{-# LANGUAGE CPP #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE PatternGuards #-} {-# LANGUAGE MultiWayIf #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE ViewPatterns #-} {- | Module : Text.Pandoc.Readers.Docx Copyright : Copyright (C) 2014-2020 Jesse Rosenthal License : GNU GPL, version 2 or above Maintainer : Jesse Rosenthal Stability : alpha Portability : portable Conversion of Docx type (defined in Text.Pandoc.Readers.Docx.Parse) to 'Pandoc' document. -} {- Current state of implementation of Docx entities ([x] means implemented, [-] means partially implemented): * Blocks - [X] Para - [X] CodeBlock (styled with `SourceCode`) - [X] BlockQuote (styled with `Quote`, `BlockQuote`, or, optionally, indented) - [X] OrderedList - [X] BulletList - [X] DefinitionList (styled with adjacent `DefinitionTerm` and `Definition`) - [X] Header (styled with `Heading#`) - [ ] HorizontalRule - [-] Table (column widths and alignments not yet implemented) * Inlines - [X] Str - [X] Emph - [X] Strong - [X] Strikeout - [X] Superscript - [X] Subscript - [X] SmallCaps - [-] Underline (was previously converted to Emph) - [ ] Quoted - [ ] Cite - [X] Code (styled with `VerbatimChar`) - [X] Space - [X] LineBreak (these are invisible in Word: entered with Shift-Return) - [X] Math - [X] Link (links to an arbitrary bookmark create a span with the target as id and "anchor" class) - [X] Image - [X] Note (Footnotes and Endnotes are silently combined.) -} module Text.Pandoc.Readers.Docx ( readDocx ) where import Codec.Archive.Zip import Control.Monad.Reader import Control.Monad.State.Strict import qualified Data.ByteString.Lazy as B import Data.Default (Default) import Data.List (delete, intersect) import Data.Char (isSpace) import qualified Data.Map as M import qualified Data.Text as T import Data.Maybe (isJust, fromMaybe) import Data.Sequence (ViewL (..), viewl) import qualified Data.Sequence as Seq import qualified Data.Set as Set import Text.Pandoc.Builder import Text.Pandoc.MediaBag (MediaBag) import Text.Pandoc.Options import Text.Pandoc.Readers.Docx.Combine import Text.Pandoc.Readers.Docx.Lists import Text.Pandoc.Readers.Docx.Parse import Text.Pandoc.Shared import Text.Pandoc.Walk import Text.TeXMath (writeTeX) import Control.Monad.Except (throwError) import Text.Pandoc.Class.PandocMonad (PandocMonad) import qualified Text.Pandoc.Class.PandocMonad as P import Text.Pandoc.Error import Text.Pandoc.Logging readDocx :: PandocMonad m => ReaderOptions -> B.ByteString -> m Pandoc readDocx opts bytes = do case toArchiveOrFail bytes of Right archive -> do case archiveToDocxWithWarnings archive of Right (docx, parserWarnings) -> do mapM_ (P.report . DocxParserWarning) parserWarnings (meta, blks) <- docxToOutput opts docx return $ Pandoc meta blks Left docxerr -> throwError $ PandocSomeError $ "couldn't parse docx file: " <> T.pack (show docxerr) Left err -> throwError $ PandocSomeError $ "couldn't unpack docx container: " <> T.pack err data DState = DState { docxAnchorMap :: M.Map T.Text T.Text , docxAnchorSet :: Set.Set T.Text , docxImmedPrevAnchor :: Maybe T.Text , docxMediaBag :: MediaBag , docxDropCap :: Inlines -- keep track of (numId, lvl) values for -- restarting , docxListState :: M.Map (T.Text, T.Text) Integer , docxPrevPara :: Inlines } instance Default DState where def = DState { docxAnchorMap = M.empty , docxAnchorSet = mempty , docxImmedPrevAnchor = Nothing , docxMediaBag = mempty , docxDropCap = mempty , docxListState = M.empty , docxPrevPara = mempty } data DEnv = DEnv { docxOptions :: ReaderOptions , docxInHeaderBlock :: Bool , docxInBidi :: Bool } instance Default DEnv where def = DEnv def False False type DocxContext m = ReaderT DEnv (StateT DState m) evalDocxContext :: PandocMonad m => DocxContext m a -> DEnv -> DState -> m a evalDocxContext ctx env st = flip evalStateT st $ runReaderT ctx env -- This is empty, but we put it in for future-proofing. spansToKeep :: [CharStyleName] spansToKeep = [] divsToKeep :: [ParaStyleName] divsToKeep = ["Definition", "Definition Term"] metaStyles :: M.Map ParaStyleName T.Text metaStyles = M.fromList [ ("Title", "title") , ("Subtitle", "subtitle") , ("Author", "author") , ("Date", "date") , ("Abstract", "abstract")] sepBodyParts :: [BodyPart] -> ([BodyPart], [BodyPart]) sepBodyParts = span (\bp -> isMetaPar bp || isEmptyPar bp) isMetaPar :: BodyPart -> Bool isMetaPar (Paragraph pPr _) = not $ null $ intersect (getStyleNames $ pStyle pPr) (M.keys metaStyles) isMetaPar _ = False isEmptyPar :: BodyPart -> Bool isEmptyPar (Paragraph _ parParts) = all isEmptyParPart parParts where isEmptyParPart (PlainRun (Run _ runElems)) = all isEmptyElem runElems isEmptyParPart _ = False isEmptyElem (TextRun s) = trim s == "" isEmptyElem _ = True isEmptyPar _ = False bodyPartsToMeta' :: PandocMonad m => [BodyPart] -> DocxContext m (M.Map T.Text MetaValue) bodyPartsToMeta' [] = return M.empty bodyPartsToMeta' (bp : bps) | (Paragraph pPr parParts) <- bp , (c : _)<- getStyleNames (pStyle pPr) `intersect` M.keys metaStyles , (Just metaField) <- M.lookup c metaStyles = do inlines <- smushInlines <$> mapM parPartToInlines parParts remaining <- bodyPartsToMeta' bps let f (MetaInlines ils) (MetaInlines ils') = MetaBlocks [Para ils, Para ils'] f (MetaInlines ils) (MetaBlocks blks) = MetaBlocks (Para ils : blks) f m (MetaList mv) = MetaList (m : mv) f m n = MetaList [m, n] return $ M.insertWith f metaField (MetaInlines (toList inlines)) remaining bodyPartsToMeta' (_ : bps) = bodyPartsToMeta' bps bodyPartsToMeta :: PandocMonad m => [BodyPart] -> DocxContext m Meta bodyPartsToMeta bps = do mp <- bodyPartsToMeta' bps let mp' = case M.lookup "author" mp of Just mv -> M.insert "author" (fixAuthors mv) mp Nothing -> mp return $ Meta mp' fixAuthors :: MetaValue -> MetaValue fixAuthors (MetaBlocks blks) = MetaList [MetaInlines ils | Para ils <- blks] fixAuthors mv = mv isInheritedFromStyles :: (Eq (StyleName s), HasStyleName s, HasParentStyle s) => [StyleName s] -> s -> Bool isInheritedFromStyles names sty | getStyleName sty `elem` names = True | Just psty <- getParentStyle sty = isInheritedFromStyles names psty | otherwise = False hasStylesInheritedFrom :: [ParaStyleName] -> ParagraphStyle -> Bool hasStylesInheritedFrom ns s = any (isInheritedFromStyles ns) $ pStyle s removeStyleNamed :: ParaStyleName -> ParagraphStyle -> ParagraphStyle removeStyleNamed sn ps = ps{pStyle = filter (\psd -> getStyleName psd /= sn) $ pStyle ps} isCodeCharStyle :: CharStyle -> Bool isCodeCharStyle = isInheritedFromStyles ["Verbatim Char"] isCodeDiv :: ParagraphStyle -> Bool isCodeDiv = hasStylesInheritedFrom ["Source Code"] isBlockQuote :: ParStyle -> Bool isBlockQuote = isInheritedFromStyles [ "Quote", "Block Text", "Block Quote", "Block Quotation" ] runElemToInlines :: RunElem -> Inlines runElemToInlines (TextRun s) = text s runElemToInlines LnBrk = linebreak runElemToInlines Tab = space runElemToInlines SoftHyphen = text "\xad" runElemToInlines NoBreakHyphen = text "\x2011" runElemToText :: RunElem -> T.Text runElemToText (TextRun s) = s runElemToText LnBrk = T.singleton '\n' runElemToText Tab = T.singleton '\t' runElemToText SoftHyphen = T.singleton '\xad' runElemToText NoBreakHyphen = T.singleton '\x2011' runToText :: Run -> T.Text runToText (Run _ runElems) = T.concat $ map runElemToText runElems runToText _ = "" parPartToText :: ParPart -> T.Text parPartToText (PlainRun run) = runToText run parPartToText (InternalHyperLink _ runs) = T.concat $ map runToText runs parPartToText (ExternalHyperLink _ runs) = T.concat $ map runToText runs parPartToText _ = "" blacklistedCharStyles :: [CharStyleName] blacklistedCharStyles = ["Hyperlink"] resolveDependentRunStyle :: PandocMonad m => RunStyle -> DocxContext m RunStyle resolveDependentRunStyle rPr | Just s <- rParentStyle rPr , getStyleName s `notElem` blacklistedCharStyles = do opts <- asks docxOptions if isEnabled Ext_styles opts then return rPr else leftBiasedMergeRunStyle rPr <$> resolveDependentRunStyle (cStyleData s) | otherwise = return rPr runStyleToTransform :: PandocMonad m => RunStyle -> DocxContext m (Inlines -> Inlines) runStyleToTransform rPr | Just sn <- getStyleName <$> rParentStyle rPr , sn `elem` spansToKeep = do transform <- runStyleToTransform rPr{rParentStyle = Nothing} return $ spanWith ("", [normalizeToClassName sn], []) . transform | Just s <- rParentStyle rPr = do ei <- extraInfo spanWith s transform <- runStyleToTransform rPr{rParentStyle = Nothing} return $ ei . transform | Just True <- isItalic rPr = do transform <- runStyleToTransform rPr{isItalic = Nothing} return $ emph . transform | Just True <- isBold rPr = do transform <- runStyleToTransform rPr{isBold = Nothing} return $ strong . transform | Just True <- isSmallCaps rPr = do transform <- runStyleToTransform rPr{isSmallCaps = Nothing} return $ smallcaps . transform | Just True <- isStrike rPr = do transform <- runStyleToTransform rPr{isStrike = Nothing} return $ strikeout . transform | Just True <- isRTL rPr = do transform <- runStyleToTransform rPr{isRTL = Nothing} return $ spanWith ("",[],[("dir","rtl")]) . transform | Just False <- isRTL rPr = do transform <- runStyleToTransform rPr{isRTL = Nothing} inBidi <- asks docxInBidi return $ if inBidi then spanWith ("",[],[("dir","ltr")]) . transform else transform | Just SupScrpt <- rVertAlign rPr = do transform <- runStyleToTransform rPr{rVertAlign = Nothing} return $ superscript . transform | Just SubScrpt <- rVertAlign rPr = do transform <- runStyleToTransform rPr{rVertAlign = Nothing} return $ subscript . transform | Just "single" <- rUnderline rPr = do transform <- runStyleToTransform rPr{rUnderline = Nothing} return $ underlineSpan . transform | otherwise = return id runToInlines :: PandocMonad m => Run -> DocxContext m Inlines runToInlines (Run rs runElems) | maybe False isCodeCharStyle $ rParentStyle rs = do rPr <- resolveDependentRunStyle rs let codeString = code $ T.concat $ map runElemToText runElems return $ case rVertAlign rPr of Just SupScrpt -> superscript codeString Just SubScrpt -> subscript codeString _ -> codeString | otherwise = do rPr <- resolveDependentRunStyle rs let ils = smushInlines (map runElemToInlines runElems) transform <- runStyleToTransform rPr return $ transform ils runToInlines (Footnote bps) = note . smushBlocks <$> mapM bodyPartToBlocks bps runToInlines (Endnote bps) = note . smushBlocks <$> mapM bodyPartToBlocks bps runToInlines (InlineDrawing fp title alt bs ext) = do (lift . lift) $ P.insertMedia fp Nothing bs return $ imageWith (extentToAttr ext) (T.pack fp) title $ text alt runToInlines InlineChart = return $ spanWith ("", ["chart"], []) $ text "[CHART]" extentToAttr :: Extent -> Attr extentToAttr (Just (w, h)) = ("", [], [("width", showDim w), ("height", showDim h)] ) where showDim d = tshow (d / 914400) <> "in" extentToAttr _ = nullAttr blocksToInlinesWarn :: PandocMonad m => T.Text -> Blocks -> DocxContext m Inlines blocksToInlinesWarn cmtId blks = do let paraOrPlain :: Block -> Bool paraOrPlain (Para _) = True paraOrPlain (Plain _) = True paraOrPlain _ = False unless (all paraOrPlain blks) $ lift $ P.report $ DocxParserWarning $ "Docx comment " <> cmtId <> " will not retain formatting" return $ blocksToInlines' (toList blks) -- The majority of work in this function is done in the primed -- subfunction `partPartToInlines'`. We make this wrapper so that we -- don't have to modify `docxImmedPrevAnchor` state after every function. parPartToInlines :: PandocMonad m => ParPart -> DocxContext m Inlines parPartToInlines parPart = case parPart of (BookMark _ anchor) | anchor `notElem` dummyAnchors -> do inHdrBool <- asks docxInHeaderBlock ils <- parPartToInlines' parPart immedPrevAnchor <- gets docxImmedPrevAnchor unless (isJust immedPrevAnchor || inHdrBool) (modify $ \s -> s{ docxImmedPrevAnchor = Just anchor}) return ils _ -> do ils <- parPartToInlines' parPart modify $ \s -> s{ docxImmedPrevAnchor = Nothing} return ils parPartToInlines' :: PandocMonad m => ParPart -> DocxContext m Inlines parPartToInlines' (PlainRun r) = runToInlines r parPartToInlines' (ChangedRuns (TrackedChange Insertion (ChangeInfo _ author date)) runs) = do opts <- asks docxOptions case readerTrackChanges opts of AcceptChanges -> smushInlines <$> mapM runToInlines runs RejectChanges -> return mempty AllChanges -> do ils <- smushInlines <$> mapM runToInlines runs let attr = ("", ["insertion"], [("author", author), ("date", date)]) return $ spanWith attr ils parPartToInlines' (ChangedRuns (TrackedChange Deletion (ChangeInfo _ author date)) runs) = do opts <- asks docxOptions case readerTrackChanges opts of AcceptChanges -> return mempty RejectChanges -> smushInlines <$> mapM runToInlines runs AllChanges -> do ils <- smushInlines <$> mapM runToInlines runs let attr = ("", ["deletion"], [("author", author), ("date", date)]) return $ spanWith attr ils parPartToInlines' (CommentStart cmtId author date bodyParts) = do opts <- asks docxOptions case readerTrackChanges opts of AllChanges -> do blks <- smushBlocks <$> mapM bodyPartToBlocks bodyParts ils <- blocksToInlinesWarn cmtId blks let attr = ("", ["comment-start"], [("id", cmtId), ("author", author), ("date", date)]) return $ spanWith attr ils _ -> return mempty parPartToInlines' (CommentEnd cmtId) = do opts <- asks docxOptions case readerTrackChanges opts of AllChanges -> do let attr = ("", ["comment-end"], [("id", cmtId)]) return $ spanWith attr mempty _ -> return mempty parPartToInlines' (BookMark _ anchor) | anchor `elem` dummyAnchors = return mempty parPartToInlines' (BookMark _ anchor) = -- We record these, so we can make sure not to overwrite -- user-defined anchor links with header auto ids. do -- get whether we're in a header. inHdrBool <- asks docxInHeaderBlock -- Get the anchor map. anchorMap <- gets docxAnchorMap -- We don't want to rewrite if we're in a header, since we'll take -- care of that later, when we make the header anchor. If the -- bookmark were already in uniqueIdent form, this would lead to a -- duplication. Otherwise, we check to see if the id is already in -- there. Rewrite if necessary. This will have the possible effect -- of rewriting user-defined anchor links. However, since these -- are not defined in pandoc, it seems like a necessary evil to -- avoid an extra pass. immedPrevAnchor <- gets docxImmedPrevAnchor case immedPrevAnchor of Just prevAnchor -> do unless inHdrBool (modify $ \s -> s { docxAnchorMap = M.insert anchor prevAnchor anchorMap}) return mempty Nothing -> do exts <- readerExtensions <$> asks docxOptions let newAnchor = if not inHdrBool && anchor `elem` M.elems anchorMap then uniqueIdent exts [Str anchor] (Set.fromList $ M.elems anchorMap) else anchor unless inHdrBool (modify $ \s -> s { docxAnchorMap = M.insert anchor newAnchor anchorMap}) return $ spanWith (newAnchor, ["anchor"], []) mempty parPartToInlines' (Drawing fp title alt bs ext) = do (lift . lift) $ P.insertMedia fp Nothing bs return $ imageWith (extentToAttr ext) (T.pack fp) title $ text alt parPartToInlines' Chart = return $ spanWith ("", ["chart"], []) $ text "[CHART]" parPartToInlines' (InternalHyperLink anchor runs) = do ils <- smushInlines <$> mapM runToInlines runs return $ link ("#" <> anchor) "" ils parPartToInlines' (ExternalHyperLink target runs) = do ils <- smushInlines <$> mapM runToInlines runs return $ link target "" ils parPartToInlines' (PlainOMath exps) = return $ math $ writeTeX exps parPartToInlines' (Field info runs) = case info of HyperlinkField url -> parPartToInlines' $ ExternalHyperLink url runs UnknownField -> smushInlines <$> mapM runToInlines runs parPartToInlines' NullParPart = return mempty isAnchorSpan :: Inline -> Bool isAnchorSpan (Span (_, ["anchor"], []) _) = True isAnchorSpan _ = False dummyAnchors :: [T.Text] dummyAnchors = ["_GoBack"] makeHeaderAnchor :: PandocMonad m => Blocks -> DocxContext m Blocks makeHeaderAnchor bs = traverse makeHeaderAnchor' bs makeHeaderAnchor' :: PandocMonad m => Block -> DocxContext m Block -- If there is an anchor already there (an anchor span in the header, -- to be exact), we rename and associate the new id with the old one. makeHeaderAnchor' (Header n (ident, classes, kvs) ils) | (c:_) <- filter isAnchorSpan ils , (Span (anchIdent, ["anchor"], _) cIls) <- c = do hdrIDMap <- gets docxAnchorMap exts <- readerExtensions <$> asks docxOptions let newIdent = if T.null ident then uniqueIdent exts ils (Set.fromList $ M.elems hdrIDMap) else ident newIls = concatMap f ils where f il | il == c = cIls | otherwise = [il] modify $ \s -> s {docxAnchorMap = M.insert anchIdent newIdent hdrIDMap} makeHeaderAnchor' $ Header n (newIdent, classes, kvs) newIls -- Otherwise we just give it a name, and register that name (associate -- it with itself.) makeHeaderAnchor' (Header n (ident, classes, kvs) ils) = do hdrIDMap <- gets docxAnchorMap exts <- readerExtensions <$> asks docxOptions let newIdent = if T.null ident then uniqueIdent exts ils (Set.fromList $ M.elems hdrIDMap) else ident modify $ \s -> s {docxAnchorMap = M.insert newIdent newIdent hdrIDMap} return $ Header n (newIdent, classes, kvs) ils makeHeaderAnchor' blk = return blk -- Rewrite a standalone paragraph block as a plain singleParaToPlain :: Blocks -> Blocks singleParaToPlain blks | (Para ils :< seeq) <- viewl $ unMany blks , Seq.null seeq = singleton $ Plain ils singleParaToPlain blks = blks cellToBlocks :: PandocMonad m => Cell -> DocxContext m Blocks cellToBlocks (Cell bps) = do blks <- smushBlocks <$> mapM bodyPartToBlocks bps return $ fromList $ blocksToDefinitions $ blocksToBullets $ toList blks rowToBlocksList :: PandocMonad m => Row -> DocxContext m [Blocks] rowToBlocksList (Row cells) = do blksList <- mapM cellToBlocks cells return $ map singleParaToPlain blksList -- like trimInlines, but also take out linebreaks trimSps :: Inlines -> Inlines trimSps (Many ils) = Many $ Seq.dropWhileL isSp $Seq.dropWhileR isSp ils where isSp Space = True isSp SoftBreak = True isSp LineBreak = True isSp _ = False extraInfo :: (Eq (StyleName a), PandocMonad m, HasStyleName a) => (Attr -> i -> i) -> a -> DocxContext m (i -> i) extraInfo f s = do opts <- asks docxOptions return $ if isEnabled Ext_styles opts then f ("", [], [("custom-style", fromStyleName $ getStyleName s)]) else id parStyleToTransform :: PandocMonad m => ParagraphStyle -> DocxContext m (Blocks -> Blocks) parStyleToTransform pPr = case pStyle pPr of c@(getStyleName -> styleName):cs | styleName `elem` divsToKeep -> do let pPr' = pPr { pStyle = cs } transform <- parStyleToTransform pPr' return $ divWith ("", [normalizeToClassName styleName], []) . transform | styleName `elem` listParagraphStyles -> do let pPr' = pPr { pStyle = cs, indentation = Nothing} transform <- parStyleToTransform pPr' return $ divWith ("", [normalizeToClassName styleName], []) . transform | otherwise -> do let pPr' = pPr { pStyle = cs } transform <- parStyleToTransform pPr' ei <- extraInfo divWith c return $ ei . (if isBlockQuote c then blockQuote else id) . transform [] | Just left <- indentation pPr >>= leftParIndent -> do let pPr' = pPr { indentation = Nothing } hang = fromMaybe 0 $ indentation pPr >>= hangingParIndent transform <- parStyleToTransform pPr' return $ if (left - hang) > 0 then blockQuote . transform else transform | otherwise -> return id normalizeToClassName :: (FromStyleName a) => a -> T.Text normalizeToClassName = T.map go . fromStyleName where go c | isSpace c = '-' | otherwise = c bodyPartToBlocks :: PandocMonad m => BodyPart -> DocxContext m Blocks bodyPartToBlocks (Paragraph pPr parparts) | Just True <- pBidi pPr = do let pPr' = pPr { pBidi = Nothing } local (\s -> s{ docxInBidi = True }) (bodyPartToBlocks (Paragraph pPr' parparts)) | isCodeDiv pPr = do transform <- parStyleToTransform pPr return $ transform $ codeBlock $ T.concat $ map parPartToText parparts | Just (style, n) <- pHeading pPr = do ils <-local (\s-> s{docxInHeaderBlock=True}) (smushInlines <$> mapM parPartToInlines parparts) makeHeaderAnchor $ headerWith ("", map normalizeToClassName . delete style $ getStyleNames (pStyle pPr), []) n ils | otherwise = do ils <- trimSps . smushInlines <$> mapM parPartToInlines parparts prevParaIls <- gets docxPrevPara dropIls <- gets docxDropCap let ils' = dropIls <> ils let (paraOrPlain, pPr') | hasStylesInheritedFrom ["Compact"] pPr = (plain, removeStyleNamed "Compact" pPr) | otherwise = (para, pPr) if dropCap pPr' then do modify $ \s -> s { docxDropCap = ils' } return mempty else do modify $ \s -> s { docxDropCap = mempty } let ils'' = (if isNull prevParaIls then mempty else prevParaIls <> space) <> ils' handleInsertion = do modify $ \s -> s {docxPrevPara = mempty} transform <- parStyleToTransform pPr' return $ transform $ paraOrPlain ils'' opts <- asks docxOptions case (pChange pPr', readerTrackChanges opts) of _ | isNull ils'', not (isEnabled Ext_empty_paragraphs opts) -> return mempty (Just (TrackedChange Insertion _), AcceptChanges) -> handleInsertion (Just (TrackedChange Insertion _), RejectChanges) -> do modify $ \s -> s {docxPrevPara = ils''} return mempty (Just (TrackedChange Insertion (ChangeInfo _ cAuthor cDate)) , AllChanges) -> do let attr = ("", ["paragraph-insertion"], [("author", cAuthor), ("date", cDate)]) insertMark = spanWith attr mempty transform <- parStyleToTransform pPr' return $ transform $ paraOrPlain $ ils'' <> insertMark (Just (TrackedChange Deletion _), AcceptChanges) -> do modify $ \s -> s {docxPrevPara = ils''} return mempty (Just (TrackedChange Deletion _), RejectChanges) -> handleInsertion (Just (TrackedChange Deletion (ChangeInfo _ cAuthor cDate)) , AllChanges) -> do let attr = ("", ["paragraph-deletion"], [("author", cAuthor), ("date", cDate)]) insertMark = spanWith attr mempty transform <- parStyleToTransform pPr' return $ transform $ paraOrPlain $ ils'' <> insertMark _ -> handleInsertion bodyPartToBlocks (ListItem pPr numId lvl (Just levelInfo) parparts) = do -- We check whether this current numId has previously been used, -- since Docx expects us to pick up where we left off. listState <- gets docxListState let startFromState = M.lookup (numId, lvl) listState Level _ fmt txt startFromLevelInfo = levelInfo start = case startFromState of Just n -> n + 1 Nothing -> fromMaybe 1 startFromLevelInfo kvs = [ ("level", lvl) , ("num-id", numId) , ("format", fmt) , ("text", txt) , ("start", tshow start) ] modify $ \st -> st{ docxListState = -- expire all the continuation data for lists of level > this one: -- a new level 1 list item resets continuation for level 2+ let notExpired (_, lvl') _ = lvl' <= lvl in M.insert (numId, lvl) start (M.filterWithKey notExpired listState) } blks <- bodyPartToBlocks (Paragraph pPr parparts) return $ divWith ("", ["list-item"], kvs) blks bodyPartToBlocks (ListItem pPr _ _ _ parparts) = let pPr' = pPr {pStyle = constructBogusParStyleData "list-paragraph": pStyle pPr} in bodyPartToBlocks $ Paragraph pPr' parparts bodyPartToBlocks (Tbl _ _ _ []) = return $ para mempty bodyPartToBlocks (Tbl cap _ look parts@(r:rs)) = do let caption = text cap (hdr, rows) = case firstRowFormatting look of True | null rs -> (Nothing, [r]) | otherwise -> (Just r, rs) False -> (Nothing, r:rs) cells <- mapM rowToBlocksList rows let width = maybe 0 maximum $ nonEmpty $ map rowLength parts -- Data.List.NonEmpty is not available with ghc 7.10 so we roll out -- our own, see -- https://github.com/jgm/pandoc/pull/4361#issuecomment-365416155 nonEmpty [] = Nothing nonEmpty l = Just l rowLength :: Row -> Int rowLength (Row c) = length c -- pad cells. New Text.Pandoc.Builder will do that for us, -- so this is for compatibility while we switch over. let cells' = map (\row -> take width (row ++ repeat mempty)) cells hdrCells <- case hdr of Just r' -> rowToBlocksList r' Nothing -> return $ replicate width mempty -- The two following variables (horizontal column alignment and -- relative column widths) go to the default at the -- moment. Width information is in the TblGrid field of the Tbl, -- so should be possible. Alignment might be more difficult, -- since there doesn't seem to be a column entity in docx. let alignments = replicate width AlignDefault widths = replicate width 0 :: [Double] return $ table caption (zip alignments widths) hdrCells cells' bodyPartToBlocks (OMathPara e) = return $ para $ displayMath (writeTeX e) -- replace targets with generated anchors. rewriteLink' :: PandocMonad m => Inline -> DocxContext m Inline rewriteLink' l@(Link attr ils (T.uncons -> Just ('#',target), title)) = do anchorMap <- gets docxAnchorMap case M.lookup target anchorMap of Just newTarget -> do modify $ \s -> s{docxAnchorSet = Set.insert newTarget (docxAnchorSet s)} return $ Link attr ils ("#" <> newTarget, title) Nothing -> do modify $ \s -> s{docxAnchorSet = Set.insert target (docxAnchorSet s)} return l rewriteLink' il = return il rewriteLinks :: PandocMonad m => [Block] -> DocxContext m [Block] rewriteLinks = mapM (walkM rewriteLink') removeOrphanAnchors'' :: PandocMonad m => Inline -> DocxContext m [Inline] removeOrphanAnchors'' s@(Span (ident, classes, _) ils) | "anchor" `elem` classes = do anchorSet <- gets docxAnchorSet return $ if ident `Set.member` anchorSet then [s] else ils removeOrphanAnchors'' il = return [il] removeOrphanAnchors' :: PandocMonad m => [Inline] -> DocxContext m [Inline] removeOrphanAnchors' ils = liftM concat $ mapM removeOrphanAnchors'' ils removeOrphanAnchors :: PandocMonad m => [Block] -> DocxContext m [Block] removeOrphanAnchors = mapM (walkM removeOrphanAnchors') bodyToOutput :: PandocMonad m => Body -> DocxContext m (Meta, [Block]) bodyToOutput (Body bps) = do let (metabps, blkbps) = sepBodyParts bps meta <- bodyPartsToMeta metabps blks <- smushBlocks <$> mapM bodyPartToBlocks blkbps blks' <- rewriteLinks $ blocksToDefinitions $ blocksToBullets $ toList blks blks'' <- removeOrphanAnchors blks' return (meta, blks'') docxToOutput :: PandocMonad m => ReaderOptions -> Docx -> m (Meta, [Block]) docxToOutput opts (Docx (Document _ body)) = let dEnv = def { docxOptions = opts} in evalDocxContext (bodyToOutput body) dEnv def