{-# LANGUAGE FlexibleContexts #-}
module Text.Pandoc.Readers.Man (readMan) where
import Prelude
import Data.Char (toLower)
import Data.Default (Default)
import Control.Monad (liftM, mzero, guard, void)
import Control.Monad.Trans (lift)
import Control.Monad.Except (throwError)
import Text.Pandoc.Class (PandocMonad(..), report)
import Data.Maybe (catMaybes, isJust)
import Data.List (intersperse, intercalate)
import qualified Data.Text as T
import Text.Pandoc.Builder as B
import Text.Pandoc.Error (PandocError (PandocParsecError))
import Text.Pandoc.Logging (LogMessage(..))
import Text.Pandoc.Options
import Text.Pandoc.Parsing
import Text.Pandoc.Walk (query)
import Text.Pandoc.Shared (crFilter, mapLeft)
import Text.Pandoc.Readers.Roff
import Text.Parsec hiding (tokenPrim)
import qualified Text.Parsec as Parsec
import Text.Parsec.Pos (updatePosString, initialPos)
import qualified Data.Foldable as Foldable
data ManState = ManState { readerOptions :: ReaderOptions
, metadata :: Meta
, tableCellsPlain :: Bool
} deriving Show
instance Default ManState where
def = ManState { readerOptions = def
, metadata = nullMeta
, tableCellsPlain = True }
type ManParser m = ParserT [RoffToken] ManState m
readMan :: PandocMonad m => ReaderOptions -> T.Text -> m Pandoc
readMan opts txt = do
tokenz <- lexRoff (initialPos "input") (crFilter txt)
let state = def {readerOptions = opts} :: ManState
eitherdoc <- readWithMTokens parseMan state
(Foldable.toList . unRoffTokens $ tokenz)
either throwError return eitherdoc
readWithMTokens :: PandocMonad m
=> ParserT [RoffToken] ManState m a
-> ManState
-> [RoffToken]
-> m (Either PandocError a)
readWithMTokens parser state input =
let leftF = PandocParsecError . intercalate "\n" $ show <$> input
in mapLeft leftF `liftM` runParserT parser state "source" input
parseMan :: PandocMonad m => ManParser m Pandoc
parseMan = do
bs <- many parseBlock <* eof
meta <- metadata <$> getState
let (Pandoc _ blocks) = doc $ mconcat bs
return $ Pandoc meta blocks
parseBlock :: PandocMonad m => ManParser m Blocks
parseBlock = choice [ parseList
, parseDefinitionList
, parseHeader
, parseTable
, parseTitle
, parseCodeBlock
, parseBlockQuote
, parseNewParagraph
, parsePara
, skipUnknownMacro
]
parseTable :: PandocMonad m => ManParser m Blocks
parseTable = do
modifyState $ \st -> st { tableCellsPlain = True }
let isTbl (Tbl{}) = True
isTbl _ = False
Tbl _opts rows pos <- msatisfy isTbl
case rows of
((as,_):_) -> try (do
let as' = map (columnTypeToAlignment . columnType) as
guard $ all isJust as'
let alignments = catMaybes as'
let (headerRow', bodyRows') =
case rows of
(h:x:bs)
| isHrule x -> (h, bs)
_ -> (([],[]), rows)
headerRow <- mapM parseTableCell $ snd headerRow'
bodyRows <- mapM (mapM parseTableCell . snd) bodyRows'
isPlainTable <- tableCellsPlain <$> getState
let widths = if isPlainTable
then repeat 0.0
else repeat ((1.0 / fromIntegral (length alignments))
:: Double)
return $ B.table mempty (zip alignments widths)
headerRow bodyRows) <|> fallback pos
[] -> fallback pos
where
parseTableCell ts = do
st <- getState
let ts' = Foldable.toList $ unRoffTokens ts
let plaintcell = try $ do
skipMany memptyLine
plain . trimInlines <$> (parseInlines <* eof)
let blockstcell = try $ do
skipMany memptyLine
mconcat <$> many parseBlock <* eof
res <- if null ts'
then return $ Right mempty
else lift $ readWithMTokens plaintcell st ts'
case res of
Left _ -> do
res' <- lift $ readWithMTokens blockstcell st ts'
case res' of
Left _ -> fail "Could not parse table cell"
Right x -> do
modifyState $ \s -> s{ tableCellsPlain = False }
return x
Right x -> return x
isHrule :: TableRow -> Bool
isHrule ([cellfmt], _) = columnType cellfmt `elem` ['_','-','=']
isHrule (_, [RoffTokens ss]) =
case Foldable.toList ss of
[TextLine [RoffStr [c]]] -> c `elem` ['_','-','=']
_ -> False
isHrule _ = False
fallback pos = do
report $ SkippedContent "TABLE" pos
return $ B.para (B.text "TABLE")
columnTypeToAlignment :: Char -> Maybe Alignment
columnTypeToAlignment c =
case toLower c of
'a' -> Just AlignLeft
'c' -> Just AlignCenter
'l' -> Just AlignLeft
'n' -> Just AlignRight
'r' -> Just AlignRight
_ -> Nothing
parseNewParagraph :: PandocMonad m => ManParser m Blocks
parseNewParagraph = do
mmacro "P" <|> mmacro "PP" <|> mmacro "LP" <|> memptyLine
return mempty
msatisfy :: Monad m => (RoffToken -> Bool) -> ParserT [RoffToken] st m RoffToken
msatisfy predic = tokenPrim show nextPos testTok
where
testTok t = if predic t then Just t else Nothing
nextPos _pos _x (ControlLine _ _ pos':_) = pos'
nextPos pos _x _xs = updatePosString
(setSourceColumn
(setSourceLine pos $ sourceLine pos + 1) 1) ""
mtoken :: PandocMonad m => ManParser m RoffToken
mtoken = msatisfy (const True)
mline :: PandocMonad m => ManParser m RoffToken
mline = msatisfy isTextLine where
isTextLine (TextLine _) = True
isTextLine _ = False
memptyLine :: PandocMonad m => ManParser m RoffToken
memptyLine = msatisfy isEmptyLine where
isEmptyLine EmptyLine = True
isEmptyLine _ = False
mmacro :: PandocMonad m => String -> ManParser m RoffToken
mmacro mk = msatisfy isControlLine where
isControlLine (ControlLine mk' _ _) | mk == mk' = True
| otherwise = False
isControlLine _ = False
mmacroAny :: PandocMonad m => ManParser m RoffToken
mmacroAny = msatisfy isControlLine where
isControlLine ControlLine{} = True
isControlLine _ = False
parseTitle :: PandocMonad m => ManParser m Blocks
parseTitle = do
(ControlLine _ args _) <- mmacro "TH"
let adjustMeta =
case args of
(x:y:z:_) -> setMeta "title" (linePartsToInlines x) .
setMeta "section" (linePartsToInlines y) .
setMeta "date" (linePartsToInlines z)
[x,y] -> setMeta "title" (linePartsToInlines x) .
setMeta "section" (linePartsToInlines y)
[x] -> setMeta "title" (linePartsToInlines x)
[] -> id
modifyState $ \st -> st{ metadata = adjustMeta $ metadata st }
return mempty
linePartsToInlines :: [LinePart] -> Inlines
linePartsToInlines = go False
where
go :: Bool -> [LinePart] -> Inlines
go _ [] = mempty
go mono (MacroArg _:xs) = go mono xs
go mono (RoffStr s : RoffStr t : xs) = go mono (RoffStr (s <> t):xs)
go mono (RoffStr s : xs)
| mono = code s <> go mono xs
| otherwise = text s <> go mono xs
go mono (Font fs: xs) =
if litals > 0 && litals >= lbolds && litals >= lmonos
then emph (go mono (Font fs{ fontItalic = False } :
map (adjustFontSpec (\s -> s{ fontItalic = False }))
itals)) <>
go mono italsrest
else if lbolds > 0 && lbolds >= lmonos
then strong (go mono (Font fs{ fontBold = False } :
map (adjustFontSpec (\s -> s{ fontBold = False }))
bolds)) <>
go mono boldsrest
else if lmonos > 0
then go True (Font fs{ fontMonospace = False } :
map (adjustFontSpec (\s -> s { fontMonospace = False }))
monos) <> go mono monosrest
else go mono xs
where
adjustFontSpec f (Font fspec) = Font (f fspec)
adjustFontSpec _ x = x
withFont f (Font fspec) = f fspec
withFont _ _ = False
litals = length itals
lbolds = length bolds
lmonos = length monos
(itals, italsrest) =
if fontItalic fs
then break (withFont (not . fontItalic)) xs
else ([], xs)
(bolds, boldsrest) =
if fontBold fs
then break (withFont (not . fontBold)) xs
else ([], xs)
(monos, monosrest) =
if fontMonospace fs
then break (withFont (not . fontMonospace)) xs
else ([], xs)
parsePara :: PandocMonad m => ManParser m Blocks
parsePara = para . trimInlines <$> parseInlines
parseInlines :: PandocMonad m => ManParser m Inlines
parseInlines = mconcat . intersperse B.space <$> many1 parseInline
parseInline :: PandocMonad m => ManParser m Inlines
parseInline = try $ do
tok <- mtoken
case tok of
TextLine lparts -> return $ linePartsToInlines lparts
ControlLine mname args pos -> handleInlineMacro mname args pos
_ -> mzero
handleInlineMacro :: PandocMonad m
=> String -> [Arg] -> SourcePos -> ManParser m Inlines
handleInlineMacro mname args _pos = do
case mname of
"UR" -> parseLink args
"MT" -> parseEmailLink args
"B" -> parseBold args
"I" -> parseItalic args
"br" -> return linebreak
"BI" -> parseAlternatingFonts [strong, emph] args
"IB" -> parseAlternatingFonts [emph, strong] args
"IR" -> parseAlternatingFonts [emph, id] args
"RI" -> parseAlternatingFonts [id, emph] args
"BR" -> parseAlternatingFonts [strong, id] args
"RB" -> parseAlternatingFonts [id, strong] args
"SY" -> return $ strong $ mconcat $ intersperse B.space
$ map linePartsToInlines args
"YS" -> return mempty
"OP" -> case args of
(x:ys) -> return $ B.space <> str "[" <> B.space <>
mconcat (strong (linePartsToInlines x) :
map ((B.space <>) . linePartsToInlines) ys)
<> B.space <> str "]"
[] -> return mempty
_ -> mzero
parseBold :: PandocMonad m => [Arg] -> ManParser m Inlines
parseBold [] = do
TextLine lparts <- mline
return $ strong $ linePartsToInlines lparts
parseBold args = return $
strong $ mconcat $ intersperse B.space $ map linePartsToInlines args
parseItalic :: PandocMonad m => [Arg] -> ManParser m Inlines
parseItalic [] = do
TextLine lparts <- mline
return $ emph $ linePartsToInlines lparts
parseItalic args = return $
emph $ mconcat $ intersperse B.space $ map linePartsToInlines args
parseAlternatingFonts :: PandocMonad m
=> [Inlines -> Inlines]
-> [Arg]
-> ManParser m Inlines
parseAlternatingFonts constructors args = return $ mconcat $
zipWith (\f arg -> f (linePartsToInlines arg)) (cycle constructors) args
lineInl :: PandocMonad m => ManParser m Inlines
lineInl = do
(TextLine fragments) <- mline
return $ linePartsToInlines fragments
bareIP :: PandocMonad m => ManParser m RoffToken
bareIP = msatisfy isBareIP where
isBareIP (ControlLine "IP" [] _) = True
isBareIP _ = False
endmacro :: PandocMonad m => String -> ManParser m ()
endmacro name = void (mmacro name)
<|> lookAhead (void newBlockMacro)
<|> lookAhead eof
where
newBlockMacro = msatisfy isNewBlockMacro
isNewBlockMacro (ControlLine "SH" _ _) = True
isNewBlockMacro (ControlLine "SS" _ _) = True
isNewBlockMacro _ = False
parseCodeBlock :: PandocMonad m => ManParser m Blocks
parseCodeBlock = try $ do
optional bareIP
optional (mmacro "in")
toks <- (mmacro "nf" *> manyTill codeline (endmacro "fi"))
<|> (mmacro "EX" *> manyTill codeline (endmacro "EE"))
optional (mmacro "in")
return $ codeBlock (intercalate "\n" $ catMaybes toks)
where
codeline = do
tok <- mtoken
case tok of
ControlLine "PP" _ _ -> return $ Just ""
ControlLine mname args pos -> do
(Just . query getText <$> handleInlineMacro mname args pos) <|>
do report $ SkippedContent ('.':mname) pos
return Nothing
Tbl _ _ pos -> do
report $ SkippedContent "TABLE" pos
return $ Just "TABLE"
EmptyLine -> return $ Just ""
TextLine ss
| not (null ss)
, all isFontToken ss -> return Nothing
| otherwise -> return $ Just $ linePartsToString ss
isFontToken Font{} = True
isFontToken _ = False
getText :: Inline -> String
getText (Str s) = s
getText Space = " "
getText (Code _ s) = s
getText SoftBreak = "\n"
getText LineBreak = "\n"
getText _ = ""
parseHeader :: PandocMonad m => ManParser m Blocks
parseHeader = do
ControlLine name args _ <- mmacro "SH" <|> mmacro "SS"
contents <- if null args
then option mempty lineInl
else return $ mconcat $ intersperse B.space
$ map linePartsToInlines args
let lvl = if name == "SH" then 1 else 2
return $ header lvl contents
parseBlockQuote :: PandocMonad m => ManParser m Blocks
parseBlockQuote = blockQuote <$> continuation
data ListType = Ordered ListAttributes
| Bullet
listTypeMatches :: Maybe ListType -> ListType -> Bool
listTypeMatches Nothing _ = True
listTypeMatches (Just Bullet) Bullet = True
listTypeMatches (Just (Ordered (_,x,y))) (Ordered (_,x',y'))
= x == x' && y == y'
listTypeMatches (Just _) _ = False
listItem :: PandocMonad m => Maybe ListType -> ManParser m (ListType, Blocks)
listItem mbListType = try $ do
(ControlLine _ args _) <- mmacro "IP"
case args of
(arg1 : _) -> do
let cs = linePartsToString arg1
let cs' = if not ('.' `elem` cs || ')' `elem` cs) then cs ++ "." else cs
let lt = case Parsec.runParser anyOrderedListMarker defaultParserState
"list marker" cs' of
Right (start, listtype, listdelim)
| cs == cs' -> Ordered (start, listtype, listdelim)
| otherwise -> Ordered (start, listtype, DefaultDelim)
Left _ -> Bullet
guard $ listTypeMatches mbListType lt
inls <- option mempty parseInlines
continuations <- mconcat <$> many continuation
return (lt, para inls <> continuations)
[] -> mzero
parseList :: PandocMonad m => ManParser m Blocks
parseList = try $ do
(lt, x) <- listItem Nothing
xs <- map snd <$> many (listItem (Just lt))
return $ case lt of
Bullet -> bulletList (x:xs)
Ordered lattr -> orderedListWith lattr (x:xs)
continuation :: PandocMonad m => ManParser m Blocks
continuation =
mconcat <$> (mmacro "RS" *> manyTill parseBlock (endmacro "RE"))
<|> mconcat <$> many1 ( try (bareIP *> parsePara)
<|> try (bareIP *> parseCodeBlock)
)
definitionListItem :: PandocMonad m
=> ManParser m (Inlines, [Blocks])
definitionListItem = try $ do
mmacro "TP"
term <- parseInline
moreterms <- many $ try $ do
mmacro "TQ"
parseInline
inls <- option mempty parseInlines
continuations <- mconcat <$> many continuation
return ( mconcat (intersperse B.linebreak (term:moreterms))
, [para inls <> continuations])
parseDefinitionList :: PandocMonad m => ManParser m Blocks
parseDefinitionList = definitionList <$> many1 definitionListItem
parseLink :: PandocMonad m => [Arg] -> ManParser m Inlines
parseLink args = do
contents <- mconcat <$> many lineInl
ControlLine _ endargs _ <- mmacro "UE"
let url = case args of
[] -> ""
(x:_) -> linePartsToString x
return $ link url "" contents <>
case endargs of
[] -> mempty
(x:_) -> linePartsToInlines x
parseEmailLink :: PandocMonad m => [Arg] -> ManParser m Inlines
parseEmailLink args = do
contents <- mconcat <$> many lineInl
ControlLine _ endargs _ <- mmacro "ME"
let url = case args of
[] -> ""
(x:_) -> "mailto:" ++ linePartsToString x
return $ link url "" contents <>
case endargs of
[] -> mempty
(x:_) -> linePartsToInlines x
skipUnknownMacro :: PandocMonad m => ManParser m Blocks
skipUnknownMacro = do
tok <- mmacroAny
case tok of
ControlLine mkind _ pos -> do
report $ SkippedContent ('.':mkind) pos
return mempty
_ -> fail "the impossible happened"