{-# LANGUAGE FlexibleContexts, FlexibleInstances, MultiParamTypeClasses, ViewPatterns, OverloadedStrings #-} {- Copyright (C) 2006-2017 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.HTML Copyright : Copyright (C) 2006-2017 John MacFarlane License : GNU GPL, version 2 or above Maintainer : John MacFarlane Stability : alpha Portability : portable Conversion of HTML to 'Pandoc' document. -} module Text.Pandoc.Readers.HTML ( readHtml , htmlTag , htmlInBalanced , isInlineTag , isBlockTag , NamedTag(..) , isTextTag , isCommentTag ) where import Text.HTML.TagSoup import Text.HTML.TagSoup.Match import Text.Pandoc.Definition import qualified Text.Pandoc.Builder as B import Text.Pandoc.Builder (Blocks, Inlines, trimInlines, HasMeta(..)) import Text.Pandoc.Shared ( extractSpaces, addMetaField , escapeURI, safeRead, crFilter, underlineSpan ) import Text.Pandoc.Options ( ReaderOptions(readerExtensions,readerStripComments), extensionEnabled, Extension (Ext_epub_html_exts, Ext_raw_html, Ext_native_divs, Ext_native_spans)) import Text.Pandoc.Logging import Text.Pandoc.Parsing hiding ((<|>)) import Text.Pandoc.Walk import qualified Data.Map as M import Data.Foldable ( for_ ) import Data.Maybe ( fromMaybe, isJust, isNothing ) import Data.List.Split ( wordsBy ) import Data.List ( intercalate, isPrefixOf ) import Data.Char ( isDigit, isLetter, isAlphaNum ) import Control.Monad ( guard, mzero, void, unless, mplus, msum ) import Control.Arrow ((***)) import Control.Applicative ( (<|>) ) import Data.Monoid (First (..)) import Data.Text (Text) import qualified Data.Text as T import Text.TeXMath (readMathML, writeTeX) import Data.Default (Default (..), def) import Control.Monad.Reader (ask, asks, local, ReaderT, runReaderT, lift) import Network.URI (URI, parseURIReference, nonStrictRelativeTo) import Text.Pandoc.CSS (foldOrElse, pickStyleAttrProps) import Data.Monoid ((<>)) import Text.Parsec.Error import qualified Data.Set as Set import Text.Pandoc.Error import Text.Pandoc.Class (PandocMonad(..)) import Control.Monad.Except (throwError) -- | Convert HTML-formatted string to 'Pandoc' document. readHtml :: PandocMonad m => ReaderOptions -- ^ Reader options -> Text -- ^ String to parse (assumes @'\n'@ line endings) -> m Pandoc readHtml opts inp = do let tags = stripPrefixes . canonicalizeTags $ parseTagsOptions parseOptions{ optTagPosition = True } (crFilter inp) parseDoc = do blocks <- (fixPlains False) . mconcat <$> manyTill block eof meta <- stateMeta . parserState <$> getState bs' <- replaceNotes (B.toList blocks) reportLogMessages return $ Pandoc meta bs' getError (errorMessages -> ms) = case ms of [] -> "" (m:_) -> messageString m result <- flip runReaderT def $ runParserT parseDoc (HTMLState def{ stateOptions = opts } [] Nothing Set.empty M.empty []) "source" tags case result of Right doc -> return doc Left err -> throwError $ PandocParseError $ getError err replaceNotes :: PandocMonad m => [Block] -> TagParser m [Block] replaceNotes = walkM replaceNotes' replaceNotes' :: PandocMonad m => Inline -> TagParser m Inline replaceNotes' (RawInline (Format "noteref") ref) = maybe (Str "") (Note . B.toList) . lookup ref <$> getNotes where getNotes = noteTable <$> getState replaceNotes' x = return x data HTMLState = HTMLState { parserState :: ParserState, noteTable :: [(String, Blocks)], baseHref :: Maybe URI, identifiers :: Set.Set String, headerMap :: M.Map Inlines String, logMessages :: [LogMessage] } data HTMLLocal = HTMLLocal { quoteContext :: QuoteContext , inChapter :: Bool -- ^ Set if in chapter section , inPlain :: Bool -- ^ Set if in pPlain } setInChapter :: PandocMonad m => HTMLParser m s a -> HTMLParser m s a setInChapter = local (\s -> s {inChapter = True}) setInPlain :: PandocMonad m => HTMLParser m s a -> HTMLParser m s a setInPlain = local (\s -> s {inPlain = True}) type HTMLParser m s = ParserT s HTMLState (ReaderT HTMLLocal m) type TagParser m = HTMLParser m [Tag Text] pHtml :: PandocMonad m => TagParser m Blocks pHtml = try $ do (TagOpen "html" attr) <- lookAhead $ pAnyTag for_ (lookup "lang" attr) $ updateState . B.setMeta "lang" . B.text . T.unpack pInTags "html" block pBody :: PandocMonad m => TagParser m Blocks pBody = pInTags "body" block pHead :: PandocMonad m => TagParser m Blocks pHead = pInTags "head" $ pTitle <|> pMetaTag <|> pBaseTag <|> (mempty <$ pAnyTag) where pTitle = pInTags "title" inline >>= setTitle . trimInlines setTitle t = mempty <$ (updateState $ B.setMeta "title" t) pMetaTag = do mt <- pSatisfy (matchTagOpen "meta" []) let name = T.unpack $ fromAttrib "name" mt if null name then return mempty else do let content = T.unpack $ fromAttrib "content" mt updateState $ \s -> let ps = parserState s in s{ parserState = ps{ stateMeta = addMetaField name (B.text content) (stateMeta ps) } } return mempty pBaseTag = do bt <- pSatisfy (matchTagOpen "base" []) updateState $ \st -> st{ baseHref = parseURIReference $ T.unpack $ fromAttrib "href" bt } return mempty block :: PandocMonad m => TagParser m Blocks block = do res <- choice [ eSection , eSwitch B.para block , mempty <$ eFootnote , mempty <$ eTOC , mempty <$ eTitlePage , pPara , pHeader , pBlockQuote , pCodeBlock , pList , pHrule , pTable , pHtml , pHead , pBody , pDiv , pPlain , pFigure , pRawHtmlBlock ] trace (take 60 $ show $ B.toList res) return res namespaces :: PandocMonad m => [(String, TagParser m Inlines)] namespaces = [(mathMLNamespace, pMath True)] mathMLNamespace :: String mathMLNamespace = "http://www.w3.org/1998/Math/MathML" eSwitch :: (PandocMonad m, Monoid a) => (Inlines -> a) -> TagParser m a -> TagParser m a eSwitch constructor parser = try $ do guardEnabled Ext_epub_html_exts pSatisfy (matchTagOpen "switch" []) cases <- getFirst . mconcat <$> manyTill (First <$> (eCase <* skipMany pBlank) ) (lookAhead $ try $ pSatisfy (matchTagOpen "default" [])) skipMany pBlank fallback <- pInTags "default" (skipMany pBlank *> parser <* skipMany pBlank) skipMany pBlank pSatisfy (matchTagClose "switch") return $ maybe fallback constructor cases eCase :: PandocMonad m => TagParser m (Maybe Inlines) eCase = do skipMany pBlank TagOpen _ attr' <- lookAhead $ pSatisfy $ (matchTagOpen "case" []) let attr = toStringAttr attr' case (flip lookup namespaces) =<< lookup "required-namespace" attr of Just p -> Just <$> (pInTags "case" (skipMany pBlank *> p <* skipMany pBlank)) Nothing -> Nothing <$ manyTill pAnyTag (pSatisfy (matchTagClose "case")) eFootnote :: PandocMonad m => TagParser m () eFootnote = try $ do let notes = ["footnote", "rearnote"] guardEnabled Ext_epub_html_exts (TagOpen tag attr') <- lookAhead $ pAnyTag let attr = toStringAttr attr' guard (maybe False (flip elem notes) (lookup "type" attr)) let ident = fromMaybe "" (lookup "id" attr) content <- pInTags tag block addNote ident content addNote :: PandocMonad m => String -> Blocks -> TagParser m () addNote uid cont = updateState (\s -> s {noteTable = (uid, cont) : (noteTable s)}) eNoteref :: PandocMonad m => TagParser m Inlines eNoteref = try $ do guardEnabled Ext_epub_html_exts TagOpen tag attr' <- lookAhead $ pAnyTag let attr = toStringAttr attr' guard (maybe False (== "noteref") (lookup "type" attr)) let ident = maybe "" (dropWhile (== '#')) (lookup "href" attr) guard (not (null ident)) pInTags tag block return $ B.rawInline "noteref" ident -- Strip TOC if there is one, better to generate again eTOC :: PandocMonad m => TagParser m () eTOC = try $ do guardEnabled Ext_epub_html_exts (TagOpen tag attr) <- lookAhead $ pAnyTag guard (maybe False (== "toc") (lookup "type" attr)) void (pInTags tag block) pList :: PandocMonad m => TagParser m Blocks pList = pBulletList <|> pOrderedList <|> pDefinitionList pBulletList :: PandocMonad m => TagParser m Blocks pBulletList = try $ do pSatisfy (matchTagOpen "ul" []) let nonItem = pSatisfy (\t -> not (tagOpen (`elem` ["li","ol","ul","dl"]) (const True) t) && not (matchTagClose "ul" t)) -- note: if they have an
    or
      not in scope of a
    • , -- treat it as a list item, though it's not valid xhtml... skipMany nonItem items <- manyTill (pListItem nonItem) (pCloses "ul") return $ B.bulletList $ map (fixPlains True) items pListItem :: PandocMonad m => TagParser m a -> TagParser m Blocks pListItem nonItem = do TagOpen _ attr' <- lookAhead $ pSatisfy (matchTagOpen "li" []) let attr = toStringAttr attr' let addId ident bs = case B.toList bs of (Plain ils:xs) -> B.fromList (Plain [Span (ident, [], []) ils] : xs) _ -> B.divWith (ident, [], []) bs (maybe id addId (lookup "id" attr)) <$> pInTags "li" block <* skipMany nonItem parseListStyleType :: String -> ListNumberStyle parseListStyleType "lower-roman" = LowerRoman parseListStyleType "upper-roman" = UpperRoman parseListStyleType "lower-alpha" = LowerAlpha parseListStyleType "upper-alpha" = UpperAlpha parseListStyleType "decimal" = Decimal parseListStyleType _ = DefaultStyle parseTypeAttr :: String -> ListNumberStyle parseTypeAttr "i" = LowerRoman parseTypeAttr "I" = UpperRoman parseTypeAttr "a" = LowerAlpha parseTypeAttr "A" = UpperAlpha parseTypeAttr "1" = Decimal parseTypeAttr _ = DefaultStyle pOrderedList :: PandocMonad m => TagParser m Blocks pOrderedList = try $ do TagOpen _ attribs' <- pSatisfy (matchTagOpen "ol" []) let attribs = toStringAttr attribs' let (start, style) = (sta', sty') where sta = fromMaybe "1" $ lookup "start" attribs sta' = if all isDigit sta then read sta else 1 pickListStyle = pickStyleAttrProps ["list-style-type", "list-style"] typeAttr = fromMaybe "" $ lookup "type" attribs classAttr = fromMaybe "" $ lookup "class" attribs styleAttr = fromMaybe "" $ lookup "style" attribs listStyle = fromMaybe "" $ pickListStyle styleAttr sty' = foldOrElse DefaultStyle [ parseTypeAttr typeAttr , parseListStyleType classAttr , parseListStyleType listStyle ] let nonItem = pSatisfy (\t -> not (tagOpen (`elem` ["li","ol","ul","dl"]) (const True) t) && not (matchTagClose "ol" t)) -- note: if they have an
        or
          not in scope of a
        • , -- treat it as a list item, though it's not valid xhtml... skipMany nonItem items <- manyTill (pListItem nonItem) (pCloses "ol") return $ B.orderedListWith (start, style, DefaultDelim) $ map (fixPlains True) items pDefinitionList :: PandocMonad m => TagParser m Blocks pDefinitionList = try $ do pSatisfy (matchTagOpen "dl" []) items <- manyTill pDefListItem (pCloses "dl") return $ B.definitionList items pDefListItem :: PandocMonad m => TagParser m (Inlines, [Blocks]) pDefListItem = try $ do let nonItem = pSatisfy (\t -> not (matchTagOpen "dt" [] t) && not (matchTagOpen "dd" [] t) && not (matchTagClose "dl" t)) terms <- many1 (try $ skipMany nonItem >> pInTags "dt" inline) defs <- many1 (try $ skipMany nonItem >> pInTags "dd" block) skipMany nonItem let term = foldl1 (\x y -> x <> B.linebreak <> y) terms return (term, map (fixPlains True) defs) fixPlains :: Bool -> Blocks -> Blocks fixPlains inList bs = if any isParaish bs' then B.fromList $ map plainToPara bs' else bs where isParaish (Para _) = True isParaish (CodeBlock _ _) = True isParaish (Header _ _ _) = True isParaish (BlockQuote _) = True isParaish (BulletList _) = not inList isParaish (OrderedList _ _) = not inList isParaish (DefinitionList _) = not inList isParaish _ = False plainToPara (Plain xs) = Para xs plainToPara x = x bs' = B.toList bs pRawTag :: PandocMonad m => TagParser m Text pRawTag = do tag <- pAnyTag let ignorable x = x `elem` ["html","head","body","!DOCTYPE","?xml"] if tagOpen ignorable (const True) tag || tagClose ignorable tag then return mempty else return $ renderTags' [tag] pDiv :: PandocMonad m => TagParser m Blocks pDiv = try $ do guardEnabled Ext_native_divs let isDivLike "div" = True isDivLike "section" = True isDivLike "main" = True isDivLike _ = False TagOpen tag attr' <- lookAhead $ pSatisfy $ tagOpen isDivLike (const True) let attr = toStringAttr attr' contents <- pInTags tag block let (ident, classes, kvs) = mkAttr attr let classes' = if tag == "section" then "section":classes else classes kvs' = if tag == "main" && isNothing (lookup "role" kvs) then ("role", "main"):kvs else kvs return $ B.divWith (ident, classes', kvs') contents pRawHtmlBlock :: PandocMonad m => TagParser m Blocks pRawHtmlBlock = do raw <- T.unpack <$> (pHtmlBlock "script" <|> pHtmlBlock "style" <|> pRawTag) exts <- getOption readerExtensions if extensionEnabled Ext_raw_html exts && not (null raw) then return $ B.rawBlock "html" raw else ignore raw ignore :: (Monoid a, PandocMonad m) => String -> TagParser m a ignore raw = do pos <- getPosition -- raw can be null for tags like ; see paRawTag -- in this case we don't want a warning: unless (null raw) $ logMessage $ SkippedContent raw pos return mempty pHtmlBlock :: PandocMonad m => Text -> TagParser m Text pHtmlBlock t = try $ do open <- pSatisfy (matchTagOpen t []) contents <- manyTill pAnyTag (pSatisfy (matchTagClose t)) return $ renderTags' $ [open] <> contents <> [TagClose t] -- Sets chapter context eSection :: PandocMonad m => TagParser m Blocks eSection = try $ do let matchChapter as = maybe False (T.isInfixOf "chapter") (lookup "type" as) let sectTag = tagOpen (`elem` sectioningContent) matchChapter TagOpen tag _ <- lookAhead $ pSatisfy sectTag setInChapter (pInTags tag block) headerLevel :: PandocMonad m => Text -> TagParser m Int headerLevel tagtype = do case safeRead (T.unpack (T.drop 1 tagtype)) of Just level -> (try $ do guardEnabled Ext_epub_html_exts asks inChapter >>= guard return (level - 1)) <|> return level Nothing -> fail "Could not retrieve header level" eTitlePage :: PandocMonad m => TagParser m () eTitlePage = try $ do let isTitlePage as = maybe False (T.isInfixOf "titlepage") (lookup "type" as) let groupTag = tagOpen (\x -> x `elem` groupingContent || x == "section") isTitlePage TagOpen tag _ <- lookAhead $ pSatisfy groupTag () <$ pInTags tag block pHeader :: PandocMonad m => TagParser m Blocks pHeader = try $ do TagOpen tagtype attr' <- pSatisfy $ tagOpen (`elem` ["h1","h2","h3","h4","h5","h6"]) (const True) let attr = toStringAttr attr' let bodyTitle = TagOpen tagtype attr' ~== TagOpen ("h1" :: Text) [("class","title")] level <- headerLevel tagtype contents <- trimInlines . mconcat <$> manyTill inline (pCloses tagtype <|> eof) let ident = fromMaybe "" $ lookup "id" attr let classes = maybe [] words $ lookup "class" attr let keyvals = [(k,v) | (k,v) <- attr, k /= "class", k /= "id"] attr'' <- registerHeader (ident, classes, keyvals) contents return $ if bodyTitle then mempty -- skip a representation of the title in the body else B.headerWith attr'' level contents pHrule :: PandocMonad m => TagParser m Blocks pHrule = do pSelfClosing (=="hr") (const True) return B.horizontalRule pTable :: PandocMonad m => TagParser m Blocks pTable = try $ do TagOpen _ _ <- pSatisfy (matchTagOpen "table" []) skipMany pBlank caption <- option mempty $ pInTags "caption" inline <* skipMany pBlank widths' <- (mconcat <$> many1 pColgroup) <|> many pCol let pTh = option [] $ pInTags "tr" (pCell "th") pTr = try $ skipMany pBlank >> pInTags "tr" (pCell "td" <|> pCell "th") pTBody = do pOptInTag "tbody" $ many1 pTr head'' <- pOptInTag "thead" pTh head' <- map snd <$> (pOptInTag "tbody" $ if null head'' then pTh else return head'') rowsLs <- many pTBody rows' <- pOptInTag "tfoot" $ many pTr TagClose _ <- pSatisfy (matchTagClose "table") let rows'' = (concat rowsLs) <> rows' let rows''' = map (map snd) rows'' -- let rows''' = map (map snd) rows'' -- fail on empty table guard $ not $ null head' && null rows''' let isSinglePlain x = case B.toList x of [] -> True [Plain _] -> True _ -> False let isSimple = all isSinglePlain $ concat (head':rows''') let cols = length $ if null head' then head rows''' else head' -- add empty cells to short rows let addEmpties r = case cols - length r of n | n > 0 -> r <> replicate n mempty | otherwise -> r let rows = map addEmpties rows''' let aligns = case rows'' of (cs:_) -> map fst cs _ -> replicate cols AlignDefault let widths = if null widths' then if isSimple then replicate cols 0 else replicate cols (1.0 / fromIntegral cols) else widths' return $ B.table caption (zip aligns widths) head' rows pCol :: PandocMonad m => TagParser m Double pCol = try $ do TagOpen _ attribs' <- pSatisfy (matchTagOpen "col" []) let attribs = toStringAttr attribs' skipMany pBlank optional $ pSatisfy (matchTagClose "col") skipMany pBlank return $ case lookup "width" attribs of Nothing -> case lookup "style" attribs of Just ('w':'i':'d':'t':'h':':':xs) | '%' `elem` xs -> fromMaybe 0.0 $ safeRead ('0':'.':filter (`notElem` (" \t\r\n%'\";" :: [Char])) xs) _ -> 0.0 Just x | not (null x) && last x == '%' -> fromMaybe 0.0 $ safeRead ('0':'.':init x) _ -> 0.0 pColgroup :: PandocMonad m => TagParser m [Double] pColgroup = try $ do pSatisfy (matchTagOpen "colgroup" []) skipMany pBlank manyTill pCol (pCloses "colgroup" <|> eof) <* skipMany pBlank noColOrRowSpans :: Tag Text -> Bool noColOrRowSpans t = isNullOrOne "colspan" && isNullOrOne "rowspan" where isNullOrOne x = case fromAttrib x t of "" -> True "1" -> True _ -> False pCell :: PandocMonad m => Text -> TagParser m [(Alignment, Blocks)] pCell celltype = try $ do skipMany pBlank tag <- lookAhead $ pSatisfy (\t -> t ~== TagOpen celltype [] && noColOrRowSpans t) let extractAlign' [] = "" extractAlign' ("text-align":x:_) = x extractAlign' (_:xs) = extractAlign' xs let extractAlign = extractAlign' . wordsBy (`elem` [' ','\t',';',':']) let align = case maybeFromAttrib "align" tag `mplus` (extractAlign <$> maybeFromAttrib "style" tag) of Just "left" -> AlignLeft Just "right" -> AlignRight Just "center" -> AlignCenter _ -> AlignDefault res <- pInTags' celltype noColOrRowSpans block skipMany pBlank return [(align, res)] pBlockQuote :: PandocMonad m => TagParser m Blocks pBlockQuote = do contents <- pInTags "blockquote" block return $ B.blockQuote $ fixPlains False contents pPlain :: PandocMonad m => TagParser m Blocks pPlain = do contents <- setInPlain $ trimInlines . mconcat <$> many1 inline if B.isNull contents then return mempty else return $ B.plain contents pPara :: PandocMonad m => TagParser m Blocks pPara = do contents <- trimInlines <$> pInTags "p" inline return $ B.para contents pFigure :: PandocMonad m => TagParser m Blocks pFigure = try $ do TagOpen _ _ <- pSatisfy (matchTagOpen "figure" []) skipMany pBlank let pImg = (\x -> (Just x, Nothing)) <$> (pOptInTag "p" pImage <* skipMany pBlank) pCapt = (\x -> (Nothing, Just x)) <$> (pInTags "figcaption" inline <* skipMany pBlank) pSkip = (Nothing, Nothing) <$ pSatisfy (not . matchTagClose "figure") res <- many (pImg <|> pCapt <|> pSkip) let mbimg = msum $ map fst res let mbcap = msum $ map snd res TagClose _ <- pSatisfy (matchTagClose "figure") let caption = fromMaybe mempty mbcap case B.toList <$> mbimg of Just [Image attr _ (url, tit)] -> return $ B.para $ B.imageWith attr url ("fig:" ++ tit) caption _ -> mzero pCodeBlock :: PandocMonad m => TagParser m Blocks pCodeBlock = try $ do TagOpen _ attr' <- pSatisfy (matchTagOpen "pre" []) let attr = toStringAttr attr' contents <- manyTill pAnyTag (pCloses "pre" <|> eof) let rawText = concatMap tagToString contents -- drop leading newline if any let result' = case rawText of '\n':xs -> xs _ -> rawText -- drop trailing newline if any let result = case reverse result' of '\n':_ -> init result' _ -> result' return $ B.codeBlockWith (mkAttr attr) result tagToString :: Tag Text -> String tagToString (TagText s) = T.unpack s tagToString (TagOpen "br" _) = "\n" tagToString _ = "" inline :: PandocMonad m => TagParser m Inlines inline = choice [ eNoteref , eSwitch id inline , pTagText , pQ , pEmph , pStrong , pSuperscript , pSubscript , pStrikeout , pUnderline , pLineBreak , pLink , pImage , pCode , pSpan , pMath False , pRawHtmlInline ] pLocation :: PandocMonad m => TagParser m () pLocation = do (TagPosition r c) <- pSat isTagPosition setPosition $ newPos "input" r c pSat :: PandocMonad m => (Tag Text -> Bool) -> TagParser m (Tag Text) pSat f = do pos <- getPosition token show (const pos) (\x -> if f x then Just x else Nothing) pSatisfy :: PandocMonad m => (Tag Text -> Bool) -> TagParser m (Tag Text) pSatisfy f = try $ optional pLocation >> pSat f pAnyTag :: PandocMonad m => TagParser m (Tag Text) pAnyTag = pSatisfy (const True) pSelfClosing :: PandocMonad m => (Text -> Bool) -> ([Attribute Text] -> Bool) -> TagParser m (Tag Text) pSelfClosing f g = do open <- pSatisfy (tagOpen f g) optional $ pSatisfy (tagClose f) return open pQ :: PandocMonad m => TagParser m Inlines pQ = do context <- asks quoteContext let quoteType = case context of InDoubleQuote -> SingleQuote _ -> DoubleQuote let innerQuoteContext = if quoteType == SingleQuote then InSingleQuote else InDoubleQuote let constructor = case quoteType of SingleQuote -> B.singleQuoted DoubleQuote -> B.doubleQuoted withQuoteContext innerQuoteContext $ pInlinesInTags "q" constructor pEmph :: PandocMonad m => TagParser m Inlines pEmph = pInlinesInTags "em" B.emph <|> pInlinesInTags "i" B.emph pStrong :: PandocMonad m => TagParser m Inlines pStrong = pInlinesInTags "strong" B.strong <|> pInlinesInTags "b" B.strong pSuperscript :: PandocMonad m => TagParser m Inlines pSuperscript = pInlinesInTags "sup" B.superscript pSubscript :: PandocMonad m => TagParser m Inlines pSubscript = pInlinesInTags "sub" B.subscript pStrikeout :: PandocMonad m => TagParser m Inlines pStrikeout = do pInlinesInTags "s" B.strikeout <|> pInlinesInTags "strike" B.strikeout <|> pInlinesInTags "del" B.strikeout <|> try (do pSatisfy (matchTagOpen "span" [("class","strikeout")]) contents <- mconcat <$> manyTill inline (pCloses "span") return $ B.strikeout contents) pUnderline :: PandocMonad m => TagParser m Inlines pUnderline = pInlinesInTags "u" underlineSpan <|> pInlinesInTags "ins" underlineSpan pLineBreak :: PandocMonad m => TagParser m Inlines pLineBreak = do pSelfClosing (=="br") (const True) return B.linebreak -- Unlike fromAttrib from tagsoup, this distinguishes -- between a missing attribute and an attribute with empty content. maybeFromAttrib :: String -> Tag Text -> Maybe String maybeFromAttrib name (TagOpen _ attrs) = T.unpack <$> lookup (T.pack name) attrs maybeFromAttrib _ _ = Nothing pLink :: PandocMonad m => TagParser m Inlines pLink = try $ do tag <- pSatisfy $ tagOpenLit "a" (const True) let title = T.unpack $ fromAttrib "title" tag -- take id from id attribute if present, otherwise name let uid = maybe (T.unpack $ fromAttrib "name" tag) id $ maybeFromAttrib "id" tag let cls = words $ T.unpack $ fromAttrib "class" tag lab <- trimInlines . mconcat <$> manyTill inline (pCloses "a") -- check for href; if href, then a link, otherwise a span case maybeFromAttrib "href" tag of Nothing -> return $ B.spanWith (uid, cls, []) lab Just url' -> do mbBaseHref <- baseHref <$> getState let url = case (parseURIReference url', mbBaseHref) of (Just rel, Just bs) -> show (rel `nonStrictRelativeTo` bs) _ -> url' return $ B.linkWith (uid, cls, []) (escapeURI url) title lab pImage :: PandocMonad m => TagParser m Inlines pImage = do tag <- pSelfClosing (=="img") (isJust . lookup "src") mbBaseHref <- baseHref <$> getState let url' = T.unpack $ fromAttrib "src" tag let url = case (parseURIReference url', mbBaseHref) of (Just rel, Just bs) -> show (rel `nonStrictRelativeTo` bs) _ -> url' let title = T.unpack $ fromAttrib "title" tag let alt = T.unpack $ fromAttrib "alt" tag let uid = T.unpack $ fromAttrib "id" tag let cls = words $ T.unpack $ fromAttrib "class" tag let getAtt k = case fromAttrib k tag of "" -> [] v -> [(T.unpack k, T.unpack v)] let kvs = concat $ map getAtt ["width", "height", "sizes", "srcset"] return $ B.imageWith (uid, cls, kvs) (escapeURI url) title (B.text alt) pCode :: PandocMonad m => TagParser m Inlines pCode = try $ do (TagOpen open attr') <- pSatisfy $ tagOpen (`elem` ["code","tt"]) (const True) let attr = toStringAttr attr' result <- manyTill pAnyTag (pCloses open) return $ B.codeWith (mkAttr attr) $ intercalate " " $ lines $ T.unpack $ innerText result pSpan :: PandocMonad m => TagParser m Inlines pSpan = try $ do guardEnabled Ext_native_spans TagOpen _ attr' <- lookAhead $ pSatisfy $ tagOpen (=="span") (const True) let attr = toStringAttr attr' contents <- pInTags "span" inline let isSmallCaps = fontVariant == "small-caps" || "smallcaps" `elem` classes where styleAttr = fromMaybe "" $ lookup "style" attr fontVariant = fromMaybe "" $ pickStyleAttrProps ["font-variant"] styleAttr classes = fromMaybe [] $ words <$> lookup "class" attr let tag = if isSmallCaps then B.smallcaps else B.spanWith (mkAttr attr) return $ tag contents pRawHtmlInline :: PandocMonad m => TagParser m Inlines pRawHtmlInline = do inplain <- asks inPlain result <- pSatisfy (tagComment (const True)) <|> if inplain then pSatisfy (not . isBlockTag) else pSatisfy isInlineTag exts <- getOption readerExtensions let raw = T.unpack $ renderTags' [result] if extensionEnabled Ext_raw_html exts then return $ B.rawInline "html" raw else ignore raw mathMLToTeXMath :: String -> Either String String mathMLToTeXMath s = writeTeX <$> readMathML s toStringAttr :: [(Text, Text)] -> [(String, String)] toStringAttr = map go where go (x,y) = (T.unpack x, T.unpack y) pMath :: PandocMonad m => Bool -> TagParser m Inlines pMath inCase = try $ do open@(TagOpen _ attr') <- pSatisfy $ tagOpen (=="math") (const True) -- we'll assume math tags are MathML unless specially marked -- otherwise... let attr = toStringAttr attr' unless inCase $ guard (maybe True (== mathMLNamespace) (lookup "xmlns" attr)) contents <- manyTill pAnyTag (pSatisfy (matchTagClose "math")) case mathMLToTeXMath (T.unpack $ renderTags $ [open] <> contents <> [TagClose "math"]) of Left _ -> return $ B.spanWith ("",["math"],attr) $ B.text $ T.unpack $ innerText contents Right [] -> return mempty Right x -> return $ case lookup "display" attr of Just "block" -> B.displayMath x _ -> B.math x pInlinesInTags :: PandocMonad m => Text -> (Inlines -> Inlines) -> TagParser m Inlines pInlinesInTags tagtype f = extractSpaces f <$> pInTags tagtype inline pInTags :: (PandocMonad m, Monoid a) => Text -> TagParser m a -> TagParser m a pInTags tagtype parser = pInTags' tagtype (const True) parser pInTags' :: (PandocMonad m, Monoid a) => Text -> (Tag Text -> Bool) -> TagParser m a -> TagParser m a pInTags' tagtype tagtest parser = try $ do pSatisfy (\t -> t ~== TagOpen tagtype [] && tagtest t) mconcat <$> manyTill parser (pCloses tagtype <|> eof) -- parses p, preceeded by an optional opening tag -- and followed by an optional closing tags pOptInTag :: PandocMonad m => Text -> TagParser m a -> TagParser m a pOptInTag tagtype p = try $ do skipMany pBlank optional $ pSatisfy (matchTagOpen tagtype []) skipMany pBlank x <- p skipMany pBlank optional $ pSatisfy (matchTagClose tagtype) skipMany pBlank return x pCloses :: PandocMonad m => Text -> TagParser m () pCloses tagtype = try $ do t <- lookAhead $ pSatisfy $ \tag -> isTagClose tag || isTagOpen tag case t of (TagClose t') | t' == tagtype -> pAnyTag >> return () (TagOpen t' _) | t' `closes` tagtype -> return () (TagClose "ul") | tagtype == "li" -> return () (TagClose "ol") | tagtype == "li" -> return () (TagClose "dl") | tagtype == "dd" -> return () (TagClose "table") | tagtype == "td" -> return () (TagClose "table") | tagtype == "tr" -> return () (TagClose "td") | tagtype `Set.member` blockHtmlTags -> return () (TagClose "th") | tagtype `Set.member` blockHtmlTags -> return () (TagClose t') | tagtype == "p" && t' `Set.member` blockHtmlTags -> return () -- see #3794 _ -> mzero pTagText :: PandocMonad m => TagParser m Inlines pTagText = try $ do (TagText str) <- pSatisfy isTagText st <- getState qu <- ask parsed <- lift $ lift $ flip runReaderT qu $ runParserT (many pTagContents) st "text" str case parsed of Left _ -> throwError $ PandocParseError $ "Could not parse `" <> T.unpack str <> "'" Right result -> return $ mconcat result pBlank :: PandocMonad m => TagParser m () pBlank = try $ do (TagText str) <- pSatisfy isTagText guard $ T.all isSpace str type InlinesParser m = HTMLParser m Text pTagContents :: PandocMonad m => InlinesParser m Inlines pTagContents = B.displayMath <$> mathDisplay <|> B.math <$> mathInline <|> pStr <|> pSpace <|> smartPunctuation pTagContents <|> pSymbol <|> pBad pStr :: PandocMonad m => InlinesParser m Inlines pStr = do result <- many1 $ satisfy $ \c -> not (isSpace c) && not (isSpecial c) && not (isBad c) updateLastStrPos return $ B.str result isSpecial :: Char -> Bool isSpecial '"' = True isSpecial '\'' = True isSpecial '.' = True isSpecial '-' = True isSpecial '$' = True isSpecial '\8216' = True isSpecial '\8217' = True isSpecial '\8220' = True isSpecial '\8221' = True isSpecial _ = False pSymbol :: PandocMonad m => InlinesParser m Inlines pSymbol = satisfy isSpecial >>= return . B.str . (:[]) isBad :: Char -> Bool isBad c = c >= '\128' && c <= '\159' -- not allowed in HTML pBad :: PandocMonad m => InlinesParser m Inlines pBad = do c <- satisfy isBad let c' = case c of '\128' -> '\8364' '\130' -> '\8218' '\131' -> '\402' '\132' -> '\8222' '\133' -> '\8230' '\134' -> '\8224' '\135' -> '\8225' '\136' -> '\710' '\137' -> '\8240' '\138' -> '\352' '\139' -> '\8249' '\140' -> '\338' '\142' -> '\381' '\145' -> '\8216' '\146' -> '\8217' '\147' -> '\8220' '\148' -> '\8221' '\149' -> '\8226' '\150' -> '\8211' '\151' -> '\8212' '\152' -> '\732' '\153' -> '\8482' '\154' -> '\353' '\155' -> '\8250' '\156' -> '\339' '\158' -> '\382' '\159' -> '\376' _ -> '?' return $ B.str [c'] pSpace :: PandocMonad m => InlinesParser m Inlines pSpace = many1 (satisfy isSpace) >>= \xs -> if '\n' `elem` xs then return B.softbreak else return B.space -- -- Constants -- eitherBlockOrInline :: Set.Set Text eitherBlockOrInline = Set.fromList ["audio", "applet", "button", "iframe", "embed", "del", "ins", "progress", "map", "area", "noscript", "script", "object", "svg", "video", "source"] blockHtmlTags :: Set.Set Text blockHtmlTags = Set.fromList ["?xml", "!DOCTYPE", "address", "article", "aside", "blockquote", "body", "canvas", "caption", "center", "col", "colgroup", "dd", "details", "dir", "div", "dl", "dt", "fieldset", "figcaption", "figure", "footer", "form", "h1", "h2", "h3", "h4", "h5", "h6", "head", "header", "hgroup", "hr", "html", "isindex", "main", "menu", "meta", "noframes", "ol", "output", "p", "pre", "section", "table", "tbody", "textarea", "thead", "tfoot", "ul", "dd", "dt", "frameset", "li", "tbody", "td", "tfoot", "th", "thead", "tr", "script", "style"] -- We want to allow raw docbook in markdown documents, so we -- include docbook block tags here too. blockDocBookTags :: Set.Set Text blockDocBookTags = Set.fromList ["calloutlist", "bibliolist", "glosslist", "itemizedlist", "orderedlist", "segmentedlist", "simplelist", "variablelist", "caution", "important", "note", "tip", "warning", "address", "literallayout", "programlisting", "programlistingco", "screen", "screenco", "screenshot", "synopsis", "example", "informalexample", "figure", "informalfigure", "table", "informaltable", "para", "simpara", "formalpara", "equation", "informalequation", "figure", "screenshot", "mediaobject", "qandaset", "procedure", "task", "cmdsynopsis", "funcsynopsis", "classsynopsis", "blockquote", "epigraph", "msgset", "sidebar", "title"] epubTags :: Set.Set Text epubTags = Set.fromList ["case", "switch", "default"] blockTags :: Set.Set Text blockTags = Set.unions [blockHtmlTags, blockDocBookTags, epubTags] class NamedTag a where getTagName :: a -> Maybe Text instance NamedTag (Tag Text) where getTagName (TagOpen t _) = Just t getTagName (TagClose t) = Just t getTagName _ = Nothing instance NamedTag (Tag String) where getTagName (TagOpen t _) = Just (T.pack t) getTagName (TagClose t) = Just (T.pack t) getTagName _ = Nothing isInlineTag :: NamedTag (Tag a) => Tag a -> Bool isInlineTag t = isInlineTagName || isCommentTag t where isInlineTagName = case getTagName t of Just x -> x `Set.notMember` blockTags Nothing -> False isBlockTag :: NamedTag (Tag a) => Tag a -> Bool isBlockTag t = isBlockTagName || isTagComment t where isBlockTagName = case getTagName t of Just x | "?" `T.isPrefixOf` x -> True | "!" `T.isPrefixOf` x -> True | otherwise -> x `Set.member` blockTags || x `Set.member` eitherBlockOrInline Nothing -> False isTextTag :: Tag a -> Bool isTextTag = tagText (const True) isCommentTag :: Tag a -> Bool isCommentTag = tagComment (const True) -- taken from HXT and extended -- See http://www.w3.org/TR/html5/syntax.html sec 8.1.2.4 optional tags closes :: Text -> Text -> Bool _ `closes` "body" = False _ `closes` "html" = False "body" `closes` "head" = True "a" `closes` "a" = True "li" `closes` "li" = True "th" `closes` t | t `elem` ["th","td"] = True "td" `closes` t | t `elem` ["th","td"] = True "tr" `closes` t | t `elem` ["th","td","tr"] = True "dd" `closes` t | t `elem` ["dt", "dd"] = True "dt" `closes` t | t `elem` ["dt","dd"] = True "rt" `closes` t | t `elem` ["rb", "rt", "rtc"] = True "optgroup" `closes` "optgroup" = True "optgroup" `closes` "option" = True "option" `closes` "option" = True -- https://html.spec.whatwg.org/multipage/syntax.html#optional-tags x `closes` "p" | x `elem` ["address", "article", "aside", "blockquote", "dir", "div", "dl", "fieldset", "footer", "form", "h1", "h2", "h3", "h4", "h5", "h6", "header", "hr", "main", "menu", "nav", "ol", "p", "pre", "section", "table", "ul"] = True _ `closes` "meta" = True "form" `closes` "form" = True "label" `closes` "label" = True "map" `closes` "map" = True "object" `closes` "object" = True _ `closes` t | t `elem` ["option","style","script","textarea","title"] = True t `closes` "select" | t /= "option" = True "thead" `closes` t | t `elem` ["colgroup"] = True "tfoot" `closes` t | t `elem` ["thead","colgroup"] = True "tbody" `closes` t | t `elem` ["tbody","tfoot","thead","colgroup"] = True t `closes` t2 | t `elem` ["h1","h2","h3","h4","h5","h6","dl","ol","ul","table","div","main","p"] && t2 `elem` ["h1","h2","h3","h4","h5","h6","p" ] = True -- not "div" or "main" t1 `closes` t2 | t1 `Set.member` blockTags && t2 `Set.notMember` blockTags && t2 `Set.notMember` eitherBlockOrInline = True _ `closes` _ = False --- parsers for use in markdown, textile readers -- | Matches a stretch of HTML in balanced tags. htmlInBalanced :: (HasReaderOptions st, Monad m) => (Tag String -> Bool) -> ParserT String st m String htmlInBalanced f = try $ do lookAhead (char '<') inp <- getInput let ts = canonicalizeTags $ parseTagsOptions parseOptions{ optTagWarning = True, optTagPosition = True } inp case ts of (TagPosition sr sc : t@(TagOpen tn _) : rest) -> do guard $ f t guard $ not $ hasTagWarning (t : take 1 rest) case htmlInBalanced' tn (t:rest) of [] -> mzero xs -> case reverse xs of (TagClose _ : TagPosition er ec : _) -> do let ls = er - sr let cs = ec - sc lscontents <- unlines <$> count ls anyLine cscontents <- count cs anyChar closetag <- do x <- many (satisfy (/='>')) char '>' return (x <> ">") return (lscontents <> cscontents <> closetag) _ -> mzero _ -> mzero htmlInBalanced' :: String -> [Tag String] -> [Tag String] htmlInBalanced' tagname ts = fromMaybe [] $ go 0 ts where go :: Int -> [Tag String] -> Maybe [Tag String] go n (t@(TagOpen tn' _):rest) | tn' == tagname = (t :) <$> go (n + 1) rest go 1 (t@(TagClose tn'):_) | tn' == tagname = return [t] go n (t@(TagClose tn'):rest) | tn' == tagname = (t :) <$> go (n - 1) rest go n (t:ts') = (t :) <$> go n ts' go _ [] = mzero hasTagWarning :: [Tag a] -> Bool hasTagWarning (TagWarning _:_) = True hasTagWarning _ = False -- | Matches a tag meeting a certain condition. htmlTag :: (HasReaderOptions st, Monad m) => (Tag String -> Bool) -> ParserT [Char] st m (Tag String, String) htmlTag f = try $ do lookAhead (char '<') inp <- getInput let ts = canonicalizeTags $ parseTagsOptions parseOptions{ optTagWarning = False , optTagPosition = True } (inp ++ " ") -- add space to ensure that -- we get a TagPosition after the tag (next, ln, col) <- case ts of (TagPosition{} : next : TagPosition ln col : _) | f next -> return (next, ln, col) _ -> mzero -- -- should NOT be parsed as an HTML tag, see #2277, -- so we exclude . even though it's a valid character -- in XML elemnet names let isNameChar c = isAlphaNum c || c == ':' || c == '-' || c == '_' let isName s = case s of [] -> False (c:cs) -> isLetter c && all isNameChar cs let endAngle = try $ do char '>' pos <- getPosition guard $ (sourceLine pos == ln && sourceColumn pos >= col) || sourceLine pos > ln let handleTag tagname = do -- basic sanity check, since the parser is very forgiving -- and finds tags in stuff like x should NOT be a tag either. -- tagsoup will parse it as TagOpen "https:" [("example.org","")] guard $ last tagname /= ':' char '<' rendered <- manyTill anyChar endAngle return (next, "<" ++ rendered ++ ">") case next of TagComment s | "") | otherwise -> fail "bogus comment mode, HTML5 parse error" TagOpen tagname attr -> do guard $ all (isName . fst) attr handleTag tagname TagClose tagname -> handleTag tagname _ -> mzero mkAttr :: [(String, String)] -> Attr mkAttr attr = (attribsId, attribsClasses, attribsKV) where attribsId = fromMaybe "" $ lookup "id" attr attribsClasses = (words $ fromMaybe "" $ lookup "class" attr) <> epubTypes attribsKV = filter (\(k,_) -> k /= "class" && k /= "id") attr epubTypes = words $ fromMaybe "" $ lookup "epub:type" attr -- Strip namespace prefixes stripPrefixes :: [Tag Text] -> [Tag Text] stripPrefixes = map stripPrefix stripPrefix :: Tag Text -> Tag Text stripPrefix (TagOpen s as) = TagOpen (stripPrefix' s) (map (stripPrefix' *** id) as) stripPrefix (TagClose s) = TagClose (stripPrefix' s) stripPrefix x = x stripPrefix' :: Text -> Text stripPrefix' s = if T.null t then s else T.drop 1 t where (_, t) = T.span (/= ':') s isSpace :: Char -> Bool isSpace ' ' = True isSpace '\t' = True isSpace '\n' = True isSpace '\r' = True isSpace _ = False -- Instances instance HasIdentifierList HTMLState where extractIdentifierList = identifiers updateIdentifierList f s = s{ identifiers = f (identifiers s) } instance HasHeaderMap HTMLState where extractHeaderMap = headerMap updateHeaderMap f s = s{ headerMap = f (headerMap s) } instance HasLogMessages HTMLState where addLogMessage m s = s{ logMessages = m : logMessages s } getLogMessages = reverse . logMessages -- This signature should be more general -- MonadReader HTMLLocal m => HasQuoteContext st m instance PandocMonad m => HasQuoteContext HTMLState (ReaderT HTMLLocal m) where getQuoteContext = asks quoteContext withQuoteContext q = local (\s -> s{quoteContext = q}) instance HasReaderOptions HTMLState where extractReaderOptions = extractReaderOptions . parserState instance HasMeta HTMLState where setMeta s b st = st {parserState = setMeta s b $ parserState st} deleteMeta s st = st {parserState = deleteMeta s $ parserState st} instance Default HTMLLocal where def = HTMLLocal NoQuote False False instance HasLastStrPosition HTMLState where setLastStrPos s st = st {parserState = setLastStrPos s (parserState st)} getLastStrPos = getLastStrPos . parserState -- For now we need a special verison here; the one in Shared has String type renderTags' :: [Tag Text] -> Text renderTags' = renderTagsOptions renderOptions{ optMinimize = matchTags ["hr", "br", "img", "meta", "link"] , optRawTag = matchTags ["script", "style"] } where matchTags = \tags -> flip elem tags . T.toLower -- EPUB Specific -- -- sectioningContent :: [Text] sectioningContent = ["article", "aside", "nav", "section"] groupingContent :: [Text] groupingContent = ["p", "hr", "pre", "blockquote", "ol" , "ul", "li", "dl", "dt", "dt", "dd" , "figure", "figcaption", "div", "main"] matchTagClose :: Text -> (Tag Text -> Bool) matchTagClose t = (~== TagClose t) matchTagOpen :: Text -> [(Text, Text)] -> (Tag Text -> Bool) matchTagOpen t as = (~== TagOpen t as) {- types :: [(String, ([String], Int))] types = -- Document divisions map (\s -> (s, (["section", "body"], 0))) ["volume", "part", "chapter", "division"] <> -- Document section and components [ ("abstract", ([], 0))] -}