{-# LANGUAGE OverloadedStrings #-} {- | Module : Text.Pandoc.Writers.AsciiDoc Copyright : Copyright (C) 2006-2020 John MacFarlane License : GNU GPL, version 2 or above Maintainer : John MacFarlane Stability : alpha Portability : portable Conversion of 'Pandoc' documents to asciidoc. Note that some information may be lost in conversion, due to expressive limitations of asciidoc. Footnotes and table cells with paragraphs (or other block items) are not possible in asciidoc. If pandoc encounters one of these, it will insert a message indicating that it has omitted the construct. AsciiDoc: -} module Text.Pandoc.Writers.AsciiDoc (writeAsciiDoc, writeAsciiDoctor) where import Control.Monad.State.Strict import Data.Char (isPunctuation, isSpace) import Data.List (intercalate, intersperse) import Data.Maybe (fromMaybe, isJust) import qualified Data.Set as Set import qualified Data.Text as T import Data.Text (Text) import Text.Pandoc.Class.PandocMonad (PandocMonad, report) import Text.Pandoc.Definition import Text.Pandoc.ImageSize import Text.Pandoc.Logging import Text.Pandoc.Options import Text.Pandoc.Parsing hiding (blankline, space) import Text.DocLayout import Text.Pandoc.Shared import Text.Pandoc.Templates (renderTemplate) import Text.Pandoc.Writers.Shared data WriterState = WriterState { defListMarker :: Text , orderedListLevel :: Int , bulletListLevel :: Int , intraword :: Bool , autoIds :: Set.Set Text , asciidoctorVariant :: Bool , inList :: Bool , hasMath :: Bool } defaultWriterState :: WriterState defaultWriterState = WriterState { defListMarker = "::" , orderedListLevel = 0 , bulletListLevel = 0 , intraword = False , autoIds = Set.empty , asciidoctorVariant = False , inList = False , hasMath = False } -- | Convert Pandoc to AsciiDoc. writeAsciiDoc :: PandocMonad m => WriterOptions -> Pandoc -> m Text writeAsciiDoc opts document = evalStateT (pandocToAsciiDoc opts document) defaultWriterState -- | Convert Pandoc to AsciiDoctor compatible AsciiDoc. writeAsciiDoctor :: PandocMonad m => WriterOptions -> Pandoc -> m Text writeAsciiDoctor opts document = evalStateT (pandocToAsciiDoc opts document) defaultWriterState{ asciidoctorVariant = True } type ADW = StateT WriterState -- | Return asciidoc representation of document. pandocToAsciiDoc :: PandocMonad m => WriterOptions -> Pandoc -> ADW m Text pandocToAsciiDoc opts (Pandoc meta blocks) = do let titleblock = not $ null (docTitle meta) && null (docAuthors meta) && null (docDate meta) let colwidth = if writerWrapText opts == WrapAuto then Just $ writerColumns opts else Nothing metadata <- metaToContext opts (blockListToAsciiDoc opts) (fmap chomp . inlineListToAsciiDoc opts) meta main <- blockListToAsciiDoc opts $ makeSections False (Just 1) blocks st <- get let context = defField "body" main $ defField "toc" (writerTableOfContents opts && isJust (writerTemplate opts)) $ defField "math" (hasMath st) $ defField "titleblock" titleblock metadata return $ render colwidth $ case writerTemplate opts of Nothing -> main Just tpl -> renderTemplate tpl context -- | Escape special characters for AsciiDoc. escapeString :: Text -> Text escapeString = escapeStringUsing escs where escs = backslashEscapes "{" -- | Ordered list start parser for use in Para below. olMarker :: Parser Text ParserState Char olMarker = do (start, style', delim) <- anyOrderedListMarker if delim == Period && (style' == UpperAlpha || (style' == UpperRoman && start `elem` [1, 5, 10, 50, 100, 500, 1000])) then spaceChar >> spaceChar else spaceChar -- | True if string begins with an ordered list marker -- or would be interpreted as an AsciiDoc option command needsEscaping :: Text -> Bool needsEscaping s = beginsWithOrderedListMarker s || isBracketed s where beginsWithOrderedListMarker str = case runParser olMarker defaultParserState "para start" (T.take 10 str) of Left _ -> False Right _ -> True isBracketed t | Just ('[', t') <- T.uncons t , Just (_, ']') <- T.unsnoc t' = True | otherwise = False -- | Convert Pandoc block element to asciidoc. blockToAsciiDoc :: PandocMonad m => WriterOptions -- ^ Options -> Block -- ^ Block element -> ADW m (Doc Text) blockToAsciiDoc _ Null = return empty blockToAsciiDoc opts (Div (id',"section":_,_) (Header level (_,cls,kvs) ils : xs)) = do hdr <- blockToAsciiDoc opts (Header level (id',cls,kvs) ils) rest <- blockListToAsciiDoc opts xs return $ hdr $$ rest blockToAsciiDoc opts (Plain inlines) = do contents <- inlineListToAsciiDoc opts inlines return $ contents <> blankline blockToAsciiDoc opts (Para [Image attr alt (src,tgt)]) | Just tit <- T.stripPrefix "fig:" tgt = blockToAsciiDoc opts (Para [Image attr alt (src,tit)]) blockToAsciiDoc opts (Para inlines) = do contents <- inlineListToAsciiDoc opts inlines -- escape if para starts with ordered list marker let esc = if needsEscaping (render Nothing contents) then text "{empty}" else empty return $ esc <> contents <> blankline blockToAsciiDoc opts (LineBlock lns) = do let docify line = if null line then return blankline else inlineListToAsciiDoc opts line let joinWithLinefeeds = nowrap . mconcat . intersperse cr contents <- joinWithLinefeeds <$> mapM docify lns return $ "[verse]" $$ text "--" $$ contents $$ text "--" $$ blankline blockToAsciiDoc _ b@(RawBlock f s) | f == "asciidoc" = return $ literal s | otherwise = do report $ BlockNotRendered b return empty blockToAsciiDoc _ HorizontalRule = return $ blankline <> text "'''''" <> blankline blockToAsciiDoc opts (Header level (ident,_,_) inlines) = do contents <- inlineListToAsciiDoc opts inlines ids <- gets autoIds let autoId = uniqueIdent (writerExtensions opts) inlines ids modify $ \st -> st{ autoIds = Set.insert autoId ids } let identifier = if T.null ident || (isEnabled Ext_auto_identifiers opts && ident == autoId) then empty else "[[" <> literal ident <> "]]" return $ identifier $$ nowrap (text (replicate (level + 1) '=') <> space <> contents) <> blankline blockToAsciiDoc _ (CodeBlock (_,classes,_) str) = return $ flush ( if null classes then "...." $$ literal str $$ "...." else attrs $$ "----" $$ literal str $$ "----") <> blankline where attrs = "[" <> literal (T.intercalate "," ("source" : classes)) <> "]" blockToAsciiDoc opts (BlockQuote blocks) = do contents <- blockListToAsciiDoc opts blocks let isBlock (BlockQuote _) = True isBlock _ = False -- if there are nested block quotes, put in an open block let contents' = if any isBlock blocks then "--" $$ contents $$ "--" else contents let bar = text "____" return $ bar $$ chomp contents' $$ bar <> blankline blockToAsciiDoc opts (Table _ blkCapt specs thead tbody tfoot) = do let (caption, aligns, widths, headers, rows) = toLegacyTable blkCapt specs thead tbody tfoot caption' <- inlineListToAsciiDoc opts caption let caption'' = if null caption then empty else "." <> caption' <> cr let isSimple = all (== 0) widths let relativePercentWidths = if isSimple then widths else map (/ sum widths) widths let widths'' :: [Integer] widths'' = map (floor . (* 100)) relativePercentWidths -- ensure that the widths sum to 100 let widths' = case widths'' of _ | isSimple -> widths'' (w:ws) | sum (w:ws) < 100 -> (100 - sum ws) : ws ws -> ws let totalwidth :: Integer totalwidth = floor $ sum widths * 100 let colspec al wi = (case al of AlignLeft -> "<" AlignCenter -> "^" AlignRight -> ">" AlignDefault -> "") ++ if wi == 0 then "" else show wi ++ "%" let headerspec = if all null headers then empty else text "options=\"header\"," let widthspec = if totalwidth == 0 then empty else text "width=" <> doubleQuotes (text $ show totalwidth ++ "%") <> text "," let tablespec = text "[" <> widthspec <> text "cols=" <> doubleQuotes (text $ intercalate "," $ zipWith colspec aligns widths') <> text "," <> headerspec <> text "]" let makeCell [Plain x] = do d <- blockListToAsciiDoc opts [Plain x] return $ text "|" <> chomp d makeCell [Para x] = makeCell [Plain x] makeCell [] = return $ text "|" makeCell bs = do d <- blockListToAsciiDoc opts bs return $ text "a|" $$ d let makeRow cells = hsep `fmap` mapM makeCell cells rows' <- mapM makeRow rows head' <- makeRow headers let head'' = if all null headers then empty else head' let colwidth = if writerWrapText opts == WrapAuto then writerColumns opts else 100000 let maxwidth = maximum $ map offset (head':rows') let body = if maxwidth > colwidth then vsep rows' else vcat rows' let border = text "|===" return $ caption'' $$ tablespec $$ border $$ head'' $$ body $$ border $$ blankline blockToAsciiDoc opts (BulletList items) = do inlist <- gets inList modify $ \st -> st{ inList = True } contents <- mapM (bulletListItemToAsciiDoc opts) items modify $ \st -> st{ inList = inlist } return $ mconcat contents <> blankline blockToAsciiDoc opts (OrderedList (start, sty, _delim) items) = do let listStyle = case sty of DefaultStyle -> [] Decimal -> ["arabic"] Example -> [] _ -> [T.toLower (tshow sty)] let listStart = ["start=" <> tshow start | start /= 1] let listoptions = case T.intercalate ", " (listStyle ++ listStart) of "" -> empty x -> brackets (literal x) inlist <- gets inList modify $ \st -> st{ inList = True } contents <- mapM (orderedListItemToAsciiDoc opts) items modify $ \st -> st{ inList = inlist } return $ listoptions $$ mconcat contents <> blankline blockToAsciiDoc opts (DefinitionList items) = do inlist <- gets inList modify $ \st -> st{ inList = True } contents <- mapM (definitionListItemToAsciiDoc opts) items modify $ \st -> st{ inList = inlist } return $ mconcat contents <> blankline blockToAsciiDoc opts (Div (ident,classes,_) bs) = do let identifier = if T.null ident then empty else "[[" <> literal ident <> "]]" let admonitions = ["attention","caution","danger","error","hint", "important","note","tip","warning"] contents <- case classes of (l:_) | l `elem` admonitions -> do let (titleBs, bodyBs) = case bs of (Div (_,["title"],_) ts : rest) -> (ts, rest) _ -> ([], bs) admonitionTitle <- if null titleBs then return mempty else ("." <>) <$> blockListToAsciiDoc opts titleBs admonitionBody <- blockListToAsciiDoc opts bodyBs return $ "[" <> literal (T.toUpper l) <> "]" $$ chomp admonitionTitle $$ "====" $$ chomp admonitionBody $$ "====" _ -> blockListToAsciiDoc opts bs return $ identifier $$ contents $$ blankline -- | Convert bullet list item (list of blocks) to asciidoc. bulletListItemToAsciiDoc :: PandocMonad m => WriterOptions -> [Block] -> ADW m (Doc Text) bulletListItemToAsciiDoc opts blocks = do lev <- gets bulletListLevel modify $ \s -> s{ bulletListLevel = lev + 1 } contents <- foldM (addBlock opts) empty blocks modify $ \s -> s{ bulletListLevel = lev } let marker = text (replicate (lev + 1) '*') return $ marker <> text " " <> listBegin blocks <> contents <> cr addBlock :: PandocMonad m => WriterOptions -> Doc Text -> Block -> ADW m (Doc Text) addBlock opts d b = do x <- chomp <$> blockToAsciiDoc opts b return $ case b of BulletList{} -> d <> cr <> x OrderedList{} -> d <> cr <> x Para (Math DisplayMath _:_) -> d <> cr <> x Plain (Math DisplayMath _:_) -> d <> cr <> x Para{} | isEmpty d -> x Plain{} | isEmpty d -> x _ -> d <> cr <> text "+" <> cr <> x listBegin :: [Block] -> Doc Text listBegin blocks = case blocks of Para (Math DisplayMath _:_) : _ -> "{blank}" Plain (Math DisplayMath _:_) : _ -> "{blank}" Para _ : _ -> empty Plain _ : _ -> empty _ : _ -> "{blank}" [] -> "{blank}" -- | Convert ordered list item (a list of blocks) to asciidoc. orderedListItemToAsciiDoc :: PandocMonad m => WriterOptions -- ^ options -> [Block] -- ^ list item (list of blocks) -> ADW m (Doc Text) orderedListItemToAsciiDoc opts blocks = do lev <- gets orderedListLevel modify $ \s -> s{ orderedListLevel = lev + 1 } contents <- foldM (addBlock opts) empty blocks modify $ \s -> s{ orderedListLevel = lev } let marker = text (replicate (lev + 1) '.') return $ marker <> text " " <> listBegin blocks <> contents <> cr -- | Convert definition list item (label, list of blocks) to asciidoc. definitionListItemToAsciiDoc :: PandocMonad m => WriterOptions -> ([Inline],[[Block]]) -> ADW m (Doc Text) definitionListItemToAsciiDoc opts (label, defs) = do labelText <- inlineListToAsciiDoc opts label marker <- gets defListMarker if marker == "::" then modify (\st -> st{ defListMarker = ";;"}) else modify (\st -> st{ defListMarker = "::"}) let divider = cr <> text "+" <> cr let defsToAsciiDoc :: PandocMonad m => [Block] -> ADW m (Doc Text) defsToAsciiDoc ds = (vcat . intersperse divider . map chomp) `fmap` mapM (blockToAsciiDoc opts) ds defs' <- mapM defsToAsciiDoc defs modify (\st -> st{ defListMarker = marker }) let contents = nest 2 $ vcat $ intersperse divider $ map chomp defs' return $ labelText <> literal marker <> cr <> contents <> cr -- | Convert list of Pandoc block elements to asciidoc. blockListToAsciiDoc :: PandocMonad m => WriterOptions -- ^ Options -> [Block] -- ^ List of block elements -> ADW m (Doc Text) blockListToAsciiDoc opts blocks = mconcat `fmap` mapM (blockToAsciiDoc opts) blocks data SpacyLocation = End | Start -- | Convert list of Pandoc inline elements to asciidoc. inlineListToAsciiDoc :: PandocMonad m => WriterOptions -> [Inline] -> ADW m (Doc Text) inlineListToAsciiDoc opts lst = do oldIntraword <- gets intraword setIntraword False result <- go lst setIntraword oldIntraword return result where go [] = return empty go (y:x:xs) | not (isSpacy End y) = do y' <- if isSpacy Start x then inlineToAsciiDoc opts y else withIntraword $ inlineToAsciiDoc opts y x' <- withIntraword $ inlineToAsciiDoc opts x xs' <- go xs return (y' <> x' <> xs') | not (isSpacy Start x) = do y' <- withIntraword $ inlineToAsciiDoc opts y xs' <- go (x:xs) return (y' <> xs') go (x:xs) = do x' <- inlineToAsciiDoc opts x xs' <- go xs return (x' <> xs') isSpacy :: SpacyLocation -> Inline -> Bool isSpacy _ Space = True isSpacy _ LineBreak = True isSpacy _ SoftBreak = True -- Note that \W characters count as spacy in AsciiDoc -- for purposes of determining interword: isSpacy End (Str xs) = case T.unsnoc xs of Just (_, c) -> isPunctuation c || isSpace c _ -> False isSpacy Start (Str xs) | Just (c, _) <- T.uncons xs = isPunctuation c || isSpace c isSpacy _ _ = False setIntraword :: PandocMonad m => Bool -> ADW m () setIntraword b = modify $ \st -> st{ intraword = b } withIntraword :: PandocMonad m => ADW m a -> ADW m a withIntraword p = setIntraword True *> p <* setIntraword False -- | Convert Pandoc inline element to asciidoc. inlineToAsciiDoc :: PandocMonad m => WriterOptions -> Inline -> ADW m (Doc Text) inlineToAsciiDoc opts (Emph [Strong xs]) = inlineToAsciiDoc opts (Strong [Emph xs]) -- see #5565 inlineToAsciiDoc opts (Emph lst) = do contents <- inlineListToAsciiDoc opts lst isIntraword <- gets intraword let marker = if isIntraword then "__" else "_" return $ marker <> contents <> marker inlineToAsciiDoc opts (Strong lst) = do contents <- inlineListToAsciiDoc opts lst isIntraword <- gets intraword let marker = if isIntraword then "**" else "*" return $ marker <> contents <> marker inlineToAsciiDoc opts (Strikeout lst) = do contents <- inlineListToAsciiDoc opts lst return $ "[line-through]*" <> contents <> "*" inlineToAsciiDoc opts (Superscript lst) = do contents <- inlineListToAsciiDoc opts lst return $ "^" <> contents <> "^" inlineToAsciiDoc opts (Subscript lst) = do contents <- inlineListToAsciiDoc opts lst return $ "~" <> contents <> "~" inlineToAsciiDoc opts (SmallCaps lst) = inlineListToAsciiDoc opts lst inlineToAsciiDoc opts (Quoted qt lst) = do isAsciidoctor <- gets asciidoctorVariant inlineListToAsciiDoc opts $ case qt of SingleQuote | isAsciidoctor -> [Str "'`"] ++ lst ++ [Str "`'"] | otherwise -> [Str "`"] ++ lst ++ [Str "'"] DoubleQuote | isAsciidoctor -> [Str "\"`"] ++ lst ++ [Str "`\""] | otherwise -> [Str "``"] ++ lst ++ [Str "''"] inlineToAsciiDoc _ (Code _ str) = do isAsciidoctor <- gets asciidoctorVariant let contents = literal (escapeStringUsing (backslashEscapes "`") str) return $ if isAsciidoctor then text "`+" <> contents <> "+`" else text "`" <> contents <> "`" inlineToAsciiDoc _ (Str str) = return $ literal $ escapeString str inlineToAsciiDoc _ (Math InlineMath str) = do isAsciidoctor <- gets asciidoctorVariant modify $ \st -> st{ hasMath = True } let content = if isAsciidoctor then literal str else "$" <> literal str <> "$" return $ "latexmath:[" <> content <> "]" inlineToAsciiDoc _ (Math DisplayMath str) = do isAsciidoctor <- gets asciidoctorVariant modify $ \st -> st{ hasMath = True } let content = if isAsciidoctor then literal str else "\\[" <> literal str <> "\\]" inlist <- gets inList let sepline = if inlist then text "+" else blankline return $ (cr <> sepline) $$ "[latexmath]" $$ "++++" $$ content $$ "++++" <> cr inlineToAsciiDoc _ il@(RawInline f s) | f == "asciidoc" = return $ literal s | otherwise = do report $ InlineNotRendered il return empty inlineToAsciiDoc _ LineBreak = return $ " +" <> cr inlineToAsciiDoc _ Space = return space inlineToAsciiDoc opts SoftBreak = case writerWrapText opts of WrapAuto -> return space WrapPreserve -> return cr WrapNone -> return space inlineToAsciiDoc opts (Cite _ lst) = inlineListToAsciiDoc opts lst inlineToAsciiDoc opts (Link _ txt (src, _tit)) = do -- relative: link:downloads/foo.zip[download foo.zip] -- abs: http://google.cod[Google] -- or my@email.com[email john] linktext <- inlineListToAsciiDoc opts txt let isRelative = T.all (/= ':') src let prefix = if isRelative then text "link:" else empty let srcSuffix = fromMaybe src (T.stripPrefix "mailto:" src) let useAuto = case txt of [Str s] | escapeURI s == srcSuffix -> True _ -> False return $ if useAuto then literal srcSuffix else prefix <> literal src <> "[" <> linktext <> "]" inlineToAsciiDoc opts (Image attr alternate (src, tit)) = do -- image:images/logo.png[Company logo, title="blah"] let txt = if null alternate || (alternate == [Str ""]) then [Str "image"] else alternate linktext <- inlineListToAsciiDoc opts txt let linktitle = if T.null tit then empty else ",title=\"" <> literal tit <> "\"" showDim dir = case dimension dir attr of Just (Percent a) -> ["scaledwidth=" <> text (show (Percent a))] Just dim -> [text (show dir) <> "=" <> literal (showInPixel opts dim)] Nothing -> [] dimList = showDim Width ++ showDim Height dims = if null dimList then empty else "," <> mconcat (intersperse "," dimList) return $ "image:" <> literal src <> "[" <> linktext <> linktitle <> dims <> "]" inlineToAsciiDoc opts (Note [Para inlines]) = inlineToAsciiDoc opts (Note [Plain inlines]) inlineToAsciiDoc opts (Note [Plain inlines]) = do contents <- inlineListToAsciiDoc opts inlines return $ text "footnote:[" <> contents <> "]" -- asciidoc can't handle blank lines in notes inlineToAsciiDoc _ (Note _) = return "[multiblock footnote omitted]" inlineToAsciiDoc opts (Span (ident,classes,_) ils) = do contents <- inlineListToAsciiDoc opts ils isIntraword <- gets intraword let marker = if isIntraword then "##" else "#" if T.null ident && null classes then return contents else do let modifier = brackets $ literal $ T.unwords $ [ "#" <> ident | not (T.null ident)] ++ map ("." <>) classes return $ modifier <> marker <> contents <> marker