymPlural "abbrv") , ("aclp", doAcronymPlural "long") , ("Ac", doAcronym "short") , ("Acf", doAcronym "full") , ("Acs", doAcronym "abbrv") , ("Acl", doAcronym "long") , ("Acp", doAcronymPlural "short") , ("Acfp", doAcronymPlural "full") , ("Acsp", doAcronymPlural "abbrv") , ("Aclp", doAcronymPlural "long") -- siuntix , ("si", skipopts *> dosi tok) , ("SI", doSI tok) , ("SIrange", doSIrange True tok) , ("numrange", doSIrange False tok) , ("numlist", doSInumlist) , ("num", doSInum) , ("ang", doSIang) -- hyphenat , ("bshyp", lit "\\\173") , ("fshyp", lit "/\173") , ("dothyp", lit ".\173") , ("colonhyp", lit ":\173") , ("hyp", lit "-") , ("nohyphens", tok) , ("textnhtt", ttfamily) , ("nhttfamily", ttfamily) -- LaTeX colors , ("textcolor", coloredInline "color") , ("colorbox", coloredInline "background-color") -- fontawesome , ("faCheck", lit "\10003") , ("faClose", lit "\10007") -- xspace , ("xspace", doxspace) -- etoolbox , ("ifstrequal", ifstrequal) , ("newtoggle", braced >>= newToggle) , ("toggletrue", braced >>= setToggle True) , ("togglefalse", braced >>= setToggle False) , ("iftoggle", try $ ifToggle >> inline) -- biblatex misc , ("RN", romanNumeralUpper) , ("Rn", romanNumeralLower) -- babel , ("foreignlanguage", foreignlanguage) -- include , ("input", rawInlineOr "input" $ include "input") -- soul package , ("ul", underline <$> tok) -- ulem package , ("uline", underline <$> tok) -- plain tex stuff that should just be passed through as raw tex , ("ifdim", ifdim) ] accent :: PandocMonad m => Char -> Maybe Char -> LP m Inlines accent combiningAccent fallBack = try $ do ils <- tok case toList ils of (Str (T.uncons -> Just (x, xs)) : ys) -> return $ fromList $ -- try to normalize to the combined character: Str (Normalize.normalize Normalize.NFC (T.pack [x, combiningAccent]) <> xs) : ys [Space] -> return $ str $ T.singleton $ fromMaybe combiningAccent fallBack [] -> return $ str $ T.singleton $ fromMaybe combiningAccent fallBack _ -> return ils lettrine :: PandocMonad m => LP m Inlines lettrine = do optional opt x <- tok y <- tok return $ extractSpaces (spanWith ("",["lettrine"],[])) x <> smallcaps y ifdim :: PandocMonad m => LP m Inlines ifdim = do contents <- manyTill anyTok (controlSeq "fi") return $ rawInline "latex" $ "\\ifdim" <> untokenize contents <> "\\fi" makeUppercase :: Inlines -> Inlines makeUppercase = fromList . walk (alterStr T.toUpper) . toList makeLowercase :: Inlines -> Inlines makeLowercase = fromList . walk (alterStr T.toLower) . toList alterStr :: (Text -> Text) -> Inline -> Inline alterStr f (Str xs) = Str (f xs) alterStr _ x = x foreignlanguage :: PandocMonad m => LP m Inlines foreignlanguage = do babelLang <- untokenize <$> braced case babelLangToBCP47 babelLang of Just lang -> spanWith ("", [], [("lang", renderLang lang)]) <$> tok _ -> tok inlineLanguageCommands :: PandocMonad m => M.Map Text (LP m Inlines) inlineLanguageCommands = M.fromList $ mk <$> M.toList polyglossiaLangToBCP47 where mk (polyglossia, bcp47Func) = ("text" <> polyglossia, inlineLanguage bcp47Func) inlineLanguage :: PandocMonad m => (Text -> Lang) -> LP m Inlines inlineLanguage bcp47Func = do o <- option "" $ T.filter (\c -> c /= '[' && c /= ']') <$> rawopt let lang = renderLang $ bcp47Func o extractSpaces (spanWith ("", [], [("lang", lang)])) <$> tok hyperlink :: PandocMonad m => LP m Inlines hyperlink = try $ do src <- untokenize <$> braced lab <- tok return $ link ("#" <> src) "" lab hypertargetBlock :: PandocMonad m => LP m Blocks hypertargetBlock = try $ do ref <- untokenize <$> braced bs <- grouped block case toList bs of [Header 1 (ident,_,_) _] | ident == ref -> return bs _ -> return $ divWith (ref, [], []) bs hypertargetInline :: PandocMonad m => LP m Inlines hypertargetInline = try $ do ref <- untokenize <$> braced ils <- grouped inline return $ spanWith (ref, [], []) ils romanNumeralUpper :: (PandocMonad m) => LP m Inlines romanNumeralUpper = str . toRomanNumeral <$> romanNumeralArg romanNumeralLower :: (PandocMonad m) => LP m Inlines romanNumeralLower = str . T.toLower . toRomanNumeral <$> romanNumeralArg romanNumeralArg :: (PandocMonad m) => LP m Int romanNumeralArg = spaces *> (parser <|> inBraces) where inBraces = do symbol '{' spaces res <- parser spaces symbol '}' return res parser = do Tok _ Word s <- satisfyTok isWordTok let (digits, rest) = T.span isDigit s unless (T.null rest) $ Prelude.fail "Non-digits in argument to \\Rn or \\RN" safeRead digits newToggle :: (Monoid a, PandocMonad m) => [Tok] -> LP m a newToggle name = do updateState $ \st -> st{ sToggles = M.insert (untokenize name) False (sToggles st) } return mempty setToggle :: (Monoid a, PandocMonad m) => Bool -> [Tok] -> LP m a setToggle on name = do updateState $ \st -> st{ sToggles = M.adjust (const on) (untokenize name) (sToggles st) } return mempty ifToggle :: PandocMonad m => LP m () ifToggle = do name <- braced spaces yes <- braced spaces no <- braced toggles <- sToggles <$> getState inp <- getInput let name' = untokenize name case M.lookup name' toggles of Just True -> setInput (yes ++ inp) Just False -> setInput (no ++ inp) Nothing -> do pos <- getPosition report $ UndefinedToggle name' pos return () doTerm :: PandocMonad m => Translations.Term -> LP m Inlines doTerm term = str <$> translateTerm term ifstrequal :: (PandocMonad m, Monoid a) => LP m a ifstrequal = do str1 <- tok str2 <- tok ifequal <- braced ifnotequal <- braced if str1 == str2 then getInput >>= setInput . (ifequal ++) else getInput >>= setInput . (ifnotequal ++) return mempty coloredInline :: PandocMonad m => Text -> LP m Inlines coloredInline stylename = do skipopts color <- braced spanWith ("",[],[("style",stylename <> ": " <> untokenize color)]) <$> tok ttfamily :: PandocMonad m => LP m Inlines ttfamily = code . stringify . toList <$> tok rawInlineOr :: PandocMonad m => Text -> LP m Inlines -> LP m Inlines rawInlineOr name' fallback = do parseRaw <- extensionEnabled Ext_raw_tex <$> getOption readerExtensions if parseRaw then rawInline "latex" <$> getRawCommand name' ("\\" <> name') else fallback processHBox :: Inlines -> Inlines processHBox = walk convert where convert Space = Str $ T.singleton $ chr 160 -- non-breakable space convert SoftBreak = Str $ T.singleton $ chr 160 -- non-breakable space convert LineBreak = Str "" convert x = x isBlockCommand :: Text -> Bool isBlockCommand s = s `M.member` (blockCommands :: M.Map Text (LP PandocPure Blocks)) || s `Set.member` treatAsBlock treatAsBlock :: Set.Set Text treatAsBlock = Set.fromList [ "special", "pdfannot", "pdfstringdef" , "bibliographystyle" , "maketitle", "makeindex", "makeglossary" , "addcontentsline", "addtocontents", "addtocounter" -- \ignore{} is used conventionally in literate haskell for definitions -- that are to be processed by the compiler but not printed. , "ignore" , "hyperdef" , "markboth", "markright", "markleft" , "hspace", "vspace" , "newpage" , "clearpage" , "pagebreak" , "titleformat" , "listoffigures" , "listoftables" , "write" ] isInlineCommand :: Text -> Bool isInlineCommand s = s `M.member` (inlineCommands :: M.Map Text (LP PandocPure Inlines)) || s `Set.member` treatAsInline treatAsInline :: Set.Set Text treatAsInline = Set.fromList [ "index" , "hspace" , "vspace" , "noindent" , "newpage" , "clearpage" , "pagebreak" ] label :: PandocMonad m => LP m () label = do controlSeq "label" t <- braced updateState $ \st -> st{ sLastLabel = Just $ untokenize t } dolabel :: PandocMonad m => LP m Inlines dolabel = do v <- braced let refstr = untokenize v updateState $ \st -> st{ sLastLabel = Just refstr } return $ spanWith (refstr,[],[("label", refstr)]) $ inBrackets $ str $ untokenize v doref :: PandocMonad m => Text -> LP m Inlines doref cls = do v <- braced let refstr = untokenize v return $ linkWith ("",[],[ ("reference-type", cls) , ("reference", refstr)]) ("#" <> refstr) "" (inBrackets $ str refstr) lookupListDefault :: (Ord k) => v -> [k] -> M.Map k v -> v lookupListDefault d = (fromMaybe d .) . lookupList where lookupList l m = msum $ map (`M.lookup` m) l inline :: PandocMonad m => LP m Inlines inline = (mempty <$ comment) <|> (space <$ whitespace) <|> (softbreak <$ endline) <|> word <|> macroDef (rawInline "latex") <|> inlineCommand' <|> inlineEnvironment <|> inlineGroup <|> (symbol '-' *> option (str "-") (symbol '-' *> option (str "–") (str "—" <$ symbol '-'))) <|> doubleQuote <|> singleQuote <|> (str "”" <$ try (symbol '\'' >> symbol '\'')) <|> (str "”" <$ symbol '”') <|> (str "’" <$ symbol '\'') <|> (str "’" <$ symbol '’') <|> (str "\160" <$ symbol '~') <|> dollarsMath <|> (guardEnabled Ext_literate_haskell *> symbol '|' *> doLHSverb) <|> (str . T.singleton <$> primEscape) <|> regularSymbol <|> (do res <- symbolIn "#^'`\"[]&" pos <- getPosition let s = untoken res report $ ParsingUnescaped s pos return $ str s) inlines :: PandocMonad m => LP m Inlines inlines = mconcat <$> many inline -- block elements: preamble :: PandocMonad m => LP m Blocks preamble = mconcat <$> many preambleBlock where preambleBlock = (mempty <$ spaces1) <|> macroDef (rawBlock "latex") <|> filecontents <|> (mempty <$ blockCommand) <|> (mempty <$ braced) <|> (do notFollowedBy (begin_ "document") anyTok return mempty) rule :: PandocMonad m => LP m Blocks rule = do skipopts width <- T.takeWhile (\c -> isDigit c || c == '.') . stringify <$> tok _thickness <- tok -- 0-width rules are used to fix spacing issues: case safeRead width of Just (0 :: Double) -> return mempty _ -> return horizontalRule paragraph :: PandocMonad m => LP m Blocks paragraph = do x <- trimInlines . mconcat <$> many1 inline if x == mempty then return mempty else return $ para x rawBlockOr :: PandocMonad m => Text -> LP m Blocks -> LP m Blocks rawBlockOr name fallback = do -- if raw_tex allowed, don't process parseRaw <- extensionEnabled Ext_raw_tex <$> getOption readerExtensions if parseRaw then rawBlock "latex" <$> getRawCommand name ("\\" <> name) else fallback doSubfile :: PandocMonad m => LP m Blocks doSubfile = do skipMany opt f <- T.unpack . removeDoubleQuotes . T.strip . untokenize <$> braced oldToks <- getInput setInput [] insertIncluded ".tex" f bs <- blocks eof setInput oldToks return bs include :: (PandocMonad m, Monoid a) => Text -> LP m a include name = do skipMany opt fs <- map (T.unpack . removeDoubleQuotes . T.strip) . T.splitOn "," . untokenize <$> braced let defaultExt | name == "usepackage" = ".sty" | otherwise = ".tex" mapM_ (insertIncluded defaultExt) fs return mempty readFileFromTexinputs :: PandocMonad m => FilePath -> LP m (Maybe Text) readFileFromTexinputs fp = do fileContentsMap <- sFileContents <$> getState case M.lookup (T.pack fp) fileContentsMap of Just t -> return (Just t) Nothing -> do dirs <- map T.unpack . splitTextBy (==':') . fromMaybe "." <$> lookupEnv "TEXINPUTS" readFileFromDirs dirs fp insertIncluded :: PandocMonad m => FilePath -> FilePath -> LP m () insertIncluded defaultExtension f' = do let f = case takeExtension f' of ".tex" -> f' ".sty" -> f' _ -> addExtension f' defaultExtension pos <- getPosition containers <- getIncludeFiles <$> getState when (T.pack f `elem` containers) $ throwError $ PandocParseError $ T.pack $ "Include file loop at " ++ show pos updateState $ addIncludeFile $ T.pack f mbcontents <- readFileFromTexinputs f contents <- case mbcontents of Just s -> return s Nothing -> do report $ CouldNotLoadIncludeFile (T.pack f) pos return "" getInput >>= setInput . (tokenize f contents ++) updateState dropLatestIncludeFile addMeta :: PandocMonad m => ToMetaValue a => Text -> a -> LP m () addMeta field val = updateState $ \st -> st{ sMeta = addMetaField field val $ sMeta st } authors :: PandocMonad m => LP m () authors = try $ do bgroup let oneAuthor = blocksToInlines' . B.toList . mconcat <$> many1 block auths <- sepBy oneAuthor (controlSeq "and") egroup addMeta "author" (map trimInlines auths) macroDef :: (PandocMonad m, Monoid a) => (Text -> a) -> LP m a macroDef constructor = do (_, s) <- withRaw (commandDef <|> environmentDef) (constructor (untokenize s) <$ guardDisabled Ext_latex_macros) <|> return mempty where commandDef = do (name, macro') <- newcommand <|> letmacro <|> defmacro guardDisabled Ext_latex_macros <|> updateState (\s -> s{ sMacros = M.insert name macro' (sMacros s) }) environmentDef = do mbenv <- newenvironment case mbenv of Nothing -> return () Just (name, macro1, macro2) -> guardDisabled Ext_latex_macros <|> do updateState $ \s -> s{ sMacros = M.insert name macro1 (sMacros s) } updateState $ \s -> s{ sMacros = M.insert ("end" <> name) macro2 (sMacros s) } -- @\newenvironment{envname}[n-args][default]{begin}{end}@ -- is equivalent to -- @\newcommand{\envname}[n-args][default]{begin}@ -- @\newcommand{\endenvname}@ letmacro :: PandocMonad m => LP m (Text, Macro) letmacro = do controlSeq "let" (name, contents) <- withVerbatimMode $ do Tok _ (CtrlSeq name) _ <- anyControlSeq optional $ symbol '=' spaces -- we first parse in verbatim mode, and then expand macros, -- because we don't want \let\foo\bar to turn into -- \let\foo hello if we have previously \def\bar{hello} contents <- bracedOrToken return (name, contents) contents' <- doMacros' 0 contents return (name, Macro ExpandWhenDefined [] Nothing contents') defmacro :: PandocMonad m => LP m (Text, Macro) defmacro = try $ -- we use withVerbatimMode, because macros are to be expanded -- at point of use, not point of definition withVerbatimMode $ do controlSeq "def" Tok _ (CtrlSeq name) _ <- anyControlSeq argspecs <- many (argspecArg <|> argspecPattern) contents <- bracedOrToken return (name, Macro ExpandWhenUsed argspecs Nothing contents) argspecArg :: PandocMonad m => LP m ArgSpec argspecArg = do Tok _ (Arg i) _ <- satisfyTok isArgTok return $ ArgNum i argspecPattern :: PandocMonad m => LP m ArgSpec argspecPattern = Pattern <$> many1 (satisfyTok (\(Tok _ toktype' txt) -> (toktype' == Symbol || toktype' == Word) && (txt /= "{" && txt /= "\\" && txt /= "}"))) newcommand :: PandocMonad m => LP m (Text, Macro) newcommand = do pos <- getPosition Tok _ (CtrlSeq mtype) _ <- controlSeq "newcommand" <|> controlSeq "renewcommand" <|> controlSeq "providecommand" <|> controlSeq "DeclareMathOperator" <|> controlSeq "DeclareRobustCommand" withVerbatimMode $ do Tok _ (CtrlSeq name) txt <- do optional (symbol '*') anyControlSeq <|> (symbol '{' *> spaces *> anyControlSeq <* spaces <* symbol '}') spaces numargs <- option 0 $ try bracketedNum let argspecs = map ArgNum [1..numargs] spaces optarg <- option Nothing $ Just <$> try bracketedToks spaces contents' <- bracedOrToken let contents = case mtype of "DeclareMathOperator" -> Tok pos (CtrlSeq "mathop") "\\mathop" : Tok pos Symbol "{" : Tok pos (CtrlSeq "mathrm") "\\mathrm" : Tok pos Symbol "{" : (contents' ++ [ Tok pos Symbol "}", Tok pos Symbol "}" ]) _ -> contents' macros <- sMacros <$> getState case M.lookup name macros of Just macro | mtype == "newcommand" -> do report $ MacroAlreadyDefined txt pos return (name, macro) | mtype == "providecommand" -> return (name, macro) _ -> return (name, Macro ExpandWhenUsed argspecs optarg contents) newenvironment :: PandocMonad m => LP m (Maybe (Text, Macro, Macro)) newenvironment = do pos <- getPosition Tok _ (CtrlSeq mtype) _ <- controlSeq "newenvironment" <|> controlSeq "renewenvironment" <|> controlSeq "provideenvironment" withVerbatimMode $ do optional $ symbol '*' spaces name <- untokenize <$> braced spaces numargs <- option 0 $ try bracketedNum spaces optarg <- option Nothing $ Just <$> try bracketedToks let argspecs = map (\i -> ArgNum i) [1..numargs] startcontents <- spaces >> bracedOrToken endcontents <- spaces >> bracedOrToken macros <- sMacros <$> getState case M.lookup name macros of Just _ | mtype == "newenvironment" -> do report $ MacroAlreadyDefined name pos return Nothing | mtype == "provideenvironment" -> return Nothing _ -> return $ Just (name, Macro ExpandWhenUsed argspecs optarg startcontents, Macro ExpandWhenUsed [] Nothing endcontents) bracketedNum :: PandocMonad m => LP m Int bracketedNum = do ds <- untokenize <$> bracketedToks case safeRead ds of Just i -> return i _ -> return 0 setCaption :: PandocMonad m => LP m () setCaption = try $ do skipopts ils <- tok optional $ try $ spaces *> label updateState $ \st -> st{ sCaption = Just ils } looseItem :: PandocMonad m => LP m Blocks looseItem = do inListItem <- sInListItem <$> getState guard $ not inListItem skipopts return mempty epigraph :: PandocMonad m => LP m Blocks epigraph = do p1 <- grouped block p2 <- grouped block return $ divWith ("", ["epigraph"], []) (p1 <> p2) resetCaption :: PandocMonad m => LP m () resetCaption = updateState $ \st -> st{ sCaption = Nothing , sLastLabel = Nothing } section :: PandocMonad m => Attr -> Int -> LP m Blocks section (ident, classes, kvs) lvl = do skipopts contents <- grouped inline lab <- option ident $ try (spaces >> controlSeq "label" >> spaces >> untokenize <$> braced) when (lvl == 0) $ updateState $ \st -> st{ sHasChapters = True } unless ("unnumbered" `elem` classes) $ do hn <- sLastHeaderNum <$> getState hasChapters <- sHasChapters <$> getState let lvl' = lvl + if hasChapters then 1 else 0 let num = incrementDottedNum lvl' hn updateState $ \st -> st{ sLastHeaderNum = num , sLabels = M.insert lab [Str (renderDottedNum num)] (sLabels st) } attr' <- registerHeader (lab, classes, kvs) contents return $ headerWith attr' lvl contents blockCommand :: PandocMonad m => LP m Blocks blockCommand = try $ do Tok _ (CtrlSeq name) txt <- anyControlSeq guard $ name /= "begin" && name /= "end" && name /= "and" star <- option "" ("*" <$ symbol '*' <* sp) let name' = name <> star let names = ordNub [name', name] let rawDefiniteBlock = do guard $ isBlockCommand name rawcontents <- getRawCommand name (txt <> star) (guardEnabled Ext_raw_tex >> return (rawBlock "latex" rawcontents)) <|> ignore rawcontents -- heuristic: if it could be either block or inline, we -- treat it if block if we have a sequence of block -- commands followed by a newline. But we stop if we -- hit a \startXXX, since this might start a raw ConTeXt -- environment (this is important because this parser is -- used by the Markdown reader). let startCommand = try $ do Tok _ (CtrlSeq n) _ <- anyControlSeq guard $ "start" `T.isPrefixOf` n let rawMaybeBlock = try $ do guard $ not $ isInlineCommand name rawcontents <- getRawCommand name (txt <> star) curr <- (guardEnabled Ext_raw_tex >> return (rawBlock "latex" rawcontents)) <|> ignore rawcontents rest <- many $ notFollowedBy startCommand *> blockCommand lookAhead $ blankline <|> startCommand return $ curr <> mconcat rest let raw = rawDefiniteBlock <|> rawMaybeBlock lookupListDefault raw names blockCommands closing :: PandocMonad m => LP m Blocks closing = do contents <- tok st <- getState let extractInlines (MetaBlocks [Plain ys]) = ys extractInlines (MetaBlocks [Para ys ]) = ys extractInlines _ = [] let sigs = case lookupMeta "author" (sMeta st) of Just (MetaList xs) -> para $ trimInlines $ fromList $ intercalate [LineBreak] $ map extractInlines xs _ -> mempty return $ para (trimInlines contents) <> sigs parbox :: PandocMonad m => LP m Blocks parbox = try $ do skipopts braced -- size oldInTableCell <- sInTableCell <$> getState -- see #5711 updateState $ \st -> st{ sInTableCell = False } res <- grouped block updateState $ \st -> st{ sInTableCell = oldInTableCell } return res blockCommands :: PandocMonad m => M.Map Text (LP m Blocks) blockCommands = M.fromList [ ("par", mempty <$ skipopts) , ("parbox", parbox) , ("title", mempty <$ (skipopts *> (grouped inline >>= addMeta "title") <|> (grouped block >>= addMeta "title"))) , ("subtitle", mempty <$ (skipopts *> tok >>= addMeta "subtitle")) , ("author", mempty <$ (skipopts *> authors)) -- -- in letter class, temp. store address & sig as title, author , ("address", mempty <$ (skipopts *> tok >>= addMeta "address")) , ("signature", mempty <$ (skipopts *> authors)) , ("date", mempty <$ (skipopts *> tok >>= addMeta "date")) , ("newtheorem", newtheorem) , ("theoremstyle", theoremstyle) -- KOMA-Script metadata commands , ("extratitle", mempty <$ (skipopts *> tok >>= addMeta "extratitle")) , ("frontispiece", mempty <$ (skipopts *> tok >>= addMeta "frontispiece")) , ("titlehead", mempty <$ (skipopts *> tok >>= addMeta "titlehead")) , ("subject", mempty <$ (skipopts *> tok >>= addMeta "subject")) , ("publishers", mempty <$ (skipopts *> tok >>= addMeta "publishers")) , ("uppertitleback", mempty <$ (skipopts *> tok >>= addMeta "uppertitleback")) , ("lowertitleback", mempty <$ (skipopts *> tok >>= addMeta "lowertitleback")) , ("dedication", mempty <$ (skipopts *> tok >>= addMeta "dedication")) -- sectioning , ("part", section nullAttr (-1)) , ("part*", section nullAttr (-1)) , ("chapter", section nullAttr 0) , ("chapter*", section ("",["unnumbered"],[]) 0) , ("section", section nullAttr 1) , ("section*", section ("",["unnumbered"],[]) 1) , ("subsection", section nullAttr 2) , ("subsection*", section ("",["unnumbered"],[]) 2) , ("subsubsection", section nullAttr 3) , ("subsubsection*", section ("",["unnumbered"],[]) 3) , ("paragraph", section nullAttr 4) , ("paragraph*", section ("",["unnumbered"],[]) 4) , ("subparagraph", section nullAttr 5) , ("subparagraph*", section ("",["unnumbered"],[]) 5) -- beamer slides , ("frametitle", section nullAttr 3) , ("framesubtitle", section nullAttr 4) -- letters , ("opening", para . trimInlines <$> (skipopts *> tok)) , ("closing", skipopts *> closing) -- memoir , ("plainbreak", braced >> pure horizontalRule) , ("plainbreak*", braced >> pure horizontalRule) , ("fancybreak", braced >> pure horizontalRule) , ("fancybreak*", braced >> pure horizontalRule) , ("plainfancybreak", braced >> braced >> braced >> pure horizontalRule) , ("plainfancybreak*", braced >> braced >> braced >> pure horizontalRule) , ("pfbreak", pure horizontalRule) , ("pfbreak*", pure horizontalRule) -- , ("hrule", pure horizontalRule) , ("strut", pure mempty) , ("rule", rule) , ("item", looseItem) , ("documentclass", skipopts *> braced *> preamble) , ("centerline", para . trimInlines <$> (skipopts *> tok)) , ("caption", mempty <$ setCaption) , ("bibliography", mempty <$ (skipopts *> braced >>= addMeta "bibliography" . splitBibs . untokenize)) , ("addbibresource", mempty <$ (skipopts *> braced >>= addMeta "bibliography" . splitBibs . untokenize)) , ("endinput", mempty <$ skipMany anyTok) -- includes , ("lstinputlisting", inputListing) , ("inputminted", inputMinted) , ("graphicspath", graphicsPath) -- polyglossia , ("setdefaultlanguage", setDefaultLanguage) , ("setmainlanguage", setDefaultLanguage) -- hyperlink , ("hypertarget", hypertargetBlock) -- LaTeX colors , ("textcolor", coloredBlock "color") , ("colorbox", coloredBlock "background-color") -- csquotes , ("blockquote", blockquote False Nothing) , ("blockcquote", blockquote True Nothing) , ("foreignblockquote", braced >>= blockquote False . Just . untokenize) , ("foreignblockcquote", braced >>= blockquote True . Just . untokenize) , ("hyphenblockquote", braced >>= blockquote False . Just . untokenize) , ("hyphenblockcquote", braced >>= blockquote True . Just . untokenize) -- include , ("include", rawBlockOr "include" $ include "include") , ("input", rawBlockOr "input" $ include "input") , ("subfile", rawBlockOr "subfile" doSubfile) , ("usepackage", rawBlockOr "usepackage" $ include "usepackage") -- preamble , ("PackageError", mempty <$ (braced >> braced >> braced)) -- epigraph package , ("epigraph", epigraph) ] environments :: PandocMonad m => M.Map Text (LP m Blocks) environments = M.fromList [ ("document", env "document" blocks <* skipMany anyTok) , ("abstract", mempty <$ (env "abstract" blocks >>= addMeta "abstract")) , ("sloppypar", env "sloppypar" blocks) , ("letter", env "letter" letterContents) , ("minipage", env "minipage" $ skipopts *> spaces *> optional braced *> spaces *> blocks) , ("figure", env "figure" $ skipopts *> figure) , ("subfigure", env "subfigure" $ skipopts *> tok *> figure) , ("center", divWith ("", ["center"], []) <$> env "center" blocks) , ("longtable", env "longtable" $ resetCaption *> simpTable "longtable" False >>= addTableCaption) , ("table", env "table" $ skipopts *> resetCaption *> blocks >>= addTableCaption) , ("tabular*", env "tabular*" $ simpTable "tabular*" True) , ("tabularx", env "tabularx" $ simpTable "tabularx" True) , ("tabular", env "tabular" $ simpTable "tabular" False) , ("quote", blockQuote <$> env "quote" blocks) , ("quotation", blockQuote <$> env "quotation" blocks) , ("verse", blockQuote <$> env "verse" blocks) , ("itemize", bulletList <$> listenv "itemize" (many item)) , ("description", definitionList <$> listenv "description" (many descItem)) , ("enumerate", orderedList') , ("alltt", alltt <$> env "alltt" blocks) , ("code", guardEnabled Ext_literate_haskell *> (codeBlockWith ("",["haskell","literate"],[]) <$> verbEnv "code")) , ("comment", mempty <$ verbEnv "comment") , ("verbatim", codeBlock <$> verbEnv "verbatim") , ("Verbatim", fancyverbEnv "Verbatim") , ("BVerbatim", fancyverbEnv "BVerbatim") , ("lstlisting", do attr <- parseListingsOptions <$> option [] keyvals codeBlockWith attr <$> verbEnv "lstlisting") , ("minted", minted) , ("obeylines", obeylines) , ("tikzpicture", rawVerbEnv "tikzpicture") , ("tikzcd", rawVerbEnv "tikzcd") , ("lilypond", rawVerbEnv "lilypond") , ("ly", rawVerbEnv "ly") -- amsthm , ("proof", proof) -- etoolbox , ("ifstrequal", ifstrequal) , ("newtoggle", braced >>= newToggle) , ("toggletrue", braced >>= setToggle True) , ("togglefalse", braced >>= setToggle False) , ("iftoggle", try $ ifToggle >> block) ] filecontents :: PandocMonad m => LP m Blocks filecontents = try $ do controlSeq "begin" name <- untokenize <$> braced guard $ name == "filecontents" || name == "filecontents*" skipopts fp <- untokenize <$> braced txt <- verbEnv name updateState $ \st -> st{ sFileContents = M.insert fp txt (sFileContents st) } return mempty theoremstyle :: PandocMonad m => LP m Blocks theoremstyle = do stylename <- untokenize <$> braced let mbstyle = case stylename of "plain" -> Just PlainStyle "definition" -> Just DefinitionStyle "remark" -> Just RemarkStyle _ -> Nothing case mbstyle of Nothing -> return () Just sty -> updateState $ \s -> s{ sLastTheoremStyle = sty } return mempty newtheorem :: PandocMonad m => LP m Blocks newtheorem = do number <- option True (False <$ symbol '*' <* sp) name <- untokenize <$> braced sp series <- option Nothing $ Just . untokenize <$> bracketedToks sp showName <- tok sp syncTo <- option Nothing $ Just . untokenize <$> bracketedToks sty <- sLastTheoremStyle <$> getState let spec = TheoremSpec { theoremName = showName , theoremStyle = sty , theoremSeries = series , theoremSyncTo = syncTo , theoremNumber = number , theoremLastNum = DottedNum [0] } tmap <- sTheoremMap <$> getState updateState $ \s -> s{ sTheoremMap = M.insert name spec tmap } return mempty proof :: PandocMonad m => LP m Blocks proof = do title <- option (B.text "Proof") opt bs <- env "proof" blocks return $ B.divWith ("", ["proof"], []) $ addQed $ addTitle (B.emph (title <> ".")) bs addTitle :: Inlines -> Blocks -> Blocks addTitle ils bs = case B.toList bs of (Para xs : rest) -> B.fromList (Para (B.toList ils ++ (Space : xs)) : rest) _ -> B.para ils <> bs addQed :: Blocks -> Blocks addQed bs = case Seq.viewr (B.unMany bs) of s Seq.:> Para ils -> B.Many (s Seq.|> Para (ils ++ B.toList qedSign)) _ -> bs <> B.para qedSign where qedSign = B.str "\xa0\x25FB" environment :: PandocMonad m => LP m Blocks environment = try $ do controlSeq "begin" name <- untokenize <$> braced M.findWithDefault mzero name environments <|> theoremEnvironment name <|> if M.member name (inlineEnvironments :: M.Map Text (LP PandocPure Inlines)) then mzero else try (rawEnv name) <|> rawVerbEnv name theoremEnvironment :: PandocMonad m => Text -> LP m Blocks theoremEnvironment name = do tmap <- sTheoremMap <$> getState case M.lookup name tmap of Nothing -> mzero Just tspec -> do optTitle <- option mempty $ (\x -> space <> "(" <> x <> ")") <$> opt mblabel <- option Nothing $ Just . untokenize <$> try (spaces >> controlSeq "label" >> spaces >> braced) bs <- env name blocks number <- if theoremNumber tspec then do let name' = fromMaybe name $ theoremSeries tspec num <- getNextNumber (maybe (DottedNum [0]) theoremLastNum . M.lookup name' . sTheoremMap) updateState $ \s -> s{ sTheoremMap = M.adjust (\spec -> spec{ theoremLastNum = num }) name' (sTheoremMap s) } case mblabel of Just ident -> updateState $ \s -> s{ sLabels = M.insert ident (B.toList $ theoremName tspec <> "\160" <> str (renderDottedNum num)) (sLabels s) } Nothing -> return () return $ space <> B.text (renderDottedNum num) else return mempty let titleEmph = case theoremStyle tspec of PlainStyle -> B.strong DefinitionStyle -> B.strong RemarkStyle -> B.emph let title = titleEmph (theoremName tspec <> number) <> optTitle <> "." <> space return $ divWith (fromMaybe "" mblabel, [name], []) $ addTitle title $ case theoremStyle tspec of PlainStyle -> walk italicize bs _ -> bs italicize :: Block -> Block italicize x@(Para [Image{}]) = x -- see #6925 italicize (Para ils) = Para [Emph ils] italicize (Plain ils) = Plain [Emph ils] italicize x = x env :: PandocMonad m => Text -> LP m a -> LP m a env name p = p <* end_ name rawEnv :: PandocMonad m => Text -> LP m Blocks rawEnv name = do exts <- getOption readerExtensions let parseRaw = extensionEnabled Ext_raw_tex exts rawOptions <- mconcat <$> many rawopt let beginCommand = "\\begin{" <> name <> "}" <> rawOptions pos1 <- getPosition (bs, raw) <- withRaw $ env name blocks if parseRaw then return $ rawBlock "latex" $ beginCommand <> untokenize raw else do report $ SkippedContent beginCommand pos1 pos2 <- getPosition report $ SkippedContent ("\\end{" <> name <> "}") pos2 return $ divWith ("",[name],[]) bs rawVerbEnv :: PandocMonad m => Text -> LP m Blocks rawVerbEnv name = do pos <- getPosition (_, raw) <- withRaw $ verbEnv name let raw' = "\\begin{" <> name <> "}" <> untokenize raw exts <- getOption readerExtensions let parseRaw = extensionEnabled Ext_raw_tex exts if parseRaw then return $ rawBlock "latex" raw' else do report $ SkippedContent raw' pos return mempty fancyverbEnv :: PandocMonad m => Text -> LP m Blocks fancyverbEnv name = do options <- option [] keyvals let kvs = [ (if k == "firstnumber" then "startFrom" else k, v) | (k,v) <- options ] let classes = [ "numberLines" | lookup "numbers" options == Just "left" ] let attr = ("",classes,kvs) codeBlockWith attr <$> verbEnv name obeylines :: PandocMonad m => LP m Blocks obeylines = para . fromList . removeLeadingTrailingBreaks . walk softBreakToHard . toList <$> env "obeylines" inlines where softBreakToHard SoftBreak = LineBreak softBreakToHard x = x removeLeadingTrailingBreaks = reverse . dropWhile isLineBreak . reverse . dropWhile isLineBreak isLineBreak LineBreak = True isLineBreak _ = False minted :: PandocMonad m => LP m Blocks minted = do attr <- mintedAttr codeBlockWith attr <$> verbEnv "minted" mintedAttr :: PandocMonad m => LP m Attr mintedAttr = do options <- option [] keyvals lang <- untokenize <$> braced let kvs = [ (if k == "firstnumber" then "startFrom" else k, v) | (k,v) <- options ] let classes = [ lang | not (T.null lang) ] ++ [ "numberLines" | lookup "linenos" options == Just "true" ] return ("",classes,kvs) inputMinted :: PandocMonad m => LP m Blocks inputMinted = do pos <- getPosition attr <- mintedAttr f <- T.filter (/='"') . untokenize <$> braced mbCode <- readFileFromTexinputs (T.unpack f) rawcode <- case mbCode of Just s -> return s Nothing -> do report $ CouldNotLoadIncludeFile f pos return "" return $ B.codeBlockWith attr rawcode letterContents :: PandocMonad m => LP m Blocks letterContents = do bs <- blocks st <- getState -- add signature (author) and address (title) let addr = case lookupMeta "address" (sMeta st) of Just (MetaBlocks [Plain xs]) -> para $ trimInlines $ fromList xs _ -> mempty return $ addr <> bs -- sig added by \closing figure :: PandocMonad m => LP m Blocks figure = try $ do resetCaption blocks >>= addImageCaption addImageCaption :: PandocMonad m => Blocks -> LP m Blocks addImageCaption = walkM go where go (Image attr@(_, cls, kvs) alt (src,tit)) | not ("fig:" `T.isPrefixOf` tit) = do st <- getState let (alt', tit') = case sCaption st of Just ils -> (toList ils, "fig:" <> tit) Nothing -> (alt, tit) attr' = case sLastLabel st of Just lab -> (lab, cls, kvs) Nothing -> attr case attr' of ("", _, _) -> return () (ident, _, _) -> do num <- getNextNumber sLastFigureNum setState st{ sLastFigureNum = num , sLabels = M.insert ident [Str (renderDottedNum num)] (sLabels st) } return $ Image attr' alt' (src, tit') go x = return x coloredBlock :: PandocMonad m => Text -> LP m Blocks coloredBlock stylename = try $ do skipopts color <- braced notFollowedBy (grouped inline) let constructor = divWith ("",[],[("style",stylename <> ": " <> untokenize color)]) constructor <$> grouped block graphicsPath :: PandocMonad m => LP m Blocks graphicsPath = do ps <- map (T.unpack . untokenize) <$> (bgroup *> spaces *> manyTill (braced <* spaces) egroup) getResourcePath >>= setResourcePath . (<> ps) return mempty splitBibs :: Text -> [Inlines] splitBibs = map (str . T.pack . flip replaceExtension "bib" . T.unpack . trim) . splitTextBy (==',') alltt :: Blocks -> Blocks alltt = walk strToCode where strToCode (Str s) = Code nullAttr s strToCode Space = RawInline (Format "latex") "\\ " strToCode SoftBreak = LineBreak strToCode x = x parseListingsOptions :: [(Text, Text)] -> Attr parseListingsOptions options = let kvs = [ (if k == "firstnumber" then "startFrom" else k, v) | (k,v) <- options ] classes = [ "numberLines" | lookup "numbers" options == Just "left" ] ++ maybeToList (listingsLanguage options) in (fromMaybe "" (lookup "label" options), classes, kvs) inputListing :: PandocMonad m => LP m Blocks inputListing = do pos <- getPosition options <- option [] keyvals f <- T.filter (/='"') . untokenize <$> braced mbCode <- readFileFromTexinputs (T.unpack f) codeLines <- case mbCode of Just s -> return $ T.lines s Nothing -> do report $ CouldNotLoadIncludeFile f pos return [] let (ident,classes,kvs) = parseListingsOptions options let classes' = (case listingsLanguage options of Nothing -> (take 1 (languagesByExtension (T.pack $ takeExtension $ T.unpack f)) <>) Just _ -> id) classes let firstline = fromMaybe 1 $ lookup "firstline" options >>= safeRead let lastline = fromMaybe (length codeLines) $ lookup "lastline" options >>= safeRead let codeContents = T.intercalate "\n" $ take (1 + lastline - firstline) $ drop (firstline - 1) codeLines return $ codeBlockWith (ident,classes',kvs) codeContents -- lists item :: PandocMonad m => LP m Blocks item = void blocks *> controlSeq "item" *> skipopts *> blocks descItem :: PandocMonad m => LP m (Inlines, [Blocks]) descItem = do blocks -- skip blocks before item controlSeq "item" sp ils <- opt bs <- blocks return (ils, [bs]) listenv :: PandocMonad m => Text -> LP m a -> LP m a listenv name p = try $ do oldInListItem <- sInListItem `fmap` getState updateState $ \st -> st{ sInListItem = True } res <- env name p updateState $ \st -> st{ sInListItem = oldInListItem } return res orderedList' :: PandocMonad m => LP m Blocks orderedList' = try $ do spaces let markerSpec = do symbol '[' ts <- untokenize <$> manyTill anyTok (symbol ']') case runParser anyOrderedListMarker def "option" ts of Right r -> return r Left _ -> do pos <- getPosition report $ SkippedContent ("[" <> ts <> "]") pos return (1, DefaultStyle, DefaultDelim) (_, style, delim) <- option (1, DefaultStyle, DefaultDelim) markerSpec spaces optional $ try $ controlSeq "setlength" *> grouped (count 1 $ controlSeq "itemindent") *> braced spaces start <- option 1 $ try $ do pos <- getPosition controlSeq "setcounter" ctr <- untokenize <$> braced guard $ "enum" `T.isPrefixOf` ctr guard $ T.all (`elem` ['i','v']) (T.drop 4 ctr) sp num <- untokenize <$> braced case safeRead num of Just i -> return (i + 1 :: Int) Nothing -> do report $ SkippedContent ("\\setcounter{" <> ctr <> "}{" <> num <> "}") pos return 1 bs <- listenv "enumerate" (many item) return $ orderedListWith (start, style, delim) bs -- tables hline :: PandocMonad m => LP m () hline = try $ do spaces controlSeq "hline" <|> -- booktabs rules: controlSeq "toprule" <|> controlSeq "bottomrule" <|> controlSeq "midrule" <|> controlSeq "endhead" <|> controlSeq "endfirsthead" spaces optional opt return () lbreak :: PandocMonad m => LP m Tok lbreak = (controlSeq "\\" <|> controlSeq "tabularnewline") <* skipopts <* spaces amp :: PandocMonad m => LP m Tok amp = symbol '&' -- Split a Word into individual Symbols (for parseAligns) splitWordTok :: PandocMonad m => LP m () splitWordTok = do inp <- getInput case inp of (Tok spos Word t : rest) -> setInput $ map (Tok spos Symbol . T.singleton) (T.unpack t) <> rest _ -> return () parseAligns :: PandocMonad m => LP m [(Alignment, ColWidth, ([Tok], [Tok]))] parseAligns = try $ do let maybeBar = skipMany (try $ sp *> (() <$ symbol '|' <|> () <$ (symbol '@' >> braced))) let cAlign = AlignCenter <$ symbol 'c' let lAlign = AlignLeft <$ symbol 'l' let rAlign = AlignRight <$ symbol 'r' let parAlign = AlignLeft <$ symbol 'p' -- aligns from tabularx let xAlign = AlignLeft <$ symbol 'X' let mAlign = AlignLeft <$ symbol 'm' let bAlign = AlignLeft <$ symbol 'b' let alignChar = splitWordTok *> ( cAlign <|> lAlign <|> rAlign <|> parAlign <|> xAlign <|> mAlign <|> bAlign ) let alignPrefix = symbol '>' >> braced let alignSuffix = symbol '<' >> braced let colWidth = try $ do symbol '{' ds <- trim . untokenize <$> manyTill anyTok (controlSeq "linewidth") spaces symbol '}' return $ safeRead ds let alignSpec = do pref <- option [] alignPrefix spaces al <- alignChar width <- colWidth <|> option Nothing (do s <- untokenize <$> braced pos <- getPosition report $ SkippedContent s pos return Nothing) spaces suff <- option [] alignSuffix return (al, width, (pref, suff)) let starAlign = do -- '*{2}{r}' == 'rr', we just expand like a macro symbol '*' spaces ds <- trim . untokenize <$> braced spaces spec <- braced case safeRead ds of Just n -> getInput >>= setInput . (mconcat (replicate n spec) ++) Nothing -> Prelude.fail $ "Could not parse " <> T.unpack ds <> " as number" bgroup spaces maybeBar aligns' <- many $ try $ spaces >> optional starAlign >> (alignSpec <* maybeBar) spaces egroup spaces return $ map toSpec aligns' where toColWidth (Just w) | w > 0 = ColWidth w toColWidth _ = ColWidthDefault toSpec (x, y, z) = (x, toColWidth y, z) -- N.B. this parser returns a Row that may have erroneous empty cells -- in it. See the note above fixTableHead for details. parseTableRow :: PandocMonad m => Text -- ^ table environment name -> [([Tok], [Tok])] -- ^ pref/suffixes -> LP m Row parseTableRow envname prefsufs = do notFollowedBy (spaces *> end_ envname) -- add prefixes and suffixes in token stream: let celltoks (pref, suff) = do prefpos <- getPosition contents <- mconcat <$> many ( snd <$> withRaw (controlSeq "parbox" >> parbox) -- #5711 <|> snd <$> withRaw (inlineEnvironment <|> dollarsMath) <|> (do notFollowedBy (() <$ amp <|> () <$ lbreak <|> end_ envname) count 1 anyTok) ) suffpos <- getPosition option [] (count 1 amp) return $ map (setpos prefpos) pref ++ contents ++ map (setpos suffpos) suff rawcells <- mapM celltoks prefsufs oldInput <- getInput cells <- mapM (\ts -> setInput ts >> parseTableCell) rawcells setInput oldInput spaces return $ Row nullAttr cells parseTableCell :: PandocMonad m => LP m Cell parseTableCell = do spaces updateState $ \st -> st{ sInTableCell = True } cell' <- multicolumnCell <|> multirowCell <|> parseSimpleCell <|> parseEmptyCell updateState $ \st -> st{ sInTableCell = False } spaces return cell' where -- The parsing of empty cells is important in LaTeX, especially when dealing -- with multirow/multicolumn. See #6603. parseEmptyCell = spaces $> emptyCell cellAlignment :: PandocMonad m => LP m Alignment cellAlignment = skipMany (symbol '|') *> alignment <* skipMany (symbol '|') where alignment = do c <- untoken <$> singleChar return $ case c of "l" -> AlignLeft "r" -> AlignRight "c" -> AlignCenter "*" -> AlignDefault _ -> AlignDefault plainify :: Blocks -> Blocks plainify bs = case toList bs of [Para ils] -> plain (fromList ils) _ -> bs multirowCell :: PandocMonad m => LP m Cell multirowCell = controlSeq "multirow" >> do -- Full prototype for \multirow macro is: -- \multirow[vpos]{nrows}[bigstruts]{width}[vmove]{text} -- However, everything except `nrows` and `text` make -- sense in the context of the Pandoc AST _ <- optional $ symbol '[' *> cellAlignment <* symbol ']' -- vertical position nrows <- fmap (fromMaybe 1 . safeRead . untokenize) braced _ <- optional $ symbol '[' *> manyTill anyTok (symbol ']') -- bigstrut-related _ <- symbol '{' *> manyTill anyTok (symbol '}') -- Cell width _ <- optional $ symbol '[' *> manyTill anyTok (symbol ']') -- Length used for fine-tuning content <- symbol '{' *> (plainify <$> blocks) <* symbol '}' return $ cell AlignDefault (RowSpan nrows) (ColSpan 1) content multicolumnCell :: PandocMonad m => LP m Cell multicolumnCell = controlSeq "multicolumn" >> do span' <- fmap (fromMaybe 1 . safeRead . untokenize) braced alignment <- symbol '{' *> cellAlignment <* symbol '}' let singleCell = do content <- plainify <$> blocks return $ cell alignment (RowSpan 1) (ColSpan span') content -- Two possible contents: either a \multirow cell, or content. -- E.g. \multicol{1}{c}{\multirow{2}{1em}{content}} -- Note that a \multirow cell can be nested in a \multicolumn, -- but not the other way around. See #6603 let nestedCell = do (Cell _ _ (RowSpan rs) _ bs) <- multirowCell return $ cell alignment (RowSpan rs) (ColSpan span') (fromList bs) symbol '{' *> (nestedCell <|> singleCell) <* symbol '}' -- Parse a simple cell, i.e. not multirow/multicol parseSimpleCell :: PandocMonad m => LP m Cell parseSimpleCell = simpleCell <$> (plainify <$> blocks) -- LaTeX tables are stored with empty cells underneath multirow cells -- denoting the grid spaces taken up by them. More specifically, if a -- cell spans m rows, then it will overwrite all the cells in the -- columns it spans for (m-1) rows underneath it, requiring padding -- cells in these places. These padding cells need to be removed for -- proper table reading. See #6603. -- -- These fixTable functions do not otherwise fix up malformed -- input tables: that is left to the table builder. fixTableHead :: TableHead -> TableHead fixTableHead (TableHead attr rows) = TableHead attr rows' where rows' = fixTableRows rows fixTableBody :: TableBody -> TableBody fixTableBody (TableBody attr rhc th tb) = TableBody attr rhc th' tb' where th' = fixTableRows th tb' = fixTableRows tb fixTableRows :: [Row] -> [Row] fixTableRows = fixTableRows' $ repeat Nothing where fixTableRows' oldHang (Row attr cells : rs) = let (newHang, cells') = fixTableRow oldHang cells rs' = fixTableRows' newHang rs in Row attr cells' : rs' fixTableRows' _ [] = [] -- The overhang is represented as Just (relative cell dimensions) or -- Nothing for an empty grid space. fixTableRow :: [Maybe (ColSpan, RowSpan)] -> [Cell] -> ([Maybe (ColSpan, RowSpan)], [Cell]) fixTableRow oldHang cells -- If there's overhang, drop cells until their total width meets the -- width of the occupied grid spaces (or we run out) | (n, prefHang, restHang) <- splitHang oldHang , n > 0 = let cells' = dropToWidth getCellW n cells (restHang', cells'') = fixTableRow restHang cells' in (prefHang restHang', cells'') -- Otherwise record the overhang of a pending cell and fix the rest -- of the row | c@(Cell _ _ h w _):cells' <- cells = let h' = max 1 h w' = max 1 w oldHang' = dropToWidth getHangW w' oldHang (newHang, cells'') = fixTableRow oldHang' cells' in (toHang w' h' <> newHang, c : cells'') | otherwise = (oldHang, []) where getCellW (Cell _ _ _ w _) = w getHangW = maybe 1 fst getCS (ColSpan n) = n toHang c r | r > 1 = [Just (c, r)] | otherwise = replicate (getCS c) Nothing -- Take the prefix of the overhang list representing filled grid -- spaces. Also return the remainder and the length of this prefix. splitHang = splitHang' 0 id splitHang' !n l (Just (c, r):xs) = splitHang' (n + c) (l . (toHang c (r-1) ++)) xs splitHang' n l xs = (n, l, xs) -- Drop list items until the total width of the dropped items -- exceeds the passed width. dropToWidth _ n l | n < 1 = l dropToWidth wproj n (c:cs) = dropToWidth wproj (n - wproj c) cs dropToWidth _ _ [] = [] simpTable :: PandocMonad m => Text -> Bool -> LP m Blocks simpTable envname hasWidthParameter = try $ do when hasWidthParameter $ () <$ (spaces >> tok) skipopts colspecs <- parseAligns let (aligns, widths, prefsufs) = unzip3 colspecs optional $ controlSeq "caption" *> setCaption spaces optional label spaces optional lbreak spaces skipMany hline spaces header' <- option [] . try . fmap (:[]) $ parseTableRow envname prefsufs <* lbreak <* many1 hline spaces rows <- sepEndBy (parseTableRow envname prefsufs) (lbreak <* optional (skipMany hline)) spaces optional $ controlSeq "caption" *> setCaption spaces optional label spaces optional lbreak spaces lookAhead $ controlSeq "end" -- make sure we're at end let th = fixTableHead $ TableHead nullAttr header' let tbs = [fixTableBody $ TableBody nullAttr 0 [] rows] let tf = TableFoot nullAttr [] return $ table emptyCaption (zip aligns widths) th tbs tf addTableCaption :: PandocMonad m => Blocks -> LP m Blocks addTableCaption = walkM go where go (Table attr c spec th tb tf) = do st <- getState let mblabel = sLastLabel st capt <- case (sCaption st, mblabel) of (Just ils, Nothing) -> return $ caption Nothing (plain ils) (Just ils, Just lab) -> do num <- getNextNumber sLastTableNum setState st{ sLastTableNum = num , sLabels = M.insert lab [Str (renderDottedNum num)] (sLabels st) } return $ caption Nothing (plain ils) -- add number?? (Nothing, _) -> return c let attr' = case (attr, mblabel) of ((_,classes,kvs), Just ident) -> (ident,classes,kvs) _ -> attr return $ addAttrDiv attr' $ Table nullAttr capt spec th tb tf go x = return x -- TODO: For now we add a Div to contain table attributes, since -- most writers don't do anything yet with attributes on Table. -- This can be removed when that changes. addAttrDiv :: Attr -> Block -> Block addAttrDiv ("",[],[]) b = b addAttrDiv attr b = Div attr [b] block :: PandocMonad m => LP m Blocks block = do res <- (mempty <$ spaces1) <|> environment <|> macroDef (rawBlock "latex") <|> blockCommand <|> paragraph <|> grouped block trace (T.take 60 $ tshow $ B.toList res) return res blocks :: PandocMonad m => LP m Blocks blocks = mconcat <$> many block setDefaultLanguage :: PandocMonad m => LP m Blocks setDefaultLanguage = do o <- option "" $ T.filter (\c -> c /= '[' && c /= ']') <$> rawopt polylang <- untokenize <$> braced case M.lookup polylang polyglossiaLangToBCP47 of Nothing -> return mempty -- TODO mzero? warning? Just langFunc -> do let l = langFunc o setTranslations l updateState $ setMeta "lang" $ str (renderLang l) return mempty