module Text.Pandoc.Readers.Org ( readOrg ) where
import qualified Text.Pandoc.Builder as B
import Text.Pandoc.Builder ( Inlines, Blocks, HasMeta(..),
trimInlines )
import Text.Pandoc.Definition
import Text.Pandoc.Compat.Monoid ((<>))
import Text.Pandoc.Options
import qualified Text.Pandoc.Parsing as P
import Text.Pandoc.Parsing hiding ( F, unF, askF, asksF, runF
, newline, orderedListMarker
, parseFromString, blanklines
)
import Text.Pandoc.Readers.LaTeX (inlineCommand, rawLaTeXInline)
import Text.Pandoc.Shared (compactify', compactify'DL)
import Text.TeXMath (readTeX, writePandoc, DisplayType(..))
import qualified Text.TeXMath.Readers.MathML.EntityMap as MathMLEntityMap
import Control.Arrow (first)
import Control.Monad (foldM, guard, liftM, liftM2, mplus, mzero, when)
import Control.Monad.Reader (Reader, runReader, ask, asks, local)
import Data.Char (isAlphaNum, toLower)
import Data.Default
import Data.List (intersperse, isPrefixOf, isSuffixOf)
import qualified Data.Map as M
import qualified Data.Set as Set
import Data.Maybe (fromMaybe, isJust)
import Network.HTTP (urlEncode)
import Text.Pandoc.Error
readOrg :: ReaderOptions
-> String
-> Either PandocError Pandoc
readOrg opts s = flip runReader def $ readWithM parseOrg def{ orgStateOptions = opts } (s ++ "\n\n")
data OrgParserLocal = OrgParserLocal { orgLocalQuoteContext :: QuoteContext }
type OrgParser = ParserT [Char] OrgParserState (Reader OrgParserLocal)
instance HasIdentifierList OrgParserState where
extractIdentifierList = orgStateIdentifiers
updateIdentifierList f s = s{ orgStateIdentifiers = f (orgStateIdentifiers s) }
instance HasHeaderMap OrgParserState where
extractHeaderMap = orgStateHeaderMap
updateHeaderMap f s = s{ orgStateHeaderMap = f (orgStateHeaderMap s) }
parseOrg :: OrgParser Pandoc
parseOrg = do
blocks' <- parseBlocks
st <- getState
let meta = runF (orgStateMeta' st) st
let removeUnwantedBlocks = dropCommentTrees . filter (/= Null)
return $ Pandoc meta $ removeUnwantedBlocks (B.toList $ runF blocks' st)
dropCommentTrees :: [Block] -> [Block]
dropCommentTrees [] = []
dropCommentTrees (b:bs) =
maybe (b:dropCommentTrees bs)
(dropCommentTrees . flip dropUntilHeaderAboveLevel bs)
(commentHeaderLevel b)
commentHeaderLevel :: Block -> Maybe Int
commentHeaderLevel blk =
case blk of
(Header level _ ((Str "COMMENT"):_)) -> Just level
(Header level _ title) | hasNoExportTag title -> Just level
_ -> Nothing
where
hasNoExportTag :: [Inline] -> Bool
hasNoExportTag = any isNoExportTag
isNoExportTag :: Inline -> Bool
isNoExportTag (Span ("", ["tag"], [("data-tag-name", "noexport")]) []) = True
isNoExportTag _ = False
dropUntilHeaderAboveLevel :: Int -> [Block] -> [Block]
dropUntilHeaderAboveLevel n = dropWhile (not . isHeaderLevelLowerEq n)
isHeaderLevelLowerEq :: Int -> Block -> Bool
isHeaderLevelLowerEq n blk =
case blk of
(Header level _ _) -> n >= level
_ -> False
type OrgNoteRecord = (String, F Blocks)
type OrgNoteTable = [OrgNoteRecord]
type OrgBlockAttributes = M.Map String String
type OrgLinkFormatters = M.Map String (String -> String)
data OrgParserState = OrgParserState
{ orgStateOptions :: ReaderOptions
, orgStateAnchorIds :: [String]
, orgStateBlockAttributes :: OrgBlockAttributes
, orgStateEmphasisCharStack :: [Char]
, orgStateEmphasisNewlines :: Maybe Int
, orgStateLastForbiddenCharPos :: Maybe SourcePos
, orgStateLastPreCharPos :: Maybe SourcePos
, orgStateLastStrPos :: Maybe SourcePos
, orgStateLinkFormatters :: OrgLinkFormatters
, orgStateMeta :: Meta
, orgStateMeta' :: F Meta
, orgStateNotes' :: OrgNoteTable
, orgStateParserContext :: ParserContext
, orgStateIdentifiers :: Set.Set String
, orgStateHeaderMap :: M.Map Inlines String
}
instance Default OrgParserLocal where
def = OrgParserLocal NoQuote
instance HasReaderOptions OrgParserState where
extractReaderOptions = orgStateOptions
instance HasMeta OrgParserState where
setMeta field val st =
st{ orgStateMeta = setMeta field val $ orgStateMeta st }
deleteMeta field st =
st{ orgStateMeta = deleteMeta field $ orgStateMeta st }
instance HasLastStrPosition OrgParserState where
getLastStrPos = orgStateLastStrPos
setLastStrPos pos st = st{ orgStateLastStrPos = Just pos }
instance HasQuoteContext st (Reader OrgParserLocal) where
getQuoteContext = asks orgLocalQuoteContext
withQuoteContext q = local (\s -> s{orgLocalQuoteContext = q})
instance Default OrgParserState where
def = defaultOrgParserState
defaultOrgParserState :: OrgParserState
defaultOrgParserState = OrgParserState
{ orgStateOptions = def
, orgStateAnchorIds = []
, orgStateBlockAttributes = M.empty
, orgStateEmphasisCharStack = []
, orgStateEmphasisNewlines = Nothing
, orgStateLastForbiddenCharPos = Nothing
, orgStateLastPreCharPos = Nothing
, orgStateLastStrPos = Nothing
, orgStateLinkFormatters = M.empty
, orgStateMeta = nullMeta
, orgStateMeta' = return nullMeta
, orgStateNotes' = []
, orgStateParserContext = NullState
, orgStateIdentifiers = Set.empty
, orgStateHeaderMap = M.empty
}
recordAnchorId :: String -> OrgParser ()
recordAnchorId i = updateState $ \s ->
s{ orgStateAnchorIds = i : (orgStateAnchorIds s) }
updateLastForbiddenCharPos :: OrgParser ()
updateLastForbiddenCharPos = getPosition >>= \p ->
updateState $ \s -> s{ orgStateLastForbiddenCharPos = Just p}
updateLastPreCharPos :: OrgParser ()
updateLastPreCharPos = getPosition >>= \p ->
updateState $ \s -> s{ orgStateLastPreCharPos = Just p}
pushToInlineCharStack :: Char -> OrgParser ()
pushToInlineCharStack c = updateState $ \s ->
s{ orgStateEmphasisCharStack = c:orgStateEmphasisCharStack s }
popInlineCharStack :: OrgParser ()
popInlineCharStack = updateState $ \s ->
s{ orgStateEmphasisCharStack = drop 1 . orgStateEmphasisCharStack $ s }
surroundingEmphasisChar :: OrgParser [Char]
surroundingEmphasisChar =
take 1 . drop 1 . orgStateEmphasisCharStack <$> getState
startEmphasisNewlinesCounting :: Int -> OrgParser ()
startEmphasisNewlinesCounting maxNewlines = updateState $ \s ->
s{ orgStateEmphasisNewlines = Just maxNewlines }
decEmphasisNewlinesCount :: OrgParser ()
decEmphasisNewlinesCount = updateState $ \s ->
s{ orgStateEmphasisNewlines = (\n -> n 1) <$> orgStateEmphasisNewlines s }
newlinesCountWithinLimits :: OrgParser Bool
newlinesCountWithinLimits = do
st <- getState
return $ ((< 0) <$> orgStateEmphasisNewlines st) /= Just True
resetEmphasisNewlines :: OrgParser ()
resetEmphasisNewlines = updateState $ \s ->
s{ orgStateEmphasisNewlines = Nothing }
addLinkFormat :: String
-> (String -> String)
-> OrgParser ()
addLinkFormat key formatter = updateState $ \s ->
let fs = orgStateLinkFormatters s
in s{ orgStateLinkFormatters = M.insert key formatter fs }
addToNotesTable :: OrgNoteRecord -> OrgParser ()
addToNotesTable note = do
oldnotes <- orgStateNotes' <$> getState
updateState $ \s -> s{ orgStateNotes' = note:oldnotes }
parseFromString :: OrgParser a -> String -> OrgParser a
parseFromString parser str' = do
oldLastPreCharPos <- orgStateLastPreCharPos <$> getState
updateState $ \s -> s{ orgStateLastPreCharPos = Nothing }
result <- P.parseFromString parser str'
updateState $ \s -> s{ orgStateLastPreCharPos = oldLastPreCharPos }
return result
newtype F a = F { unF :: Reader OrgParserState a
} deriving (Monad, Applicative, Functor)
runF :: F a -> OrgParserState -> a
runF = runReader . unF
askF :: F OrgParserState
askF = F ask
asksF :: (OrgParserState -> a) -> F a
asksF f = F $ asks f
instance Monoid a => Monoid (F a) where
mempty = return mempty
mappend = liftM2 mappend
mconcat = fmap mconcat . sequence
trimInlinesF :: F Inlines -> F Inlines
trimInlinesF = liftM trimInlines
returnF :: a -> OrgParser (F a)
returnF = return . return
newline :: OrgParser Char
newline =
P.newline
<* updateLastPreCharPos
<* updateLastForbiddenCharPos
blanklines :: OrgParser [Char]
blanklines =
P.blanklines
<* updateLastPreCharPos
<* updateLastForbiddenCharPos
inList :: OrgParser ()
inList = do
ctx <- orgStateParserContext <$> getState
guard (ctx == ListItemState)
withContext :: ParserContext
-> OrgParser a
-> OrgParser a
withContext context parser = do
oldContext <- orgStateParserContext <$> getState
updateState $ \s -> s{ orgStateParserContext = context }
result <- parser
updateState $ \s -> s{ orgStateParserContext = oldContext }
return result
parseBlocks :: OrgParser (F Blocks)
parseBlocks = mconcat <$> manyTill block eof
block :: OrgParser (F Blocks)
block = choice [ mempty <$ blanklines
, optionalAttributes $ choice
[ orgBlock
, figure
, table
]
, example
, drawer
, specialLine
, header
, return <$> hline
, list
, latexFragment
, noteBlock
, paraOrPlain
] <?> "block"
optionalAttributes :: OrgParser (F Blocks) -> OrgParser (F Blocks)
optionalAttributes parser = try $
resetBlockAttributes *> parseBlockAttributes *> parser
where
resetBlockAttributes :: OrgParser ()
resetBlockAttributes = updateState $ \s ->
s{ orgStateBlockAttributes = orgStateBlockAttributes def }
parseBlockAttributes :: OrgParser ()
parseBlockAttributes = do
attrs <- many attribute
mapM_ (uncurry parseAndAddAttribute) attrs
where
attribute :: OrgParser (String, String)
attribute = try $ do
key <- metaLineStart *> many1Till nonspaceChar (char ':')
val <- skipSpaces *> anyLine
return (map toLower key, val)
parseAndAddAttribute :: String -> String -> OrgParser ()
parseAndAddAttribute key value = do
let key' = map toLower key
() <$ addBlockAttribute key' value
lookupInlinesAttr :: String -> OrgParser (Maybe (F Inlines))
lookupInlinesAttr attr = try $ do
val <- lookupBlockAttribute attr
maybe (return Nothing)
(fmap Just . parseFromString parseInlines)
val
addBlockAttribute :: String -> String -> OrgParser ()
addBlockAttribute key val = updateState $ \s ->
let attrs = orgStateBlockAttributes s
in s{ orgStateBlockAttributes = M.insert key val attrs }
lookupBlockAttribute :: String -> OrgParser (Maybe String)
lookupBlockAttribute key =
M.lookup key . orgStateBlockAttributes <$> getState
type BlockProperties = (Int, String)
orgBlock :: OrgParser (F Blocks)
orgBlock = try $ do
blockProp@(_, blkType) <- blockHeaderStart
($ blockProp) $
case blkType of
"comment" -> withRaw' (const mempty)
"html" -> withRaw' (return . (B.rawBlock blkType))
"latex" -> withRaw' (return . (B.rawBlock blkType))
"ascii" -> withRaw' (return . (B.rawBlock blkType))
"example" -> withRaw' (return . exampleCode)
"quote" -> withParsed (fmap B.blockQuote)
"verse" -> verseBlock
"src" -> codeBlock
_ -> withParsed (fmap $ divWithClass blkType)
blockHeaderStart :: OrgParser (Int, String)
blockHeaderStart = try $ (,) <$> indent <*> blockType
where
indent = length <$> many spaceChar
blockType = map toLower <$> (stringAnyCase "#+begin_" *> orgArgWord)
withRaw' :: (String -> F Blocks) -> BlockProperties -> OrgParser (F Blocks)
withRaw' f blockProp = (ignHeaders *> (f <$> rawBlockContent blockProp))
withParsed :: (F Blocks -> F Blocks) -> BlockProperties -> OrgParser (F Blocks)
withParsed f blockProp = (ignHeaders *> (f <$> parsedBlockContent blockProp))
ignHeaders :: OrgParser ()
ignHeaders = (() <$ newline) <|> (() <$ anyLine)
divWithClass :: String -> Blocks -> Blocks
divWithClass cls = B.divWith ("", [cls], [])
verseBlock :: BlockProperties -> OrgParser (F Blocks)
verseBlock blkProp = try $ do
ignHeaders
content <- rawBlockContent blkProp
fmap B.para . mconcat . intersperse (pure B.linebreak)
<$> mapM (parseFromString parseInlines) (map (++ "\n") . lines $ content)
exportsCode :: [(String, String)] -> Bool
exportsCode attrs = not (("rundoc-exports", "none") `elem` attrs
|| ("rundoc-exports", "results") `elem` attrs)
exportsResults :: [(String, String)] -> Bool
exportsResults attrs = ("rundoc-exports", "results") `elem` attrs
|| ("rundoc-exports", "both") `elem` attrs
followingResultsBlock :: OrgParser (Maybe (F Blocks))
followingResultsBlock =
optionMaybe (try $ blanklines *> stringAnyCase "#+RESULTS:"
*> blankline
*> block)
codeBlock :: BlockProperties -> OrgParser (F Blocks)
codeBlock blkProp = do
skipSpaces
(classes, kv) <- codeHeaderArgs <|> (mempty <$ ignHeaders)
id' <- fromMaybe "" <$> lookupBlockAttribute "name"
content <- rawBlockContent blkProp
resultsContent <- followingResultsBlock
let includeCode = exportsCode kv
let includeResults = exportsResults kv
let codeBlck = B.codeBlockWith ( id', classes, kv ) content
labelledBlck <- maybe (pure codeBlck)
(labelDiv codeBlck)
<$> lookupInlinesAttr "caption"
let resultBlck = fromMaybe mempty resultsContent
return $ (if includeCode then labelledBlck else mempty)
<> (if includeResults then resultBlck else mempty)
where
labelDiv blk value =
B.divWith nullAttr <$> (mappend <$> labelledBlock value
<*> pure blk)
labelledBlock = fmap (B.plain . B.spanWith ("", ["label"], []))
rawBlockContent :: BlockProperties -> OrgParser String
rawBlockContent (indent, blockType) = try $
unlines . map commaEscaped <$> manyTill indentedLine blockEnder
where
indentedLine = try $ ("" <$ blankline) <|> (indentWith indent *> anyLine)
blockEnder = try $ indentWith indent *> stringAnyCase ("#+end_" <> blockType)
parsedBlockContent :: BlockProperties -> OrgParser (F Blocks)
parsedBlockContent blkProps = try $ do
raw <- rawBlockContent blkProps
parseFromString parseBlocks (raw ++ "\n")
indentWith :: Int -> OrgParser String
indentWith num = do
tabStop <- getOption readerTabStop
if num < tabStop
then count num (char ' ')
else choice [ try (count num (char ' '))
, try (char '\t' >> count (num tabStop) (char ' ')) ]
type SwitchOption = (Char, Maybe String)
orgArgWord :: OrgParser String
orgArgWord = many1 orgArgWordChar
codeHeaderArgs :: OrgParser ([String], [(String, String)])
codeHeaderArgs = try $ do
language <- skipSpaces *> orgArgWord
_ <- skipSpaces *> (try $ switch `sepBy` (many1 spaceChar))
parameters <- manyTill blockOption newline
let pandocLang = translateLang language
return $
if hasRundocParameters parameters
then ( [ pandocLang, rundocBlockClass ]
, map toRundocAttrib (("language", language) : parameters)
)
else ([ pandocLang ], parameters)
where hasRundocParameters = not . null
switch :: OrgParser SwitchOption
switch = try $ simpleSwitch <|> lineNumbersSwitch
where
simpleSwitch = (\c -> (c, Nothing)) <$> (oneOf "-+" *> letter)
lineNumbersSwitch = (\ls -> ('l', Just ls)) <$>
(string "-l \"" *> many1Till nonspaceChar (char '"'))
translateLang :: String -> String
translateLang "C" = "c"
translateLang "C++" = "cpp"
translateLang "emacs-lisp" = "commonlisp"
translateLang "js" = "javascript"
translateLang "lisp" = "commonlisp"
translateLang "R" = "r"
translateLang "sh" = "bash"
translateLang "sqlite" = "sql"
translateLang cs = cs
rundocPrefix :: String
rundocPrefix = "rundoc-"
rundocBlockClass :: String
rundocBlockClass = rundocPrefix ++ "block"
blockOption :: OrgParser (String, String)
blockOption = try $ do
argKey <- orgArgKey
paramValue <- option "yes" orgParamValue
return (argKey, paramValue)
inlineBlockOption :: OrgParser (String, String)
inlineBlockOption = try $ do
argKey <- orgArgKey
paramValue <- option "yes" orgInlineParamValue
return (argKey, paramValue)
orgArgKey :: OrgParser String
orgArgKey = try $
skipSpaces *> char ':'
*> many1 orgArgWordChar
orgParamValue :: OrgParser String
orgParamValue = try $
skipSpaces
*> notFollowedBy (char ':' )
*> many1 (noneOf "\t\n\r ")
<* skipSpaces
orgInlineParamValue :: OrgParser String
orgInlineParamValue = try $
skipSpaces
*> notFollowedBy (char ':')
*> many1 (noneOf "\t\n\r ]")
<* skipSpaces
orgArgWordChar :: OrgParser Char
orgArgWordChar = alphaNum <|> oneOf "-_"
toRundocAttrib :: (String, String) -> (String, String)
toRundocAttrib = first ("rundoc-" ++)
commaEscaped :: String -> String
commaEscaped (',':cs@('*':_)) = cs
commaEscaped (',':cs@('#':'+':_)) = cs
commaEscaped cs = cs
example :: OrgParser (F Blocks)
example = try $ do
return . return . exampleCode =<< unlines <$> many1 exampleLine
exampleCode :: String -> Blocks
exampleCode = B.codeBlockWith ("", ["example"], [])
exampleLine :: OrgParser String
exampleLine = try $ skipSpaces *> string ": " *> anyLine
drawer :: OrgParser (F Blocks)
drawer = try $ do
drawerStart
manyTill drawerLine (try drawerEnd)
return mempty
drawerStart :: OrgParser String
drawerStart = try $
skipSpaces *> drawerName <* skipSpaces <* P.newline
where drawerName = try $ char ':' *> validDrawerName <* char ':'
validDrawerName = stringAnyCase "PROPERTIES"
<|> stringAnyCase "LOGBOOK"
drawerLine :: OrgParser String
drawerLine = try anyLine
drawerEnd :: OrgParser String
drawerEnd = try $
skipSpaces *> stringAnyCase ":END:" <* skipSpaces <* P.newline
figure :: OrgParser (F Blocks)
figure = try $ do
(cap, nam) <- nameAndCaption
src <- skipSpaces *> selfTarget <* skipSpaces <* P.newline
guard (isImageFilename src)
return $ do
cap' <- cap
return $ B.para $ B.image src nam cap'
where
nameAndCaption =
do
maybeCap <- lookupInlinesAttr "caption"
maybeNam <- lookupBlockAttribute "name"
guard $ isJust maybeCap || isJust maybeNam
return ( fromMaybe mempty maybeCap
, withFigPrefix $ fromMaybe mempty maybeNam )
withFigPrefix cs =
if "fig:" `isPrefixOf` cs
then cs
else "fig:" ++ cs
specialLine :: OrgParser (F Blocks)
specialLine = fmap return . try $ metaLine <|> commentLine
metaLine :: OrgParser Blocks
metaLine = try $ mempty
<$ (metaLineStart *> (optionLine <|> declarationLine))
commentLine :: OrgParser Blocks
commentLine = try $ commentLineStart *> anyLine *> pure mempty
metaLineStart :: OrgParser String
metaLineStart = try $ mappend <$> many spaceChar <*> string "#+"
commentLineStart :: OrgParser String
commentLineStart = try $ mappend <$> many spaceChar <*> string "# "
declarationLine :: OrgParser ()
declarationLine = try $ do
key <- metaKey
inlinesF <- metaInlines
updateState $ \st ->
let meta' = B.setMeta <$> pure key <*> inlinesF <*> pure nullMeta
in st { orgStateMeta' = orgStateMeta' st <> meta' }
return ()
metaInlines :: OrgParser (F MetaValue)
metaInlines = fmap (MetaInlines . B.toList) <$> inlinesTillNewline
metaKey :: OrgParser String
metaKey = map toLower <$> many1 (noneOf ": \n\r")
<* char ':'
<* skipSpaces
optionLine :: OrgParser ()
optionLine = try $ do
key <- metaKey
case key of
"link" -> parseLinkFormat >>= uncurry addLinkFormat
_ -> mzero
parseLinkFormat :: OrgParser ((String, String -> String))
parseLinkFormat = try $ do
linkType <- (:) <$> letter <*> many (alphaNum <|> oneOf "-_") <* skipSpaces
linkSubst <- parseFormat
return (linkType, linkSubst)
parseFormat :: OrgParser (String -> String)
parseFormat = try $ do
replacePlain <|> replaceUrl <|> justAppend
where
replacePlain = try $ (\x -> concat . flip intersperse x)
<$> sequence [tillSpecifier 's', rest]
replaceUrl = try $ (\x -> concat . flip intersperse x . urlEncode)
<$> sequence [tillSpecifier 'h', rest]
justAppend = try $ (++) <$> rest
rest = manyTill anyChar (eof <|> () <$ oneOf "\n\r")
tillSpecifier c = manyTill (noneOf "\n\r") (try $ string ('%':c:""))
header :: OrgParser (F Blocks)
header = try $ do
level <- headerStart
title <- manyTill inline (lookAhead headerEnd)
tags <- headerEnd
let inlns = trimInlinesF . mconcat $ title <> map tagToInlineF tags
st <- getState
let inlines = runF inlns st
attr <- registerHeader nullAttr inlines
return $ pure (B.headerWith attr level inlines)
where
tagToInlineF :: String -> F Inlines
tagToInlineF t = return $ B.spanWith ("", ["tag"], [("data-tag-name", t)]) mempty
headerEnd :: OrgParser [String]
headerEnd = option [] headerTags <* newline
headerTags :: OrgParser [String]
headerTags = try $
skipSpaces
*> char ':'
*> many1 tag
<* skipSpaces
where tag = many1 (alphaNum <|> oneOf "@%#_")
<* char ':'
headerStart :: OrgParser Int
headerStart = try $
(length <$> many1 (char '*')) <* many1 (char ' ') <* updateLastPreCharPos
hline :: OrgParser Blocks
hline = try $ do
skipSpaces
string "-----"
many (char '-')
skipSpaces
newline
return B.horizontalRule
data OrgTableRow = OrgContentRow (F [Blocks])
| OrgAlignRow [Alignment]
| OrgHlineRow
data OrgTable = OrgTable
{ orgTableColumns :: Int
, orgTableAlignments :: [Alignment]
, orgTableHeader :: [Blocks]
, orgTableRows :: [[Blocks]]
}
table :: OrgParser (F Blocks)
table = try $ do
lookAhead tableStart
do
rows <- tableRows
cptn <- fromMaybe (pure "") <$> lookupInlinesAttr "caption"
return $ (<$> cptn) . orgToPandocTable . normalizeTable =<< rowsToTable rows
orgToPandocTable :: OrgTable
-> Inlines
-> Blocks
orgToPandocTable (OrgTable _ aligns heads lns) caption =
B.table caption (zip aligns $ repeat 0) heads lns
tableStart :: OrgParser Char
tableStart = try $ skipSpaces *> char '|'
tableRows :: OrgParser [OrgTableRow]
tableRows = try $ many (tableAlignRow <|> tableHline <|> tableContentRow)
tableContentRow :: OrgParser OrgTableRow
tableContentRow = try $
OrgContentRow . sequence <$> (tableStart *> manyTill tableContentCell newline)
tableContentCell :: OrgParser (F Blocks)
tableContentCell = try $
fmap B.plain . trimInlinesF . mconcat <$> many1Till inline endOfCell
endOfCell :: OrgParser Char
endOfCell = try $ char '|' <|> lookAhead newline
tableAlignRow :: OrgParser OrgTableRow
tableAlignRow = try $
OrgAlignRow <$> (tableStart *> manyTill tableAlignCell newline)
tableAlignCell :: OrgParser Alignment
tableAlignCell =
choice [ try $ emptyCell *> return AlignDefault
, try $ skipSpaces
*> char '<'
*> tableAlignFromChar
<* many digit
<* char '>'
<* emptyCell
] <?> "alignment info"
where emptyCell = try $ skipSpaces *> endOfCell
tableAlignFromChar :: OrgParser Alignment
tableAlignFromChar = try $ choice [ char 'l' *> return AlignLeft
, char 'c' *> return AlignCenter
, char 'r' *> return AlignRight
]
tableHline :: OrgParser OrgTableRow
tableHline = try $
OrgHlineRow <$ (tableStart *> char '-' *> anyLine)
rowsToTable :: [OrgTableRow]
-> F OrgTable
rowsToTable = foldM (flip rowToContent) zeroTable
where zeroTable = OrgTable 0 mempty mempty mempty
normalizeTable :: OrgTable
-> OrgTable
normalizeTable (OrgTable cols aligns heads lns) =
let aligns' = fillColumns aligns AlignDefault
heads' = if heads == mempty
then mempty
else fillColumns heads (B.plain mempty)
lns' = map (`fillColumns` B.plain mempty) lns
fillColumns base padding = take cols $ base ++ repeat padding
in OrgTable cols aligns' heads' lns'
rowToContent :: OrgTableRow
-> OrgTable
-> F OrgTable
rowToContent OrgHlineRow t = maybeBodyToHeader t
rowToContent (OrgAlignRow as) t = setLongestRow as =<< setAligns as t
rowToContent (OrgContentRow rf) t = do
rs <- rf
setLongestRow rs =<< appendToBody rs t
setLongestRow :: [a]
-> OrgTable
-> F OrgTable
setLongestRow rs t =
return t{ orgTableColumns = max (length rs) (orgTableColumns t) }
maybeBodyToHeader :: OrgTable
-> F OrgTable
maybeBodyToHeader t = case t of
OrgTable{ orgTableHeader = [], orgTableRows = b:[] } ->
return t{ orgTableHeader = b , orgTableRows = [] }
_ -> return t
appendToBody :: [Blocks]
-> OrgTable
-> F OrgTable
appendToBody r t = return t{ orgTableRows = orgTableRows t ++ [r] }
setAligns :: [Alignment]
-> OrgTable
-> F OrgTable
setAligns aligns t = return $ t{ orgTableAlignments = aligns }
latexFragment :: OrgParser (F Blocks)
latexFragment = try $ do
envName <- latexEnvStart
content <- mconcat <$> manyTill anyLineNewline (latexEnd envName)
return . return $ B.rawBlock "latex" (content `inLatexEnv` envName)
where
c `inLatexEnv` e = mconcat [ "\\begin{", e, "}\n"
, c
, "\\end{", e, "}\n"
]
latexEnvStart :: OrgParser String
latexEnvStart = try $ do
skipSpaces *> string "\\begin{"
*> latexEnvName
<* string "}"
<* blankline
latexEnd :: String -> OrgParser ()
latexEnd envName = try $
() <$ skipSpaces
<* string ("\\end{" ++ envName ++ "}")
<* blankline
latexEnvName :: OrgParser String
latexEnvName = try $ do
mappend <$> many1 alphaNum
<*> option "" (string "*")
noteBlock :: OrgParser (F Blocks)
noteBlock = try $ do
ref <- noteMarker <* skipSpaces
content <- mconcat <$> blocksTillHeaderOrNote
addToNotesTable (ref, content)
return mempty
where
blocksTillHeaderOrNote =
many1Till block (eof <|> () <$ lookAhead noteMarker
<|> () <$ lookAhead headerStart)
paraOrPlain :: OrgParser (F Blocks)
paraOrPlain = try $ do
ils <- parseInlines
nl <- option False (newline *> return True)
try (guard nl
*> notFollowedBy (inList *> (orderedListStart <|> bulletListStart))
*> return (B.para <$> ils))
<|> (return (B.plain <$> ils))
inlinesTillNewline :: OrgParser (F Inlines)
inlinesTillNewline = trimInlinesF . mconcat <$> manyTill inline newline
list :: OrgParser (F Blocks)
list = choice [ definitionList, bulletList, orderedList ] <?> "list"
definitionList :: OrgParser (F Blocks)
definitionList = try $ do n <- lookAhead (bulletListStart' Nothing)
fmap B.definitionList . fmap compactify'DL . sequence
<$> many1 (definitionListItem $ bulletListStart' (Just n))
bulletList :: OrgParser (F Blocks)
bulletList = try $ do n <- lookAhead (bulletListStart' Nothing)
fmap B.bulletList . fmap compactify' . sequence
<$> many1 (listItem (bulletListStart' $ Just n))
orderedList :: OrgParser (F Blocks)
orderedList = fmap B.orderedList . fmap compactify' . sequence
<$> many1 (listItem orderedListStart)
genericListStart :: OrgParser String
-> OrgParser Int
genericListStart listMarker = try $
(+) <$> (length <$> many spaceChar)
<*> (length <$> listMarker <* many1 spaceChar)
bulletListStart :: OrgParser Int
bulletListStart = bulletListStart' Nothing
bulletListStart' :: Maybe Int -> OrgParser Int
bulletListStart' Nothing = do ind <- length <$> many spaceChar
when (ind == 0) $ notFollowedBy (char '*')
oneOf bullets
many1 spaceChar
return (ind + 1)
bulletListStart' (Just n) = do count (n1) spaceChar
when (n == 1) $ notFollowedBy (char '*')
oneOf bullets
many1 spaceChar
return n
bullets :: String
bullets = "*+-"
orderedListStart :: OrgParser Int
orderedListStart = genericListStart orderedListMarker
where orderedListMarker = mappend <$> many1 digit <*> (pure <$> oneOf ".)")
definitionListItem :: OrgParser Int
-> OrgParser (F (Inlines, [Blocks]))
definitionListItem parseMarkerGetLength = try $ do
markerLength <- parseMarkerGetLength
term <- manyTill (noneOf "\n\r") (try definitionMarker)
line1 <- anyLineNewline
blank <- option "" ("\n" <$ blankline)
cont <- concat <$> many (listContinuation markerLength)
term' <- parseFromString parseInlines term
contents' <- parseFromString parseBlocks $ line1 ++ blank ++ cont
return $ (,) <$> term' <*> fmap (:[]) contents'
where
definitionMarker =
spaceChar *> string "::" <* (spaceChar <|> lookAhead P.newline)
listItem :: OrgParser Int
-> OrgParser (F Blocks)
listItem start = try . withContext ListItemState $ do
markerLength <- try start
firstLine <- anyLineNewline
blank <- option "" ("\n" <$ blankline)
rest <- concat <$> many (listContinuation markerLength)
parseFromString parseBlocks $ firstLine ++ blank ++ rest
listContinuation :: Int
-> OrgParser String
listContinuation markerLength = try $
notFollowedBy' blankline
*> (mappend <$> (concat <$> many1 listLine)
<*> many blankline)
where listLine = try $ indentWith markerLength *> anyLineNewline
anyLineNewline :: OrgParser String
anyLineNewline = (++ "\n") <$> anyLine
inline :: OrgParser (F Inlines)
inline =
choice [ whitespace
, linebreak
, cite
, footnote
, linkOrImage
, anchor
, inlineCodeBlock
, str
, endline
, emph
, strong
, strikeout
, underline
, code
, math
, displayMath
, verbatim
, subscript
, superscript
, inlineLaTeX
, smart
, symbol
] <* (guard =<< newlinesCountWithinLimits)
<?> "inline"
parseInlines :: OrgParser (F Inlines)
parseInlines = trimInlinesF . mconcat <$> many1 inline
specialChars :: [Char]
specialChars = "\"$'()*+-,./:<=>[\\]^_{|}~"
whitespace :: OrgParser (F Inlines)
whitespace = pure B.space <$ skipMany1 spaceChar
<* updateLastPreCharPos
<* updateLastForbiddenCharPos
<?> "whitespace"
linebreak :: OrgParser (F Inlines)
linebreak = try $ pure B.linebreak <$ string "\\\\" <* skipSpaces <* newline
str :: OrgParser (F Inlines)
str = return . B.str <$> many1 (noneOf $ specialChars ++ "\n\r ")
<* updateLastStrPos
endline :: OrgParser (F Inlines)
endline = try $ do
newline
notFollowedBy blankline
notFollowedBy' exampleLine
notFollowedBy' hline
notFollowedBy' noteMarker
notFollowedBy' tableStart
notFollowedBy' drawerStart
notFollowedBy' headerStart
notFollowedBy' metaLineStart
notFollowedBy' latexEnvStart
notFollowedBy' commentLineStart
notFollowedBy' bulletListStart
notFollowedBy' orderedListStart
decEmphasisNewlinesCount
guard =<< newlinesCountWithinLimits
updateLastPreCharPos
return . return $ B.softbreak
cite :: OrgParser (F Inlines)
cite = try $ do
guardEnabled Ext_citations
(cs, raw) <- withRaw normalCite
return $ (flip B.cite (B.text raw)) <$> cs
normalCite :: OrgParser (F [Citation])
normalCite = try $ char '['
*> skipSpaces
*> citeList
<* skipSpaces
<* char ']'
citeList :: OrgParser (F [Citation])
citeList = sequence <$> sepBy1 citation (try $ char ';' *> skipSpaces)
citation :: OrgParser (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 :: OrgParser (F Inlines)
footnote = try $ inlineNote <|> referencedNote
inlineNote :: OrgParser (F Inlines)
inlineNote = try $ do
string "[fn:"
ref <- many alphaNum
char ':'
note <- fmap B.para . trimInlinesF . mconcat <$> many1Till inline (char ']')
when (not $ null ref) $
addToNotesTable ("fn:" ++ ref, note)
return $ B.note <$> note
referencedNote :: OrgParser (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'
noteMarker :: OrgParser String
noteMarker = try $ do
char '['
choice [ many1Till digit (char ']')
, (++) <$> string "fn:"
<*> many1Till (noneOf "\n\r\t ") (char ']')
]
linkOrImage :: OrgParser (F Inlines)
linkOrImage = explicitOrImageLink
<|> selflinkOrImage
<|> angleLink
<|> plainLink
<?> "link or image"
explicitOrImageLink :: OrgParser (F Inlines)
explicitOrImageLink = try $ do
char '['
srcF <- applyCustomLinkFormat =<< possiblyEmptyLinkTarget
title <- enclosedRaw (char '[') (char ']')
title' <- parseFromString (mconcat <$> many inline) title
char ']'
return $ do
src <- srcF
if isImageFilename title
then pure $ B.link src "" $ B.image title mempty mempty
else linkToInlinesF src =<< title'
selflinkOrImage :: OrgParser (F Inlines)
selflinkOrImage = try $ do
src <- char '[' *> linkTarget <* char ']'
return $ linkToInlinesF src (B.str src)
plainLink :: OrgParser (F Inlines)
plainLink = try $ do
(orig, src) <- uri
returnF $ B.link src "" (B.str orig)
angleLink :: OrgParser (F Inlines)
angleLink = try $ do
char '<'
link <- plainLink
char '>'
return link
selfTarget :: OrgParser String
selfTarget = try $ char '[' *> linkTarget <* char ']'
linkTarget :: OrgParser String
linkTarget = enclosedByPair '[' ']' (noneOf "\n\r[]")
possiblyEmptyLinkTarget :: OrgParser String
possiblyEmptyLinkTarget = try linkTarget <|> ("" <$ string "[]")
applyCustomLinkFormat :: String -> OrgParser (F String)
applyCustomLinkFormat link = do
let (linkType, rest) = break (== ':') link
return $ do
formatter <- M.lookup linkType <$> asksF orgStateLinkFormatters
return $ maybe link ($ drop 1 rest) formatter
linkToInlinesF :: String -> Inlines -> F Inlines
linkToInlinesF linkStr =
case linkStr of
"" -> pure . B.link mempty ""
('#':_) -> pure . B.link linkStr ""
_ -> case cleanLinkString linkStr of
(Just cleanedLink) -> if isImageFilename cleanedLink
then const . pure $ B.image cleanedLink "" ""
else pure . B.link cleanedLink ""
Nothing -> internalLink linkStr
cleanLinkString :: String -> Maybe String
cleanLinkString s =
case s of
'/':_ -> Just $ "file://" ++ s
'.':'/':_ -> Just s
'.':'.':'/':_ -> Just s
'f':'i':'l':'e':':':s' -> Just $ if ("//" `isPrefixOf` s') then s else s'
_ | isUrl s -> Just s
_ -> Nothing
where
isUrl :: String -> Bool
isUrl cs =
let (scheme, path) = break (== ':') cs
in all (\c -> isAlphaNum c || c `elem` (".-"::String)) scheme
&& not (null path)
isImageFilename :: String -> Bool
isImageFilename filename =
any (\x -> ('.':x) `isSuffixOf` filename) imageExtensions &&
(any (\x -> (x++":") `isPrefixOf` filename) protocols ||
':' `notElem` filename)
where
imageExtensions = [ "jpeg" , "jpg" , "png" , "gif" , "svg" ]
protocols = [ "file", "http", "https" ]
internalLink :: String -> 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
anchor :: OrgParser (F Inlines)
anchor = try $ do
anchorId <- parseAnchor
recordAnchorId anchorId
returnF $ B.spanWith (solidify anchorId, [], []) mempty
where
parseAnchor = string "<<"
*> many1 (noneOf "\t\n\r<>\"' ")
<* string ">>"
<* skipSpaces
solidify :: String -> String
solidify = map replaceSpecialChar
where replaceSpecialChar c
| isAlphaNum c = c
| c `elem` ("_.-:" :: String) = c
| otherwise = '-'
inlineCodeBlock :: OrgParser (F Inlines)
inlineCodeBlock = try $ do
string "src_"
lang <- many1 orgArgWordChar
opts <- option [] $ enclosedByPair '[' ']' inlineBlockOption
inlineCode <- enclosedByPair '{' '}' (noneOf "\n\r")
let attrClasses = [translateLang lang, rundocBlockClass]
let attrKeyVal = map toRundocAttrib (("language", lang) : opts)
returnF $ B.codeWith ("", attrClasses, attrKeyVal) inlineCode
enclosedByPair :: Char
-> Char
-> OrgParser a
-> OrgParser [a]
enclosedByPair s e p = char s *> many1Till p (char e)
emph :: OrgParser (F Inlines)
emph = fmap B.emph <$> emphasisBetween '/'
strong :: OrgParser (F Inlines)
strong = fmap B.strong <$> emphasisBetween '*'
strikeout :: OrgParser (F Inlines)
strikeout = fmap B.strikeout <$> emphasisBetween '+'
underline :: OrgParser (F Inlines)
underline = fmap B.strong <$> emphasisBetween '_'
verbatim :: OrgParser (F Inlines)
verbatim = return . B.code <$> verbatimBetween '='
code :: OrgParser (F Inlines)
code = return . B.code <$> verbatimBetween '~'
subscript :: OrgParser (F Inlines)
subscript = fmap B.subscript <$> try (char '_' *> subOrSuperExpr)
superscript :: OrgParser (F Inlines)
superscript = fmap B.superscript <$> try (char '^' *> subOrSuperExpr)
math :: OrgParser (F Inlines)
math = return . B.math <$> choice [ math1CharBetween '$'
, mathStringBetween '$'
, rawMathBetween "\\(" "\\)"
]
displayMath :: OrgParser (F Inlines)
displayMath = return . B.displayMath <$> choice [ rawMathBetween "\\[" "\\]"
, rawMathBetween "$$" "$$"
]
updatePositions :: Char
-> OrgParser (Char)
updatePositions c = do
when (c `elem` emphasisPreChars) updateLastPreCharPos
when (c `elem` emphasisForbiddenBorderChars) updateLastForbiddenCharPos
return c
symbol :: OrgParser (F Inlines)
symbol = return . B.str . (: "") <$> (oneOf specialChars >>= updatePositions)
emphasisBetween :: Char
-> OrgParser (F Inlines)
emphasisBetween c = try $ do
startEmphasisNewlinesCounting emphasisAllowedNewlines
res <- enclosedInlines (emphasisStart c) (emphasisEnd c)
isTopLevelEmphasis <- null . orgStateEmphasisCharStack <$> getState
when isTopLevelEmphasis
resetEmphasisNewlines
return res
verbatimBetween :: Char
-> OrgParser String
verbatimBetween c = try $
emphasisStart c *>
many1TillNOrLessNewlines 1 (noneOf "\n\r") (emphasisEnd c)
mathStringBetween :: Char
-> OrgParser String
mathStringBetween c = try $ do
mathStart c
body <- many1TillNOrLessNewlines mathAllowedNewlines
(noneOf (c:"\n\r"))
(lookAhead $ mathEnd c)
final <- mathEnd c
return $ body ++ [final]
math1CharBetween :: Char
-> OrgParser String
math1CharBetween c = try $ do
char c
res <- noneOf $ c:mathForbiddenBorderChars
char c
eof <|> () <$ lookAhead (oneOf mathPostChars)
return [res]
rawMathBetween :: String
-> String
-> OrgParser String
rawMathBetween s e = try $ string s *> manyTill anyChar (try $ string e)
emphasisStart :: Char -> OrgParser Char
emphasisStart c = try $ do
guard =<< afterEmphasisPreChar
guard =<< notAfterString
char c
lookAhead (noneOf emphasisForbiddenBorderChars)
pushToInlineCharStack c
return c
emphasisEnd :: Char -> OrgParser Char
emphasisEnd c = try $ do
guard =<< notAfterForbiddenBorderChar
char c
eof <|> () <$ lookAhead acceptablePostChars
updateLastStrPos
popInlineCharStack
return c
where acceptablePostChars =
surroundingEmphasisChar >>= \x -> oneOf (x ++ emphasisPostChars)
mathStart :: Char -> OrgParser Char
mathStart c = try $
char c <* notFollowedBy' (oneOf (c:mathForbiddenBorderChars))
mathEnd :: Char -> OrgParser Char
mathEnd c = try $ do
res <- noneOf (c:mathForbiddenBorderChars)
char c
eof <|> () <$ lookAhead (oneOf mathPostChars)
return res
enclosedInlines :: OrgParser a
-> OrgParser b
-> OrgParser (F Inlines)
enclosedInlines start end = try $
trimInlinesF . mconcat <$> enclosed start end inline
enclosedRaw :: OrgParser a
-> OrgParser b
-> OrgParser String
enclosedRaw start end = try $
start *> (onSingleLine <|> spanningTwoLines)
where onSingleLine = try $ many1Till (noneOf "\n\r") end
spanningTwoLines = try $
anyLine >>= \f -> mappend (f <> " ") <$> onSingleLine
many1TillNOrLessNewlines :: Int
-> OrgParser Char
-> OrgParser a
-> OrgParser String
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 P.newline)
finalLine = try $ manyTill p end
minus1 k = k 1
oneOrMore cs = guard (not $ null cs) *> return cs
emphasisPreChars :: [Char]
emphasisPreChars = "\t \"'({"
emphasisPostChars :: [Char]
emphasisPostChars = "\t\n !\"'),-.:;?\\}"
emphasisForbiddenBorderChars :: [Char]
emphasisForbiddenBorderChars = "\t\n\r \"',"
emphasisAllowedNewlines :: Int
emphasisAllowedNewlines = 1
mathPostChars :: [Char]
mathPostChars = "\t\n \"'),-.:;?"
mathForbiddenBorderChars :: [Char]
mathForbiddenBorderChars = "\t\n\r ,;.$"
mathAllowedNewlines :: Int
mathAllowedNewlines = 2
afterEmphasisPreChar :: OrgParser Bool
afterEmphasisPreChar = do
pos <- getPosition
lastPrePos <- orgStateLastPreCharPos <$> getState
return . fromMaybe True $ (== pos) <$> lastPrePos
notAfterForbiddenBorderChar :: OrgParser Bool
notAfterForbiddenBorderChar = do
pos <- getPosition
lastFBCPos <- orgStateLastForbiddenCharPos <$> getState
return $ lastFBCPos /= Just pos
subOrSuperExpr :: OrgParser (F Inlines)
subOrSuperExpr = try $
choice [ id <$> charsInBalanced '{' '}' (noneOf "\n\r")
, enclosing ('(', ')') <$> charsInBalanced '(' ')' (noneOf "\n\r")
, simpleSubOrSuperString
] >>= parseFromString (mconcat <$> many inline)
where enclosing (left, right) s = left : s ++ [right]
simpleSubOrSuperString :: OrgParser String
simpleSubOrSuperString = try $
choice [ string "*"
, mappend <$> option [] ((:[]) <$> oneOf "+-")
<*> many1 alphaNum
]
inlineLaTeX :: OrgParser (F Inlines)
inlineLaTeX = try $ do
cmd <- inlineLaTeXCommand
maybe mzero returnF $
parseAsMath cmd `mplus` parseAsMathMLSym cmd `mplus` parseAsInlineLaTeX cmd
where
parseAsMath :: String -> Maybe Inlines
parseAsMath cs = B.fromList <$> texMathToPandoc cs
parseAsInlineLaTeX :: String -> Maybe Inlines
parseAsInlineLaTeX cs = maybeRight $ runParser inlineCommand state "" cs
parseAsMathMLSym :: String -> Maybe Inlines
parseAsMathMLSym cs = B.str <$> MathMLEntityMap.getUnicode (clean cs)
where clean = reverse . dropWhile (`elem` ("{}" :: String)) . reverse . drop 1
state :: ParserState
state = def{ stateOptions = def{ readerParseRaw = True }}
texMathToPandoc inp = (maybeRight $ readTeX inp) >>=
writePandoc DisplayInline
maybeRight :: Either a b -> Maybe b
maybeRight = either (const Nothing) Just
inlineLaTeXCommand :: OrgParser String
inlineLaTeXCommand = try $ do
rest <- getInput
case runParser rawLaTeXInline def "source" rest of
Right (RawInline _ cs) -> do
let len = length cs
count len anyChar
return cs
_ -> mzero
smart :: OrgParser (F Inlines)
smart = do
getOption readerSmart >>= guard
doubleQuoted <|> singleQuoted <|>
choice (map (return <$>) [orgApostrophe, orgDash, orgEllipses])
where
orgDash = dash <* updatePositions '-'
orgEllipses = ellipses <* updatePositions '.'
orgApostrophe =
(char '\'' <|> char '\8217') <* updateLastPreCharPos
<* updateLastForbiddenCharPos
*> return (B.str "\x2019")
singleQuoted :: OrgParser (F Inlines)
singleQuoted = try $ do
singleQuoteStart
updatePositions '\''
withQuoteContext InSingleQuote $
fmap B.singleQuoted . trimInlinesF . mconcat <$>
many1Till inline (singleQuoteEnd <* updatePositions '\'')
doubleQuoted :: OrgParser (F Inlines)
doubleQuoted = try $ do
doubleQuoteStart
updatePositions '"'
contents <- mconcat <$> many (try $ notFollowedBy doubleQuoteEnd >> inline)
(withQuoteContext InDoubleQuote $ (doubleQuoteEnd <* updateLastForbiddenCharPos) >> return
(fmap B.doubleQuoted . trimInlinesF $ contents))
<|> (return $ return (B.str "\8220") <> contents)