module Text.Pandoc.Readers.LaTeX ( readLaTeX,
applyMacros,
rawLaTeXInline,
rawLaTeXBlock,
inlineCommand,
tokenize,
untokenize
) where
import Prelude
import Control.Applicative (many, optional, (<|>))
import Control.Monad
import Control.Monad.Except (throwError)
import Control.Monad.Trans (lift)
import Data.Char (chr, isAlphaNum, isDigit, isLetter, ord, toLower, toUpper)
import Data.Default
import Data.List (intercalate, isPrefixOf)
import qualified Data.Map as M
import Data.Maybe (fromMaybe, maybeToList)
import qualified Data.Set as Set
import Data.Text (Text)
import qualified Data.Text as T
import Safe (minimumDef)
import System.FilePath (addExtension, replaceExtension, takeExtension)
import Text.Pandoc.BCP47 (Lang (..), renderLang)
import Text.Pandoc.Builder
import Text.Pandoc.Class (PandocMonad, PandocPure, getResourcePath, lookupEnv,
readFileFromDirs, report, setResourcePath,
setTranslations, translateTerm, trace)
import Text.Pandoc.Error (PandocError (PandocMacroLoop, PandocParseError, PandocParsecError))
import Text.Pandoc.Highlighting (fromListingsLanguage, languagesByExtension)
import Text.Pandoc.ImageSize (numUnit, showFl)
import Text.Pandoc.Logging
import Text.Pandoc.Options
import Text.Pandoc.Parsing hiding (blankline, many, mathDisplay, mathInline,
optional, space, spaces, withRaw, (<|>))
import Text.Pandoc.Readers.LaTeX.Types (ExpansionPoint (..), Macro (..),
Tok (..), TokType (..))
import Text.Pandoc.Shared
import qualified Text.Pandoc.Translations as Translations
import Text.Pandoc.Walk
import Text.Parsec.Pos
import qualified Text.Pandoc.Builder as B
readLaTeX :: PandocMonad m
=> ReaderOptions
-> Text
-> m Pandoc
readLaTeX opts ltx = do
parsed <- runParserT parseLaTeX def{ sOptions = opts } "source"
(tokenize "source" (crFilter ltx))
case parsed of
Right result -> return result
Left e -> throwError $ PandocParsecError (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') =
(if bottomLevel < 1
then walk (adjustHeaders (1 bottomLevel))
else id) $
walk (resolveRefs (sLabels st)) doc'
return $ Pandoc meta bs'
resolveRefs :: M.Map String [Inline] -> Inline -> Inline
resolveRefs labels x@(Link (ident,classes,kvs) _ _) =
case (lookup "reference-type" kvs,
lookup "reference" kvs) of
(Just "ref", Just lab) ->
case M.lookup lab labels of
Just txt -> Link (ident,classes,kvs) txt ('#':lab, "")
Nothing -> x
_ -> x
resolveRefs _ x = x
newtype HeaderNum = HeaderNum [Int]
deriving (Show)
renderHeaderNum :: HeaderNum -> String
renderHeaderNum (HeaderNum xs) =
intercalate "." (map show xs)
incrementHeaderNum :: Int -> HeaderNum -> HeaderNum
incrementHeaderNum level (HeaderNum ns) = HeaderNum $
case reverse (take level (ns ++ repeat 0)) of
(x:xs) -> reverse (x+1 : xs)
[] -> []
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
, sLastHeaderNum :: HeaderNum
, sLabels :: M.Map String [Inline]
, sHasChapters :: Bool
, sToggles :: M.Map String 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
, sLastHeaderNum = HeaderNum []
, sLabels = M.empty
, sHasChapters = False
, sToggles = M.empty
}
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
rawLaTeXParser :: (PandocMonad m, HasMacros s, HasReaderOptions s)
=> LP m a -> LP m a -> ParserT String s m (a, String)
rawLaTeXParser parser valParser = do
inp <- getInput
let toks = tokenize "source" $ T.pack inp
pstate <- getState
let lstate = def{ sOptions = extractReaderOptions pstate }
let lstate' = lstate { sMacros = extractMacros pstate }
let rawparser = (,) <$> withRaw valParser <*> getState
res' <- lift $ runParserT (snd <$> withRaw parser) lstate "chunk" toks
case res' of
Left _ -> mzero
Right toks' -> do
res <- lift $ runParserT (do doMacros 0
ts <- many (satisfyTok (const True))
setInput ts
rawparser)
lstate' "chunk" toks'
case res of
Left _ -> mzero
Right ((val, raw), st) -> do
updateState (updateMacros (sMacros st <>))
_ <- takeP (T.length (untokenize toks'))
return (val, T.unpack (untokenize raw))
applyMacros :: (PandocMonad m, HasMacros s, HasReaderOptions s)
=> String -> ParserT String s m String
applyMacros s = (guardDisabled Ext_latex_macros >> return s) <|>
do let retokenize = doMacros 0 *>
(toksToString <$> many (satisfyTok (const True)))
pstate <- getState
let lstate = def{ sOptions = extractReaderOptions pstate
, sMacros = extractMacros pstate }
res <- runParserT retokenize lstate "math" (tokenize "math" (T.pack s))
case res of
Left e -> fail (show e)
Right s' -> return s'
rawLaTeXBlock :: (PandocMonad m, HasMacros s, HasReaderOptions s)
=> ParserT String s m String
rawLaTeXBlock = do
lookAhead (try (char '\\' >> letter))
snd <$> rawLaTeXParser (environment <|> macroDef <|> blockCommand) blocks
rawLaTeXInline :: (PandocMonad m, HasMacros s, HasReaderOptions s)
=> ParserT String s m String
rawLaTeXInline = do
lookAhead (try (char '\\' >> letter))
snd <$> rawLaTeXParser (inlineEnvironment <|> inlineCommand') inlines
inlineCommand :: PandocMonad m => ParserT String ParserState m Inlines
inlineCommand = do
lookAhead (try (char '\\' >> letter))
fst <$> rawLaTeXParser (inlineEnvironment <|> inlineCommand') inlines
tokenize :: SourceName -> Text -> [Tok]
tokenize sourcename = totoks (initialPos sourcename)
totoks :: SourcePos -> Text -> [Tok]
totoks pos t =
case T.uncons t of
Nothing -> []
Just (c, rest)
| c == '\n' ->
Tok pos Newline "\n"
: totoks (setSourceColumn (incSourceLine pos 1) 1) rest
| isSpaceOrTab c ->
let (sps, rest') = T.span isSpaceOrTab t
in Tok pos Spaces sps
: totoks (incSourceColumn pos (T.length sps))
rest'
| isAlphaNum c ->
let (ws, rest') = T.span isAlphaNum t
in Tok pos Word ws
: totoks (incSourceColumn pos (T.length ws)) rest'
| c == '%' ->
let (cs, rest') = T.break (== '\n') rest
in Tok pos Comment ("%" <> cs)
: totoks (incSourceColumn pos (1 + T.length cs)) rest'
| c == '\\' ->
case T.uncons rest of
Nothing -> [Tok pos (CtrlSeq " ") "\\"]
Just (d, rest')
| isLetterOrAt d ->
let (ws, rest'') = T.span isLetterOrAt rest
(ss, rest''') = T.span isSpaceOrTab rest''
in Tok pos (CtrlSeq ws) ("\\" <> ws <> ss)
: totoks (incSourceColumn pos
(1 + T.length ws + T.length ss)) rest'''
| isSpaceOrTab d || d == '\n' ->
let (w1, r1) = T.span isSpaceOrTab rest
(w2, (w3, r3)) = case T.uncons r1 of
Just ('\n', r2)
-> (T.pack "\n",
T.span isSpaceOrTab r2)
_ -> (mempty, (mempty, r1))
ws = "\\" <> w1 <> w2 <> w3
in case T.uncons r3 of
Just ('\n', _) ->
Tok pos (CtrlSeq " ") ("\\" <> w1)
: totoks (incSourceColumn pos (T.length ws))
r1
_ ->
Tok pos (CtrlSeq " ") ws
: totoks (incSourceColumn pos (T.length ws))
r3
| otherwise ->
Tok pos (CtrlSeq (T.singleton d)) (T.pack [c,d])
: totoks (incSourceColumn pos 2) rest'
| c == '#' ->
let (t1, t2) = T.span (\d -> d >= '0' && d <= '9') rest
in case safeRead (T.unpack t1) of
Just i ->
Tok pos (Arg i) ("#" <> t1)
: totoks (incSourceColumn pos (1 + T.length t1)) t2
Nothing ->
Tok pos Symbol "#"
: totoks (incSourceColumn pos 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 pos Esc2 (T.pack ['^','^',d,e])
: totoks (incSourceColumn pos 4) rest'''
_ ->
Tok pos Esc1 (T.pack ['^','^',d])
: totoks (incSourceColumn pos 3) rest''
| d < '\128' ->
Tok pos Esc1 (T.pack ['^','^',d])
: totoks (incSourceColumn pos 3) rest''
_ -> Tok pos Symbol "^" :
Tok (incSourceColumn pos 1) Symbol "^" :
totoks (incSourceColumn pos 2) rest'
_ -> Tok pos Symbol "^"
: totoks (incSourceColumn pos 1) rest
| otherwise ->
Tok pos Symbol (T.singleton c) : totoks (incSourceColumn pos 1) rest
isSpaceOrTab :: Char -> Bool
isSpaceOrTab ' ' = True
isSpaceOrTab '\t' = True
isSpaceOrTab _ = False
isLetterOrAt :: Char -> Bool
isLetterOrAt '@' = True
isLetterOrAt c = isLetter c
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
return res
where matcher t | f t = Just t
| otherwise = Nothing
updatePos :: SourcePos -> Tok -> [Tok] -> SourcePos
updatePos _spos _ (Tok pos _ _ : _) = pos
updatePos spos _ [] = incSourceColumn spos 1
doMacros :: PandocMonad m => Int -> LP m ()
doMacros n = do
verbatimMode <- sVerbatimMode <$> getState
unless 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 _ (CtrlSeq "expandafter") _ : t : ts
-> do setInput ts
doMacros n
getInput >>= setInput . combineTok t
Tok spos (CtrlSeq name) _ : ts
-> handleMacros spos name ts
_ -> return ()
where combineTok (Tok spos (CtrlSeq name) x) (Tok _ Word w : ts)
| T.all isLetterOrAt w =
Tok spos (CtrlSeq (name <> w)) (x1 <> w <> x2) : ts
where (x1, x2) = T.break isSpaceOrTab x
combineTok t ts = t:ts
handleMacros spos name ts = do
macros <- sMacros <$> getState
case M.lookup name macros of
Nothing -> return ()
Just (Macro expansionPoint numargs optarg newtoks) -> do
setInput ts
let getarg = try $ spaces >> bracedOrToken
args <- case optarg of
Nothing -> count numargs getarg
Just o ->
(:) <$> option o bracketedToks
<*> count (numargs 1) getarg
let addTok False (Tok _ (Arg i) _) acc | i > 0
, i <= numargs =
foldr (addTok True) acc (args !! (i 1))
addTok _ (Tok _ (CtrlSeq x) txt)
acc@(Tok _ Word _ : _)
| not (T.null txt) &&
isLetter (T.last txt) =
Tok spos (CtrlSeq x) (txt <> " ") : acc
addTok _ t acc = setpos spos t : acc
ts' <- getInput
setInput $ foldr (addTok False) ts' newtoks
case expansionPoint of
ExpandWhenUsed ->
if n > 20
then throwError $ PandocMacroLoop (T.unpack name)
else doMacros (n + 1)
ExpandWhenDefined -> return ()
setpos :: SourcePos -> 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"
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
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
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
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 =
(space <$ lookAhead (satisfyTok startsWithLetter)) <|> return mempty
where startsWithLetter (Tok _ Word t) =
case T.uncons t of
Just (c, _) | isLetter c -> True
_ -> False
startsWithLetter _ = False
dosiunitx :: PandocMonad m => LP m Inlines
dosiunitx = do
skipopts
value <- tok
valueprefix <- option "" $ bracketed tok
unit <- inlineCommand' <|> tok
let emptyOr160 "" = ""
emptyOr160 _ = "\160"
return . mconcat $ [valueprefix,
emptyOr160 valueprefix,
value,
emptyOr160 unit,
unit]
dosquare :: PandocMonad m => LP m Inlines
dosquare = do
unit <- inlineCommand' <|> tok
return . mconcat $ [unit, "\178"]
lit :: String -> LP m Inlines
lit = pure . str
removeDoubleQuotes :: Text -> Text
removeDoubleQuotes t =
Data.Maybe.fromMaybe t $ T.stripPrefix "\"" t >>= T.stripSuffix "\""
doubleQuote :: PandocMonad m => LP m Inlines
doubleQuote =
quoted' doubleQuoted (try $ count 2 $ symbol '`')
(void $ try $ count 2 $ symbol '\'')
<|> quoted' doubleQuoted ((:[]) <$> symbol '“') (void $ symbol '”')
<|> quoted' doubleQuoted (try $ sequence [symbol '"', symbol '`'])
(void $ try $ sequence [symbol '"', symbol '\''])
singleQuote :: PandocMonad m => LP m Inlines
singleQuote =
quoted' singleQuoted ((:[]) <$> symbol '`')
(try $ symbol '\'' >>
notFollowedBy (satisfyTok startsWithLetter))
<|> quoted' singleQuoted ((:[]) <$> symbol '‘')
(try $ symbol '’' >>
notFollowedBy (satisfyTok startsWithLetter))
where startsWithLetter (Tok _ Word t) =
case T.uncons t of
Just (c, _) | isLetter c -> True
_ -> False
startsWithLetter _ = False
quoted' :: PandocMonad m
=> (Inlines -> Inlines)
-> LP m [Tok]
-> LP m ()
-> LP m Inlines
quoted' f starter ender = do
startchs <- (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
doAcronym :: PandocMonad m => String -> LP m Inlines
doAcronym form = do
acro <- braced
return . mconcat $ [spanWith ("",[],[("acronym-label", toksToString acro),
("acronym-form", "singular+" ++ form)])
$ str $ toksToString acro]
doAcronymPlural :: PandocMonad m => String -> LP m Inlines
doAcronymPlural form = do
acro <- braced
plural <- lit "s"
return . mconcat $ [spanWith ("",[],[("acronym-label", toksToString acro),
("acronym-form", "plural+" ++ form)]) $
mconcat [str $ toksToString acro, plural]]
doverb :: PandocMonad m => LP m Inlines
doverb = do
Tok _ Symbol t <- anySymbol
marker <- case T.uncons t of
Just (c, ts) | T.null ts -> return c
_ -> mzero
withVerbatimMode $
(code . T.unpack . untokenize) <$>
manyTill (verbTok marker) (symbol marker)
verbTok :: PandocMonad m => Char -> LP m Tok
verbTok stopchar = do
t@(Tok pos 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 (incSourceColumn pos i) Symbol (T.singleton stopchar)
: totoks (incSourceColumn pos (i + 1)) (T.drop 1 t2) ++ inp
return $ Tok pos 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 /= "]" && t /= ","
isSpecSym _ = False
optional sp
val <- option [] $ do
symbol '='
optional sp
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 :: PandocMonad m => Char -> (Char -> String) -> LP m Inlines
accent c f = try $ do
ils <- tok
case toList ils of
(Str (x:xs) : ys) -> return $ fromList (Str (f x ++ xs) : ys)
[Space] -> return $ str [c]
[] -> return $ str [c]
_ -> 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]
ogonek :: Char -> String
ogonek 'a' = "ą"
ogonek 'e' = "ę"
ogonek 'o' = "ǫ"
ogonek 'i' = "į"
ogonek 'u' = "ų"
ogonek 'A' = "Ą"
ogonek 'E' = "Ę"
ogonek 'I' = "Į"
ogonek 'O' = "Ǫ"
ogonek 'U' = "Ų"
ogonek 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 '$') >> anyTok)
if display
then
mathDisplay contents <$ try (symbol '$' >> symbol '$')
<|> (guard (null contents) >> return (mathInline ""))
else mathInline contents <$ symbol '$'
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 spaces
toksToString <$>
(many1 (satisfyTok isWordTok <|> symbolIn bibtexKeyChar)
<* optional spaces
<* optional (symbol ',')
<* optional spaces)
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]
let raw = do
guard $ isInlineCommand name || not (isBlockCommand name)
rawcommand <- getRawCommand name (cmd <> star)
(guardEnabled Ext_raw_tex >> return (rawInline "latex" rawcommand))
<|> ignore rawcommand
lookupListDefault raw names inlineCommands
tok :: PandocMonad m => LP m Inlines
tok = try $ spaces >> grouped inline <|> inlineCommand' <|> singleChar'
where singleChar' = do
Tok _ _ t <- singleChar
return (str (T.unpack t))
singleChar :: PandocMonad m => LP m Tok
singleChar = try $ do
Tok pos 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 (incSourceColumn pos 1) toktype t2 : inp
return $ Tok pos toktype t1
else return $ Tok pos toktype t
opt :: PandocMonad m => LP m Inlines
opt = bracketed inline <|> (str . T.unpack <$> rawopt)
rawopt :: PandocMonad m => LP m Text
rawopt = do
inner <- untokenize <$> bracketedToks
optional sp
return $ "[" <> inner <> "]"
skipopts :: PandocMonad m => LP m ()
skipopts = skipMany rawopt
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 (initialPos "source") 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.union inlineLanguageCommands $ M.fromList
[ ("emph", extractSpaces emph <$> tok)
, ("textit", extractSpaces emph <$> tok)
, ("textsl", extractSpaces emph <$> tok)
, ("textsc", extractSpaces smallcaps <$> tok)
, ("textsf", extractSpaces (spanWith ("",["sans-serif"],[])) <$> tok)
, ("textmd", extractSpaces (spanWith ("",["medium"],[])) <$> tok)
, ("textrm", extractSpaces (spanWith ("",["roman"],[])) <$> tok)
, ("textup", extractSpaces (spanWith ("",["upright"],[])) <$> tok)
, ("texttt", ttfamily)
, ("sout", extractSpaces strikeout <$> tok)
, ("alert", skipangles >> spanWith ("",["alert"],[]) <$> tok)
, ("lq", return (str "‘"))
, ("rq", return (str "’"))
, ("textquoteleft", return (str "‘"))
, ("textquoteright", return (str "’"))
, ("textquotedblleft", return (str "“"))
, ("textquotedblright", return (str "”"))
, ("textsuperscript", extractSpaces superscript <$> tok)
, ("textsubscript", extractSpaces subscript <$> tok)
, ("textbackslash", lit "\\")
, ("backslash", lit "\\")
, ("slash", lit "/")
, ("textbf", extractSpaces strong <$> tok)
, ("textnormal", extractSpaces (spanWith ("",["nodecor"],[])) <$> tok)
, ("ldots", lit "…")
, ("vdots", lit "\8942")
, ("dots", lit "…")
, ("mdots", lit "…")
, ("sim", lit "~")
, ("sep", lit ",")
, ("label", rawInlineOr "label" dolabel)
, ("ref", rawInlineOr "ref" $ doref "ref")
, ("cref", rawInlineOr "cref" $ doref "ref")
, ("vref", rawInlineOr "vref" $ doref "ref+page")
, ("eqref", rawInlineOr "eqref" $ doref "eqref")
, ("lettrine", optional opt >> extractSpaces (spanWith ("",["lettrine"],[])) <$> tok)
, ("(", mathInline . toksToString <$> manyTill anyTok (controlSeq ")"))
, ("[", mathDisplay . toksToString <$> manyTill anyTok (controlSeq "]"))
, ("ensuremath", mathInline . toksToString <$> braced)
, ("texorpdfstring", (\_ x -> x) <$> tok <*> tok)
, ("P", lit "¶")
, ("S", lit "§")
, ("$", lit "$")
, ("%", lit "%")
, ("&", lit "&")
, ("#", lit "#")
, ("_", lit "_")
, ("{", lit "{")
, ("}", lit "}")
, ("em", extractSpaces emph <$> 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 <$> inlines)
, ("MakeUppercase", makeUppercase <$> tok)
, ("MakeTextUppercase", makeUppercase <$> tok)
, ("uppercase", makeUppercase <$> tok)
, ("MakeLowercase", makeLowercase <$> tok)
, ("MakeTextLowercase", makeLowercase <$> tok)
, ("lowercase", makeLowercase <$> tok)
, ("/", pure mempty)
, ("aa", lit "å")
, ("AA", lit "Å")
, ("ss", lit "ß")
, ("o", lit "ø")
, ("O", lit "Ø")
, ("L", lit "Ł")
, ("l", lit "ł")
, ("ae", lit "æ")
, ("AE", lit "Æ")
, ("oe", lit "œ")
, ("OE", lit "Œ")
, ("pounds", lit "£")
, ("euro", lit "€")
, ("copyright", lit "©")
, ("textasciicircum", lit "^")
, ("textasciitilde", lit "~")
, ("H", accent '\779' hungarumlaut)
, ("`", accent '`' grave)
, ("'", accent '\'' acute)
, ("^", accent '^' circ)
, ("~", accent '~' tilde)
, ("\"", accent '\776' umlaut)
, (".", accent '\775' dot)
, ("=", accent '\772' macron)
, ("c", accent '\807' cedilla)
, ("v", accent 'ˇ' hacek)
, ("u", accent '\774' breve)
, ("k", accent '\808' ogonek)
, ("textogonekcentered", accent '\808' ogonek)
, ("i", lit "i")
, ("\\", linebreak <$ (do inTableCell <- sInTableCell <$> getState
guard $ not inTableCell
optional opt
spaces))
, (",", lit "\8198")
, ("@", pure mempty)
, (" ", lit "\160")
, ("ps", pure $ str "PS." <> space)
, ("TeX", lit "TeX")
, ("LaTeX", lit "LaTeX")
, ("bar", lit "|")
, ("textless", lit "<")
, ("textgreater", lit ">")
, ("thanks", skipopts >> note <$> grouped block)
, ("footnote", skipopts >> note <$> grouped block)
, ("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 <$> braced
mkImage options src)
, ("enquote", enquote)
, ("figurename", doTerm Translations.Figure)
, ("prefacename", doTerm Translations.Preface)
, ("refname", doTerm Translations.References)
, ("bibname", doTerm Translations.Bibliography)
, ("chaptername", doTerm Translations.Chapter)
, ("partname", doTerm Translations.Part)
, ("contentsname", doTerm Translations.Contents)
, ("listfigurename", doTerm Translations.ListOfFigures)
, ("listtablename", doTerm Translations.ListOfTables)
, ("indexname", doTerm Translations.Index)
, ("abstractname", doTerm Translations.Abstract)
, ("tablename", doTerm Translations.Table)
, ("enclname", doTerm Translations.Encl)
, ("ccname", doTerm Translations.Cc)
, ("headtoname", doTerm Translations.To)
, ("pagename", doTerm Translations.Page)
, ("seename", doTerm Translations.See)
, ("seealsoname", doTerm Translations.SeeAlso)
, ("proofname", doTerm Translations.Proof)
, ("glossaryname", doTerm Translations.Glossary)
, ("lstlistingname", doTerm Translations.Listing)
, ("cite", citation "cite" NormalCitation False)
, ("Cite", citation "Cite" NormalCitation False)
, ("citep", citation "citep" NormalCitation False)
, ("citep*", citation "citep*" NormalCitation False)
, ("citeal", citation "citeal" NormalCitation False)
, ("citealp", citation "citealp" NormalCitation False)
, ("citealp*", citation "citealp*" NormalCitation False)
, ("autocite", citation "autocite" NormalCitation False)
, ("smartcite", citation "smartcite" NormalCitation False)
, ("footcite", inNote <$> citation "footcite" NormalCitation False)
, ("parencite", citation "parencite" NormalCitation False)
, ("supercite", citation "supercite" NormalCitation False)
, ("footcitetext", inNote <$> citation "footcitetext" NormalCitation False)
, ("citeyearpar", citation "citeyearpar" SuppressAuthor False)
, ("citeyear", citation "citeyear" SuppressAuthor False)
, ("autocite*", citation "autocite*" SuppressAuthor False)
, ("cite*", citation "cite*" SuppressAuthor False)
, ("parencite*", citation "parencite*" SuppressAuthor False)
, ("textcite", citation "textcite" AuthorInText False)
, ("citet", citation "citet" AuthorInText False)
, ("citet*", citation "citet*" AuthorInText False)
, ("citealt", citation "citealt" AuthorInText False)
, ("citealt*", citation "citealt*" AuthorInText False)
, ("textcites", citation "textcites" AuthorInText True)
, ("cites", citation "cites" NormalCitation True)
, ("autocites", citation "autocites" NormalCitation True)
, ("footcites", inNote <$> citation "footcites" NormalCitation True)
, ("parencites", citation "parencites" NormalCitation True)
, ("supercites", citation "supercites" NormalCitation True)
, ("footcitetexts", inNote <$> citation "footcitetexts" NormalCitation True)
, ("Autocite", citation "Autocite" NormalCitation False)
, ("Smartcite", citation "Smartcite" NormalCitation False)
, ("Footcite", citation "Footcite" NormalCitation False)
, ("Parencite", citation "Parencite" NormalCitation False)
, ("Supercite", citation "Supercite" NormalCitation False)
, ("Footcitetext", inNote <$> 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"))
, ("hyperlink", hyperlink)
, ("hypertarget", hypertargetInline)
, ("gls", doAcronym "short")
, ("Gls", doAcronym "short")
, ("glsdesc", doAcronym "long")
, ("Glsdesc", doAcronym "long")
, ("GLSdesc", doAcronym "long")
, ("acrlong", doAcronym "long")
, ("Acrlong", doAcronym "long")
, ("acrfull", doAcronym "full")
, ("Acrfull", doAcronym "full")
, ("acrshort", doAcronym "abbrv")
, ("Acrshort", doAcronym "abbrv")
, ("glspl", doAcronymPlural "short")
, ("Glspl", doAcronymPlural "short")
, ("glsdescplural", doAcronymPlural "long")
, ("Glsdescplural", doAcronymPlural "long")
, ("GLSdescplural", doAcronymPlural "long")
, ("ac", doAcronym "short")
, ("acf", doAcronym "full")
, ("acs", doAcronym "abbrv")
, ("acp", doAcronymPlural "short")
, ("acfp", doAcronymPlural "full")
, ("acsp", doAcronymPlural "abbrv")
, ("SI", dosiunitx)
, ("celsius", lit "°C")
, ("degreeCelsius", lit "°C")
, ("gram", lit "g")
, ("meter", lit "m")
, ("milli", lit "m")
, ("square", dosquare)
, ("bshyp", lit "\\\173")
, ("fshyp", lit "/\173")
, ("dothyp", lit ".\173")
, ("colonhyp", lit ":\173")
, ("hyp", lit "-")
, ("nohyphens", tok)
, ("textnhtt", ttfamily)
, ("nhttfamily", ttfamily)
, ("textcolor", coloredInline "color")
, ("colorbox", coloredInline "background-color")
, ("faCheck", lit "\10003")
, ("faClose", lit "\10007")
, ("xspace", doxspace)
, ("ifstrequal", ifstrequal)
, ("newtoggle", braced >>= newToggle)
, ("toggletrue", braced >>= setToggle True)
, ("togglefalse", braced >>= setToggle False)
, ("iftoggle", try $ ifToggle >> inline)
, ("RN", romanNumeralUpper)
, ("Rn", romanNumeralLower)
, ("foreignlanguage", foreignlanguage)
]
makeUppercase :: Inlines -> Inlines
makeUppercase = fromList . walk (alterStr (map toUpper)) . toList
makeLowercase :: Inlines -> Inlines
makeLowercase = fromList . walk (alterStr (map toLower)) . toList
alterStr :: (String -> String) -> Inline -> Inline
alterStr f (Str xs) = Str (f xs)
alterStr _ x = x
foreignlanguage :: PandocMonad m => LP m Inlines
foreignlanguage = do
babelLang <- T.unpack . untokenize <$> braced
case babelLangToBCP47 babelLang of
Just lang -> spanWith ("", [], [("lang", renderLang lang)]) <$> tok
_ -> tok
inlineLanguageCommands :: PandocMonad m => M.Map Text (LP m Inlines)
inlineLanguageCommands = M.fromList $ mk <$> M.toList polyglossiaLangToBCP47
where
mk (polyglossia, bcp47Func) =
("text" <> T.pack polyglossia, inlineLanguage bcp47Func)
inlineLanguage :: PandocMonad m => (String -> Lang) -> LP m Inlines
inlineLanguage bcp47Func = do
o <- option "" $ (T.unpack . T.filter (\c -> c /= '[' && c /= ']'))
<$> rawopt
let lang = renderLang $ bcp47Func o
extractSpaces (spanWith ("", [], [("lang", lang)])) <$> tok
hyperlink :: PandocMonad m => LP m Inlines
hyperlink = try $ do
src <- toksToString <$> braced
lab <- tok
return $ link ('#':src) "" lab
hypertargetBlock :: PandocMonad m => LP m Blocks
hypertargetBlock = try $ do
ref <- toksToString <$> braced
bs <- grouped block
case toList bs of
[Header 1 (ident,_,_) _] | ident == ref -> return bs
_ -> return $ divWith (ref, [], []) bs
hypertargetInline :: PandocMonad m => LP m Inlines
hypertargetInline = try $ do
ref <- toksToString <$> braced
ils <- grouped inline
return $ spanWith (ref, [], []) ils
romanNumeralUpper :: (PandocMonad m) => LP m Inlines
romanNumeralUpper =
str . toRomanNumeral <$> romanNumeralArg
romanNumeralLower :: (PandocMonad m) => LP m Inlines
romanNumeralLower =
str . map toLower . toRomanNumeral <$> romanNumeralArg
romanNumeralArg :: (PandocMonad m) => LP m Int
romanNumeralArg = spaces *> (parser <|> inBraces)
where
inBraces = do
symbol '{'
spaces
res <- parser
spaces
symbol '}'
return res
parser = do
Tok _ Word s <- satisfyTok isWordTok
let (digits, rest) = T.span isDigit s
unless (T.null rest) $
fail "Non-digits in argument to \\Rn or \\RN"
safeRead $ T.unpack digits
newToggle :: (Monoid a, PandocMonad m) => [Tok] -> LP m a
newToggle name = do
updateState $ \st ->
st{ sToggles = M.insert (toksToString name) False (sToggles st) }
return mempty
setToggle :: (Monoid a, PandocMonad m) => Bool -> [Tok] -> LP m a
setToggle on name = do
updateState $ \st ->
st{ sToggles = M.adjust (const on) (toksToString name) (sToggles st) }
return mempty
ifToggle :: PandocMonad m => LP m ()
ifToggle = do
name <- braced
spaces
yes <- braced
spaces
no <- braced
toggles <- sToggles <$> getState
inp <- getInput
let name' = toksToString name
case M.lookup name' toggles of
Just True -> setInput (yes ++ inp)
Just False -> setInput (no ++ inp)
Nothing -> do
pos <- getPosition
report $ UndefinedToggle name' pos
return ()
doTerm :: PandocMonad m => Translations.Term -> LP m Inlines
doTerm term = str <$> translateTerm term
ifstrequal :: (PandocMonad m, Monoid a) => LP m a
ifstrequal = do
str1 <- tok
str2 <- tok
ifequal <- braced
ifnotequal <- braced
if str1 == str2
then getInput >>= setInput . (ifequal ++)
else getInput >>= setInput . (ifnotequal ++)
return mempty
coloredInline :: PandocMonad m => String -> LP m Inlines
coloredInline stylename = do
skipopts
color <- braced
spanWith ("",[],[("style",stylename ++ ": " ++ toksToString color)]) <$> tok
ttfamily :: PandocMonad m => LP m Inlines
ttfamily = (code . stringify . toList) <$> tok
rawInlineOr :: PandocMonad m => Text -> LP m Inlines -> LP m Inlines
rawInlineOr name' fallback = do
parseRaw <- extensionEnabled Ext_raw_tex <$> getOption readerExtensions
if parseRaw
then rawInline "latex" <$> getRawCommand name' ("\\" <> name')
else fallback
getRawCommand :: PandocMonad m => Text -> Text -> LP m String
getRawCommand name txt = do
(_, rawargs) <- withRaw $
case name of
"write" -> do
void $ satisfyTok isWordTok
void braced
"titleformat" -> do
void braced
skipopts
void $ count 4 braced
"def" ->
void $ manyTill anyTok braced
_ -> do
skipangles
skipopts
option "" (try (optional sp *> dimenarg))
void $ 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
[ "let", "def", "DeclareRobustCommand"
, "newcommand", "renewcommand"
, "newenvironment", "renewenvironment"
, "providecommand", "provideenvironment"
, "special", "pdfannot", "pdfstringdef"
, "bibliographystyle"
, "maketitle", "makeindex", "makeglossary"
, "addcontentsline", "addtocontents", "addtocounter"
, "ignore"
, "hyperdef"
, "markboth", "markright", "markleft"
, "hspace", "vspace"
, "newpage"
, "clearpage"
, "pagebreak"
, "titleformat"
, "listoffigures"
, "listoftables"
, "write"
]
isInlineCommand :: Text -> Bool
isInlineCommand s =
s `M.member` (inlineCommands :: M.Map Text (LP PandocPure Inlines))
|| s `Set.member` treatAsInline
treatAsInline :: Set.Set Text
treatAsInline = Set.fromList
[ "index"
, "hspace"
, "vspace"
, "noindent"
, "newpage"
, "clearpage"
, "pagebreak"
]
dolabel :: PandocMonad m => LP m Inlines
dolabel = do
v <- braced
let refstr = toksToString v
return $ spanWith (refstr,[],[("label", refstr)])
$ inBrackets $ str $ toksToString v
doref :: PandocMonad m => String -> LP m Inlines
doref cls = do
v <- braced
let refstr = toksToString v
return $ linkWith ("",[],[ ("reference-type", cls)
, ("reference", refstr)])
('#':refstr)
""
(inBrackets $ str refstr)
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 <$> many inline
begin_ :: PandocMonad m => Text -> LP m ()
begin_ t = try (do
controlSeq "begin"
spaces
txt <- untokenize <$> 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 opt
fs <- (map (T.unpack . removeDoubleQuotes . T.strip) . T.splitOn "," .
untokenize) <$> braced
let fs' = if name == "usepackage"
then map (maybeAddExtension ".sty") fs
else map (maybeAddExtension ".tex") fs
dirs <- (splitBy (==':') . fromMaybe ".") <$> lookupEnv "TEXINPUTS"
mapM_ (insertIncluded dirs) fs'
return mempty
insertIncluded :: PandocMonad m
=> [FilePath]
-> FilePath
-> LP m ()
insertIncluded dirs f = do
pos <- getPosition
containers <- getIncludeFiles <$> getState
when (f `elem` containers) $
throwError $ PandocParseError $ "Include file loop at " ++ show pos
updateState $ addIncludeFile f
mbcontents <- readFileFromDirs dirs f
contents <- case mbcontents of
Just s -> return s
Nothing -> do
report $ CouldNotLoadIncludeFile f pos
return ""
getInput >>= setInput . (tokenize f (T.pack contents) ++)
updateState dropLatestIncludeFile
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))
auths <- sepBy oneAuthor (controlSeq "and")
egroup
addMeta "author" (map trimInlines auths)
macroDef :: PandocMonad m => LP m Blocks
macroDef =
mempty <$ ((commandDef <|> environmentDef) <* doMacros 0)
where commandDef = do
(name, macro') <- newcommand <|> letmacro <|> defmacro
guardDisabled Ext_latex_macros <|>
updateState (\s -> s{ sMacros = M.insert name macro' (sMacros s) })
environmentDef = do
(name, macro1, macro2) <- newenvironment
guardDisabled Ext_latex_macros <|>
do updateState $ \s -> s{ sMacros =
M.insert name macro1 (sMacros s) }
updateState $ \s -> s{ sMacros =
M.insert ("end" <> name) macro2 (sMacros s) }
letmacro :: PandocMonad m => LP m (Text, Macro)
letmacro = do
controlSeq "let"
Tok _ (CtrlSeq name) _ <- anyControlSeq
optional $ symbol '='
spaces
contents <- bracedOrToken
return (name, Macro ExpandWhenDefined 0 Nothing contents)
defmacro :: PandocMonad m => LP m (Text, Macro)
defmacro = try $ do
controlSeq "def"
Tok _ (CtrlSeq name) _ <- anyControlSeq
numargs <- option 0 $ argSeq 1
contents <- withVerbatimMode bracedOrToken
return (name, Macro ExpandWhenUsed numargs Nothing contents)
argSeq :: PandocMonad m => Int -> LP m Int
argSeq n = do
Tok _ (Arg i) _ <- satisfyTok isArgTok
guard $ i == n
argSeq (n+1) <|> return n
isArgTok :: Tok -> Bool
isArgTok (Tok _ (Arg _) _) = True
isArgTok _ = False
bracedOrToken :: PandocMonad m => LP m [Tok]
bracedOrToken = braced <|> ((:[]) <$> (anyControlSeq <|> singleChar))
newcommand :: PandocMonad m => LP m (Text, Macro)
newcommand = do
pos <- getPosition
Tok _ (CtrlSeq mtype) _ <- controlSeq "newcommand" <|>
controlSeq "renewcommand" <|>
controlSeq "providecommand" <|>
controlSeq "DeclareRobustCommand"
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 <- withVerbatimMode bracedOrToken
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 ExpandWhenUsed 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 <- withVerbatimMode bracedOrToken
spaces
endcontents <- withVerbatimMode bracedOrToken
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 ExpandWhenUsed numargs optarg startcontents,
Macro ExpandWhenUsed 0 Nothing endcontents)
bracketedToks :: PandocMonad m => LP m [Tok]
bracketedToks = do
symbol '['
mconcat <$> manyTill (braced <|> (:[]) <$> 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
("",[],[("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 => Bool -> Attr -> Int -> LP m Blocks
section starred (ident, classes, kvs) lvl = do
skipopts
contents <- grouped inline
lab <- option ident $
try (spaces >> controlSeq "label"
>> spaces >> toksToString <$> braced)
let classes' = if starred then "unnumbered" : classes else classes
when (lvl == 0) $
updateState $ \st -> st{ sHasChapters = True }
unless starred $ do
hn <- sLastHeaderNum <$> getState
hasChapters <- sHasChapters <$> getState
let lvl' = lvl + if hasChapters then 1 else 0
let num = incrementHeaderNum lvl' hn
updateState $ \st -> st{ sLastHeaderNum = num }
updateState $ \st -> st{ sLabels = M.insert lab
[Str (renderHeaderNum num)]
(sLabels st) }
attr' <- registerHeader (lab, classes', kvs) contents
return $ headerWith attr' lvl contents
blockCommand :: PandocMonad m => LP m Blocks
blockCommand = try $ do
Tok _ (CtrlSeq name) txt <- anyControlSeq
guard $ name /= "begin" && name /= "end"
star <- option "" ("*" <$ symbol '*' <* optional sp)
let name' = name <> star
let names = ordNub [name', name]
let rawDefiniteBlock = do
guard $ isBlockCommand name
rawBlock "latex" <$> getRawCommand name (txt <> star)
let startCommand = try $ do
Tok _ (CtrlSeq n) _ <- anyControlSeq
guard $ "start" `T.isPrefixOf` n
let rawMaybeBlock = try $ do
guard $ not $ isInlineCommand name
curr <- rawBlock "latex" <$> getRawCommand name (txt <> star)
rest <- many $ notFollowedBy startCommand *> blockCommand
lookAhead $ blankline <|> startCommand
return $ curr <> mconcat rest
let raw = rawDefiniteBlock <|> rawMaybeBlock
lookupListDefault raw names blockCommands
closing :: PandocMonad m => LP m Blocks
closing = do
contents <- tok
st <- getState
let extractInlines (MetaBlocks [Plain ys]) = ys
extractInlines (MetaBlocks [Para ys ]) = ys
extractInlines _ = []
let sigs = case lookupMeta "author" (sMeta st) of
Just (MetaList xs) ->
para $ trimInlines $ fromList $
intercalate [LineBreak] $ map extractInlines xs
_ -> mempty
return $ para (trimInlines contents) <> sigs
blockCommands :: PandocMonad m => M.Map Text (LP m Blocks)
blockCommands = M.fromList
[ ("par", mempty <$ skipopts)
, ("parbox", skipopts >> braced >> grouped blocks)
, ("title", mempty <$ (skipopts *>
(grouped inline >>= addMeta "title")
<|> (grouped block >>= addMeta "title")))
, ("subtitle", mempty <$ (skipopts *> tok >>= addMeta "subtitle"))
, ("author", mempty <$ (skipopts *> authors))
, ("address", mempty <$ (skipopts *> tok >>= addMeta "address"))
, ("signature", mempty <$ (skipopts *> authors))
, ("date", mempty <$ (skipopts *> tok >>= addMeta "date"))
, ("dedication", mempty <$ (skipopts *> tok >>= addMeta "dedication"))
, ("part", section False nullAttr (1))
, ("part*", section True nullAttr (1))
, ("chapter", section False nullAttr 0)
, ("chapter*", section True ("",["unnumbered"],[]) 0)
, ("section", section False nullAttr 1)
, ("section*", section True ("",["unnumbered"],[]) 1)
, ("subsection", section False nullAttr 2)
, ("subsection*", section True ("",["unnumbered"],[]) 2)
, ("subsubsection", section False nullAttr 3)
, ("subsubsection*", section True ("",["unnumbered"],[]) 3)
, ("paragraph", section False nullAttr 4)
, ("paragraph*", section True ("",["unnumbered"],[]) 4)
, ("subparagraph", section False nullAttr 5)
, ("subparagraph*", section True ("",["unnumbered"],[]) 5)
, ("frametitle", section False nullAttr 3)
, ("framesubtitle", section False nullAttr 4)
, ("opening", (para . trimInlines) <$> (skipopts *> tok))
, ("closing", skipopts *> closing)
, ("plainbreak", braced >> pure horizontalRule)
, ("plainbreak*", braced >> pure horizontalRule)
, ("fancybreak", braced >> pure horizontalRule)
, ("fancybreak*", braced >> pure horizontalRule)
, ("plainfancybreak", braced >> braced >> braced >> pure horizontalRule)
, ("plainfancybreak*", braced >> braced >> braced >> pure horizontalRule)
, ("pfbreak", pure horizontalRule)
, ("pfbreak*", pure horizontalRule)
, ("hrule", pure horizontalRule)
, ("strut", pure mempty)
, ("rule", skipopts *> tok *> tok *> pure horizontalRule)
, ("item", looseItem)
, ("documentclass", skipopts *> braced *> preamble)
, ("centerline", (para . trimInlines) <$> (skipopts *> tok))
, ("caption", skipopts *> setCaption)
, ("bibliography", mempty <$ (skipopts *> braced >>=
addMeta "bibliography" . splitBibs . toksToString))
, ("addbibresource", mempty <$ (skipopts *> braced >>=
addMeta "bibliography" . splitBibs . toksToString))
, ("lstinputlisting", inputListing)
, ("graphicspath", graphicsPath)
, ("setdefaultlanguage", setDefaultLanguage)
, ("setmainlanguage", setDefaultLanguage)
, ("hypertarget", hypertargetBlock)
, ("textcolor", coloredBlock "color")
, ("colorbox", coloredBlock "background-color")
]
environments :: PandocMonad m => M.Map Text (LP m Blocks)
environments = M.fromList
[ ("document", env "document" blocks)
, ("abstract", mempty <$ (env "abstract" blocks >>= addMeta "abstract"))
, ("sloppypar", env "sloppypar" $ blocks)
, ("letter", env "letter" letterContents)
, ("minipage", env "minipage" $
skipopts *> spaces *> optional braced *> spaces *> blocks)
, ("figure", env "figure" $ skipopts *> figure)
, ("subfigure", env "subfigure" $ skipopts *> tok *> figure)
, ("center", 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)
, ("tikzpicture", rawVerbEnv "tikzpicture")
, ("ifstrequal", ifstrequal)
, ("newtoggle", braced >>= newToggle)
, ("toggletrue", braced >>= setToggle True)
, ("togglefalse", braced >>= setToggle False)
, ("iftoggle", try $ ifToggle >> block)
]
environment :: PandocMonad m => LP m Blocks
environment = try $ do
controlSeq "begin"
name <- untokenize <$> braced
M.findWithDefault mzero name environments <|>
if M.member name (inlineEnvironments
:: M.Map Text (LP PandocPure Inlines))
then mzero
else rawEnv name
env :: PandocMonad m => Text -> LP m a -> LP m a
env name p = p <* end_ name
rawEnv :: PandocMonad m => Text -> LP m Blocks
rawEnv name = do
exts <- getOption readerExtensions
let parseRaw = extensionEnabled Ext_raw_tex exts
rawOptions <- mconcat <$> 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
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 <$> verbEnv name
obeylines :: PandocMonad m => LP m Blocks
obeylines =
para . fromList . removeLeadingTrailingBreaks .
walk softBreakToHard . toList <$> 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
let addr = case lookupMeta "address" (sMeta st) of
Just (MetaBlocks [Plain xs]) ->
para $ trimInlines $ fromList xs
_ -> mempty
return $ addr <> bs
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
coloredBlock :: PandocMonad m => String -> LP m Blocks
coloredBlock stylename = try $ do
skipopts
color <- braced
notFollowedBy (grouped inline)
let constructor = divWith ("",[],[("style",stylename ++ ": " ++ toksToString color)])
constructor <$> grouped block
graphicsPath :: PandocMonad m => LP m Blocks
graphicsPath = do
ps <- map toksToString <$> (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
item :: PandocMonad m => LP m Blocks
item = void blocks *> controlSeq "item" *> skipopts *> blocks
descItem :: PandocMonad m => LP m (Inlines, [Blocks])
descItem = do
blocks
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
hline :: PandocMonad m => LP m ()
hline = try $ do
spaces
controlSeq "hline" <|>
controlSeq "toprule" <|>
controlSeq "bottomrule" <|>
controlSeq "midrule" <|>
controlSeq "endhead" <|>
controlSeq "endfirsthead"
spaces
optional opt
return ()
lbreak :: PandocMonad m => LP m Tok
lbreak = (controlSeq "\\" <|> controlSeq "tabularnewline") <* spaces
amp :: PandocMonad m => LP m Tok
amp = symbol '&'
splitWordTok :: PandocMonad m => LP m ()
splitWordTok = do
inp <- getInput
case inp of
(Tok spos Word t : rest) ->
setInput $ map (Tok spos Symbol . T.singleton) (T.unpack t) ++ rest
_ -> return ()
parseAligns :: PandocMonad m => LP m [(Alignment, 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'
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 <$> manyTill anyTok (controlSeq "linewidth")
spaces
symbol '}'
case safeRead ds of
Just w -> return w
Nothing -> return 0.0
let alignSpec = do
pref <- option [] alignPrefix
spaces
al <- alignChar
width <- colWidth <|> option 0.0 (do s <- toksToString <$> braced
pos <- getPosition
report $ SkippedContent s pos
return 0.0)
spaces
suff <- option [] alignSuffix
return (al, width, (pref, suff))
let starAlign = do
symbol '*'
spaces
ds <- trim . toksToString <$> braced
spaces
spec <- braced
case safeRead ds of
Just n ->
getInput >>= setInput . (mconcat (replicate n spec) ++)
Nothing -> fail $ "Could not parse " ++ ds ++ " as number"
bgroup
spaces
maybeBar
aligns' <- many $ try $ spaces >> optional starAlign >>
(alignSpec <* maybeBar)
spaces
egroup
spaces
return aligns'
parseTableRow :: PandocMonad m
=> Text
-> [([Tok], [Tok])]
-> LP m [Blocks]
parseTableRow envname prefsufs = do
notFollowedBy (spaces *> end_ envname)
let cols = length prefsufs
let celltoks (pref, suff) = do
prefpos <- getPosition
contents <- many (notFollowedBy
(() <$ amp <|> () <$ lbreak <|> end_ envname)
>> anyTok)
suffpos <- getPosition
option [] (count 1 amp)
return $ map (setpos prefpos) pref ++ contents ++ map (setpos suffpos) suff
rawcells <- mapM celltoks prefsufs
oldInput <- getInput
cells <- mapM (\ts -> setInput ts >> parseTableCell) rawcells
setInput oldInput
spaces
let numcells = length cells
guard $ numcells <= cols && numcells >= 1
guard $ cells /= [mempty]
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"
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 = do
res <- (mempty <$ spaces1)
<|> environment
<|> include
<|> macroDef
<|> blockCommand
<|> paragraph
<|> grouped block
trace (take 60 $ show $ B.toList res)
return res
blocks :: PandocMonad m => LP m Blocks
blocks = mconcat <$> many block
setDefaultLanguage :: PandocMonad m => LP m Blocks
setDefaultLanguage = do
o <- option "" $ (T.unpack . T.filter (\c -> c /= '[' && c /= ']'))
<$> rawopt
polylang <- toksToString <$> braced
case M.lookup polylang polyglossiaLangToBCP47 of
Nothing -> return mempty
Just langFunc -> do
let l = langFunc o
setTranslations l
updateState $ setMeta "lang" $ str (renderLang l)
return mempty
polyglossiaLangToBCP47 :: M.Map String (String -> Lang)
polyglossiaLangToBCP47 = M.fromList
[ ("arabic", \o -> case filter (/=' ') o of
"locale=algeria" -> Lang "ar" "" "DZ" []
"locale=mashriq" -> Lang "ar" "" "SY" []
"locale=libya" -> Lang "ar" "" "LY" []
"locale=morocco" -> Lang "ar" "" "MA" []
"locale=mauritania" -> Lang "ar" "" "MR" []
"locale=tunisia" -> Lang "ar" "" "TN" []
_ -> Lang "ar" "" "" [])
, ("german", \o -> case filter (/=' ') o of
"spelling=old" -> Lang "de" "" "DE" ["1901"]
"variant=austrian,spelling=old"
-> Lang "de" "" "AT" ["1901"]
"variant=austrian" -> Lang "de" "" "AT" []
"variant=swiss,spelling=old"
-> Lang "de" "" "CH" ["1901"]
"variant=swiss" -> Lang "de" "" "CH" []
_ -> Lang "de" "" "" [])
, ("lsorbian", \_ -> Lang "dsb" "" "" [])
, ("greek", \o -> case filter (/=' ') o of
"variant=poly" -> Lang "el" "" "polyton" []
"variant=ancient" -> Lang "grc" "" "" []
_ -> Lang "el" "" "" [])
, ("english", \o -> case filter (/=' ') o of
"variant=australian" -> Lang "en" "" "AU" []
"variant=canadian" -> Lang "en" "" "CA" []
"variant=british" -> Lang "en" "" "GB" []
"variant=newzealand" -> Lang "en" "" "NZ" []
"variant=american" -> Lang "en" "" "US" []
_ -> Lang "en" "" "" [])
, ("usorbian", \_ -> Lang "hsb" "" "" [])
, ("latin", \o -> case filter (/=' ') o of
"variant=classic" -> Lang "la" "" "" ["x-classic"]
_ -> Lang "la" "" "" [])
, ("slovenian", \_ -> Lang "sl" "" "" [])
, ("serbianc", \_ -> Lang "sr" "cyrl" "" [])
, ("pinyin", \_ -> Lang "zh" "Latn" "" ["pinyin"])
, ("afrikaans", \_ -> Lang "af" "" "" [])
, ("amharic", \_ -> Lang "am" "" "" [])
, ("assamese", \_ -> Lang "as" "" "" [])
, ("asturian", \_ -> Lang "ast" "" "" [])
, ("bulgarian", \_ -> Lang "bg" "" "" [])
, ("bengali", \_ -> Lang "bn" "" "" [])
, ("tibetan", \_ -> Lang "bo" "" "" [])
, ("breton", \_ -> Lang "br" "" "" [])
, ("catalan", \_ -> Lang "ca" "" "" [])
, ("welsh", \_ -> Lang "cy" "" "" [])
, ("czech", \_ -> Lang "cs" "" "" [])
, ("coptic", \_ -> Lang "cop" "" "" [])
, ("danish", \_ -> Lang "da" "" "" [])
, ("divehi", \_ -> Lang "dv" "" "" [])
, ("esperanto", \_ -> Lang "eo" "" "" [])
, ("spanish", \_ -> Lang "es" "" "" [])
, ("estonian", \_ -> Lang "et" "" "" [])
, ("basque", \_ -> Lang "eu" "" "" [])
, ("farsi", \_ -> Lang "fa" "" "" [])
, ("finnish", \_ -> Lang "fi" "" "" [])
, ("french", \_ -> Lang "fr" "" "" [])
, ("friulan", \_ -> Lang "fur" "" "" [])
, ("irish", \_ -> Lang "ga" "" "" [])
, ("scottish", \_ -> Lang "gd" "" "" [])
, ("ethiopic", \_ -> Lang "gez" "" "" [])
, ("galician", \_ -> Lang "gl" "" "" [])
, ("hebrew", \_ -> Lang "he" "" "" [])
, ("hindi", \_ -> Lang "hi" "" "" [])
, ("croatian", \_ -> Lang "hr" "" "" [])
, ("magyar", \_ -> Lang "hu" "" "" [])
, ("armenian", \_ -> Lang "hy" "" "" [])
, ("interlingua", \_ -> Lang "ia" "" "" [])
, ("indonesian", \_ -> Lang "id" "" "" [])
, ("icelandic", \_ -> Lang "is" "" "" [])
, ("italian", \_ -> Lang "it" "" "" [])
, ("japanese", \_ -> Lang "jp" "" "" [])
, ("khmer", \_ -> Lang "km" "" "" [])
, ("kurmanji", \_ -> Lang "kmr" "" "" [])
, ("kannada", \_ -> Lang "kn" "" "" [])
, ("korean", \_ -> Lang "ko" "" "" [])
, ("lao", \_ -> Lang "lo" "" "" [])
, ("lithuanian", \_ -> Lang "lt" "" "" [])
, ("latvian", \_ -> Lang "lv" "" "" [])
, ("malayalam", \_ -> Lang "ml" "" "" [])
, ("mongolian", \_ -> Lang "mn" "" "" [])
, ("marathi", \_ -> Lang "mr" "" "" [])
, ("dutch", \_ -> Lang "nl" "" "" [])
, ("nynorsk", \_ -> Lang "nn" "" "" [])
, ("norsk", \_ -> Lang "no" "" "" [])
, ("nko", \_ -> Lang "nqo" "" "" [])
, ("occitan", \_ -> Lang "oc" "" "" [])
, ("panjabi", \_ -> Lang "pa" "" "" [])
, ("polish", \_ -> Lang "pl" "" "" [])
, ("piedmontese", \_ -> Lang "pms" "" "" [])
, ("portuguese", \_ -> Lang "pt" "" "" [])
, ("romansh", \_ -> Lang "rm" "" "" [])
, ("romanian", \_ -> Lang "ro" "" "" [])
, ("russian", \_ -> Lang "ru" "" "" [])
, ("sanskrit", \_ -> Lang "sa" "" "" [])
, ("samin", \_ -> Lang "se" "" "" [])
, ("slovak", \_ -> Lang "sk" "" "" [])
, ("albanian", \_ -> Lang "sq" "" "" [])
, ("serbian", \_ -> Lang "sr" "" "" [])
, ("swedish", \_ -> Lang "sv" "" "" [])
, ("syriac", \_ -> Lang "syr" "" "" [])
, ("tamil", \_ -> Lang "ta" "" "" [])
, ("telugu", \_ -> Lang "te" "" "" [])
, ("thai", \_ -> Lang "th" "" "" [])
, ("turkmen", \_ -> Lang "tk" "" "" [])
, ("turkish", \_ -> Lang "tr" "" "" [])
, ("ukrainian", \_ -> Lang "uk" "" "" [])
, ("urdu", \_ -> Lang "ur" "" "" [])
, ("vietnamese", \_ -> Lang "vi" "" "" [])
]
babelLangToBCP47 :: String -> Maybe Lang
babelLangToBCP47 s =
case s of
"austrian" -> Just $ Lang "de" "" "AT" ["1901"]
"naustrian" -> Just $ Lang "de" "" "AT" []
"swissgerman" -> Just $ Lang "de" "" "CH" ["1901"]
"nswissgerman" -> Just $ Lang "de" "" "CH" []
"german" -> Just $ Lang "de" "" "DE" ["1901"]
"ngerman" -> Just $ Lang "de" "" "DE" []
"lowersorbian" -> Just $ Lang "dsb" "" "" []
"uppersorbian" -> Just $ Lang "hsb" "" "" []
"polutonikogreek" -> Just $ Lang "el" "" "" ["polyton"]
"slovene" -> Just $ Lang "sl" "" "" []
"australian" -> Just $ Lang "en" "" "AU" []
"canadian" -> Just $ Lang "en" "" "CA" []
"british" -> Just $ Lang "en" "" "GB" []
"newzealand" -> Just $ Lang "en" "" "NZ" []
"american" -> Just $ Lang "en" "" "US" []
"classiclatin" -> Just $ Lang "la" "" "" ["x-classic"]
_ -> fmap ($ "") $ M.lookup s polyglossiaLangToBCP47