{-# LANGUAGE FlexibleContexts #-} {- Copyright (C) 2017 Alexander Krotov 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.Muse Copyright : Copyright (C) 2017 Alexander Krotov License : GNU GPL, version 2 or above Maintainer : Alexander Krotov Stability : alpha Portability : portable Conversion of Muse text to 'Pandoc' document. -} {- TODO: - Page breaks (five "*") - Headings with anchors (make it round trip with Muse writer) - Org tables - table.el tables - Images with attributes (floating and width) - Citations and - environment -} module Text.Pandoc.Readers.Muse (readMuse) where import Control.Monad import Control.Monad.Except (throwError) import Data.Char (isLetter) import Data.List (stripPrefix) import qualified Data.Map as M import Data.Maybe (fromMaybe) import Data.Text (Text, unpack) import System.FilePath (takeExtension) import Text.HTML.TagSoup import Text.Pandoc.Builder (Blocks, Inlines) import qualified Text.Pandoc.Builder as B import Text.Pandoc.Class (PandocMonad (..)) import Text.Pandoc.Definition import Text.Pandoc.Logging import Text.Pandoc.Options import Text.Pandoc.Parsing hiding (nested) import Text.Pandoc.Readers.HTML (htmlTag) import Text.Pandoc.Shared (crFilter) import Text.Pandoc.XML (fromEntities) -- | Read Muse from an input string and return a Pandoc document. readMuse :: PandocMonad m => ReaderOptions -> Text -> m Pandoc readMuse opts s = do res <- readWithM parseMuse def{ stateOptions = opts } (unpack (crFilter s)) case res of Left e -> throwError e Right d -> return d type MuseParser = ParserT String ParserState -- -- main parser -- parseMuse :: PandocMonad m => MuseParser m Pandoc parseMuse = do many directive blocks <- parseBlocks st <- getState let doc = runF (do Pandoc _ bs <- B.doc <$> blocks meta <- stateMeta' st return $ Pandoc meta bs) st reportLogMessages return doc parseBlocks :: PandocMonad m => MuseParser m (F Blocks) parseBlocks = do res <- mconcat <$> many block spaces eof return res -- -- utility functions -- eol :: Stream s m Char => ParserT s st m () eol = void newline <|> eof nested :: PandocMonad m => MuseParser m a -> MuseParser m a nested p = do nestlevel <- stateMaxNestingLevel <$> getState guard $ nestlevel > 0 updateState $ \st -> st{ stateMaxNestingLevel = stateMaxNestingLevel st - 1 } res <- p updateState $ \st -> st{ stateMaxNestingLevel = nestlevel } return res htmlElement :: PandocMonad m => String -> MuseParser m (Attr, String) htmlElement tag = try $ do (TagOpen _ attr, _) <- htmlTag (~== TagOpen tag []) content <- manyTill anyChar endtag return (htmlAttrToPandoc attr, content) where endtag = void $ htmlTag (~== TagClose tag) htmlAttrToPandoc :: [Attribute String] -> Attr htmlAttrToPandoc attrs = (ident, classes, keyvals) where ident = fromMaybe "" $ lookup "id" attrs classes = maybe [] words $ lookup "class" attrs keyvals = [(k,v) | (k,v) <- attrs, k /= "id" && k /= "class"] parseHtmlContentWithAttrs :: PandocMonad m => String -> MuseParser m a -> MuseParser m (Attr, [a]) parseHtmlContentWithAttrs tag parser = do (attr, content) <- htmlElement tag parsedContent <- parseContent (content ++ "\n") return (attr, parsedContent) where parseContent = parseFromString $ nested $ manyTill parser endOfContent endOfContent = try $ skipMany blankline >> skipSpaces >> eof parseHtmlContent :: PandocMonad m => String -> MuseParser m a -> MuseParser m [a] parseHtmlContent tag p = fmap snd (parseHtmlContentWithAttrs tag p) -- -- directive parsers -- parseDirective :: PandocMonad m => MuseParser m (String, F Inlines) parseDirective = do char '#' key <- many letter space spaces raw <- manyTill anyChar eol value <- parseFromString (trimInlinesF . mconcat <$> many inline) raw return (key, value) directive :: PandocMonad m => MuseParser m () directive = do (key, value) <- parseDirective updateState $ \st -> st { stateMeta' = B.setMeta key <$> value <*> stateMeta' st } -- -- block parsers -- block :: PandocMonad m => MuseParser m (F Blocks) block = do res <- mempty <$ skipMany1 blankline <|> blockElements <|> para skipMany blankline trace (take 60 $ show $ B.toList $ runF res defaultParserState) return res blockElements :: PandocMonad m => MuseParser m (F Blocks) blockElements = choice [ comment , separator , header , example , exampleTag , literal , centerTag , rightTag , quoteTag , divTag , verseTag , lineBlock , bulletList , orderedList , definitionList , table , commentTag , amuseNoteBlock , emacsNoteBlock ] comment :: PandocMonad m => MuseParser m (F Blocks) comment = try $ do char ';' space many $ noneOf "\n" eol return mempty separator :: PandocMonad m => MuseParser m (F Blocks) separator = try $ do string "----" many $ char '-' many spaceChar eol return $ return B.horizontalRule header :: PandocMonad m => MuseParser m (F Blocks) header = try $ do st <- stateParserContext <$> getState q <- stateQuoteContext <$> getState getPosition >>= \pos -> guard (st == NullState && q == NoQuote && sourceColumn pos == 1) level <- fmap length $ many1 $ char '*' guard $ level <= 5 spaceChar content <- trimInlinesF . mconcat <$> manyTill inline eol attr <- registerHeader ("", [], []) (runF content defaultParserState) return $ B.headerWith attr level <$> content example :: PandocMonad m => MuseParser m (F Blocks) example = try $ do string "{{{" optionMaybe blankline contents <- manyTill anyChar $ try (optionMaybe blankline >> string "}}}") return $ return $ B.codeBlock contents exampleTag :: PandocMonad m => MuseParser m (F Blocks) exampleTag = do (attr, contents) <- htmlElement "example" return $ return $ B.codeBlockWith attr $ chop contents where lchop s = case s of '\n':ss -> ss _ -> s rchop = reverse . lchop . reverse -- Trim up to one newline from the beginning and the end, -- in case opening and/or closing tags are on separate lines. chop = lchop . rchop literal :: PandocMonad m => MuseParser m (F Blocks) literal = (return . rawBlock) <$> htmlElement "literal" where format (_, _, kvs) = fromMaybe "html" $ lookup "format" kvs rawBlock (attrs, content) = B.rawBlock (format attrs) content blockTag :: PandocMonad m => (Blocks -> Blocks) -> String -> MuseParser m (F Blocks) blockTag f s = do res <- parseHtmlContent s block return $ f <$> mconcat res --
tag is ignored centerTag :: PandocMonad m => MuseParser m (F Blocks) centerTag = blockTag id "center" -- tag is ignored rightTag :: PandocMonad m => MuseParser m (F Blocks) rightTag = blockTag id "right" quoteTag :: PandocMonad m => MuseParser m (F Blocks) quoteTag = withQuoteContext InDoubleQuote $ blockTag B.blockQuote "quote" --
tag is supported by Emacs Muse, but not Amusewiki 2.025 divTag :: PandocMonad m => MuseParser m (F Blocks) divTag = do (attrs, content) <- parseHtmlContentWithAttrs "div" block return $ B.divWith attrs <$> mconcat content verseLine :: PandocMonad m => MuseParser m String verseLine = do line <- anyLine <|> many1Till anyChar eof let (white, rest) = span (== ' ') line return $ replicate (length white) '\160' ++ rest verseLines :: PandocMonad m => MuseParser m (F Blocks) verseLines = do optionMaybe blankline -- Skip blankline after opening tag on separate line lns <- many verseLine lns' <- mapM (parseFromString' (trimInlinesF . mconcat <$> many inline)) lns return $ B.lineBlock <$> sequence lns' verseTag :: PandocMonad m => MuseParser m (F Blocks) verseTag = do (_, content) <- htmlElement "verse" parseFromString verseLines content commentTag :: PandocMonad m => MuseParser m (F Blocks) commentTag = parseHtmlContent "comment" anyChar >> return mempty -- Indented paragraph is either center, right or quote para :: PandocMonad m => MuseParser m (F Blocks) para = do indent <- length <$> many spaceChar let f = if indent >= 2 && indent < 6 then B.blockQuote else id fmap (f . B.para) . trimInlinesF . mconcat <$> many1Till inline endOfParaElement where endOfParaElement = lookAhead $ endOfInput <|> endOfPara <|> newBlockElement endOfInput = try $ skipMany blankline >> skipSpaces >> eof endOfPara = try $ blankline >> skipMany1 blankline newBlockElement = try $ blankline >> void blockElements noteMarker :: PandocMonad m => MuseParser m String noteMarker = try $ do char '[' many1Till digit $ char ']' -- Amusewiki version of note -- Parsing is similar to list item, except that note marker is used instead of list marker amuseNoteBlock :: PandocMonad m => MuseParser m (F Blocks) amuseNoteBlock = try $ do guardEnabled Ext_amuse pos <- getPosition ref <- noteMarker <* skipSpaces content <- listItemContents $ 2 + length ref oldnotes <- stateNotes' <$> getState case M.lookup ref oldnotes of Just _ -> logMessage $ DuplicateNoteReference ref pos Nothing -> return () updateState $ \s -> s{ stateNotes' = M.insert ref (pos, content) oldnotes } return mempty -- Emacs version of note -- Notes are allowed only at the end of text, no indentation is required. emacsNoteBlock :: PandocMonad m => MuseParser m (F Blocks) emacsNoteBlock = try $ do guardDisabled Ext_amuse pos <- getPosition ref <- noteMarker <* skipSpaces content <- mconcat <$> blocksTillNote oldnotes <- stateNotes' <$> getState case M.lookup ref oldnotes of Just _ -> logMessage $ DuplicateNoteReference ref pos Nothing -> return () updateState $ \s -> s{ stateNotes' = M.insert ref (pos, content) oldnotes } return mempty where blocksTillNote = many1Till block (eof <|> () <$ lookAhead noteMarker) -- -- Verse markup -- lineVerseLine :: PandocMonad m => MuseParser m String lineVerseLine = try $ do char '>' white <- many1 (char ' ' >> pure '\160') rest <- anyLine return $ tail white ++ rest blanklineVerseLine :: PandocMonad m => MuseParser m Char blanklineVerseLine = try $ char '>' >> blankline lineBlock :: PandocMonad m => MuseParser m (F Blocks) lineBlock = try $ do lns <- many1 (pure <$> blanklineVerseLine <|> lineVerseLine) lns' <- mapM (parseFromString' (trimInlinesF . mconcat <$> many inline)) lns return $ B.lineBlock <$> sequence lns' -- -- lists -- listLine :: PandocMonad m => Int -> MuseParser m String listLine markerLength = try $ do indentWith markerLength anyLineNewline withListContext :: PandocMonad m => MuseParser m a -> MuseParser m a withListContext p = do state <- getState let oldContext = stateParserContext state setState $ state { stateParserContext = ListItemState } parsed <- p updateState (\st -> st {stateParserContext = oldContext}) return parsed listContinuation :: PandocMonad m => Int -> MuseParser m String listContinuation markerLength = try $ do result <- many1 $ listLine markerLength blank <- option "" ("\n" <$ blankline) return $ concat result ++ blank listStart :: PandocMonad m => MuseParser m Int -> MuseParser m Int listStart marker = try $ do preWhitespace <- length <$> many spaceChar st <- stateParserContext <$> getState getPosition >>= \pos -> guard (st == ListItemState || sourceColumn pos /= 1) markerLength <- marker postWhitespace <- length <$> many1 spaceChar return $ preWhitespace + markerLength + postWhitespace listItemContents :: PandocMonad m => Int -> MuseParser m (F Blocks) listItemContents markerLength = do firstLine <- anyLineNewline restLines <- many $ listLine markerLength blank <- option "" ("\n" <$ blankline) let first = firstLine ++ concat restLines ++ blank rest <- many $ listContinuation markerLength parseFromString (withListContext parseBlocks) $ concat (first:rest) ++ "\n" listItem :: PandocMonad m => MuseParser m Int -> MuseParser m (F Blocks) listItem start = try $ do markerLength <- start listItemContents markerLength bulletListItems :: PandocMonad m => MuseParser m (F [Blocks]) bulletListItems = sequence <$> many1 (listItem bulletListStart) bulletListStart :: PandocMonad m => MuseParser m Int bulletListStart = listStart (char '-' >> return 1) bulletList :: PandocMonad m => MuseParser m (F Blocks) bulletList = do listItems <- bulletListItems return $ B.bulletList <$> listItems orderedListStart :: PandocMonad m => ListNumberStyle -> ListNumberDelim -> MuseParser m Int orderedListStart style delim = listStart (snd <$> withHorizDisplacement (orderedListMarker style delim)) orderedList :: PandocMonad m => MuseParser m (F Blocks) orderedList = try $ do p@(_, style, delim) <- lookAhead (many spaceChar *> anyOrderedListMarker <* spaceChar) guard $ style `elem` [Decimal, LowerAlpha, UpperAlpha, LowerRoman, UpperRoman] guard $ delim == Period items <- sequence <$> many1 (listItem $ orderedListStart style delim) return $ B.orderedListWith p <$> items definitionListItem :: PandocMonad m => MuseParser m (F (Inlines, [Blocks])) definitionListItem = try $ do term <- termParser many1 spaceChar string "::" firstLine <- anyLineNewline restLines <- manyTill anyLineNewline endOfListItemElement let lns = firstLine : restLines lineContent <- parseFromString (withListContext parseBlocks) $ concat lns ++ "\n" pure $ do lineContent' <- lineContent pure (B.text term, [lineContent']) where termParser = (guardDisabled Ext_amuse <|> void spaceChar) >> -- Initial space is required by Amusewiki, but not Emacs Muse many spaceChar >> many1Till anyChar (lookAhead (void (try (spaceChar >> string "::")) <|> void newline)) endOfInput = try $ skipMany blankline >> skipSpaces >> eof twoBlankLines = try $ blankline >> skipMany1 blankline newDefinitionListItem = try $ void termParser endOfListItemElement = lookAhead $ endOfInput <|> newDefinitionListItem <|> twoBlankLines definitionListItems :: PandocMonad m => MuseParser m (F [(Inlines, [Blocks])]) definitionListItems = sequence <$> many1 definitionListItem definitionList :: PandocMonad m => MuseParser m (F Blocks) definitionList = do listItems <- definitionListItems return $ B.definitionList <$> listItems -- -- tables -- data MuseTable = MuseTable { museTableCaption :: Inlines , museTableHeaders :: [[Blocks]] , museTableRows :: [[Blocks]] , museTableFooters :: [[Blocks]] } data MuseTableElement = MuseHeaderRow (F [Blocks]) | MuseBodyRow (F [Blocks]) | MuseFooterRow (F [Blocks]) | MuseCaption (F Inlines) museToPandocTable :: MuseTable -> Blocks museToPandocTable (MuseTable caption headers body footers) = B.table caption attrs headRow rows where ncol = maximum (0 : map length (headers ++ body ++ footers)) attrs = replicate ncol (AlignDefault, 0.0) headRow = if null headers then [] else head headers rows = (if null headers then [] else tail headers) ++ body ++ footers museAppendElement :: MuseTable -> MuseTableElement -> F MuseTable museAppendElement tbl element = case element of MuseHeaderRow row -> do row' <- row return tbl{ museTableHeaders = museTableHeaders tbl ++ [row'] } MuseBodyRow row -> do row' <- row return tbl{ museTableRows = museTableRows tbl ++ [row'] } MuseFooterRow row-> do row' <- row return tbl{ museTableFooters = museTableFooters tbl ++ [row'] } MuseCaption inlines -> do inlines' <- inlines return tbl{ museTableCaption = inlines' } tableCell :: PandocMonad m => MuseParser m (F Blocks) tableCell = try $ fmap B.plain . trimInlinesF . mconcat <$> manyTill inline (lookAhead cellEnd) where cellEnd = try $ void (many1 spaceChar >> char '|') <|> eol tableElements :: PandocMonad m => MuseParser m [MuseTableElement] tableElements = tableParseElement `sepEndBy1` eol elementsToTable :: [MuseTableElement] -> F MuseTable elementsToTable = foldM museAppendElement emptyTable where emptyTable = MuseTable mempty mempty mempty mempty table :: PandocMonad m => MuseParser m (F Blocks) table = try $ do rows <- tableElements let tbl = elementsToTable rows let pandocTbl = museToPandocTable <$> tbl :: F Blocks return pandocTbl tableParseElement :: PandocMonad m => MuseParser m MuseTableElement tableParseElement = tableParseHeader <|> tableParseBody <|> tableParseFooter <|> tableParseCaption tableParseRow :: PandocMonad m => Int -> MuseParser m (F [Blocks]) tableParseRow n = try $ do fields <- tableCell `sepBy2` fieldSep return $ sequence fields where p `sepBy2` sep = (:) <$> p <*> many1 (sep >> p) fieldSep = many1 spaceChar >> count n (char '|') >> (void (many1 spaceChar) <|> void (lookAhead newline)) tableParseHeader :: PandocMonad m => MuseParser m MuseTableElement tableParseHeader = MuseHeaderRow <$> tableParseRow 2 tableParseBody :: PandocMonad m => MuseParser m MuseTableElement tableParseBody = MuseBodyRow <$> tableParseRow 1 tableParseFooter :: PandocMonad m => MuseParser m MuseTableElement tableParseFooter = MuseFooterRow <$> tableParseRow 3 tableParseCaption :: PandocMonad m => MuseParser m MuseTableElement tableParseCaption = try $ do many spaceChar string "|+" contents <- trimInlinesF . mconcat <$> many1Till inline (lookAhead $ string "+|") string "+|" return $ MuseCaption contents -- -- inline parsers -- inlineList :: PandocMonad m => [MuseParser m (F Inlines)] inlineList = [ endline , br , anchor , footnote , strong , strongTag , emph , emphTag , superscriptTag , subscriptTag , strikeoutTag , verbatimTag , link , code , codeTag , whitespace , str , symbol ] inline :: PandocMonad m => MuseParser m (F Inlines) inline = (choice inlineList) "inline" endline :: PandocMonad m => MuseParser m (F Inlines) endline = try $ do newline notFollowedBy blankline returnF B.softbreak anchor :: PandocMonad m => MuseParser m (F Inlines) anchor = try $ do getPosition >>= \pos -> guard (sourceColumn pos == 1) char '#' first <- letter rest <- many (letter <|> digit) skipMany spaceChar <|> void newline let anchorId = first:rest return $ return $ B.spanWith (anchorId, [], []) mempty footnote :: PandocMonad m => MuseParser m (F Inlines) footnote = try $ do ref <- noteMarker return $ do notes <- asksF stateNotes' case M.lookup ref notes of Nothing -> return $ B.str $ "[" ++ ref ++ "]" Just (_pos, contents) -> do st <- askF let contents' = runF contents st { stateNotes' = M.empty } return $ B.note contents' whitespace :: PandocMonad m => MuseParser m (F Inlines) whitespace = fmap return (lb <|> regsp) where lb = try $ skipMany spaceChar >> linebreak >> return B.space regsp = try $ skipMany1 spaceChar >> return B.space br :: PandocMonad m => MuseParser m (F Inlines) br = try $ do string "
" return $ return B.linebreak linebreak :: PandocMonad m => MuseParser m (F Inlines) linebreak = newline >> notFollowedBy newline >> (lastNewline <|> innerNewline) where lastNewline = do eof return $ return mempty innerNewline = return $ return B.space emphasisBetween :: (PandocMonad m, Show a) => MuseParser m a -> MuseParser m (F Inlines) emphasisBetween c = try $ enclosedInlines c c enclosedInlines :: (PandocMonad m, Show a, Show b) => MuseParser m a -> MuseParser m b -> MuseParser m (F Inlines) enclosedInlines start end = try $ trimInlinesF . mconcat <$> (enclosed start end inline <* notFollowedBy (satisfy isLetter)) inlineTag :: PandocMonad m => (Inlines -> Inlines) -> String -> MuseParser m (F Inlines) inlineTag f s = try $ do res <- parseHtmlContent s inline return $ f <$> mconcat res strongTag :: PandocMonad m => MuseParser m (F Inlines) strongTag = inlineTag B.strong "strong" strong :: PandocMonad m => MuseParser m (F Inlines) strong = fmap B.strong <$> emphasisBetween (string "**") emph :: PandocMonad m => MuseParser m (F Inlines) emph = fmap B.emph <$> emphasisBetween (char '*') emphTag :: PandocMonad m => MuseParser m (F Inlines) emphTag = inlineTag B.emph "em" superscriptTag :: PandocMonad m => MuseParser m (F Inlines) superscriptTag = inlineTag B.superscript "sup" subscriptTag :: PandocMonad m => MuseParser m (F Inlines) subscriptTag = inlineTag B.subscript "sub" strikeoutTag :: PandocMonad m => MuseParser m (F Inlines) strikeoutTag = inlineTag B.strikeout "del" verbatimTag :: PandocMonad m => MuseParser m (F Inlines) verbatimTag = do content <- parseHtmlContent "verbatim" anyChar return $ return $ B.text $ fromEntities content code :: PandocMonad m => MuseParser m (F Inlines) code = try $ do pos <- getPosition sp <- if sourceColumn pos == 1 then pure mempty else skipMany1 spaceChar >> pure B.space char '=' contents <- many1Till (noneOf "\n\r" <|> (newline <* notFollowedBy newline)) $ char '=' guard $ not $ null contents guard $ head contents `notElem` " \t\n" guard $ last contents `notElem` " \t\n" notFollowedBy $ satisfy isLetter return $ return (sp B.<> B.code contents) codeTag :: PandocMonad m => MuseParser m (F Inlines) codeTag = do (attrs, content) <- parseHtmlContentWithAttrs "code" anyChar return $ return $ B.codeWith attrs $ fromEntities content str :: PandocMonad m => MuseParser m (F Inlines) str = fmap (return . B.str) (many1 alphaNum <|> count 1 characterReference) symbol :: PandocMonad m => MuseParser m (F Inlines) symbol = (return . B.str) <$> count 1 nonspaceChar link :: PandocMonad m => MuseParser m (F Inlines) link = try $ do st <- getState guard $ stateAllowLinks st setState $ st{ stateAllowLinks = False } (url, title, content) <- linkText setState $ st{ stateAllowLinks = True } return $ case stripPrefix "URL:" url of Nothing -> if isImageUrl url then B.image url title <$> fromMaybe (return mempty) content else B.link url title <$> fromMaybe (return $ B.str url) content Just url' -> B.link url' title <$> fromMaybe (return $ B.str url') content where -- Taken from muse-image-regexp defined in Emacs Muse file lisp/muse-regexps.el imageExtensions = [".eps", ".gif", ".jpg", ".jpeg", ".pbm", ".png", ".tiff", ".xbm", ".xpm"] isImageUrl = (`elem` imageExtensions) . takeExtension linkContent :: PandocMonad m => MuseParser m (F Inlines) linkContent = do char '[' res <- many1Till anyChar $ char ']' parseFromString (mconcat <$> many1 inline) res linkText :: PandocMonad m => MuseParser m (String, String, Maybe (F Inlines)) linkText = do string "[[" url <- many1Till anyChar $ char ']' content <- optionMaybe linkContent char ']' return (url, "", content)