{-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE ScopedTypeVariables #-} {- Copyright (C) 2006-2015 John MacFarlane This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -} {- | Module : Text.Pandoc.Readers.RST Copyright : Copyright (C) 2006-2015 John MacFarlane License : GNU GPL, version 2 or above Maintainer : John MacFarlane Stability : alpha Portability : portable Conversion from reStructuredText to 'Pandoc' document. -} module Text.Pandoc.Readers.RST ( readRST ) where import Control.Monad (guard, liftM, mzero, when) import Control.Monad.Except (throwError) import Data.Char (isHexDigit, isSpace, toLower, toUpper) import Data.List (deleteFirstsBy, findIndex, intercalate, isInfixOf, isSuffixOf, nub, sort, transpose, union) import qualified Data.Map as M import Data.Maybe (fromMaybe, isJust) import Data.Monoid ((<>)) import Data.Sequence (ViewR (..), viewr) import Text.Pandoc.Builder (fromList, setMeta) import Text.Pandoc.Builder (Blocks, Inlines, trimInlines) import qualified Text.Pandoc.Builder as B import Text.Pandoc.Class (PandocMonad, readFileFromDirs) import Text.Pandoc.Definition import Text.Pandoc.Error import Text.Pandoc.ImageSize (lengthToDim, scaleDimension) import Text.Pandoc.Logging import Text.Pandoc.Options import Text.Pandoc.Parsing import Text.Pandoc.Shared import Text.Printf (printf) -- TODO: -- [ ] .. parsed-literal -- [ ] :widths: attribute in .. table -- [ ] .. csv-table -- [ ] .. list-table -- | Parse reStructuredText string and return Pandoc document. readRST :: PandocMonad m => ReaderOptions -- ^ Reader options -> String -- ^ String to parse (assuming @'\n'@ line endings) -> m Pandoc readRST opts s = do parsed <- (readWithM parseRST) def{ stateOptions = opts } (s ++ "\n\n") case parsed of Right result -> return result Left e -> throwError e type RSTParser m = ParserT [Char] ParserState m -- -- Constants and data structure definitions --- bulletListMarkers :: [Char] bulletListMarkers = "*+-" underlineChars :: [Char] underlineChars = "!\"#$%&'()*+,-./:;<=>?@[\\]^_`{|}~" -- treat these as potentially non-text when parsing inline: specialChars :: [Char] specialChars = "\\`|*_<>$:/[]{}()-.\"'\8216\8217\8220\8221" -- -- parsing documents -- isHeader :: Int -> Block -> Bool isHeader n (Header x _ _) = x == n isHeader _ _ = False -- | Promote all headers in a list of blocks. (Part of -- title transformation for RST.) promoteHeaders :: Int -> [Block] -> [Block] promoteHeaders num ((Header level attr text):rest) = (Header (level - num) attr text):(promoteHeaders num rest) promoteHeaders num (other:rest) = other:(promoteHeaders num rest) promoteHeaders _ [] = [] -- | If list of blocks starts with a header (or a header and subheader) -- of level that are not found elsewhere, return it as a title and -- promote all the other headers. Also process a definition list right -- after the title block as metadata. titleTransform :: ([Block], Meta) -- ^ list of blocks, metadata -> ([Block], Meta) -- ^ modified list of blocks, metadata titleTransform (bs, meta) = let (bs', meta') = case bs of ((Header 1 _ head1):(Header 2 _ head2):rest) | not (any (isHeader 1) rest || any (isHeader 2) rest) -> -- tit/sub (promoteHeaders 2 rest, setMeta "title" (fromList head1) $ setMeta "subtitle" (fromList head2) meta) ((Header 1 _ head1):rest) | not (any (isHeader 1) rest) -> -- title only (promoteHeaders 1 rest, setMeta "title" (fromList head1) meta) _ -> (bs, meta) in case bs' of (DefinitionList ds : rest) -> (rest, metaFromDefList ds meta') _ -> (bs', meta') metaFromDefList :: [([Inline], [[Block]])] -> Meta -> Meta metaFromDefList ds meta = adjustAuthors $ foldr f meta ds where f (k,v) = setMeta (map toLower $ stringify k) (mconcat $ map fromList v) adjustAuthors (Meta metamap) = Meta $ M.adjust splitAuthors "author" $ M.adjust toPlain "date" $ M.adjust toPlain "title" $ M.mapKeys (\k -> if k == "authors" then "author" else k) $ metamap toPlain (MetaBlocks [Para xs]) = MetaInlines xs toPlain x = x splitAuthors (MetaBlocks [Para xs]) = MetaList $ map MetaInlines $ splitAuthors' xs splitAuthors x = x splitAuthors' = map normalizeSpaces . splitOnSemi . concatMap factorSemi normalizeSpaces = reverse . dropWhile isSp . reverse . dropWhile isSp isSp Space = True isSp SoftBreak = True isSp LineBreak = True isSp _ = False splitOnSemi = splitBy (==Str ";") factorSemi (Str []) = [] factorSemi (Str s) = case break (==';') s of (xs,[]) -> [Str xs] (xs,';':ys) -> Str xs : Str ";" : factorSemi (Str ys) (xs,ys) -> Str xs : factorSemi (Str ys) factorSemi x = [x] parseRST :: PandocMonad m => RSTParser m Pandoc parseRST = do optional blanklines -- skip blank lines at beginning of file startPos <- getPosition -- go through once just to get list of reference keys and notes -- docMinusKeys is the raw document with blanks where the keys were... docMinusKeys <- concat <$> manyTill (referenceKey <|> noteBlock <|> citationBlock <|> headerBlock <|> lineClump) eof setInput docMinusKeys setPosition startPos st' <- getState let reversedNotes = stateNotes st' updateState $ \s -> s { stateNotes = reverse reversedNotes , stateHeaders = mempty , stateIdentifiers = mempty } -- now parse it for real... blocks <- B.toList <$> parseBlocks citations <- (sort . M.toList . stateCitations) <$> getState citationItems <- mapM parseCitation citations let refBlock = if null citationItems then [] else [Div ("citations",[],[]) $ B.toList $ B.definitionList citationItems] standalone <- getOption readerStandalone state <- getState let meta = stateMeta state let (blocks', meta') = if standalone then titleTransform (blocks, meta) else (blocks, meta) reportLogMessages return $ Pandoc meta' (blocks' ++ refBlock) parseCitation :: PandocMonad m => (String, String) -> RSTParser m (Inlines, [Blocks]) parseCitation (ref, raw) = do contents <- parseFromString parseBlocks raw return $ (B.spanWith (ref, ["citation-label"], []) (B.str ref), [contents]) -- -- parsing blocks -- parseBlocks :: PandocMonad m => RSTParser m Blocks parseBlocks = mconcat <$> manyTill block eof block :: PandocMonad m => RSTParser m Blocks block = choice [ codeBlock , blockQuote , fieldList , include , directive , comment , header , hrule , lineBlock -- must go before definitionList , table , list , lhsCodeBlock , para , mempty <$ blanklines ] "block" -- -- field list -- rawFieldListItem :: Monad m => Int -> RSTParser m (String, String) rawFieldListItem minIndent = try $ do indent <- length <$> many (char ' ') guard $ indent >= minIndent char ':' name <- many1Till (noneOf "\n") (char ':') (() <$ lookAhead newline) <|> skipMany1 spaceChar first <- anyLine rest <- option "" $ try $ do lookAhead (count indent (char ' ') >> spaceChar) indentedBlock let raw = (if null first then "" else (first ++ "\n")) ++ rest ++ "\n" return (name, raw) fieldListItem :: PandocMonad m => Int -> RSTParser m (Inlines, [Blocks]) fieldListItem minIndent = try $ do (name, raw) <- rawFieldListItem minIndent term <- parseInlineFromString name contents <- parseFromString parseBlocks raw optional blanklines return (term, [contents]) fieldList :: PandocMonad m => RSTParser m Blocks fieldList = try $ do indent <- length <$> lookAhead (many spaceChar) items <- many1 $ fieldListItem indent case items of [] -> return mempty items' -> return $ B.definitionList items' -- -- line block -- lineBlock :: PandocMonad m => RSTParser m Blocks lineBlock = try $ do lines' <- lineBlockLines lines'' <- mapM parseInlineFromString lines' return $ B.lineBlock lines'' lineBlockDirective :: PandocMonad m => String -> RSTParser m Blocks lineBlockDirective body = do lines' <- mapM parseInlineFromString $ lines $ stripTrailingNewlines body return $ B.lineBlock lines' -- -- paragraph block -- -- note: paragraph can end in a :: starting a code block para :: PandocMonad m => RSTParser m Blocks para = try $ do result <- trimInlines . mconcat <$> many1 inline option (B.plain result) $ try $ do newline blanklines case viewr (B.unMany result) of ys :> (Str xs) | "::" `isSuffixOf` xs -> do raw <- option mempty codeBlockBody return $ B.para (B.Many ys <> B.str (take (length xs - 1) xs)) <> raw _ -> return (B.para result) plain :: PandocMonad m => RSTParser m Blocks plain = B.plain . trimInlines . mconcat <$> many1 inline -- -- header blocks -- header :: PandocMonad m => RSTParser m Blocks header = doubleHeader <|> singleHeader "header" -- a header with lines on top and bottom doubleHeader :: PandocMonad m => RSTParser m Blocks doubleHeader = do (txt, c) <- doubleHeader' -- check to see if we've had this kind of header before. -- if so, get appropriate level. if not, add to list. state <- getState let headerTable = stateHeaderTable state let (headerTable',level) = case findIndex (== DoubleHeader c) headerTable of Just ind -> (headerTable, ind + 1) Nothing -> (headerTable ++ [DoubleHeader c], (length headerTable) + 1) setState (state { stateHeaderTable = headerTable' }) attr <- registerHeader nullAttr txt return $ B.headerWith attr level txt doubleHeader' :: PandocMonad m => RSTParser m (Inlines, Char) doubleHeader' = try $ do c <- oneOf underlineChars rest <- many (char c) -- the top line let lenTop = length (c:rest) skipSpaces newline txt <- trimInlines . mconcat <$> many1 (notFollowedBy blankline >> inline) pos <- getPosition let len = (sourceColumn pos) - 1 if (len > lenTop) then fail "title longer than border" else return () blankline -- spaces and newline count lenTop (char c) -- the bottom line blanklines return (txt, c) -- a header with line on the bottom only singleHeader :: PandocMonad m => RSTParser m Blocks singleHeader = do (txt, c) <- singleHeader' state <- getState let headerTable = stateHeaderTable state let (headerTable',level) = case findIndex (== SingleHeader c) headerTable of Just ind -> (headerTable, ind + 1) Nothing -> (headerTable ++ [SingleHeader c], (length headerTable) + 1) setState (state { stateHeaderTable = headerTable' }) attr <- registerHeader nullAttr txt return $ B.headerWith attr level txt singleHeader' :: PandocMonad m => RSTParser m (Inlines, Char) singleHeader' = try $ do notFollowedBy' whitespace txt <- trimInlines . mconcat <$> many1 (do {notFollowedBy blankline; inline}) pos <- getPosition let len = (sourceColumn pos) - 1 blankline c <- oneOf underlineChars count (len - 1) (char c) many (char c) blanklines return (txt, c) -- -- hrule block -- hrule :: Monad m => ParserT [Char] st m Blocks hrule = try $ do chr <- oneOf underlineChars count 3 (char chr) skipMany (char chr) blankline blanklines return B.horizontalRule -- -- code blocks -- -- read a line indented by a given string indentedLine :: Monad m => String -> ParserT [Char] st m [Char] indentedLine indents = try $ do string indents anyLine -- one or more indented lines, possibly separated by blank lines. -- any amount of indentation will work. indentedBlock :: Monad m => ParserT [Char] st m [Char] indentedBlock = try $ do indents <- lookAhead $ many1 spaceChar lns <- many1 $ try $ do b <- option "" blanklines l <- indentedLine indents return (b ++ l) optional blanklines return $ unlines lns quotedBlock :: Monad m => ParserT [Char] st m [Char] quotedBlock = try $ do quote <- lookAhead $ oneOf "!\"#$%&'()*+,-./:;<=>?@[\\]^_`{|}~" lns <- many1 $ lookAhead (char quote) >> anyLine optional blanklines return $ unlines lns codeBlockStart :: Monad m => ParserT [Char] st m Char codeBlockStart = string "::" >> blankline >> blankline codeBlock :: Monad m => ParserT [Char] st m Blocks codeBlock = try $ codeBlockStart >> codeBlockBody codeBlockBody :: Monad m => ParserT [Char] st m Blocks codeBlockBody = try $ B.codeBlock . stripTrailingNewlines <$> (indentedBlock <|> quotedBlock) lhsCodeBlock :: Monad m => RSTParser m Blocks lhsCodeBlock = try $ do getPosition >>= guard . (==1) . sourceColumn guardEnabled Ext_literate_haskell optional codeBlockStart lns <- latexCodeBlock <|> birdCodeBlock blanklines return $ B.codeBlockWith ("", ["sourceCode", "literate", "haskell"], []) $ intercalate "\n" lns latexCodeBlock :: Monad m => ParserT [Char] st m [[Char]] latexCodeBlock = try $ do try (latexBlockLine "\\begin{code}") many1Till anyLine (try $ latexBlockLine "\\end{code}") where latexBlockLine s = skipMany spaceChar >> string s >> blankline birdCodeBlock :: Monad m => ParserT [Char] st m [[Char]] birdCodeBlock = filterSpace <$> many1 birdTrackLine where filterSpace lns = -- if (as is normal) there is always a space after >, drop it if all (\ln -> null ln || take 1 ln == " ") lns then map (drop 1) lns else lns birdTrackLine :: Monad m => ParserT [Char] st m [Char] birdTrackLine = char '>' >> anyLine -- -- block quotes -- blockQuote :: PandocMonad m => RSTParser m Blocks blockQuote = do raw <- indentedBlock -- parse the extracted block, which may contain various block elements: contents <- parseFromString parseBlocks $ raw ++ "\n\n" return $ B.blockQuote contents {- Unsupported options for include: tab-width encoding -} include :: PandocMonad m => RSTParser m Blocks include = try $ do string ".. include::" skipMany spaceChar f <- trim <$> anyLine fields <- many $ rawFieldListItem 3 -- options let (startLine :: Maybe Int) = lookup "start-line" fields >>= safeRead let (endLine :: Maybe Int) = lookup "end-line" fields >>= safeRead guard $ not (null f) oldPos <- getPosition oldInput <- getInput containers <- stateContainers <$> getState when (f `elem` containers) $ throwError $ PandocParseError $ "Include file loop at " ++ show oldPos updateState $ \s -> s{ stateContainers = f : stateContainers s } mbContents <- readFileFromDirs ["."] f contentLines <- case mbContents of Just s -> return $ lines s Nothing -> do logMessage $ CouldNotLoadIncludeFile f oldPos return [] let numLines = length contentLines let startLine' = case startLine of Nothing -> 1 Just x | x >= 0 -> x | otherwise -> numLines + x -- negative from end let endLine' = case endLine of Nothing -> numLines + 1 Just x | x >= 0 -> x | otherwise -> numLines + x -- negative from end let contentLines' = drop (startLine' - 1) $ take (endLine' - 1) $ contentLines let contentLines'' = (case trim <$> lookup "end-before" fields of Just patt -> takeWhile (not . (patt `isInfixOf`)) Nothing -> id) . (case trim <$> lookup "start-after" fields of Just patt -> drop 1 . dropWhile (not . (patt `isInfixOf`)) Nothing -> id) $ contentLines' let contents' = unlines contentLines'' case lookup "code" fields of Just lang -> do let numberLines = lookup "number-lines" fields let classes = trimr lang : ["numberLines" | isJust numberLines] ++ maybe [] words (lookup "class" fields) let kvs = maybe [] (\n -> [("startFrom", trimr n)]) numberLines let ident = maybe "" trimr $ lookup "name" fields let attribs = (ident, classes, kvs) return $ B.codeBlockWith attribs contents' Nothing -> case lookup "literal" fields of Just _ -> return $ B.rawBlock "rst" contents' Nothing -> do setPosition $ newPos f 1 1 setInput contents' bs <- optional blanklines >> (mconcat <$> many block) setInput oldInput setPosition oldPos updateState $ \s -> s{ stateContainers = tail $ stateContainers s } return bs -- -- list blocks -- list :: PandocMonad m => RSTParser m Blocks list = choice [ bulletList, orderedList, definitionList ] "list" definitionListItem :: PandocMonad m => RSTParser m (Inlines, [Blocks]) definitionListItem = try $ do -- avoid capturing a directive or comment notFollowedBy (try $ char '.' >> char '.') term <- trimInlines . mconcat <$> many1Till inline endline raw <- indentedBlock -- parse the extracted block, which may contain various block elements: contents <- parseFromString parseBlocks $ raw ++ "\n" return (term, [contents]) definitionList :: PandocMonad m => RSTParser m Blocks definitionList = B.definitionList <$> many1 definitionListItem -- parses bullet list start and returns its length (inc. following whitespace) bulletListStart :: Monad m => ParserT [Char] st m Int bulletListStart = try $ do notFollowedBy' hrule -- because hrules start out just like lists marker <- oneOf bulletListMarkers white <- many1 spaceChar return $ length (marker:white) -- parses ordered list start and returns its length (inc following whitespace) orderedListStart :: Monad m => ListNumberStyle -> ListNumberDelim -> RSTParser m Int orderedListStart style delim = try $ do (_, markerLen) <- withHorizDisplacement (orderedListMarker style delim) white <- many1 spaceChar return $ markerLen + length white -- parse a line of a list item listLine :: Monad m => Int -> RSTParser m [Char] listLine markerLength = try $ do notFollowedBy blankline indentWith markerLength line <- anyLine return $ line ++ "\n" -- indent by specified number of spaces (or equiv. tabs) indentWith :: Monad m => Int -> RSTParser m [Char] indentWith num = do tabStop <- getOption readerTabStop if (num < tabStop) then count num (char ' ') else choice [ try (count num (char ' ')), (try (char '\t' >> count (num - tabStop) (char ' '))) ] -- parse raw text for one list item, excluding start marker and continuations rawListItem :: Monad m => RSTParser m Int -> RSTParser m (Int, [Char]) rawListItem start = try $ do markerLength <- start firstLine <- anyLine restLines <- many (listLine markerLength) return (markerLength, (firstLine ++ "\n" ++ (concat restLines))) -- continuation of a list item - indented and separated by blankline or -- (in compact lists) endline. -- Note: nested lists are parsed as continuations. listContinuation :: Monad m => Int -> RSTParser m [Char] listContinuation markerLength = try $ do blanks <- many1 blankline result <- many1 (listLine markerLength) return $ blanks ++ concat result listItem :: PandocMonad m => RSTParser m Int -> RSTParser m Blocks listItem start = try $ do (markerLength, first) <- rawListItem start rest <- many (listContinuation markerLength) skipMany1 blankline <|> () <$ lookAhead start -- parsing with ListItemState forces markers at beginning of lines to -- count as list item markers, even if not separated by blank space. -- see definition of "endline" state <- getState let oldContext = stateParserContext state setState $ state {stateParserContext = ListItemState} -- parse the extracted block, which may itself contain block elements parsed <- parseFromString parseBlocks $ concat (first:rest) ++ "\n" updateState (\st -> st {stateParserContext = oldContext}) return $ case B.toList parsed of [Para xs] -> B.singleton $ Plain xs [Para xs, BulletList ys] -> B.fromList [Plain xs, BulletList ys] [Para xs, OrderedList s ys] -> B.fromList [Plain xs, OrderedList s ys] [Para xs, DefinitionList ys] -> B.fromList [Plain xs, DefinitionList ys] _ -> parsed orderedList :: PandocMonad m => RSTParser m Blocks orderedList = try $ do (start, style, delim) <- lookAhead (anyOrderedListMarker <* spaceChar) items <- many1 (listItem (orderedListStart style delim)) let items' = compactify items return $ B.orderedListWith (start, style, delim) items' bulletList :: PandocMonad m => RSTParser m Blocks bulletList = B.bulletList . compactify <$> many1 (listItem bulletListStart) -- -- directive (e.g. comment, container, compound-paragraph) -- comment :: Monad m => RSTParser m Blocks comment = try $ do string ".." skipMany1 spaceChar <|> (() <$ lookAhead newline) notFollowedBy' directiveLabel manyTill anyChar blanklines optional indentedBlock return mempty directiveLabel :: Monad m => RSTParser m String directiveLabel = map toLower <$> many1Till (letter <|> char '-') (try $ string "::") directive :: PandocMonad m => RSTParser m Blocks directive = try $ do string ".." directive' directive' :: PandocMonad m => RSTParser m Blocks directive' = do skipMany1 spaceChar label <- directiveLabel skipMany spaceChar top <- many $ satisfy (/='\n') <|> try (char '\n' <* notFollowedBy' (rawFieldListItem 3) <* count 3 (char ' ') <* notFollowedBy blankline) newline fields <- many $ rawFieldListItem 3 body <- option "" $ try $ blanklines >> indentedBlock optional blanklines let body' = body ++ "\n\n" imgAttr cl = ("", classes, widthAttr ++ heightAttr) where classes = words $ maybe "" trim (lookup cl fields) ++ maybe "" (\x -> "align-" ++ trim x) (lookup "align" fields) scale = case trim <$> lookup "scale" fields of Just v -> case reverse v of '%':vv -> case safeRead (reverse vv) of Just (percent :: Double) -> percent / 100.0 Nothing -> 1.0 _ -> case safeRead v of Just (s :: Double) -> s Nothing -> 1.0 Nothing -> 1.0 widthAttr = maybe [] (\x -> [("width", show $ scaleDimension scale x)]) $ lookup "width" fields >>= (lengthToDim . filter (not . isSpace)) heightAttr = maybe [] (\x -> [("height", show $ scaleDimension scale x)]) $ lookup "height" fields >>= (lengthToDim . filter (not . isSpace)) case label of "table" -> tableDirective top fields body' "line-block" -> lineBlockDirective body' "raw" -> return $ B.rawBlock (trim top) (stripTrailingNewlines body) "role" -> addNewRole top $ map (\(k,v) -> (k, trim v)) fields "container" -> parseFromString parseBlocks body' "replace" -> B.para <$> -- consumed by substKey parseInlineFromString (trim top) "unicode" -> B.para <$> -- consumed by substKey parseInlineFromString (trim $ unicodeTransform top) "compound" -> parseFromString parseBlocks body' "pull-quote" -> B.blockQuote <$> parseFromString parseBlocks body' "epigraph" -> B.blockQuote <$> parseFromString parseBlocks body' "highlights" -> B.blockQuote <$> parseFromString parseBlocks body' "rubric" -> B.para . B.strong <$> parseInlineFromString top _ | label `elem` ["attention","caution","danger","error","hint", "important","note","tip","warning","admonition"] -> do bod <- parseFromString parseBlocks $ top ++ "\n\n" ++ body' let lab = case label of "admonition" -> mempty (l:ls) -> B.divWith ("",["admonition-title"],[]) (B.para (B.str (toUpper l : ls))) [] -> mempty return $ B.divWith ("",[label],[]) (lab <> bod) "sidebar" -> do let subtit = maybe "" trim $ lookup "subtitle" fields tit <- B.para . B.strong <$> parseInlineFromString (trim top ++ if null subtit then "" else (": " ++ subtit)) bod <- parseFromString parseBlocks body' return $ B.divWith ("",["sidebar"],[]) $ tit <> bod "topic" -> do tit <- B.para . B.strong <$> parseInlineFromString top bod <- parseFromString parseBlocks body' return $ B.divWith ("",["topic"],[]) $ tit <> bod "default-role" -> mempty <$ updateState (\s -> s { stateRstDefaultRole = case trim top of "" -> stateRstDefaultRole def role -> role }) x | x == "code" || x == "code-block" -> codeblock (words $ fromMaybe [] $ lookup "class" fields) (lookup "number-lines" fields) (trim top) body "aafig" -> do let attribs = ("", ["aafig"], map (\(k,v) -> (k, trimr v)) fields) return $ B.codeBlockWith attribs $ stripTrailingNewlines body "math" -> return $ B.para $ mconcat $ map B.displayMath $ toChunks $ top ++ "\n\n" ++ body "figure" -> do (caption, legend) <- parseFromString extractCaption body' let src = escapeURI $ trim top return $ B.para (B.imageWith (imgAttr "figclass") src "fig:" caption) <> legend "image" -> do let src = escapeURI $ trim top let alt = B.str $ maybe "image" trim $ lookup "alt" fields let attr = imgAttr "class" return $ B.para $ case lookup "target" fields of Just t -> B.link (escapeURI $ trim t) "" $ B.imageWith attr src "" alt Nothing -> B.imageWith attr src "" alt "class" -> do let attrs = ("", (splitBy isSpace $ trim top), map (\(k,v) -> (k, trimr v)) fields) -- directive content or the first immediately following element children <- case body of "" -> block _ -> parseFromString parseBlocks body' return $ B.divWith attrs children other -> do pos <- getPosition logMessage $ SkippedContent (".. " ++ other) pos bod <- parseFromString parseBlocks $ top ++ "\n\n" ++ body' return $ B.divWith ("",[other],[]) bod tableDirective :: PandocMonad m => String -> [(String, String)] -> String -> RSTParser m Blocks tableDirective top _fields body = do bs <- parseFromString parseBlocks body case B.toList bs of [Table _ aligns' widths' header' rows'] -> do title <- parseFromString (trimInlines . mconcat <$> many inline) top -- TODO widths -- align is not applicable since we can't represent whole table align return $ B.singleton $ Table (B.toList title) aligns' widths' header' rows' _ -> return mempty -- TODO: -- - Only supports :format: fields with a single format for :raw: roles, -- change Text.Pandoc.Definition.Format to fix addNewRole :: PandocMonad m => String -> [(String, String)] -> RSTParser m Blocks addNewRole roleString fields = do pos <- getPosition (role, parentRole) <- parseFromString inheritedRole roleString customRoles <- stateRstCustomRoles <$> getState let getBaseRole (r, f, a) roles = case M.lookup r roles of Just (r', f', a') -> getBaseRole (r', f', a') roles Nothing -> (r, f, a) (baseRole, baseFmt, baseAttr) = getBaseRole (parentRole, Nothing, nullAttr) customRoles fmt = if parentRole == "raw" then lookup "format" fields else baseFmt annotate :: [String] -> [String] annotate = maybe id (:) $ if baseRole == "code" then lookup "language" fields else Nothing attr = let (ident, classes, keyValues) = baseAttr -- nub in case role name & language class are the same in (ident, nub . (role :) . annotate $ classes, keyValues) -- warn about syntax we ignore flip mapM_ fields $ \(key, _) -> case key of "language" -> when (baseRole /= "code") $ logMessage $ SkippedContent ":language: [because parent of role is not :code:]" pos "format" -> when (baseRole /= "raw") $ logMessage $ SkippedContent ":format: [because parent of role is not :raw:]" pos _ -> logMessage $ SkippedContent (":" ++ key ++ ":") pos when (parentRole == "raw" && countKeys "format" > 1) $ logMessage $ SkippedContent ":format: [after first in definition of role]" pos when (parentRole == "code" && countKeys "language" > 1) $ logMessage $ SkippedContent ":language: [after first in definition of role]" pos updateState $ \s -> s { stateRstCustomRoles = M.insert role (baseRole, fmt, attr) customRoles } return mempty where countKeys k = length . filter (== k) . map fst $ fields inheritedRole = (,) <$> roleName <*> ((char '(' *> roleName <* char ')') <|> pure "span") -- Can contain character codes as decimal numbers or -- hexadecimal numbers, prefixed by 0x, x, \x, U+, u, or \u -- or as XML-style hexadecimal character entities, e.g. ᨫ -- or text, which is used as-is. Comments start with .. unicodeTransform :: String -> String unicodeTransform t = case t of ('.':'.':xs) -> unicodeTransform $ dropWhile (/='\n') xs -- comment ('0':'x':xs) -> go "0x" xs ('x':xs) -> go "x" xs ('\\':'x':xs) -> go "\\x" xs ('U':'+':xs) -> go "U+" xs ('u':xs) -> go "u" xs ('\\':'u':xs) -> go "\\u" xs ('&':'#':'x':xs) -> maybe ("&#x" ++ unicodeTransform xs) -- drop semicolon (\(c,s) -> c : unicodeTransform (drop 1 s)) $ extractUnicodeChar xs (x:xs) -> x : unicodeTransform xs [] -> [] where go pref zs = maybe (pref ++ unicodeTransform zs) (\(c,s) -> c : unicodeTransform s) $ extractUnicodeChar zs extractUnicodeChar :: String -> Maybe (Char, String) extractUnicodeChar s = maybe Nothing (\c -> Just (c,rest)) mbc where (ds,rest) = span isHexDigit s mbc = safeRead ('\'':'\\':'x':ds ++ "'") extractCaption :: PandocMonad m => RSTParser m (Inlines, Blocks) extractCaption = do capt <- trimInlines . mconcat <$> many inline legend <- optional blanklines >> (mconcat <$> many block) return (capt,legend) -- divide string by blanklines toChunks :: String -> [String] toChunks = dropWhile null . map (trim . unlines) . splitBy (all (`elem` (" \t" :: String))) . lines codeblock :: [String] -> Maybe String -> String -> String -> RSTParser m Blocks codeblock classes numberLines lang body = return $ B.codeBlockWith attribs $ stripTrailingNewlines body where attribs = ("", classes', kvs) classes' = "sourceCode" : lang : maybe [] (\_ -> ["numberLines"]) numberLines ++ classes kvs = case numberLines of Just "" -> [] Nothing -> [] Just n -> [("startFrom",trim n)] --- --- note block --- noteBlock :: Monad m => RSTParser m [Char] noteBlock = try $ do (ref, raw, replacement) <- noteBlock' noteMarker updateState $ \s -> s { stateNotes = (ref, raw) : stateNotes s } -- return blanks so line count isn't affected return replacement citationBlock :: Monad m => RSTParser m [Char] citationBlock = try $ do (ref, raw, replacement) <- noteBlock' citationMarker updateState $ \s -> s { stateCitations = M.insert ref raw (stateCitations s), stateKeys = M.insert (toKey ref) (('#':ref,""), ("",["citation"],[])) (stateKeys s) } -- return blanks so line count isn't affected return replacement noteBlock' :: Monad m => RSTParser m String -> RSTParser m (String, String, String) noteBlock' marker = try $ do startPos <- getPosition string ".." spaceChar >> skipMany spaceChar ref <- marker first <- (spaceChar >> skipMany spaceChar >> anyLine) <|> (newline >> return "") blanks <- option "" blanklines rest <- option "" indentedBlock endPos <- getPosition let raw = first ++ "\n" ++ blanks ++ rest ++ "\n" let replacement =replicate (sourceLine endPos - sourceLine startPos) '\n' return (ref, raw, replacement) citationMarker :: Monad m => RSTParser m [Char] citationMarker = do char '[' res <- simpleReferenceName' char ']' return res noteMarker :: Monad m => RSTParser m [Char] noteMarker = do char '[' res <- many1 digit <|> (try $ char '#' >> liftM ('#':) simpleReferenceName') <|> count 1 (oneOf "#*") char ']' return res -- -- reference key -- quotedReferenceName :: PandocMonad m => RSTParser m Inlines quotedReferenceName = try $ do char '`' >> notFollowedBy (char '`') -- `` means inline code! label' <- trimInlines . mconcat <$> many1Till inline (char '`') return label' unquotedReferenceName :: PandocMonad m => RSTParser m Inlines unquotedReferenceName = try $ do label' <- trimInlines . mconcat <$> many1Till inline (lookAhead $ char ':') return label' -- Simple reference names are single words consisting of alphanumerics -- plus isolated (no two adjacent) internal hyphens, underscores, -- periods, colons and plus signs; no whitespace or other characters -- are allowed. simpleReferenceName' :: Monad m => ParserT [Char] st m String simpleReferenceName' = do x <- alphaNum xs <- many $ alphaNum <|> (try $ oneOf "-_:+." <* lookAhead alphaNum) return (x:xs) simpleReferenceName :: Monad m => ParserT [Char] st m Inlines simpleReferenceName = B.str <$> simpleReferenceName' referenceName :: PandocMonad m => RSTParser m Inlines referenceName = quotedReferenceName <|> (try $ simpleReferenceName <* lookAhead (char ':')) <|> unquotedReferenceName referenceKey :: PandocMonad m => RSTParser m [Char] referenceKey = do startPos <- getPosition choice [substKey, anonymousKey, regularKey] optional blanklines endPos <- getPosition -- return enough blanks to replace key return $ replicate (sourceLine endPos - sourceLine startPos) '\n' targetURI :: Monad m => ParserT [Char] st m [Char] targetURI = do skipSpaces optional newline contents <- many1 (try (many spaceChar >> newline >> many1 spaceChar >> noneOf " \t\n") <|> noneOf "\n") blanklines return $ escapeURI $ trim $ contents substKey :: PandocMonad m => RSTParser m () substKey = try $ do string ".." skipMany1 spaceChar (alt,ref) <- withRaw $ trimInlines . mconcat <$> enclosed (char '|') (char '|') inline res <- B.toList <$> directive' il <- case res of -- use alt unless :alt: attribute on image: [Para [Image attr [Str "image"] (src,tit)]] -> return $ B.imageWith attr src tit alt [Para [Link _ [Image attr [Str "image"] (src,tit)] (src',tit')]] -> return $ B.link src' tit' (B.imageWith attr src tit alt) [Para ils] -> return $ B.fromList ils _ -> mzero let key = toKey $ stripFirstAndLast ref updateState $ \s -> s{ stateSubstitutions = M.insert key il $ stateSubstitutions s } anonymousKey :: Monad m => RSTParser m () anonymousKey = try $ do oneOfStrings [".. __:", "__"] src <- targetURI pos <- getPosition let key = toKey $ "_" ++ printf "%09d" (sourceLine pos) --TODO: parse width, height, class and name attributes updateState $ \s -> s { stateKeys = M.insert key ((src,""), nullAttr) $ stateKeys s } stripTicks :: String -> String stripTicks = reverse . stripTick . reverse . stripTick where stripTick ('`':xs) = xs stripTick xs = xs regularKey :: PandocMonad m => RSTParser m () regularKey = try $ do string ".. _" (_,ref) <- withRaw referenceName char ':' src <- targetURI let key = toKey $ stripTicks ref --TODO: parse width, height, class and name attributes updateState $ \s -> s { stateKeys = M.insert key ((src,""), nullAttr) $ stateKeys s } headerBlock :: PandocMonad m => RSTParser m [Char] headerBlock = do ((txt, _), raw) <- withRaw (doubleHeader' <|> singleHeader') (ident,_,_) <- registerHeader nullAttr txt let key = toKey (stringify txt) --TODO: parse width, height, class and name attributes updateState $ \s -> s { stateKeys = M.insert key (('#':ident,""), nullAttr) $ stateKeys s } return raw -- -- tables -- -- General tables TODO: -- - figure out if leading spaces are acceptable and if so, add -- support for them -- -- Simple tables TODO: -- - column spans -- - multiline support -- - ensure that rightmost column span does not need to reach end -- - require at least 2 columns -- -- Grid tables TODO: -- - column spans dashedLine :: Monad m => Char -> ParserT [Char] st m (Int, Int) dashedLine ch = do dashes <- many1 (char ch) sp <- many (char ' ') return (length dashes, length $ dashes ++ sp) simpleDashedLines :: Monad m => Char -> ParserT [Char] st m [(Int,Int)] simpleDashedLines ch = try $ many1 (dashedLine ch) -- Parse a table row separator simpleTableSep :: Monad m => Char -> RSTParser m Char simpleTableSep ch = try $ simpleDashedLines ch >> newline -- Parse a table footer simpleTableFooter :: Monad m => RSTParser m [Char] simpleTableFooter = try $ simpleTableSep '=' >> blanklines -- Parse a raw line and split it into chunks by indices. simpleTableRawLine :: Monad m => [Int] -> RSTParser m [String] simpleTableRawLine indices = simpleTableSplitLine indices <$> anyLine simpleTableRawLineWithEmptyCell :: Monad m => [Int] -> RSTParser m [String] simpleTableRawLineWithEmptyCell indices = try $ do cs <- simpleTableRawLine indices let isEmptyCell = all (\c -> c == ' ' || c == '\t') guard $ any isEmptyCell cs return cs -- Parse a table row and return a list of blocks (columns). simpleTableRow :: PandocMonad m => [Int] -> RSTParser m [Blocks] simpleTableRow indices = do notFollowedBy' simpleTableFooter firstLine <- simpleTableRawLine indices conLines <- many $ simpleTableRawLineWithEmptyCell indices let cols = map unlines . transpose $ firstLine : conLines ++ [replicate (length indices) "" | not (null conLines)] mapM (parseFromString parseBlocks) cols simpleTableSplitLine :: [Int] -> String -> [String] simpleTableSplitLine indices line = map trimr $ tail $ splitByIndices (init indices) line simpleTableHeader :: PandocMonad m => Bool -- ^ Headerless table -> RSTParser m ([Blocks], [Alignment], [Int]) simpleTableHeader headless = try $ do optional blanklines rawContent <- if headless then return "" else simpleTableSep '=' >> anyLine dashes <- simpleDashedLines '=' <|> simpleDashedLines '-' newline let lines' = map snd dashes let indices = scanl (+) 0 lines' let aligns = replicate (length lines') AlignDefault let rawHeads = if headless then replicate (length dashes) "" else simpleTableSplitLine indices rawContent heads <- mapM (parseFromString (mconcat <$> many plain)) $ map trim rawHeads return (heads, aligns, indices) -- Parse a simple table. simpleTable :: PandocMonad m => Bool -- ^ Headerless table -> RSTParser m Blocks simpleTable headless = do tbl <- tableWith (simpleTableHeader headless) simpleTableRow sep simpleTableFooter -- Simple tables get 0s for relative column widths (i.e., use default) case B.toList tbl of [Table c a _w h l] -> return $ B.singleton $ Table c a (replicate (length a) 0) h l _ -> throwError $ PandocShouldNeverHappenError "tableWith returned something unexpected" where sep = return () -- optional (simpleTableSep '-') gridTable :: PandocMonad m => Bool -- ^ Headerless table -> RSTParser m Blocks gridTable headerless = gridTableWith parseBlocks headerless table :: PandocMonad m => RSTParser m Blocks table = gridTable False <|> simpleTable False <|> gridTable True <|> simpleTable True "table" -- -- inline -- inline :: PandocMonad m => RSTParser m Inlines inline = choice [ note -- can start with whitespace, so try before ws , whitespace , link , str , endline , strong , emph , code , subst , interpretedRole , smart , hyphens , escapedChar , symbol ] "inline" parseInlineFromString :: PandocMonad m => String -> RSTParser m Inlines parseInlineFromString = parseFromString (trimInlines . mconcat <$> many inline) hyphens :: Monad m => RSTParser m Inlines hyphens = do result <- many1 (char '-') optional endline -- don't want to treat endline after hyphen or dash as a space return $ B.str result escapedChar :: Monad m => ParserT [Char] st m Inlines escapedChar = do c <- escaped anyChar return $ if c == ' ' || c == '\n' || c == '\r' -- '\ ' is null in RST then mempty else B.str [c] symbol :: Monad m => RSTParser m Inlines symbol = do result <- oneOf specialChars return $ B.str [result] -- parses inline code, between codeStart and codeEnd code :: Monad m => RSTParser m Inlines code = try $ do string "``" result <- manyTill anyChar (try (string "``")) return $ B.code $ trim $ unwords $ lines result -- succeeds only if we're not right after a str (ie. in middle of word) atStart :: Monad m => RSTParser m a -> RSTParser m a atStart p = do pos <- getPosition st <- getState -- single quote start can't be right after str guard $ stateLastStrPos st /= Just pos p emph :: PandocMonad m => RSTParser m Inlines emph = B.emph . trimInlines . mconcat <$> enclosed (atStart $ char '*') (char '*') inline strong :: PandocMonad m => RSTParser m Inlines strong = B.strong . trimInlines . mconcat <$> enclosed (atStart $ string "**") (try $ string "**") inline -- Note, this doesn't precisely implement the complex rule in -- http://docutils.sourceforge.net/docs/ref/rst/restructuredtext.html#inline-markup-recognition-rules -- but it should be good enough for most purposes -- -- TODO: -- - Classes are silently discarded in addNewRole -- - Lacks sensible implementation for title-reference (which is the default) -- - Allows direct use of the :raw: role, rST only allows inherited use. interpretedRole :: PandocMonad m => RSTParser m Inlines interpretedRole = try $ do (role, contents) <- roleBefore <|> roleAfter renderRole contents Nothing role nullAttr renderRole :: PandocMonad m => String -> Maybe String -> String -> Attr -> RSTParser m Inlines renderRole contents fmt role attr = case role of "sup" -> return $ B.superscript $ B.str contents "superscript" -> return $ B.superscript $ B.str contents "sub" -> return $ B.subscript $ B.str contents "subscript" -> return $ B.subscript $ B.str contents "emphasis" -> return $ B.emph $ B.str contents "strong" -> return $ B.strong $ B.str contents "rfc-reference" -> return $ rfcLink contents "RFC" -> return $ rfcLink contents "pep-reference" -> return $ pepLink contents "PEP" -> return $ pepLink contents "literal" -> return $ B.codeWith attr contents "math" -> return $ B.math contents "title-reference" -> titleRef contents "title" -> titleRef contents "t" -> titleRef contents "code" -> return $ B.codeWith (addClass "sourceCode" attr) contents "span" -> return $ B.spanWith attr $ B.str contents "raw" -> return $ B.rawInline (fromMaybe "" fmt) contents custom -> do customRoles <- stateRstCustomRoles <$> getState case M.lookup custom customRoles of Just (newRole, newFmt, newAttr) -> renderRole contents newFmt newRole newAttr Nothing -> do pos <- getPosition logMessage $ SkippedContent (":" ++ custom ++ ":") pos return $ B.str contents -- Undefined role where titleRef ref = return $ B.str ref -- FIXME: Not a sensible behaviour rfcLink rfcNo = B.link rfcUrl ("RFC " ++ rfcNo) $ B.str ("RFC " ++ rfcNo) where rfcUrl = "http://www.faqs.org/rfcs/rfc" ++ rfcNo ++ ".html" pepLink pepNo = B.link pepUrl ("PEP " ++ pepNo) $ B.str ("PEP " ++ pepNo) where padNo = replicate (4 - length pepNo) '0' ++ pepNo pepUrl = "http://www.python.org/dev/peps/pep-" ++ padNo ++ "/" addClass :: String -> Attr -> Attr addClass c (ident, classes, keyValues) = (ident, union classes [c], keyValues) roleName :: PandocMonad m => RSTParser m String roleName = many1 (letter <|> char '-') roleMarker :: PandocMonad m => RSTParser m String roleMarker = char ':' *> roleName <* char ':' roleBefore :: PandocMonad m => RSTParser m (String,String) roleBefore = try $ do role <- roleMarker contents <- unmarkedInterpretedText return (role,contents) roleAfter :: PandocMonad m => RSTParser m (String,String) roleAfter = try $ do contents <- unmarkedInterpretedText role <- roleMarker <|> (stateRstDefaultRole <$> getState) return (role,contents) unmarkedInterpretedText :: PandocMonad m => RSTParser m [Char] unmarkedInterpretedText = enclosed (atStart $ char '`') (char '`') anyChar whitespace :: PandocMonad m => RSTParser m Inlines whitespace = B.space <$ skipMany1 spaceChar "whitespace" str :: Monad m => RSTParser m Inlines str = do let strChar = noneOf ("\t\n " ++ specialChars) result <- many1 strChar updateLastStrPos return $ B.str result -- an endline character that can be treated as a space, not a structural break endline :: Monad m => RSTParser m Inlines endline = try $ do newline notFollowedBy blankline -- parse potential list-starts at beginning of line differently in a list: st <- getState if (stateParserContext st) == ListItemState then notFollowedBy (anyOrderedListMarker >> spaceChar) >> notFollowedBy' bulletListStart else return () return B.softbreak -- -- links -- link :: PandocMonad m => RSTParser m Inlines link = choice [explicitLink, referenceLink, autoLink] "link" explicitLink :: PandocMonad m => RSTParser m Inlines explicitLink = try $ do char '`' notFollowedBy (char '`') -- `` marks start of inline code label' <- trimInlines . mconcat <$> manyTill (notFollowedBy (char '`') >> inline) (char '<') src <- trim <$> manyTill (noneOf ">\n") (char '>') skipSpaces string "`_" optional $ char '_' -- anonymous form let label'' = if label' == mempty then B.str src else label' -- `link ` is a reference link to _google! ((src',tit),attr) <- case reverse src of '_':xs -> lookupKey [] (toKey (reverse xs)) _ -> return ((src, ""), nullAttr) return $ B.linkWith attr (escapeURI src') tit label'' citationName :: PandocMonad m => RSTParser m Inlines citationName = do raw <- citationMarker return $ B.str $ "[" ++ raw ++ "]" referenceLink :: PandocMonad m => RSTParser m Inlines referenceLink = try $ do (label',ref) <- withRaw (quotedReferenceName <|> simpleReferenceName <|> citationName) <* char '_' let isAnonKey (Key ('_':_)) = True isAnonKey _ = False state <- getState let keyTable = stateKeys state key <- option (toKey $ stripTicks ref) $ do char '_' let anonKeys = sort $ filter isAnonKey $ M.keys keyTable case anonKeys of [] -> mzero (k:_) -> return k ((src,tit), attr) <- lookupKey [] key -- if anonymous link, remove key so it won't be used again when (isAnonKey key) $ updateState $ \s -> s{ stateKeys = M.delete key keyTable } return $ B.linkWith attr src tit label' -- We keep a list of oldkeys so we can detect lookup loops. lookupKey :: PandocMonad m => [Key] -> Key -> RSTParser m ((String, String), Attr) lookupKey oldkeys key = do pos <- getPosition state <- getState let keyTable = stateKeys state case M.lookup key keyTable of Nothing -> do let Key key' = key logMessage $ ReferenceNotFound key' pos return (("",""),nullAttr) -- check for keys of the form link_, which need to be resolved: Just ((u@(_:_),""),_) | last u == '_' -> do let rawkey = init u let newkey = toKey rawkey if newkey `elem` oldkeys then do logMessage $ CircularReference rawkey pos return (("",""),nullAttr) else lookupKey (key:oldkeys) newkey Just val -> return val autoURI :: Monad m => RSTParser m Inlines autoURI = do (orig, src) <- uri return $ B.link src "" $ B.str orig autoEmail :: Monad m => RSTParser m Inlines autoEmail = do (orig, src) <- emailAddress return $ B.link src "" $ B.str orig autoLink :: PandocMonad m => RSTParser m Inlines autoLink = autoURI <|> autoEmail subst :: PandocMonad m => RSTParser m Inlines subst = try $ do (_,ref) <- withRaw $ enclosed (char '|') (char '|') inline state <- getState let substTable = stateSubstitutions state let key = toKey $ stripFirstAndLast ref case M.lookup key substTable of Nothing -> do pos <- getPosition logMessage $ ReferenceNotFound (show key) pos return mempty Just target -> return target note :: PandocMonad m => RSTParser m Inlines note = try $ do optional whitespace ref <- noteMarker char '_' state <- getState let notes = stateNotes state case lookup ref notes of Nothing -> do pos <- getPosition logMessage $ ReferenceNotFound ref pos return mempty Just raw -> do -- We temporarily empty the note list while parsing the note, -- so that we don't get infinite loops with notes inside notes... -- Note references inside other notes are allowed in reST, but -- not yet in this implementation. updateState $ \st -> st{ stateNotes = [] } contents <- parseFromString parseBlocks raw let newnotes = if (ref == "*" || ref == "#") -- auto-numbered -- delete the note so the next auto-numbered note -- doesn't get the same contents: then deleteFirstsBy (==) notes [(ref,raw)] else notes updateState $ \st -> st{ stateNotes = newnotes } return $ B.note contents smart :: PandocMonad m => RSTParser m Inlines smart = do guardEnabled Ext_smart doubleQuoted <|> singleQuoted <|> choice [apostrophe, dash, ellipses] singleQuoted :: PandocMonad m => RSTParser m Inlines singleQuoted = try $ do singleQuoteStart withQuoteContext InSingleQuote $ B.singleQuoted . trimInlines . mconcat <$> many1Till inline singleQuoteEnd doubleQuoted :: PandocMonad m => RSTParser m Inlines doubleQuoted = try $ do doubleQuoteStart withQuoteContext InDoubleQuote $ B.doubleQuoted . trimInlines . mconcat <$> many1Till inline doubleQuoteEnd