{-# LANGUAGE NoImplicitPrelude #-} {-# LANGUAGE OverloadedStrings #-} {- | Module : Text.Pandoc.Readers.Org.Inlines Copyright : Copyright (C) 2014-2020 Albert Krewinkel License : GNU GPL, version 2 or above Maintainer : Albert Krewinkel Parsers for Org-mode inline elements. -} module Text.Pandoc.Readers.Org.Inlines ( inline , inlines , addToNotesTable , linkTarget ) where import Prelude import Text.Pandoc.Readers.Org.BlockStarts (endOfBlock, noteMarker) import Text.Pandoc.Readers.Org.ParserState import Text.Pandoc.Readers.Org.Parsing import Text.Pandoc.Readers.Org.Shared (cleanLinkText, isImageFilename, originalLang, translateLang, exportsCode) import Text.Pandoc.Builder (Inlines) import qualified Text.Pandoc.Builder as B import Text.Pandoc.Class (PandocMonad) import Text.Pandoc.Definition import Text.Pandoc.Options import Text.Pandoc.Readers.LaTeX (inlineCommand, rawLaTeXInline) import Text.Pandoc.Shared (underlineSpan) import Text.TeXMath (DisplayType (..), readTeX, writePandoc) import qualified Text.TeXMath.Readers.MathML.EntityMap as MathMLEntityMap import Control.Monad (guard, mplus, mzero, unless, void, when) import Control.Monad.Trans (lift) import Data.Char (isAlphaNum, isSpace) import Data.List (intersperse) import qualified Data.Map as M import Data.Text (Text) import qualified Data.Text as T -- -- Functions acting on the parser state -- recordAnchorId :: PandocMonad m => Text -> OrgParser m () recordAnchorId i = updateState $ \s -> s{ orgStateAnchorIds = i : orgStateAnchorIds s } pushToInlineCharStack :: PandocMonad m => Char -> OrgParser m () pushToInlineCharStack c = updateState $ \s -> s{ orgStateEmphasisCharStack = c:orgStateEmphasisCharStack s } popInlineCharStack :: PandocMonad m => OrgParser m () popInlineCharStack = updateState $ \s -> s{ orgStateEmphasisCharStack = drop 1 . orgStateEmphasisCharStack $ s } surroundingEmphasisChar :: PandocMonad m => OrgParser m [Char] surroundingEmphasisChar = take 1 . drop 1 . orgStateEmphasisCharStack <$> getState startEmphasisNewlinesCounting :: PandocMonad m => Int -> OrgParser m () startEmphasisNewlinesCounting maxNewlines = updateState $ \s -> s{ orgStateEmphasisNewlines = Just maxNewlines } decEmphasisNewlinesCount :: PandocMonad m => OrgParser m () decEmphasisNewlinesCount = updateState $ \s -> s{ orgStateEmphasisNewlines = (\n -> n - 1) <$> orgStateEmphasisNewlines s } newlinesCountWithinLimits :: PandocMonad m => OrgParser m Bool newlinesCountWithinLimits = do st <- getState return $ ((< 0) <$> orgStateEmphasisNewlines st) /= Just True resetEmphasisNewlines :: PandocMonad m => OrgParser m () resetEmphasisNewlines = updateState $ \s -> s{ orgStateEmphasisNewlines = Nothing } addToNotesTable :: PandocMonad m => OrgNoteRecord -> OrgParser m () addToNotesTable note = do oldnotes <- orgStateNotes' <$> getState updateState $ \s -> s{ orgStateNotes' = note:oldnotes } -- | Parse a single Org-mode inline element inline :: PandocMonad m => OrgParser m (F Inlines) inline = choice [ whitespace , linebreak , cite , footnote , linkOrImage , anchor , inlineCodeBlock , str , endline , emphasizedText , code , math , displayMath , verbatim , subscript , superscript , inlineLaTeX , exportSnippet , macro , smart , symbol ] <* (guard =<< newlinesCountWithinLimits) "inline" -- | Read the rest of the input as inlines. inlines :: PandocMonad m => OrgParser m (F Inlines) inlines = trimInlinesF . mconcat <$> many1 inline -- treat these as potentially non-text when parsing inline: specialChars :: [Char] specialChars = "\"$'()*+-,./:;<=>@[\\]^_{|}~" whitespace :: PandocMonad m => OrgParser m (F Inlines) whitespace = pure B.space <$ skipMany1 spaceChar <* updateLastPreCharPos <* updateLastForbiddenCharPos "whitespace" linebreak :: PandocMonad m => OrgParser m (F Inlines) linebreak = try $ pure B.linebreak <$ string "\\\\" <* skipSpaces <* newline str :: PandocMonad m => OrgParser m (F Inlines) str = return . B.str <$> many1Char (noneOf $ specialChars ++ "\n\r ") <* updateLastStrPos -- | An endline character that can be treated as a space, not a structural -- break. This should reflect the values of the Emacs variable -- @org-element-pagaraph-separate@. endline :: PandocMonad m => OrgParser m (F Inlines) endline = try $ do newline notFollowedBy' endOfBlock decEmphasisNewlinesCount guard =<< newlinesCountWithinLimits updateLastPreCharPos useHardBreaks <- exportPreserveBreaks . orgStateExportSettings <$> getState returnF (if useHardBreaks then B.linebreak else B.softbreak) -- -- Citations -- -- The state of citations is a bit confusing due to the lack of an official -- syntax and multiple syntaxes coexisting. The pandocOrgCite syntax was the -- first to be implemented here and is almost identical to Markdown's citation -- syntax. The org-ref package is in wide use to handle citations, but the -- syntax is a bit limiting and not quite as simple to write. The -- semi-official Org-mode citation syntax is based on John MacFarlane's Pandoc -- sytax and Org-oriented enhancements contributed by Richard Lawrence and -- others. It's dubbed Berkeley syntax due the place of activity of its main -- contributors. All this should be consolidated once an official Org-mode -- citation syntax has emerged. cite :: PandocMonad m => OrgParser m (F Inlines) cite = try $ berkeleyCite <|> do guardEnabled Ext_citations (cs, raw) <- withRaw $ choice [ pandocOrgCite , orgRefCite , berkeleyTextualCite ] return $ flip B.cite (B.text raw) <$> cs -- | A citation in Pandoc Org-mode style (@[prefix \@citekey suffix]@). pandocOrgCite :: PandocMonad m => OrgParser m (F [Citation]) pandocOrgCite = try $ char '[' *> skipSpaces *> citeList <* skipSpaces <* char ']' orgRefCite :: PandocMonad m => OrgParser m (F [Citation]) orgRefCite = try $ choice [ normalOrgRefCite , fmap (:[]) <$> linkLikeOrgRefCite ] normalOrgRefCite :: PandocMonad m => OrgParser m (F [Citation]) normalOrgRefCite = try $ do mode <- orgRefCiteMode firstCitation <- orgRefCiteList mode moreCitations <- many (try $ char ',' *> orgRefCiteList mode) return . sequence $ firstCitation : moreCitations where -- | A list of org-ref style citation keys, parsed as citation of the given -- citation mode. orgRefCiteList :: PandocMonad m => CitationMode -> OrgParser m (F Citation) orgRefCiteList citeMode = try $ do key <- orgRefCiteKey returnF Citation { citationId = key , citationPrefix = mempty , citationSuffix = mempty , citationMode = citeMode , citationNoteNum = 0 , citationHash = 0 } -- | Read an Berkeley-style Org-mode citation. Berkeley citation style was -- develop and adjusted to Org-mode style by John MacFarlane and Richard -- Lawrence, respectively, both philosophers at UC Berkeley. berkeleyCite :: PandocMonad m => OrgParser m (F Inlines) berkeleyCite = try $ do bcl <- berkeleyCitationList return $ do parens <- berkeleyCiteParens <$> bcl prefix <- berkeleyCiteCommonPrefix <$> bcl suffix <- berkeleyCiteCommonSuffix <$> bcl citationList <- berkeleyCiteCitations <$> bcl return $ if parens then toCite . maybe id (alterFirst . prependPrefix) prefix . maybe id (alterLast . appendSuffix) suffix $ citationList else maybe mempty (<> " ") prefix <> toListOfCites (map toInTextMode citationList) <> maybe mempty (", " <>) suffix where toCite :: [Citation] -> Inlines toCite cs = B.cite cs mempty toListOfCites :: [Citation] -> Inlines toListOfCites = mconcat . intersperse ", " . map (\c -> B.cite [c] mempty) toInTextMode :: Citation -> Citation toInTextMode c = c { citationMode = AuthorInText } alterFirst, alterLast :: (a -> a) -> [a] -> [a] alterFirst _ [] = [] alterFirst f (c:cs) = f c : cs alterLast f = reverse . alterFirst f . reverse prependPrefix, appendSuffix :: Inlines -> Citation -> Citation prependPrefix pre c = c { citationPrefix = B.toList pre <> citationPrefix c } appendSuffix suf c = c { citationSuffix = citationSuffix c <> B.toList suf } data BerkeleyCitationList = BerkeleyCitationList { berkeleyCiteParens :: Bool , berkeleyCiteCommonPrefix :: Maybe Inlines , berkeleyCiteCommonSuffix :: Maybe Inlines , berkeleyCiteCitations :: [Citation] } berkeleyCitationList :: PandocMonad m => OrgParser m (F BerkeleyCitationList) berkeleyCitationList = try $ do char '[' parens <- choice [ False <$ berkeleyBareTag, True <$ berkeleyParensTag ] char ':' skipSpaces commonPrefix <- optionMaybe (try $ citationListPart <* char ';') citations <- citeList commonSuffix <- optionMaybe (try citationListPart) char ']' return (BerkeleyCitationList parens <$> sequence commonPrefix <*> sequence commonSuffix <*> citations) where citationListPart :: PandocMonad m => OrgParser m (F Inlines) citationListPart = fmap (trimInlinesF . mconcat) . try . many1 $ do notFollowedBy' citeKey notFollowedBy (oneOf ";]") inline berkeleyBareTag :: PandocMonad m => OrgParser m () berkeleyBareTag = try $ void berkeleyBareTag' berkeleyParensTag :: PandocMonad m => OrgParser m () berkeleyParensTag = try . void $ enclosedByPair1 '(' ')' berkeleyBareTag' berkeleyBareTag' :: PandocMonad m => OrgParser m () berkeleyBareTag' = try $ void (string "cite") berkeleyTextualCite :: PandocMonad m => OrgParser m (F [Citation]) berkeleyTextualCite = try $ do (suppressAuthor, key) <- citeKey returnF . return $ Citation { citationId = key , citationPrefix = mempty , citationSuffix = mempty , citationMode = if suppressAuthor then SuppressAuthor else AuthorInText , citationNoteNum = 0 , citationHash = 0 } -- The following is what a Berkeley-style bracketed textual citation parser -- would look like. However, as these citations are a subset of Pandoc's Org -- citation style, this isn't used. -- berkeleyBracketedTextualCite :: PandocMonad m => OrgParser m (F [Citation]) -- berkeleyBracketedTextualCite = try . (fmap head) $ -- enclosedByPair1 '[' ']' berkeleyTextualCite -- | Read a link-like org-ref style citation. The citation includes pre and -- post text. However, multiple citations are not possible due to limitations -- in the syntax. linkLikeOrgRefCite :: PandocMonad m => OrgParser m (F Citation) linkLikeOrgRefCite = try $ do _ <- string "[[" mode <- orgRefCiteMode key <- orgRefCiteKey _ <- string "][" pre <- trimInlinesF . mconcat <$> manyTill inline (try $ string "::") spc <- option False (True <$ spaceChar) suf <- trimInlinesF . mconcat <$> manyTill inline (try $ string "]]") return $ do pre' <- pre suf' <- suf return Citation { citationId = key , citationPrefix = B.toList pre' , citationSuffix = B.toList (if spc then B.space <> suf' else suf') , citationMode = mode , citationNoteNum = 0 , citationHash = 0 } -- | Read a citation key. The characters allowed in citation keys are taken -- from the `org-ref-cite-re` variable in `org-ref.el`. orgRefCiteKey :: PandocMonad m => OrgParser m Text orgRefCiteKey = let citeKeySpecialChars = "-_:\\./," :: String isCiteKeySpecialChar c = c `elem` citeKeySpecialChars isCiteKeyChar c = isAlphaNum c || isCiteKeySpecialChar c endOfCitation = try $ do many $ satisfy isCiteKeySpecialChar satisfy $ not . isCiteKeyChar in try $ satisfy isCiteKeyChar `many1TillChar` lookAhead endOfCitation -- | Supported citation types. Only a small subset of org-ref types is -- supported for now. TODO: rewrite this, use LaTeX reader as template. orgRefCiteMode :: PandocMonad m => OrgParser m CitationMode orgRefCiteMode = choice $ map (\(s, mode) -> mode <$ try (string s <* char ':')) [ ("cite", AuthorInText) , ("citep", NormalCitation) , ("citep*", NormalCitation) , ("citet", AuthorInText) , ("citet*", AuthorInText) , ("citeyear", SuppressAuthor) ] citeList :: PandocMonad m => OrgParser m (F [Citation]) citeList = sequence <$> sepEndBy1 citation (try $ char ';' *> skipSpaces) citation :: PandocMonad m => OrgParser m (F Citation) citation = try $ do pref <- prefix (suppress_author, key) <- citeKey suff <- suffix return $ do x <- pref y <- suff return Citation { citationId = key , citationPrefix = B.toList x , citationSuffix = B.toList y , citationMode = if suppress_author then SuppressAuthor else NormalCitation , citationNoteNum = 0 , citationHash = 0 } where prefix = trimInlinesF . mconcat <$> manyTill inline (char ']' <|> (']' <$ lookAhead citeKey)) suffix = try $ do hasSpace <- option False (notFollowedBy nonspaceChar >> return True) skipSpaces rest <- trimInlinesF . mconcat <$> many (notFollowedBy (oneOf ";]") *> inline) return $ if hasSpace then (B.space <>) <$> rest else rest footnote :: PandocMonad m => OrgParser m (F Inlines) footnote = try $ inlineNote <|> referencedNote inlineNote :: PandocMonad m => OrgParser m (F Inlines) inlineNote = try $ do string "[fn:" ref <- manyChar alphaNum char ':' note <- fmap B.para . trimInlinesF . mconcat <$> many1Till inline (char ']') unless (T.null ref) $ addToNotesTable ("fn:" <> ref, note) return $ B.note <$> note referencedNote :: PandocMonad m => OrgParser m (F Inlines) referencedNote = try $ do ref <- noteMarker return $ do notes <- asksF orgStateNotes' case lookup ref notes of Nothing -> return . B.str $ "[" <> ref <> "]" Just contents -> do st <- askF let contents' = runF contents st{ orgStateNotes' = [] } return $ B.note contents' linkOrImage :: PandocMonad m => OrgParser m (F Inlines) linkOrImage = explicitOrImageLink <|> selflinkOrImage <|> angleLink <|> plainLink "link or image" explicitOrImageLink :: PandocMonad m => OrgParser m (F Inlines) explicitOrImageLink = try $ do char '[' srcF <- applyCustomLinkFormat =<< possiblyEmptyLinkTarget descr <- enclosedRaw (char '[') (char ']') titleF <- parseFromString (mconcat <$> many inline) descr char ']' return $ do src <- srcF title <- titleF case cleanLinkText descr of Just imgSrc | isImageFilename imgSrc -> return . B.link src "" $ B.image imgSrc mempty mempty _ -> linkToInlinesF src title selflinkOrImage :: PandocMonad m => OrgParser m (F Inlines) selflinkOrImage = try $ do target <- char '[' *> linkTarget <* char ']' case cleanLinkText target of Nothing -> case T.uncons target of Just ('#', _) -> returnF $ B.link target "" (B.str target) _ -> return $ internalLink target (B.str target) Just nonDocTgt -> if isImageFilename nonDocTgt then returnF $ B.image nonDocTgt "" "" else returnF $ B.link nonDocTgt "" (B.str target) plainLink :: PandocMonad m => OrgParser m (F Inlines) plainLink = try $ do (orig, src) <- uri returnF $ B.link src "" (B.str orig) angleLink :: PandocMonad m => OrgParser m (F Inlines) angleLink = try $ do char '<' link <- plainLink char '>' return link linkTarget :: PandocMonad m => OrgParser m Text linkTarget = T.pack <$> enclosedByPair1 '[' ']' (noneOf "\n\r[]") possiblyEmptyLinkTarget :: PandocMonad m => OrgParser m Text possiblyEmptyLinkTarget = try linkTarget <|> ("" <$ string "[]") applyCustomLinkFormat :: Text -> OrgParser m (F Text) applyCustomLinkFormat link = do let (linkType, rest) = T.break (== ':') link return $ do formatter <- M.lookup linkType <$> asksF orgStateLinkFormatters return $ maybe link ($ T.drop 1 rest) formatter -- | Take a link and return a function which produces new inlines when given -- description inlines. linkToInlinesF :: Text -> Inlines -> F Inlines linkToInlinesF linkStr = case T.uncons linkStr of Nothing -> pure . B.link mempty "" -- wiki link (empty by convention) Just ('#', _) -> pure . B.link linkStr "" -- document-local fraction _ -> case cleanLinkText linkStr of Just extTgt -> return . B.link extTgt "" Nothing -> internalLink linkStr -- other internal link internalLink :: Text -> Inlines -> F Inlines internalLink link title = do anchorB <- (link `elem`) <$> asksF orgStateAnchorIds if anchorB then return $ B.link ("#" <> link) "" title else return $ B.emph title -- | Parse an anchor like @<>@ and return an empty span with -- @anchor-id@ set as id. Legal anchors in org-mode are defined through -- @org-target-regexp@, which is fairly liberal. Since no link is created if -- @anchor-id@ contains spaces, we are more restrictive in what is accepted as -- an anchor. anchor :: PandocMonad m => OrgParser m (F Inlines) anchor = try $ do anchorId <- parseAnchor recordAnchorId anchorId returnF $ B.spanWith (solidify anchorId, [], []) mempty where parseAnchor = string "<<" *> many1Char (noneOf "\t\n\r<>\"' ") <* string ">>" <* skipSpaces -- | Replace every char but [a-zA-Z0-9_.-:] with a hyphen '-'. This mirrors -- the org function @org-export-solidify-link-text@. solidify :: Text -> Text solidify = T.map replaceSpecialChar where replaceSpecialChar c | isAlphaNum c = c | c `elem` ("_.-:" :: String) = c | otherwise = '-' -- | Parses an inline code block and marks it as an babel block. inlineCodeBlock :: PandocMonad m => OrgParser m (F Inlines) inlineCodeBlock = try $ do string "src_" lang <- many1Char orgArgWordChar opts <- option [] $ enclosedByPair '[' ']' inlineBlockOption inlineCode <- T.pack <$> enclosedByPair1 '{' '}' (noneOf "\n\r") let attrClasses = [translateLang lang] let attrKeyVal = originalLang lang <> opts let codeInlineBlck = B.codeWith ("", attrClasses, attrKeyVal) inlineCode returnF $ if exportsCode opts then codeInlineBlck else mempty where inlineBlockOption :: PandocMonad m => OrgParser m (Text, Text) inlineBlockOption = try $ do argKey <- orgArgKey paramValue <- option "yes" orgInlineParamValue return (argKey, paramValue) orgInlineParamValue :: PandocMonad m => OrgParser m Text orgInlineParamValue = try $ skipSpaces *> notFollowedBy (char ':') *> many1Char (noneOf "\t\n\r ]") <* skipSpaces emphasizedText :: PandocMonad m => OrgParser m (F Inlines) emphasizedText = do state <- getState guard . exportEmphasizedText . orgStateExportSettings $ state try $ choice [ emph , strong , strikeout , underline ] enclosedByPair :: PandocMonad m => Char -- ^ opening char -> Char -- ^ closing char -> OrgParser m a -- ^ parser -> OrgParser m [a] enclosedByPair s e p = char s *> manyTill p (char e) enclosedByPair1 :: PandocMonad m => Char -- ^ opening char -> Char -- ^ closing char -> OrgParser m a -- ^ parser -> OrgParser m [a] enclosedByPair1 s e p = char s *> many1Till p (char e) emph :: PandocMonad m => OrgParser m (F Inlines) emph = fmap B.emph <$> emphasisBetween '/' strong :: PandocMonad m => OrgParser m (F Inlines) strong = fmap B.strong <$> emphasisBetween '*' strikeout :: PandocMonad m => OrgParser m (F Inlines) strikeout = fmap B.strikeout <$> emphasisBetween '+' underline :: PandocMonad m => OrgParser m (F Inlines) underline = fmap underlineSpan <$> emphasisBetween '_' verbatim :: PandocMonad m => OrgParser m (F Inlines) verbatim = return . B.code <$> verbatimBetween '=' code :: PandocMonad m => OrgParser m (F Inlines) code = return . B.code <$> verbatimBetween '~' subscript :: PandocMonad m => OrgParser m (F Inlines) subscript = fmap B.subscript <$> try (char '_' *> subOrSuperExpr) superscript :: PandocMonad m => OrgParser m (F Inlines) superscript = fmap B.superscript <$> try (char '^' *> subOrSuperExpr) math :: PandocMonad m => OrgParser m (F Inlines) math = return . B.math <$> choice [ math1CharBetween '$' , mathTextBetween '$' , rawMathBetween "\\(" "\\)" ] displayMath :: PandocMonad m => OrgParser m (F Inlines) displayMath = return . B.displayMath <$> choice [ rawMathBetween "\\[" "\\]" , rawMathBetween "$$" "$$" ] updatePositions :: PandocMonad m => Char -> OrgParser m Char updatePositions c = do st <- getState let emphasisPreChars = orgStateEmphasisPreChars st when (c `elem` emphasisPreChars) updateLastPreCharPos when (c `elem` emphasisForbiddenBorderChars) updateLastForbiddenCharPos return c symbol :: PandocMonad m => OrgParser m (F Inlines) symbol = return . B.str . T.singleton <$> (oneOf specialChars >>= updatePositions) emphasisBetween :: PandocMonad m => Char -> OrgParser m (F Inlines) emphasisBetween c = try $ do startEmphasisNewlinesCounting emphasisAllowedNewlines res <- enclosedInlines (emphasisStart c) (emphasisEnd c) isTopLevelEmphasis <- null . orgStateEmphasisCharStack <$> getState when isTopLevelEmphasis resetEmphasisNewlines return res verbatimBetween :: PandocMonad m => Char -> OrgParser m Text verbatimBetween c = try $ emphasisStart c *> many1TillNOrLessNewlines 1 verbatimChar (emphasisEnd c) where verbatimChar = noneOf "\n\r" >>= updatePositions -- | Parses a raw string delimited by @c@ using Org's math rules mathTextBetween :: PandocMonad m => Char -> OrgParser m Text mathTextBetween c = try $ do mathStart c body <- many1TillNOrLessNewlines mathAllowedNewlines (noneOf (c:"\n\r")) (lookAhead $ mathEnd c) final <- mathEnd c return $ T.snoc body final -- | Parse a single character between @c@ using math rules math1CharBetween :: PandocMonad m => Char -> OrgParser m Text math1CharBetween c = try $ do char c res <- noneOf $ c:mathForbiddenBorderChars char c eof <|> () <$ lookAhead (oneOf mathPostChars) return $ T.singleton res rawMathBetween :: PandocMonad m => Text -> Text -> OrgParser m Text rawMathBetween s e = try $ textStr s *> manyTillChar anyChar (try $ textStr e) -- | Parses the start (opening character) of emphasis emphasisStart :: PandocMonad m => Char -> OrgParser m Char emphasisStart c = try $ do guard =<< afterEmphasisPreChar guard =<< notAfterString char c lookAhead (noneOf emphasisForbiddenBorderChars) pushToInlineCharStack c -- nested inlines are allowed, so mark this position as one which might be -- followed by another inline. updateLastPreCharPos return c -- | Parses the closing character of emphasis emphasisEnd :: PandocMonad m => Char -> OrgParser m Char emphasisEnd c = try $ do guard =<< notAfterForbiddenBorderChar char c eof <|> () <$ lookAhead acceptablePostChars updateLastStrPos popInlineCharStack return c where acceptablePostChars = do emphasisPostChars <- orgStateEmphasisPostChars <$> getState surroundingEmphasisChar >>= \x -> oneOf (x ++ emphasisPostChars) mathStart :: PandocMonad m => Char -> OrgParser m Char mathStart c = try $ char c <* notFollowedBy' (oneOf (c:mathForbiddenBorderChars)) mathEnd :: PandocMonad m => Char -> OrgParser m Char mathEnd c = try $ do res <- noneOf (c:mathForbiddenBorderChars) char c eof <|> () <$ lookAhead (oneOf mathPostChars) return res enclosedInlines :: (PandocMonad m, Show b) => OrgParser m a -> OrgParser m b -> OrgParser m (F Inlines) enclosedInlines start end = try $ trimInlinesF . mconcat <$> enclosed start end inline enclosedRaw :: (PandocMonad m, Show b) => OrgParser m a -> OrgParser m b -> OrgParser m Text enclosedRaw start end = try $ start *> (onSingleLine <|> spanningTwoLines) where onSingleLine = try $ many1TillChar (noneOf "\n\r") end spanningTwoLines = try $ anyLine >>= \f -> mappend (f <> " ") <$> onSingleLine -- | Like many1Till, but parses at most @n+1@ lines. @p@ must not consume -- newlines. many1TillNOrLessNewlines :: PandocMonad m => Int -> OrgParser m Char -> OrgParser m a -> OrgParser m Text many1TillNOrLessNewlines n p end = try $ nMoreLines (Just n) mempty >>= oneOrMore where nMoreLines Nothing cs = return cs nMoreLines (Just 0) cs = try $ (cs ++) <$> finalLine nMoreLines k cs = try $ (final k cs <|> rest k cs) >>= uncurry nMoreLines final _ cs = (\x -> (Nothing, cs ++ x)) <$> try finalLine rest m cs = (\x -> (minus1 <$> m, cs ++ x ++ "\n")) <$> try (manyTill p newline) finalLine = try $ manyTill p end minus1 k = k - 1 oneOrMore cs = T.pack cs <$ guard (not $ null cs) -- Org allows customization of the way it reads emphasis. We use the defaults -- here (see, e.g., the Emacs Lisp variable `org-emphasis-regexp-components` -- for details). -- | Chars not allowed at the (inner) border of emphasis emphasisForbiddenBorderChars :: [Char] emphasisForbiddenBorderChars = "\t\n\r " -- | The maximum number of newlines within emphasisAllowedNewlines :: Int emphasisAllowedNewlines = 1 -- LaTeX-style math: see `org-latex-regexps` for details -- | Chars allowed after an inline ($...$) math statement mathPostChars :: [Char] mathPostChars = "\t\n \"'),-.:;?" -- | Chars not allowed at the (inner) border of math mathForbiddenBorderChars :: [Char] mathForbiddenBorderChars = "\t\n\r ,;.$" -- | Maximum number of newlines in an inline math statement mathAllowedNewlines :: Int mathAllowedNewlines = 2 -- | Whether we are right behind a char allowed before emphasis afterEmphasisPreChar :: PandocMonad m => OrgParser m Bool afterEmphasisPreChar = do pos <- getPosition lastPrePos <- orgStateLastPreCharPos <$> getState return $ maybe True (== pos) lastPrePos -- | Whether the parser is right after a forbidden border char notAfterForbiddenBorderChar :: PandocMonad m => OrgParser m Bool notAfterForbiddenBorderChar = do pos <- getPosition lastFBCPos <- orgStateLastForbiddenCharPos <$> getState return $ lastFBCPos /= Just pos -- | Read a sub- or superscript expression subOrSuperExpr :: PandocMonad m => OrgParser m (F Inlines) subOrSuperExpr = try $ simpleSubOrSuperText <|> (choice [ charsInBalanced '{' '}' (noneOf "\n\r") , enclosing ('(', ')') <$> charsInBalanced '(' ')' (noneOf "\n\r") ] >>= parseFromString (mconcat <$> many inline)) where enclosing (left, right) s = T.cons left $ T.snoc s right simpleSubOrSuperText :: PandocMonad m => OrgParser m (F Inlines) simpleSubOrSuperText = try $ do state <- getState guard . exportSubSuperscripts . orgStateExportSettings $ state return . B.str <$> choice [ textStr "*" , mappend <$> option "" (T.singleton <$> oneOf "+-") <*> many1Char alphaNum ] inlineLaTeX :: PandocMonad m => OrgParser m (F Inlines) inlineLaTeX = try $ do cmd <- inlineLaTeXCommand ils <- (lift . lift) $ parseAsInlineLaTeX cmd maybe mzero returnF $ parseAsMathMLSym cmd `mplus` parseAsMath cmd `mplus` ils where parseAsMath :: Text -> Maybe Inlines parseAsMath cs = B.fromList <$> texMathToPandoc cs parseAsInlineLaTeX :: PandocMonad m => Text -> m (Maybe Inlines) parseAsInlineLaTeX cs = maybeRight <$> runParserT inlineCommand state "" cs parseAsMathMLSym :: Text -> Maybe Inlines parseAsMathMLSym cs = B.str <$> MathMLEntityMap.getUnicode (clean cs) -- drop initial backslash and any trailing "{}" where clean = T.dropWhileEnd (`elem` ("{}" :: String)) . T.drop 1 state :: ParserState state = def{ stateOptions = def{ readerExtensions = enableExtension Ext_raw_tex (readerExtensions def) } } texMathToPandoc :: Text -> Maybe [Inline] texMathToPandoc cs = maybeRight (readTeX cs) >>= writePandoc DisplayInline maybeRight :: Either a b -> Maybe b maybeRight = either (const Nothing) Just inlineLaTeXCommand :: PandocMonad m => OrgParser m Text inlineLaTeXCommand = try $ do rest <- getInput st <- getState parsed <- (lift . lift) $ runParserT rawLaTeXInline st "source" rest case parsed of Right cs -> do -- drop any trailing whitespace, those are not be part of the command as -- far as org mode is concerned. let cmdNoSpc = T.dropWhileEnd isSpace cs let len = T.length cmdNoSpc count len anyChar return cmdNoSpc _ -> mzero exportSnippet :: PandocMonad m => OrgParser m (F Inlines) exportSnippet = try $ do string "@@" format <- many1TillChar (alphaNum <|> char '-') (char ':') snippet <- manyTillChar anyChar (try $ string "@@") returnF $ B.rawInline format snippet macro :: PandocMonad m => OrgParser m (F Inlines) macro = try $ do recursionDepth <- orgStateMacroDepth <$> getState guard $ recursionDepth < 15 string "{{{" name <- manyChar alphaNum args <- ([] <$ string "}}}") <|> char '(' *> argument `sepBy` char ',' <* eoa expander <- lookupMacro name <$> getState case expander of Nothing -> mzero Just fn -> do updateState $ \s -> s { orgStateMacroDepth = recursionDepth + 1 } res <- parseFromString (mconcat <$> many inline) $ fn args updateState $ \s -> s { orgStateMacroDepth = recursionDepth } return res where argument = manyChar $ notFollowedBy eoa *> noneOf "," eoa = string ")}}}" smart :: PandocMonad m => OrgParser m (F Inlines) smart = choice [doubleQuoted, singleQuoted, orgApostrophe, orgDash, orgEllipses] where orgDash = do guardOrSmartEnabled =<< getExportSetting exportSpecialStrings pure <$> dash <* updatePositions '-' orgEllipses = do guardOrSmartEnabled =<< getExportSetting exportSpecialStrings pure <$> ellipses <* updatePositions '.' orgApostrophe = do guardEnabled Ext_smart (char '\'' <|> char '\8217') <* updateLastPreCharPos <* updateLastForbiddenCharPos returnF (B.str "\x2019") guardOrSmartEnabled :: PandocMonad m => Bool -> OrgParser m () guardOrSmartEnabled b = do smartExtension <- extensionEnabled Ext_smart <$> getOption readerExtensions guard (b || smartExtension) singleQuoted :: PandocMonad m => OrgParser m (F Inlines) singleQuoted = try $ do guardOrSmartEnabled =<< getExportSetting exportSmartQuotes singleQuoteStart updatePositions '\'' withQuoteContext InSingleQuote $ fmap B.singleQuoted . trimInlinesF . mconcat <$> many1Till inline (singleQuoteEnd <* updatePositions '\'') -- doubleQuoted will handle regular double-quoted sections, as well -- as dialogues with an open double-quote without a close double-quote -- in the same paragraph. doubleQuoted :: PandocMonad m => OrgParser m (F Inlines) doubleQuoted = try $ do guardOrSmartEnabled =<< getExportSetting exportSmartQuotes doubleQuoteStart updatePositions '"' contents <- mconcat <$> many (try $ notFollowedBy doubleQuoteEnd >> inline) let doubleQuotedContent = withQuoteContext InDoubleQuote $ do doubleQuoteEnd updateLastForbiddenCharPos return . fmap B.doubleQuoted . trimInlinesF $ contents let leftQuoteAndContent = return $ pure (B.str "\8220") <> contents doubleQuotedContent <|> leftQuoteAndContent