{-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE PatternGuards #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE ScopedTypeVariables #-} {- Copyright (C) 2006-2017 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.LaTeX Copyright : Copyright (C) 2006-2017 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, macro, inlineCommand ) where import Control.Applicative (many, optional, (<|>)) import Control.Monad import Control.Monad.Except (throwError) import Data.Char (chr, isAlphaNum, isLetter, ord, isDigit) import Data.Default import Data.Text (Text) import qualified Data.Text as T import Data.List (intercalate, isPrefixOf) import qualified Data.Map as M import qualified Data.Set as Set import Data.Maybe (fromMaybe, maybeToList) import Safe (minimumDef) import System.FilePath (addExtension, replaceExtension, takeExtension) import Text.Pandoc.Builder import Text.Pandoc.Class (PandocMonad, PandocPure, lookupEnv, readFileFromDirs, report, setResourcePath, getResourcePath) 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 (many, optional, withRaw, mathInline, mathDisplay, space, (<|>), spaces, blankline) import Text.Pandoc.Shared import Text.Pandoc.Readers.LaTeX.Types (Macro(..), Tok(..), TokType(..)) import Text.Pandoc.Walk import Text.Pandoc.Error (PandocError(PandocParsecError, PandocMacroLoop)) -- for debugging: -- import Text.Pandoc.Extensions (getDefaultExtensions) -- import Text.Pandoc.Class (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 (crFilter ltx)) case parsed of Right result -> return result Left e -> throwError $ PandocParsecError (T.unpack 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 _ = [] let bottomLevel = minimumDef 1 $ query headerLevel doc' 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) doc' return $ Pandoc meta bs' -- 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 t)) -- case res of -- Left e -> error (show e) -- Right r -> return r data LaTeXState = LaTeXState{ sOptions :: ReaderOptions , sMeta :: Meta , sQuoteContext :: QuoteContext , sMacros :: M.Map Text Macro , sContainers :: [String] , sHeaders :: M.Map Inlines String , sLogMessages :: [LogMessage] , sIdentifiers :: Set.Set String , sVerbatimMode :: Bool , sCaption :: Maybe Inlines , sInListItem :: Bool , sInTableCell :: Bool } deriving Show defaultLaTeXState :: LaTeXState defaultLaTeXState = LaTeXState{ sOptions = def , sMeta = nullMeta , sQuoteContext = NoQuote , sMacros = M.empty , sContainers = [] , sHeaders = M.empty , sLogMessages = [] , sIdentifiers = Set.empty , sVerbatimMode = False , sCaption = Nothing , sInListItem = False , sInTableCell = False } instance PandocMonad m => HasQuoteContext LaTeXState m where getQuoteContext = sQuoteContext <$> getState withQuoteContext context parser = do oldState <- getState let oldQuoteContext = sQuoteContext oldState setState oldState { sQuoteContext = context } result <- parser newState <- getState setState newState { sQuoteContext = oldQuoteContext } return result instance HasLogMessages LaTeXState where addLogMessage msg st = st{ sLogMessages = msg : sLogMessages st } getLogMessages st = reverse $ sLogMessages st instance HasIdentifierList LaTeXState where extractIdentifierList = sIdentifiers updateIdentifierList f st = st{ sIdentifiers = f $ sIdentifiers st } instance HasIncludeFiles LaTeXState where getIncludeFiles = sContainers addIncludeFile f s = s{ sContainers = f : sContainers s } dropLatestIncludeFile s = s { sContainers = drop 1 $ sContainers s } instance HasHeaderMap LaTeXState where extractHeaderMap = sHeaders updateHeaderMap f st = st{ sHeaders = f $ sHeaders st } instance HasMacros LaTeXState where extractMacros st = sMacros st updateMacros f st = st{ sMacros = f (sMacros st) } instance HasReaderOptions LaTeXState where extractReaderOptions = sOptions instance HasMeta LaTeXState where setMeta field val st = st{ sMeta = setMeta field val $ sMeta st } deleteMeta field st = st{ sMeta = deleteMeta field $ sMeta st } instance Default LaTeXState where def = defaultLaTeXState type LP m = ParserT [Tok] LaTeXState m withVerbatimMode :: PandocMonad m => LP m a -> LP m a withVerbatimMode parser = do updateState $ \st -> st{ sVerbatimMode = True } result <- parser updateState $ \st -> st{ sVerbatimMode = False } return result rawLaTeXBlock :: (PandocMonad m, HasMacros s, HasReaderOptions s) => ParserT String s m String rawLaTeXBlock = do lookAhead (try (char '\\' >> letter)) inp <- getInput let toks = tokenize $ T.pack inp let rawblock = do (_, raw) <- try $ withRaw (environment <|> macroDef <|> blockCommand) return raw pstate <- getState let lstate = def{ sOptions = extractReaderOptions pstate } res <- runParserT rawblock lstate "source" toks case res of Left _ -> mzero Right raw -> takeP (T.length (untokenize raw)) macro :: (PandocMonad m, HasMacros s, HasReaderOptions s) => ParserT String s m Blocks macro = do guardEnabled Ext_latex_macros lookAhead (char '\\' *> oneOfStrings ["new", "renew", "provide"] *> oneOfStrings ["command", "environment"]) inp <- getInput let toks = tokenize $ T.pack inp let rawblock = do (_, raw) <- withRaw $ try macroDef st <- getState return (raw, st) pstate <- getState let lstate = def{ sOptions = extractReaderOptions pstate , sMacros = extractMacros pstate } res <- runParserT rawblock lstate "source" toks case res of Left _ -> mzero Right (raw, st) -> do updateState (updateMacros (const $ sMacros st)) mempty <$ takeP (T.length (untokenize raw)) applyMacros :: (PandocMonad m, HasMacros s, HasReaderOptions s) => String -> ParserT String s m String applyMacros s = do (guardEnabled Ext_latex_macros >> do let retokenize = doMacros 0 *> (toksToString <$> getInput) pstate <- getState let lstate = def{ sOptions = extractReaderOptions pstate , sMacros = extractMacros pstate } res <- runParserT retokenize lstate "math" (tokenize (T.pack s)) case res of Left e -> fail (show e) Right s' -> return s') <|> return s rawLaTeXInline :: (PandocMonad m, HasMacros s, HasReaderOptions s) => ParserT String s m String rawLaTeXInline = do lookAhead (try (char '\\' >> letter) <|> char '$') inp <- getInput let toks = tokenize $ T.pack inp let rawinline = do (_, raw) <- try $ withRaw (inlineEnvironment <|> inlineCommand') st <- getState return (raw, st) pstate <- getState let lstate = def{ sOptions = extractReaderOptions pstate , sMacros = extractMacros pstate } res <- runParserT rawinline lstate "source" toks case res of Left _ -> mzero Right (raw, s) -> do updateState $ updateMacros (const $ sMacros s) takeP (T.length (untokenize raw)) inlineCommand :: PandocMonad m => ParserT String ParserState m Inlines inlineCommand = do lookAhead (try (char '\\' >> letter) <|> char '$') inp <- getInput let toks = tokenize $ T.pack inp let rawinline = do (il, raw) <- try $ withRaw (inlineEnvironment <|> inlineCommand') st <- getState return (il, raw, st) pstate <- getState let lstate = def{ sOptions = extractReaderOptions pstate , sMacros = extractMacros pstate } res <- runParserT rawinline lstate "source" toks case res of Left _ -> mzero Right (il, raw, s) -> do updateState $ updateMacros (const $ sMacros s) takeP (T.length (untokenize raw)) return il tokenize :: Text -> [Tok] tokenize = totoks (1, 1) totoks :: (Line, Column) -> Text -> [Tok] totoks (lin,col) t = case T.uncons t of Nothing -> [] Just (c, rest) | c == '\n' -> Tok (lin, col) Newline "\n" : totoks (lin + 1,1) rest | isSpaceOrTab c -> let (sps, rest') = T.span isSpaceOrTab t in Tok (lin, col) Spaces sps : totoks (lin, col + T.length sps) rest' | isAlphaNum c -> let (ws, rest') = T.span isAlphaNum t in Tok (lin, col) Word ws : totoks (lin, col + T.length ws) rest' | c == '%' -> let (cs, rest') = T.break (== '\n') rest in Tok (lin, col) Comment ("%" <> cs) : totoks (lin, col + 1 + T.length cs) rest' | c == '\\' -> case T.uncons rest of Nothing -> [Tok (lin, col) Symbol (T.singleton c)] Just (d, rest') | isLetter d -> let (ws, rest'') = T.span isLetter rest (ss, rest''') = T.span isSpaceOrTab rest'' in Tok (lin, col) (CtrlSeq ws) ("\\" <> ws <> ss) : totoks (lin, col + 1 + T.length ws + T.length ss) rest''' | d == '\t' || d == '\n' -> Tok (lin, col) Symbol ("\\") : totoks (lin, col + 1) rest | otherwise -> Tok (lin, col) (CtrlSeq (T.singleton d)) (T.pack [c,d]) : totoks (lin, col + 2) rest' | c == '#' -> let (t1, t2) = T.span (\d -> d >= '0' && d <= '9') rest in case safeRead (T.unpack t1) of Just i -> Tok (lin, col) (Arg i) ("#" <> t1) : totoks (lin, col + 1 + T.length t1) t2 Nothing -> Tok (lin, col) Symbol ("#") : totoks (lin, col + 1) t2 | c == '^' -> case T.uncons rest of Just ('^', rest') -> case T.uncons rest' of Just (d, rest'') | isLowerHex d -> case T.uncons rest'' of Just (e, rest''') | isLowerHex e -> Tok (lin, col) Esc2 (T.pack ['^','^',d,e]) : totoks (lin, col + 4) rest''' _ -> Tok (lin, col) Esc1 (T.pack ['^','^',d]) : totoks (lin, col + 3) rest'' | d < '\128' -> Tok (lin, col) Esc1 (T.pack ['^','^',d]) : totoks (lin, col + 3) rest'' _ -> [Tok (lin, col) Symbol ("^"), Tok (lin, col + 1) Symbol ("^")] _ -> Tok (lin, col) Symbol ("^") : totoks (lin, col + 1) rest | otherwise -> Tok (lin, col) Symbol (T.singleton c) : totoks (lin, col + 1) rest where isSpaceOrTab ' ' = True isSpaceOrTab '\t' = True isSpaceOrTab _ = False isLowerHex :: Char -> Bool isLowerHex x = x >= '0' && x <= '9' || x >= 'a' && x <= 'f' untokenize :: [Tok] -> Text untokenize = mconcat . map untoken untoken :: Tok -> Text untoken (Tok _ _ t) = t satisfyTok :: PandocMonad m => (Tok -> Bool) -> LP m Tok satisfyTok f = try $ do res <- tokenPrim (T.unpack . untoken) updatePos matcher doMacros 0 -- apply macros on remaining input stream return res where matcher t | f t = Just t | otherwise = Nothing updatePos :: SourcePos -> Tok -> [Tok] -> SourcePos updatePos spos _ (Tok (lin,col) _ _ : _) = setSourceColumn (setSourceLine spos lin) col updatePos spos _ [] = spos doMacros :: PandocMonad m => Int -> LP m () doMacros n = do verbatimMode <- sVerbatimMode <$> getState when (not verbatimMode) $ do inp <- getInput case inp of Tok spos (CtrlSeq "begin") _ : Tok _ Symbol "{" : Tok _ Word name : Tok _ Symbol "}" : ts -> handleMacros spos name ts Tok spos (CtrlSeq "end") _ : Tok _ Symbol "{" : Tok _ Word name : Tok _ Symbol "}" : ts -> handleMacros spos ("end" <> name) ts Tok spos (CtrlSeq name) _ : ts -> handleMacros spos name ts _ -> return () where handleMacros spos name ts = do macros <- sMacros <$> getState case M.lookup name macros of Nothing -> return () Just (Macro numargs optarg newtoks) -> do setInput ts let getarg = spaces >> braced args <- case optarg of Nothing -> count numargs getarg Just o -> (:) <$> option o bracketedToks <*> count (numargs - 1) getarg let addTok (Tok _ (Arg i) _) acc | i > 0 , i <= numargs = map (setpos spos) (args !! (i - 1)) ++ acc addTok t acc = setpos spos t : acc ts' <- getInput setInput $ foldr addTok ts' newtoks if n > 20 -- detect macro expansion loops then throwError $ PandocMacroLoop (T.unpack name) else doMacros (n + 1) setpos :: (Line, Column) -> Tok -> Tok setpos spos (Tok _ tt txt) = Tok spos tt txt anyControlSeq :: PandocMonad m => LP m Tok anyControlSeq = satisfyTok isCtrlSeq where isCtrlSeq (Tok _ (CtrlSeq _) _) = True isCtrlSeq _ = False anySymbol :: PandocMonad m => LP m Tok anySymbol = satisfyTok isSym where isSym (Tok _ Symbol _) = True isSym _ = False spaces :: PandocMonad m => LP m () spaces = skipMany (satisfyTok (tokTypeIn [Comment, Spaces, Newline])) spaces1 :: PandocMonad m => LP m () spaces1 = skipMany1 (satisfyTok (tokTypeIn [Comment, Spaces, Newline])) tokTypeIn :: [TokType] -> Tok -> Bool tokTypeIn toktypes (Tok _ tt _) = tt `elem` toktypes controlSeq :: PandocMonad m => Text -> LP m Tok controlSeq name = satisfyTok isNamed where isNamed (Tok _ (CtrlSeq n) _) = n == name isNamed _ = False symbol :: PandocMonad m => Char -> LP m Tok symbol c = satisfyTok isc where isc (Tok _ Symbol d) = case T.uncons d of Just (c',_) -> c == c' _ -> False isc _ = False symbolIn :: PandocMonad m => [Char] -> LP m Tok symbolIn cs = satisfyTok isInCs where isInCs (Tok _ Symbol d) = case T.uncons d of Just (c,_) -> c `elem` cs _ -> False isInCs _ = False sp :: PandocMonad m => LP m () sp = whitespace <|> endline whitespace :: PandocMonad m => LP m () whitespace = () <$ satisfyTok isSpaceTok where isSpaceTok (Tok _ Spaces _) = True isSpaceTok _ = False newlineTok :: PandocMonad m => LP m () newlineTok = () <$ satisfyTok isNewlineTok isNewlineTok :: Tok -> Bool isNewlineTok (Tok _ Newline _) = True isNewlineTok _ = False comment :: PandocMonad m => LP m () comment = () <$ satisfyTok isCommentTok where isCommentTok (Tok _ Comment _) = True isCommentTok _ = False anyTok :: PandocMonad m => LP m Tok anyTok = satisfyTok (const True) endline :: PandocMonad m => LP m () endline = try $ do newlineTok lookAhead anyTok notFollowedBy blankline blankline :: PandocMonad m => LP m () blankline = try $ skipMany whitespace *> newlineTok primEscape :: PandocMonad m => LP m Char primEscape = do Tok _ toktype t <- satisfyTok (tokTypeIn [Esc1, Esc2]) case toktype of Esc1 -> case T.uncons (T.drop 2 t) of Just (c, _) | c >= '\64' && c <= '\127' -> return (chr (ord c - 64)) | otherwise -> return (chr (ord c + 64)) Nothing -> fail "Empty content of Esc1" Esc2 -> case safeRead ('0':'x':T.unpack (T.drop 2 t)) of Just x -> return (chr x) Nothing -> fail $ "Could not read: " ++ T.unpack t _ -> fail "Expected an Esc1 or Esc2 token" -- should not happen bgroup :: PandocMonad m => LP m Tok bgroup = try $ do skipMany sp symbol '{' <|> controlSeq "bgroup" <|> controlSeq "begingroup" egroup :: PandocMonad m => LP m Tok egroup = (symbol '}' <|> controlSeq "egroup" <|> controlSeq "endgroup") grouped :: (PandocMonad m, Monoid a) => LP m a -> LP m a grouped parser = try $ do bgroup -- first we check for an inner 'grouped', because -- {{a,b}} should be parsed the same as {a,b} try (grouped parser <* egroup) <|> (mconcat <$> manyTill parser egroup) braced :: PandocMonad m => LP m [Tok] braced = bgroup *> braced' 1 where braced' (n :: Int) = handleEgroup n <|> handleBgroup n <|> handleOther n handleEgroup n = do t <- egroup if n == 1 then return [] else (t:) <$> braced' (n - 1) handleBgroup n = do t <- bgroup (t:) <$> braced' (n + 1) handleOther n = do t <- anyTok (t:) <$> braced' n bracketed :: PandocMonad m => Monoid a => LP m a -> LP m a bracketed parser = try $ do symbol '[' mconcat <$> manyTill parser (symbol ']') dimenarg :: PandocMonad m => LP m Text dimenarg = try $ do ch <- option False $ True <$ symbol '=' Tok _ _ s <- satisfyTok isWordTok guard $ (T.take 2 (T.reverse s)) `elem` ["pt","pc","in","bp","cm","mm","dd","cc","sp"] let num = T.take (T.length s - 2) s guard $ T.length num > 0 guard $ T.all isDigit num return $ T.pack ['=' | ch] <> s -- inline elements: word :: PandocMonad m => LP m Inlines word = (str . T.unpack . untoken) <$> satisfyTok isWordTok regularSymbol :: PandocMonad m => LP m Inlines regularSymbol = (str . T.unpack . untoken) <$> satisfyTok isRegularSymbol where isRegularSymbol (Tok _ Symbol t) = not $ T.any isSpecial t isRegularSymbol _ = False isSpecial c = c `Set.member` specialChars specialChars :: Set.Set Char specialChars = Set.fromList "#$%&~_^\\{}" isWordTok :: Tok -> Bool isWordTok (Tok _ Word _) = True isWordTok _ = False inlineGroup :: PandocMonad m => LP m Inlines inlineGroup = do ils <- grouped inline if isNull 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"],[]) . T.unpack . untokenize) <$> manyTill (satisfyTok (not . isNewlineTok)) (symbol '|') mkImage :: PandocMonad m => [(String, String)] -> String -> LP m Inlines mkImage options 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" case takeExtension src of "" -> do defaultExt <- getOption readerDefaultImageExtension return $ imageWith attr (addExtension src defaultExt) "" alt _ -> return $ imageWith attr src "" alt doxspace :: PandocMonad m => LP m Inlines doxspace = do (space <$ lookAhead (satisfyTok startsWithLetter)) <|> return mempty where startsWithLetter (Tok _ Word t) = case T.uncons t of Just (c, _) | isLetter c -> True _ -> False startsWithLetter _ = False -- converts e.g. \SI{1}[\$]{} to "$ 1" or \SI{1}{\euro} to "1 €" dosiunitx :: PandocMonad m => LP m Inlines dosiunitx = do skipopts value <- tok valueprefix <- option "" $ bracketed tok unit <- tok let emptyOr160 "" = "" emptyOr160 _ = "\160" return . mconcat $ [valueprefix, emptyOr160 valueprefix, value, emptyOr160 unit, unit] lit :: String -> LP m Inlines lit = pure . str removeDoubleQuotes :: Text -> Text removeDoubleQuotes t = maybe t id $ T.stripPrefix "\"" t >>= T.stripSuffix "\"" doubleQuote :: PandocMonad m => LP m Inlines doubleQuote = do 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 '\'']) <|> quoted' doubleQuoted ((:[]) <$> symbol '"') (void $ symbol '"') singleQuote :: PandocMonad m => LP m Inlines singleQuote = do 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 <- (T.unpack . untokenize) <$> starter smart <- extensionEnabled Ext_smart <$> getOption readerExtensions if smart then do ils <- many (notFollowedBy ender >> inline) (ender >> return (f (mconcat ils))) <|> (<> mconcat ils) <$> lit (case startchs of "``" -> "“" "`" -> "‘" cs -> cs) else lit startchs enquote :: PandocMonad m => LP m Inlines enquote = do skipopts quoteContext <- sQuoteContext <$> getState if quoteContext == InDoubleQuote then singleQuoted <$> withQuoteContext InSingleQuote tok else doubleQuoted <$> withQuoteContext InDoubleQuote tok 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 . T.unpack . untokenize) <$> manyTill (verbTok marker) (symbol marker) verbTok :: PandocMonad m => Char -> LP m Tok verbTok stopchar = do t@(Tok (lin, col) toktype txt) <- satisfyTok (not . isNewlineTok) case T.findIndex (== stopchar) txt of Nothing -> return t Just i -> do let (t1, t2) = T.splitAt i txt inp <- getInput setInput $ Tok (lin, col + i) Symbol (T.singleton stopchar) : (totoks (lin, col + i + 1) (T.drop 1 t2)) ++ inp return $ Tok (lin, col) toktype t1 dolstinline :: PandocMonad m => LP m Inlines dolstinline = do options <- option [] keyvals let classes = maybeToList $ lookup "language" options >>= fromListingsLanguage 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.unpack . untokenize) <$> manyTill (verbTok stopchar) (symbol stopchar) keyval :: PandocMonad m => LP m (String, String) keyval = try $ do Tok _ Word key <- satisfyTok isWordTok let isSpecSym (Tok _ Symbol t) = t `elem` [".",":","-","|","\\"] isSpecSym _ = False val <- option [] $ do symbol '=' braced <|> (many1 (satisfyTok isWordTok <|> satisfyTok isSpecSym <|> anyControlSeq)) optional sp optional (symbol ',') optional sp return (T.unpack key, T.unpack . untokenize $ val) keyvals :: PandocMonad m => LP m [(String, String)] keyvals = try $ symbol '[' >> manyTill keyval (symbol ']') accent :: (Char -> String) -> Inlines -> LP m Inlines accent f ils = case toList ils of (Str (x:xs) : ys) -> return $ fromList (Str (f x ++ xs) : ys) [] -> mzero _ -> return ils grave :: Char -> String grave 'A' = "À" grave 'E' = "È" grave 'I' = "Ì" grave 'O' = "Ò" grave 'U' = "Ù" grave 'a' = "à" grave 'e' = "è" grave 'i' = "ì" grave 'o' = "ò" grave 'u' = "ù" grave c = [c] acute :: Char -> String acute 'A' = "Á" acute 'E' = "É" acute 'I' = "Í" acute 'O' = "Ó" acute 'U' = "Ú" acute 'Y' = "Ý" acute 'a' = "á" acute 'e' = "é" acute 'i' = "í" acute 'o' = "ó" acute 'u' = "ú" acute 'y' = "ý" acute 'C' = "Ć" acute 'c' = "ć" acute 'L' = "Ĺ" acute 'l' = "ĺ" acute 'N' = "Ń" acute 'n' = "ń" acute 'R' = "Ŕ" acute 'r' = "ŕ" acute 'S' = "Ś" acute 's' = "ś" acute 'Z' = "Ź" acute 'z' = "ź" acute c = [c] circ :: Char -> String circ 'A' = "Â" circ 'E' = "Ê" circ 'I' = "Î" circ 'O' = "Ô" circ 'U' = "Û" circ 'a' = "â" circ 'e' = "ê" circ 'i' = "î" circ 'o' = "ô" circ 'u' = "û" circ 'C' = "Ĉ" circ 'c' = "ĉ" circ 'G' = "Ĝ" circ 'g' = "ĝ" circ 'H' = "Ĥ" circ 'h' = "ĥ" circ 'J' = "Ĵ" circ 'j' = "ĵ" circ 'S' = "Ŝ" circ 's' = "ŝ" circ 'W' = "Ŵ" circ 'w' = "ŵ" circ 'Y' = "Ŷ" circ 'y' = "ŷ" circ c = [c] tilde :: Char -> String tilde 'A' = "Ã" tilde 'a' = "ã" tilde 'O' = "Õ" tilde 'o' = "õ" tilde 'I' = "Ĩ" tilde 'i' = "ĩ" tilde 'U' = "Ũ" tilde 'u' = "ũ" tilde 'N' = "Ñ" tilde 'n' = "ñ" tilde c = [c] umlaut :: Char -> String umlaut 'A' = "Ä" umlaut 'E' = "Ë" umlaut 'I' = "Ï" umlaut 'O' = "Ö" umlaut 'U' = "Ü" umlaut 'a' = "ä" umlaut 'e' = "ë" umlaut 'i' = "ï" umlaut 'o' = "ö" umlaut 'u' = "ü" umlaut c = [c] hungarumlaut :: Char -> String hungarumlaut 'A' = "A̋" hungarumlaut 'E' = "E̋" hungarumlaut 'I' = "I̋" hungarumlaut 'O' = "Ő" hungarumlaut 'U' = "Ű" hungarumlaut 'Y' = "ӳ" hungarumlaut 'a' = "a̋" hungarumlaut 'e' = "e̋" hungarumlaut 'i' = "i̋" hungarumlaut 'o' = "ő" hungarumlaut 'u' = "ű" hungarumlaut 'y' = "ӳ" hungarumlaut c = [c] dot :: Char -> String dot 'C' = "Ċ" dot 'c' = "ċ" dot 'E' = "Ė" dot 'e' = "ė" dot 'G' = "Ġ" dot 'g' = "ġ" dot 'I' = "İ" dot 'Z' = "Ż" dot 'z' = "ż" dot c = [c] macron :: Char -> String macron 'A' = "Ā" macron 'E' = "Ē" macron 'I' = "Ī" macron 'O' = "Ō" macron 'U' = "Ū" macron 'a' = "ā" macron 'e' = "ē" macron 'i' = "ī" macron 'o' = "ō" macron 'u' = "ū" macron c = [c] cedilla :: Char -> String cedilla 'c' = "ç" cedilla 'C' = "Ç" cedilla 's' = "ş" cedilla 'S' = "Ş" cedilla 't' = "ţ" cedilla 'T' = "Ţ" cedilla 'e' = "ȩ" cedilla 'E' = "Ȩ" cedilla 'h' = "ḩ" cedilla 'H' = "Ḩ" cedilla 'o' = "o̧" cedilla 'O' = "O̧" cedilla c = [c] hacek :: Char -> String hacek 'A' = "Ǎ" hacek 'a' = "ǎ" hacek 'C' = "Č" hacek 'c' = "č" hacek 'D' = "Ď" hacek 'd' = "ď" hacek 'E' = "Ě" hacek 'e' = "ě" hacek 'G' = "Ǧ" hacek 'g' = "ǧ" hacek 'H' = "Ȟ" hacek 'h' = "ȟ" hacek 'I' = "Ǐ" hacek 'i' = "ǐ" hacek 'j' = "ǰ" hacek 'K' = "Ǩ" hacek 'k' = "ǩ" hacek 'L' = "Ľ" hacek 'l' = "ľ" hacek 'N' = "Ň" hacek 'n' = "ň" hacek 'O' = "Ǒ" hacek 'o' = "ǒ" hacek 'R' = "Ř" hacek 'r' = "ř" hacek 'S' = "Š" hacek 's' = "š" hacek 'T' = "Ť" hacek 't' = "ť" hacek 'U' = "Ǔ" hacek 'u' = "ǔ" hacek 'Z' = "Ž" hacek 'z' = "ž" hacek c = [c] breve :: Char -> String breve 'A' = "Ă" breve 'a' = "ă" breve 'E' = "Ĕ" breve 'e' = "ĕ" breve 'G' = "Ğ" breve 'g' = "ğ" breve 'I' = "Ĭ" breve 'i' = "ĭ" breve 'O' = "Ŏ" breve 'o' = "ŏ" breve 'U' = "Ŭ" breve 'u' = "ŭ" breve c = [c] toksToString :: [Tok] -> String toksToString = T.unpack . untokenize mathDisplay :: String -> Inlines mathDisplay = displayMath . trim mathInline :: String -> Inlines mathInline = math . trim dollarsMath :: PandocMonad m => LP m Inlines dollarsMath = do symbol '$' display <- option False (True <$ symbol '$') contents <- trim . toksToString <$> many (notFollowedBy (symbol '$') >> anyTok) if display then do mathDisplay contents <$ try (symbol '$' >> symbol '$') <|> (guard (null contents) >> return (mathInline "")) else mathInline contents <$ (symbol '$') -- 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 String citationLabel = do optional sp toksToString <$> (many1 (satisfyTok isWordTok <|> symbolIn bibtexKeyChar) <* optional sp <* optional (symbol ',') <* optional sp) where bibtexKeyChar = ".:;?!`'()/*@_+=-[]" :: [Char] cites :: PandocMonad m => CitationMode -> Bool -> LP m [Citation] cites mode multi = try $ do cits <- if multi then many1 simpleCiteArgs 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 citation :: PandocMonad m => String -> CitationMode -> Bool -> LP m Inlines citation name mode multi = do (c,raw) <- withRaw $ cites mode multi return $ cite c (rawInline "latex" $ "\\" ++ name ++ (toksToString 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" ++ toksToString 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" star <- option "" ("*" <$ symbol '*' <* optional sp) let name' = name <> star let names = ordNub [name', name] -- check non-starred as fallback let raw = do guard $ isInlineCommand name || not (isBlockCommand name) rawcommand <- getRawCommand (cmd <> star) (guardEnabled Ext_raw_tex >> return (rawInline "latex" rawcommand)) <|> ignore rawcommand lookupListDefault raw names inlineCommands tok :: PandocMonad m => LP m Inlines tok = grouped inline <|> inlineCommand' <|> singleChar where singleChar = try $ do Tok (lin,col) toktype t <- satisfyTok (tokTypeIn [Word, Symbol]) guard $ not $ toktype == Symbol && T.any (`Set.member` specialChars) t if T.length t > 1 then do let (t1, t2) = (T.take 1 t, T.drop 1 t) inp <- getInput setInput $ (Tok (lin, col + 1) toktype t2) : inp return $ str (T.unpack t1) else return $ str (T.unpack t) opt :: PandocMonad m => LP m Inlines opt = bracketed inline rawopt :: PandocMonad m => LP m Text rawopt = do symbol '[' inner <- untokenize <$> manyTill anyTok (symbol ']') optional sp return $ "[" <> inner <> "]" skipopts :: PandocMonad m => LP m () skipopts = skipMany rawopt -- opts in angle brackets are used in beamer rawangle :: PandocMonad m => LP m () rawangle = try $ do symbol '<' () <$ manyTill anyTok (symbol '>') skipangles :: PandocMonad m => LP m () skipangles = skipMany rawangle ignore :: (Monoid a, PandocMonad m) => String -> ParserT s u m a ignore raw = do pos <- getPosition report $ SkippedContent raw pos return mempty withRaw :: PandocMonad m => LP m a -> LP m (a, [Tok]) withRaw parser = do inp <- getInput result <- parser nxt <- option (Tok (0,0) Word "") (lookAhead anyTok) let raw = takeWhile (/= nxt) inp return (result, raw) inBrackets :: Inlines -> Inlines inBrackets x = str "[" <> x <> str "]" unescapeURL :: String -> String unescapeURL ('\\':x:xs) | isEscapable x = x:unescapeURL xs where isEscapable c = c `elem` ("#$%&~_^\\{}" :: String) unescapeURL (x:xs) = x:unescapeURL xs unescapeURL [] = "" mathEnvWith :: PandocMonad m => (Inlines -> a) -> Maybe Text -> Text -> LP m a mathEnvWith f innerEnv name = f . mathDisplay . inner <$> mathEnv name where inner x = case innerEnv of Nothing -> x Just y -> "\\begin{" ++ T.unpack y ++ "}\n" ++ x ++ "\\end{" ++ T.unpack y ++ "}" mathEnv :: PandocMonad m => Text -> LP m String mathEnv name = do skipopts optional blankline res <- manyTill anyTok (end_ name) return $ stripTrailingNewlines $ T.unpack $ 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*") ] inlineCommands :: PandocMonad m => M.Map Text (LP m Inlines) inlineCommands = 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 <$> tok) , ("textsuperscript", extractSpaces superscript <$> tok) , ("textsubscript", extractSpaces subscript <$> tok) , ("textbackslash", lit "\\") , ("backslash", lit "\\") , ("slash", lit "/") , ("textbf", extractSpaces strong <$> tok) , ("textnormal", extractSpaces (spanWith ("",["nodecor"],[])) <$> tok) , ("ldots", lit "…") , ("vdots", lit "\8942") , ("dots", lit "…") , ("mdots", lit "…") , ("sim", lit "~") , ("label", rawInlineOr "label" (inBrackets <$> tok)) , ("ref", rawInlineOr "ref" (inBrackets <$> tok)) , ("textgreek", tok) , ("sep", lit ",") , ("cref", rawInlineOr "cref" (inBrackets <$> tok)) -- from cleveref.sty , ("(", mathInline . toksToString <$> manyTill anyTok (controlSeq ")")) , ("[", mathDisplay . toksToString <$> manyTill anyTok (controlSeq "]")) , ("ensuremath", mathInline . toksToString <$> braced) , ("texorpdfstring", (\_ x -> x) <$> tok <*> tok) , ("P", lit "¶") , ("S", lit "§") , ("$", lit "$") , ("%", lit "%") , ("&", lit "&") , ("#", lit "#") , ("_", lit "_") , ("{", lit "{") , ("}", lit "}") -- old TeX commands , ("em", extractSpaces emph <$> inlines) , ("it", extractSpaces emph <$> inlines) , ("sl", extractSpaces emph <$> inlines) , ("bf", extractSpaces strong <$> inlines) , ("rm", inlines) , ("itshape", extractSpaces emph <$> inlines) , ("slshape", extractSpaces emph <$> inlines) , ("scshape", extractSpaces smallcaps <$> inlines) , ("bfseries", extractSpaces strong <$> inlines) , ("/", 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", try $ tok >>= accent hungarumlaut) , ("`", option (str "`") $ try $ tok >>= accent grave) , ("'", option (str "'") $ try $ tok >>= accent acute) , ("^", option (str "^") $ try $ tok >>= accent circ) , ("~", option (str "~") $ try $ tok >>= accent tilde) , ("\"", option (str "\"") $ try $ tok >>= accent umlaut) , (".", option (str ".") $ try $ tok >>= accent dot) , ("=", option (str "=") $ try $ tok >>= accent macron) , ("c", option (str "c") $ try $ tok >>= accent cedilla) , ("v", option (str "v") $ try $ tok >>= accent hacek) , ("u", option (str "u") $ try $ tok >>= accent breve) , ("i", lit "i") , ("\\", linebreak <$ (do inTableCell <- sInTableCell <$> getState guard $ not inTableCell optional (bracketed inline) 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", note <$> grouped block) , ("footnote", note <$> grouped block) , ("verb", doverb) , ("lstinline", dolstinline) , ("Verb", doverb) , ("url", ((unescapeURL . T.unpack . untokenize) <$> braced) >>= \url -> pure (link url "" (str url))) , ("href", (unescapeURL . toksToString <$> braced <* optional sp) >>= \url -> tok >>= \lab -> pure (link url "" lab)) , ("includegraphics", do options <- option [] keyvals src <- unescapeURL . T.unpack . removeDoubleQuotes . untokenize <$> braced mkImage options src) , ("enquote", enquote) , ("cite", citation "cite" NormalCitation False) , ("Cite", citation "Cite" NormalCitation False) , ("citep", citation "citep" NormalCitation False) , ("citep*", citation "citep*" NormalCitation False) , ("citeal", citation "citeal" NormalCitation False) , ("citealp", citation "citealp" NormalCitation False) , ("citealp*", citation "citealp*" NormalCitation False) , ("autocite", citation "autocite" NormalCitation False) , ("smartcite", citation "smartcite" NormalCitation False) , ("footcite", inNote <$> 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 <$> citation "footcitetexts" NormalCitation True) , ("Autocite", citation "Autocite" NormalCitation False) , ("Smartcite", citation "Smartcite" NormalCitation False) , ("Footcite", citation "Footcite" NormalCitation False) , ("Parencite", citation "Parencite" NormalCitation False) , ("Supercite", citation "Supercite" NormalCitation False) , ("Footcitetext", inNote <$> 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", citation "Footcites" NormalCitation True) , ("Parencites", citation "Parencites" NormalCitation True) , ("Supercites", citation "Supercites" NormalCitation True) , ("Footcitetexts", inNote <$> citation "Footcitetexts" NormalCitation True) , ("citetext", complexNatbibCitation NormalCitation) , ("citeauthor", (try (tok *> optional sp *> controlSeq "citetext") *> complexNatbibCitation AuthorInText) <|> citation "citeauthor" AuthorInText False) , ("nocite", mempty <$ (citation "nocite" NormalCitation False >>= addMeta "nocite")) , ("hypertarget", braced >> tok) -- siuntix , ("SI", dosiunitx) -- hyphenat , ("bshyp", lit "\\\173") , ("fshyp", lit "/\173") , ("dothyp", lit ".\173") , ("colonhyp", lit ":\173") , ("hyp", lit "-") , ("nohyphens", tok) , ("textnhtt", ttfamily) , ("nhttfamily", ttfamily) -- fontawesome , ("faCheck", lit "\10003") , ("faClose", lit "\10007") -- xspace , ("xspace", doxspace) ] 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" <$> getRawCommand name' else fallback getRawCommand :: PandocMonad m => Text -> LP m String getRawCommand txt = do (_, rawargs) <- withRaw ((if txt == "\\write" then () <$ satisfyTok isWordTok -- digits else return ()) *> skipangles *> skipopts *> option "" (try (optional sp *> dimenarg)) *> many braced) return $ T.unpack (txt <> untokenize rawargs) 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 [ "newcommand", "renewcommand" , "newenvironment", "renewenvironment" , "providecommand", "provideenvironment" -- newcommand, etc. should be parsed by macroDef, but we need this -- here so these aren't parsed as inline commands to ignore , "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" ] 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" ] lookupListDefault :: (Show k, 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 <|> 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 . (:[]) <$> primEscape) <|> regularSymbol <|> (do res <- symbolIn "#^'`\"[]" pos <- getPosition let s = T.unpack (untoken res) report $ ParsingUnescaped s pos return $ str s) inlines :: PandocMonad m => LP m Inlines inlines = mconcat <$> many inline -- block elements: begin_ :: PandocMonad m => Text -> LP m () begin_ t = (try $ do controlSeq "begin" spaces txt <- untokenize <$> braced guard (t == txt)) ("\\begin{" ++ T.unpack t ++ "}") end_ :: PandocMonad m => Text -> LP m () end_ t = (try $ do controlSeq "end" spaces txt <- untokenize <$> braced guard $ t == txt) ("\\end{" ++ T.unpack t ++ "}") preamble :: PandocMonad m => LP m Blocks preamble = mempty <$ many preambleBlock where preambleBlock = spaces1 <|> void include <|> void macroDef <|> void blockCommand <|> void braced <|> (notFollowedBy (begin_ "document") >> void anyTok) paragraph :: PandocMonad m => LP m Blocks paragraph = do x <- trimInlines . mconcat <$> many1 inline if x == mempty then return mempty else return $ para x include :: PandocMonad m => LP m Blocks include = do (Tok _ (CtrlSeq name) _) <- controlSeq "include" <|> controlSeq "input" <|> controlSeq "subfile" <|> controlSeq "usepackage" skipMany $ bracketed inline -- skip options fs <- (map trim . splitBy (==',') . T.unpack . untokenize) <$> braced let fs' = if name == "usepackage" then map (maybeAddExtension ".sty") fs else map (maybeAddExtension ".tex") fs dirs <- (splitBy (==':') . fromMaybe ".") <$> lookupEnv "TEXINPUTS" mconcat <$> mapM (insertIncludedFile blocks (tokenize . T.pack) dirs) fs' maybeAddExtension :: String -> FilePath -> FilePath maybeAddExtension ext fp = if null (takeExtension fp) then addExtension fp ext else fp addMeta :: PandocMonad m => ToMetaValue a => String -> 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 = mconcat <$> many1 (notFollowedBy' (controlSeq "and") >> (inline <|> mempty <$ blockCommand)) -- skip e.g. \vspace{10pt} auths <- sepBy oneAuthor (controlSeq "and") egroup addMeta "author" (map trimInlines auths) macroDef :: PandocMonad m => LP m Blocks macroDef = do guardEnabled Ext_latex_macros mempty <$ ((commandDef <|> environmentDef) <* doMacros 0) where commandDef = do (name, macro') <- newcommand updateState $ \s -> s{ sMacros = M.insert name macro' (sMacros s) } environmentDef = do (name, macro1, macro2) <- newenvironment 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}@ newcommand :: PandocMonad m => LP m (Text, Macro) newcommand = do pos <- getPosition Tok _ (CtrlSeq mtype) _ <- controlSeq "newcommand" <|> controlSeq "renewcommand" <|> controlSeq "providecommand" optional $ symbol '*' Tok _ (CtrlSeq name) txt <- withVerbatimMode $ anyControlSeq <|> (symbol '{' *> spaces *> anyControlSeq <* spaces <* symbol '}') spaces numargs <- option 0 $ try bracketedNum spaces optarg <- option Nothing $ Just <$> try bracketedToks spaces contents <- braced when (mtype == "newcommand") $ do macros <- sMacros <$> getState case M.lookup name macros of Just _ -> report $ MacroAlreadyDefined (T.unpack txt) pos Nothing -> return () return (name, Macro numargs optarg contents) newenvironment :: PandocMonad m => LP m (Text, Macro, Macro) newenvironment = do pos <- getPosition Tok _ (CtrlSeq mtype) _ <- controlSeq "newenvironment" <|> controlSeq "renewenvironment" <|> controlSeq "provideenvironment" optional $ symbol '*' spaces name <- untokenize <$> braced spaces numargs <- option 0 $ try bracketedNum spaces optarg <- option Nothing $ Just <$> try bracketedToks spaces startcontents <- braced spaces endcontents <- braced when (mtype == "newenvironment") $ do macros <- sMacros <$> getState case M.lookup name macros of Just _ -> report $ MacroAlreadyDefined (T.unpack name) pos Nothing -> return () return (name, Macro numargs optarg startcontents, Macro 0 Nothing endcontents) bracketedToks :: PandocMonad m => LP m [Tok] bracketedToks = do symbol '[' manyTill anyTok (symbol ']') bracketedNum :: PandocMonad m => LP m Int bracketedNum = do ds <- untokenize <$> bracketedToks case safeRead (T.unpack ds) of Just i -> return i _ -> return 0 setCaption :: PandocMonad m => LP m Blocks setCaption = do ils <- tok mblabel <- option Nothing $ try $ spaces >> controlSeq "label" >> (Just <$> tok) let ils' = case mblabel of Just lab -> ils <> spanWith ("",[],[("data-label", stringify lab)]) mempty Nothing -> ils updateState $ \st -> st{ sCaption = Just ils' } return mempty looseItem :: PandocMonad m => LP m Blocks looseItem = do inListItem <- sInListItem <$> getState guard $ not inListItem skipopts return mempty resetCaption :: PandocMonad m => LP m () resetCaption = updateState $ \st -> st{ sCaption = 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 >> toksToString <$> braced) 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" star <- option "" ("*" <$ symbol '*' <* optional sp) let name' = name <> star let names = ordNub [name', name] let raw = do guard $ isBlockCommand name || not (isInlineCommand name) rawBlock "latex" <$> getRawCommand (txt <> star) 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 blockCommands :: PandocMonad m => M.Map Text (LP m Blocks) blockCommands = M.fromList $ [ ("par", mempty <$ skipopts) , ("parbox", braced >> grouped blocks) , ("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")) -- Koma-script metadata commands , ("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) <$> (skipopts *> tok)) , ("closing", skipopts *> closing) -- , ("hrule", pure horizontalRule) , ("strut", pure mempty) , ("rule", skipopts *> tok *> tok *> pure horizontalRule) , ("item", looseItem) , ("documentclass", skipopts *> braced *> preamble) , ("centerline", (para . trimInlines) <$> (skipopts *> tok)) , ("caption", skipopts *> setCaption) , ("bibliography", mempty <$ (skipopts *> braced >>= addMeta "bibliography" . splitBibs . toksToString)) , ("addbibresource", mempty <$ (skipopts *> braced >>= addMeta "bibliography" . splitBibs . toksToString)) -- includes , ("lstinputlisting", inputListing) , ("graphicspath", graphicsPath) -- hyperlink , ("hypertarget", try $ braced >> grouped block) ] environments :: PandocMonad m => M.Map Text (LP m Blocks) environments = M.fromList [ ("document", env "document" blocks) , ("abstract", mempty <$ (env "abstract" blocks >>= addMeta "abstract")) , ("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", env "center" blocks) , ("longtable", env "longtable" $ resetCaption *> simpTable "longtable" False >>= addTableCaption) , ("table", env "table" $ resetCaption *> skipopts *> 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 ("",["sourceCode","literate","haskell"],[]) <$> verbEnv "code")) , ("comment", mempty <$ verbEnv "comment") , ("verbatim", codeBlock <$> verbEnv "verbatim") , ("Verbatim", fancyverbEnv "Verbatim") , ("BVerbatim", fancyverbEnv "BVerbatim") , ("lstlisting", do attr <- parseListingsOptions <$> option [] keyvals codeBlockWith attr <$> verbEnv "lstlisting") , ("minted", minted) , ("obeylines", obeylines) , ("displaymath", mathEnvWith para Nothing "displaymath") , ("equation", mathEnvWith para Nothing "equation") , ("equation*", mathEnvWith para Nothing "equation*") , ("gather", mathEnvWith para (Just "gathered") "gather") , ("gather*", mathEnvWith para (Just "gathered") "gather*") , ("multline", mathEnvWith para (Just "gathered") "multline") , ("multline*", mathEnvWith para (Just "gathered") "multline*") , ("eqnarray", mathEnvWith para (Just "aligned") "eqnarray") , ("eqnarray*", mathEnvWith para (Just "aligned") "eqnarray*") , ("align", mathEnvWith para (Just "aligned") "align") , ("align*", mathEnvWith para (Just "aligned") "align*") , ("alignat", mathEnvWith para (Just "aligned") "alignat") , ("alignat*", mathEnvWith para (Just "aligned") "alignat*") , ("tikzpicture", rawVerbEnv "tikzpicture") ] environment :: PandocMonad m => LP m Blocks environment = do controlSeq "begin" name <- untokenize <$> braced M.findWithDefault mzero name environments <|> rawEnv name 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" $ T.unpack $ beginCommand <> untokenize raw else do unless parseRaw $ do report $ SkippedContent (T.unpack beginCommand) pos1 pos2 <- getPosition report $ SkippedContent ("\\end{" ++ T.unpack name ++ "}") pos2 return bs rawVerbEnv :: PandocMonad m => Text -> LP m Blocks rawVerbEnv name = do pos <- getPosition (_, raw) <- withRaw $ verbEnv name let raw' = "\\begin{tikzpicture}" ++ toksToString 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 verbEnv :: PandocMonad m => Text -> LP m String verbEnv name = withVerbatimMode $ do skipopts optional blankline res <- manyTill anyTok (end_ name) return $ stripTrailingNewlines $ toksToString res 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 <$> verbEnv name obeylines :: PandocMonad m => LP m Blocks obeylines = do para . fromList . removeLeadingTrailingBreaks . walk softBreakToHard . toList <$> 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 options <- option [] keyvals lang <- toksToString <$> braced let kvs = [ (if k == "firstnumber" then "startFrom" else k, v) | (k,v) <- options ] let classes = [ lang | not (null lang) ] ++ [ "numberLines" | lookup "linenos" options == Just "true" ] let attr = ("",classes,kvs) codeBlockWith attr <$> verbEnv "minted" 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 alt (src,tit)) | not ("fig:" `isPrefixOf` tit) = do mbcapt <- sCaption <$> getState return $ case mbcapt of Just ils -> Image attr (toList ils) (src, "fig:" ++ tit) Nothing -> Image attr alt (src,tit) go x = return x graphicsPath :: PandocMonad m => LP m Blocks graphicsPath = do ps <- map toksToString <$> (bgroup *> manyTill braced egroup) getResourcePath >>= setResourcePath . (++ ps) return mempty splitBibs :: String -> [Inlines] splitBibs = map (str . flip replaceExtension "bib" . trim) . splitBy (==',') alltt :: Blocks -> Blocks alltt = walk strToCode where strToCode (Str s) = Code nullAttr s strToCode Space = RawInline (Format "latex") "\\ " strToCode SoftBreak = LineBreak strToCode x = x parseListingsOptions :: [(String, String)] -> Attr parseListingsOptions options = let kvs = [ (if k == "firstnumber" then "startFrom" else k, v) | (k,v) <- options ] classes = [ "numberLines" | lookup "numbers" options == Just "left" ] ++ maybeToList (lookup "language" options >>= fromListingsLanguage) in (fromMaybe "" (lookup "label" options), classes, kvs) inputListing :: PandocMonad m => LP m Blocks inputListing = do pos <- getPosition options <- option [] keyvals f <- filter (/='"') . toksToString <$> braced dirs <- (splitBy (==':') . fromMaybe ".") <$> lookupEnv "TEXINPUTS" mbCode <- readFileFromDirs dirs f codeLines <- case mbCode of Just s -> return $ lines s Nothing -> do report $ CouldNotLoadIncludeFile f pos return [] let (ident,classes,kvs) = parseListingsOptions options let language = case lookup "language" options >>= fromListingsLanguage of Just l -> [l] Nothing -> take 1 $ languagesByExtension (takeExtension f) let firstline = fromMaybe 1 $ lookup "firstline" options >>= safeRead let lastline = fromMaybe (length codeLines) $ lookup "lastline" options >>= safeRead let codeContents = intercalate "\n" $ take (1 + lastline - firstline) $ drop (firstline - 1) codeLines return $ codeBlockWith (ident,ordNub (classes ++ language),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" optional 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 <- toksToString <$> 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 <- toksToString <$> braced guard $ "enum" `isPrefixOf` ctr guard $ all (`elem` ['i','v']) (drop 4 ctr) optional sp num <- toksToString <$> 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 $ bracketed inline return () lbreak :: PandocMonad m => LP m Tok lbreak = (controlSeq "\\" <|> controlSeq "tabularnewline") <* 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) -> do setInput $ map (Tok spos Symbol . T.singleton) (T.unpack t) ++ rest _ -> return () parseAligns :: PandocMonad m => LP m [(Alignment, Double, ([Tok], [Tok]))] parseAligns = try $ do let maybeBar = skipMany $ 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 . toksToString <$> manyTill anyTok (controlSeq "linewidth") spaces symbol '}' case safeRead ds of Just w -> return w Nothing -> return 0.0 let alignSpec = try $ do spaces pref <- option [] alignPrefix spaces al <- alignChar width <- colWidth <|> option 0.0 (do s <- toksToString <$> braced pos <- getPosition report $ SkippedContent s pos return 0.0) spaces suff <- option [] alignSuffix return (al, width, (pref, suff)) bgroup spaces maybeBar aligns' <- many (alignSpec <* maybeBar) spaces egroup spaces return aligns' parseTableRow :: PandocMonad m => Text -- ^ table environment name -> [([Tok], [Tok])] -- ^ pref/suffixes -> LP m [Blocks] parseTableRow envname prefsufs = do notFollowedBy (spaces *> end_ envname) let cols = length prefsufs -- add prefixes and suffixes in token stream: let celltoks (pref, suff) = do prefpos <- getPosition contents <- many (notFollowedBy (() <$ amp <|> () <$ lbreak <|> end_ envname) >> anyTok) suffpos <- getPosition option [] (count 1 amp) return $ map (setpos (sourceLine prefpos, sourceColumn prefpos)) pref ++ contents ++ map (setpos (sourceLine suffpos, sourceColumn suffpos)) suff rawcells <- sequence (map celltoks prefsufs) oldInput <- getInput cells <- sequence $ map (\ts -> setInput ts >> parseTableCell) rawcells setInput oldInput spaces let numcells = length cells guard $ numcells <= cols && numcells >= 1 guard $ cells /= [mempty] -- note: a & b in a three-column table leaves an empty 3rd cell: return $ cells ++ replicate (cols - numcells) mempty parseTableCell :: PandocMonad m => LP m Blocks parseTableCell = do let plainify bs = case toList bs of [Para ils] -> plain (fromList ils) _ -> bs updateState $ \st -> st{ sInTableCell = True } cells <- plainify <$> blocks updateState $ \st -> st{ sInTableCell = False } return cells 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 let cols = length colspecs optional $ controlSeq "caption" *> skipopts *> setCaption optional lbreak spaces skipMany hline spaces header' <- option [] $ try (parseTableRow envname prefsufs <* lbreak <* many1 hline) spaces rows <- sepEndBy (parseTableRow envname prefsufs) (lbreak <* optional (skipMany hline)) spaces optional $ controlSeq "caption" *> skipopts *> setCaption optional lbreak spaces let header'' = if null header' then replicate cols mempty else header' lookAhead $ controlSeq "end" -- make sure we're at end return $ table mempty (zip aligns widths) header'' rows addTableCaption :: PandocMonad m => Blocks -> LP m Blocks addTableCaption = walkM go where go (Table c als ws hs rs) = do mbcapt <- sCaption <$> getState return $ case mbcapt of Just ils -> Table (toList ils) als ws hs rs Nothing -> Table c als ws hs rs go x = return x block :: PandocMonad m => LP m Blocks block = (mempty <$ spaces1) <|> environment <|> include <|> macroDef <|> blockCommand <|> paragraph <|> grouped block blocks :: PandocMonad m => LP m Blocks blocks = mconcat <$> many block