{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE OverloadedStrings #-}
module Text.Pandoc.Readers.Org.Blocks
( blockList
, meta
) where
import Text.Pandoc.Readers.Org.BlockStarts
import Text.Pandoc.Readers.Org.DocumentTree (documentTree,
unprunedHeadlineToBlocks)
import Text.Pandoc.Readers.Org.Inlines
import Text.Pandoc.Readers.Org.Meta (metaExport, metaKey, metaLine)
import Text.Pandoc.Readers.Org.ParserState
import Text.Pandoc.Readers.Org.Parsing
import Text.Pandoc.Readers.Org.Shared (cleanLinkText, isImageFilename,
originalLang, translateLang, exportsCode)
import Text.Pandoc.Builder (Blocks, Inlines)
import Text.Pandoc.Class.PandocMonad (PandocMonad)
import Text.Pandoc.Definition
import Text.Pandoc.Options
import Text.Pandoc.Shared (compactify, compactifyDL, safeRead)
import Control.Monad (foldM, guard, mplus, mzero, void)
import Data.Char (isSpace)
import Data.Default (Default)
import Data.Functor (($>))
import Data.List (foldl', intersperse)
import Data.Maybe (fromMaybe, isJust, isNothing)
import Data.Text (Text)
import qualified Data.Text as T
import qualified Text.Pandoc.Builder as B
import qualified Text.Pandoc.Walk as Walk
blockList :: PandocMonad m => OrgParser m [Block]
blockList = do
fHeadlineTree <- documentTree blocks inline
st <- getState
let headlineTree = runF fHeadlineTree st
unprunedHeadlineToBlocks headlineTree st
meta :: Monad m => OrgParser m Meta
meta = do
meta' <- metaExport
runF meta' <$> getState
blocks :: PandocMonad m => OrgParser m (F Blocks)
blocks = mconcat <$> manyTill block (void (lookAhead headerStart) <|> eof)
block :: PandocMonad m => OrgParser m (F Blocks)
block = choice [ mempty <$ blanklines
, table
, orgBlock
, figure
, example
, genericDrawer
, include
, specialLine
, horizontalRule
, list
, latexFragment
, noteBlock
, rawOrgLine
, paraOrPlain
] <?> "block"
horizontalRule :: Monad m => OrgParser m (F Blocks)
horizontalRule = return B.horizontalRule <$ try hline
data BlockAttributes = BlockAttributes
{ blockAttrName :: Maybe Text
, blockAttrLabel :: Maybe Text
, blockAttrCaption :: Maybe (F Inlines)
, blockAttrKeyValues :: [(Text, Text)]
}
attrFromBlockAttributes :: BlockAttributes -> Attr
attrFromBlockAttributes BlockAttributes{..} =
let
ident = fromMaybe mempty $ lookup "id" blockAttrKeyValues
classes = maybe [] T.words $ lookup "class" blockAttrKeyValues
kv = filter ((`notElem` ["id", "class"]) . fst) blockAttrKeyValues
in (ident, classes, kv)
stringyMetaAttribute :: Monad m => OrgParser m (Text, Text)
stringyMetaAttribute = try $ do
metaLineStart
attrName <- T.toUpper <$> many1TillChar nonspaceChar (char ':')
skipSpaces
attrValue <- anyLine <|> ("" <$ newline)
return (attrName, attrValue)
blockAttributes :: PandocMonad m => OrgParser m BlockAttributes
blockAttributes = try $ do
kv <- many stringyMetaAttribute
guard $ all (isBlockAttr . fst) kv
let caption = foldl' (appendValues "CAPTION") Nothing kv
let kvAttrs = foldl' (appendValues "ATTR_HTML") Nothing kv
let name = lookup "NAME" kv
let label = lookup "LABEL" kv
caption' <- traverse (parseFromString inlines . (<> "\n")) caption
kvAttrs' <- parseFromString keyValues . (<> "\n") $ fromMaybe mempty kvAttrs
return BlockAttributes
{ blockAttrName = name
, blockAttrLabel = label
, blockAttrCaption = caption'
, blockAttrKeyValues = kvAttrs'
}
where
isBlockAttr :: Text -> Bool
isBlockAttr = flip elem
[ "NAME", "LABEL", "CAPTION"
, "ATTR_HTML", "ATTR_LATEX"
, "RESULTS"
]
appendValues :: Text -> Maybe Text -> (Text, Text) -> Maybe Text
appendValues attrName accValue (key, value) =
if key /= attrName
then accValue
else case accValue of
Just acc -> Just $ acc <> " " <> value
Nothing -> Just value
keyValues :: Monad m => OrgParser m [(Text, Text)]
keyValues = try $
manyTill ((,) <$> key <*> value) newline
where
key :: Monad m => OrgParser m Text
key = try $ skipSpaces *> char ':' *> many1Char nonspaceChar
value :: Monad m => OrgParser m Text
value = skipSpaces *> manyTillChar anyChar endOfValue
endOfValue :: Monad m => OrgParser m ()
endOfValue =
lookAhead $ (() <$ try (many1 spaceChar <* key))
<|> () <$ newline
orgBlock :: PandocMonad m => OrgParser m (F Blocks)
orgBlock = try $ do
blockAttrs <- blockAttributes
blkType <- blockHeaderStart
($ blkType) $
case T.toLower blkType of
"export" -> exportBlock
"comment" -> rawBlockLines (const mempty)
"html" -> rawBlockLines (return . B.rawBlock (lowercase blkType))
"latex" -> rawBlockLines (return . B.rawBlock (lowercase blkType))
"ascii" -> rawBlockLines (return . B.rawBlock (lowercase blkType))
"example" -> exampleBlock blockAttrs
"quote" -> parseBlockLines (fmap B.blockQuote)
"verse" -> verseBlock
"src" -> codeBlock blockAttrs
_ -> parseBlockLines $
let (ident, classes, kv) = attrFromBlockAttributes blockAttrs
in fmap $ B.divWith (ident, classes ++ [blkType], kv)
where
blockHeaderStart :: Monad m => OrgParser m Text
blockHeaderStart = try $ skipSpaces *> stringAnyCase "#+begin_" *> orgArgWord
lowercase :: Text -> Text
lowercase = T.toLower
exampleBlock :: PandocMonad m => BlockAttributes -> Text -> OrgParser m (F Blocks)
exampleBlock blockAttrs _label = do
skipSpaces
(classes, kv) <- switchesAsAttributes
newline
content <- rawBlockContent "example"
let id' = fromMaybe mempty $ blockAttrName blockAttrs
let codeBlck = B.codeBlockWith (id', "example":classes, kv) content
return . return $ codeBlck
rawBlockLines :: Monad m => (Text -> F Blocks) -> Text -> OrgParser m (F Blocks)
rawBlockLines f blockType = ignHeaders *> (f <$> rawBlockContent blockType)
parseBlockLines :: PandocMonad m => (F Blocks -> F Blocks) -> Text -> OrgParser m (F Blocks)
parseBlockLines f blockType = ignHeaders *> (f <$> parsedBlockContent)
where
parsedBlockContent :: PandocMonad m => OrgParser m (F Blocks)
parsedBlockContent = try $ do
raw <- rawBlockContent blockType
parseFromString blocks (raw <> "\n")
rawBlockContent :: Monad m => Text -> OrgParser m Text
rawBlockContent blockType = try $ do
blkLines <- manyTill rawLine blockEnder
tabLen <- getOption readerTabStop
trimP <- orgStateTrimLeadBlkIndent <$> getState
let stripIndent strs = if trimP then map (T.drop (shortestIndent strs)) strs else strs
(T.unlines
. stripIndent
. map (tabsToSpaces tabLen . commaEscaped)
$ blkLines)
<$ updateState (\s -> s { orgStateTrimLeadBlkIndent = True })
where
rawLine :: Monad m => OrgParser m Text
rawLine = try $ ("" <$ blankline) <|> anyLine
blockEnder :: Monad m => OrgParser m ()
blockEnder = try $ skipSpaces <* stringAnyCase ("#+end_" <> blockType)
shortestIndent :: [Text] -> Int
shortestIndent = foldr (min . T.length . T.takeWhile isSpace) maxBound
. filter (not . T.null)
tabsToSpaces :: Int -> Text -> Text
tabsToSpaces tabStop t =
let (ind, suff) = T.span (\c -> c == ' ' || c == '\t') t
tabNum = T.length $ T.filter (== '\n') ind
spaceNum = T.length ind - tabNum
in T.replicate (spaceNum + tabStop * tabNum) " " <> suff
commaEscaped t =
let (ind, suff) = T.span (\c -> c == ' ' || c == '\t') t
in case T.uncons suff of
Just (',', cs)
| "*" <- T.take 1 cs -> ind <> cs
| "#+" <- T.take 2 cs -> ind <> cs
_ -> t
ignHeaders :: Monad m => OrgParser m ()
ignHeaders = (() <$ newline) <|> (() <$ anyLine)
exportBlock :: Monad m => Text -> OrgParser m (F Blocks)
exportBlock blockType = try $ do
exportType <- skipSpaces *> orgArgWord <* ignHeaders
contents <- rawBlockContent blockType
returnF (B.rawBlock (T.toLower exportType) contents)
verseBlock :: PandocMonad m => Text -> OrgParser m (F Blocks)
verseBlock blockType = try $ do
ignHeaders
content <- rawBlockContent blockType
fmap B.lineBlock . sequence
<$> mapM parseVerseLine (T.lines content)
where
parseVerseLine :: PandocMonad m => Text -> OrgParser m (F Inlines)
parseVerseLine cs = do
let (initialSpaces, indentedLine) = T.span isSpace cs
let nbspIndent = if T.null initialSpaces
then mempty
else B.str $ T.map (const '\160') initialSpaces
line <- parseFromString inlines (indentedLine <> "\n")
return (trimInlinesF $ pure nbspIndent <> line)
codeBlock :: PandocMonad m => BlockAttributes -> Text -> OrgParser m (F Blocks)
codeBlock blockAttrs blockType = do
skipSpaces
(classes, kv) <- codeHeaderArgs <|> (mempty <$ ignHeaders)
content <- rawBlockContent blockType
resultsContent <- option mempty babelResultsBlock
let id' = fromMaybe mempty $ blockAttrName blockAttrs
let codeBlck = B.codeBlockWith ( id', classes, kv ) content
let labelledBlck = maybe (pure codeBlck)
(labelDiv codeBlck)
(blockAttrCaption blockAttrs)
return $
(if exportsCode kv then labelledBlck else mempty) <>
(if exportsResults kv then resultsContent else mempty)
where
labelDiv :: Blocks -> F Inlines -> F Blocks
labelDiv blk value =
B.divWith nullAttr <$> (mappend <$> labelledBlock value <*> pure blk)
labelledBlock :: F Inlines -> F Blocks
labelledBlock = fmap (B.plain . B.spanWith ("", ["label"], []))
exportsResults :: [(Text, Text)] -> Bool
exportsResults = maybe False (`elem` ["results", "both"]) . lookup "exports"
babelResultsBlock :: PandocMonad m => OrgParser m (F Blocks)
babelResultsBlock = try $ do
blanklines
resultsMarker <|>
(lookAhead . void . try $
manyTill (metaLineStart *> anyLineNewline) resultsMarker)
block
where
resultsMarker = try . void $ stringAnyCase "#+RESULTS:" *> blankline
codeHeaderArgs :: Monad m => OrgParser m ([Text], [(Text, Text)])
codeHeaderArgs = try $ do
language <- skipSpaces *> orgArgWord
(switchClasses, switchKv) <- switchesAsAttributes
parameters <- manyTill blockOption newline
return ( translateLang language : switchClasses
, originalLang language <> switchKv <> parameters
)
switchesAsAttributes :: Monad m => OrgParser m ([Text], [(Text, Text)])
switchesAsAttributes = try $ do
switches <- skipSpaces *> try (switch `sepBy` many1 spaceChar)
return $ foldr addToAttr ([], []) switches
where
addToAttr :: (Char, Maybe Text, SwitchPolarity)
-> ([Text], [(Text, Text)])
-> ([Text], [(Text, Text)])
addToAttr ('n', lineNum, pol) (cls, kv) =
let kv' = case lineNum of
Just num -> ("startFrom", num):kv
Nothing -> kv
cls' = case pol of
SwitchPlus -> "continuedSourceBlock":cls
SwitchMinus -> cls
in ("numberLines":cls', kv')
addToAttr _ x = x
data SwitchPolarity = SwitchPlus | SwitchMinus
deriving (Show, Eq)
switchPolarity :: Monad m => OrgParser m SwitchPolarity
switchPolarity = (SwitchMinus <$ char '-') <|> (SwitchPlus <$ char '+')
switch :: Monad m => OrgParser m (Char, Maybe Text, SwitchPolarity)
switch = try $ lineNumberSwitch <|> labelSwitch
<|> whitespaceSwitch <|> simpleSwitch
where
simpleSwitch = (\pol c -> (c, Nothing, pol)) <$> switchPolarity <*> letter
labelSwitch = genericSwitch 'l' $
char '"' *> many1TillChar nonspaceChar (char '"')
whitespaceSwitch :: Monad m => OrgParser m (Char, Maybe Text, SwitchPolarity)
whitespaceSwitch = do
string "-i"
updateState $ \s -> s { orgStateTrimLeadBlkIndent = False }
return ('i', Nothing, SwitchMinus)
genericSwitch :: Monad m
=> Char
-> OrgParser m Text
-> OrgParser m (Char, Maybe Text, SwitchPolarity)
genericSwitch c p = try $ do
polarity <- switchPolarity <* char c <* skipSpaces
arg <- optionMaybe p
return (c, arg, polarity)
lineNumberSwitch :: Monad m => OrgParser m (Char, Maybe Text, SwitchPolarity)
lineNumberSwitch = genericSwitch 'n' (manyChar digit)
blockOption :: Monad m => OrgParser m (Text, Text)
blockOption = try $ do
argKey <- orgArgKey
paramValue <- option "yes" orgParamValue
return (argKey, paramValue)
orgParamValue :: Monad m => OrgParser m Text
orgParamValue = try $ fmap T.pack $
skipSpaces
*> notFollowedBy orgArgKey
*> noneOf "\n\r" `many1Till` endOfValue
<* skipSpaces
where
endOfValue = lookAhead $ try (skipSpaces <* oneOf "\n\r")
<|> try (skipSpaces1 <* orgArgKey)
genericDrawer :: PandocMonad m => OrgParser m (F Blocks)
genericDrawer = try $ do
name <- T.toUpper <$> drawerStart
content <- manyTill drawerLine (try drawerEnd)
state <- getState
case exportDrawers . orgStateExportSettings $ state of
_ | name == "PROPERTIES" -> return mempty
Left names | name `elem` names -> return mempty
Right names | name `notElem` names -> return mempty
_ -> drawerDiv name <$> parseLines content
where
parseLines :: PandocMonad m => [Text] -> OrgParser m (F Blocks)
parseLines = parseFromString blocks . (<> "\n") . T.unlines
drawerDiv :: Text -> F Blocks -> F Blocks
drawerDiv drawerName = fmap $ B.divWith (mempty, [drawerName, "drawer"], mempty)
drawerLine :: Monad m => OrgParser m Text
drawerLine = anyLine
drawerEnd :: Monad m => OrgParser m Text
drawerEnd = try $
skipSpaces *> stringAnyCase ":END:" <* skipSpaces <* newline
figure :: PandocMonad m => OrgParser m (F Blocks)
figure = try $ do
figAttrs <- blockAttributes
src <- skipSpaces *> selfTarget <* skipSpaces <* endOfParagraph
case cleanLinkText src of
Nothing -> mzero
Just imgSrc -> do
guard (isImageFilename imgSrc)
let isFigure = isJust $ blockAttrCaption figAttrs
return $ imageBlock isFigure figAttrs imgSrc
where
selfTarget :: PandocMonad m => OrgParser m Text
selfTarget = try $ char '[' *> linkTarget <* char ']'
imageBlock :: Bool -> BlockAttributes -> Text -> F Blocks
imageBlock isFigure figAttrs imgSrc =
let
figName = fromMaybe mempty $ blockAttrName figAttrs
figLabel = fromMaybe mempty $ blockAttrLabel figAttrs
figCaption = fromMaybe mempty $ blockAttrCaption figAttrs
figKeyVals = blockAttrKeyValues figAttrs
attr = (figLabel, mempty, figKeyVals)
figTitle = (if isFigure then withFigPrefix else id) figName
in
B.para . B.imageWith attr imgSrc figTitle <$> figCaption
withFigPrefix :: Text -> Text
withFigPrefix cs =
if "fig:" `T.isPrefixOf` cs
then cs
else "fig:" <> cs
endOfParagraph :: Monad m => OrgParser m ()
endOfParagraph = try $ skipSpaces *> newline *> endOfBlock
example :: Monad m => OrgParser m (F Blocks)
example = try $ returnF . exampleCode . T.unlines =<< many1 exampleLine
where
exampleLine :: Monad m => OrgParser m Text
exampleLine = try $ exampleLineStart *> anyLine
exampleCode :: Text -> Blocks
exampleCode = B.codeBlockWith ("", ["example"], [])
specialLine :: PandocMonad m => OrgParser m (F Blocks)
specialLine = fmap return . try $ rawExportLine <|> metaLine <|> commentLine
include :: PandocMonad m => OrgParser m (F Blocks)
include = try $ do
metaLineStart <* stringAnyCase "include:" <* skipSpaces
filename <- includeTarget
includeArgs <- many (try $ skipSpaces *> many1Char alphaNum)
params <- keyValues
blocksParser <- case includeArgs of
("example" : _) -> return $ pure . B.codeBlock <$> parseRaw
["export"] -> return . returnF $ B.fromList []
["export", format] -> return $ pure . B.rawBlock format <$> parseRaw
("src" : rest) -> do
let attr = case rest of
[lang] -> (mempty, [lang], mempty)
_ -> nullAttr
return $ pure . B.codeBlockWith attr <$> parseRaw
_ -> return $ return . B.fromList . blockFilter params <$> blockList
insertIncludedFileF blocksParser ["."] filename
where
includeTarget :: PandocMonad m => OrgParser m FilePath
includeTarget = do
char '"'
manyTill (noneOf "\n\r\t") (char '"')
parseRaw :: PandocMonad m => OrgParser m Text
parseRaw = manyChar anyChar
blockFilter :: [(Text, Text)] -> [Block] -> [Block]
blockFilter params blks =
let minlvl = lookup "minlevel" params
in case (minlvl >>= safeRead :: Maybe Int) of
Nothing -> blks
Just lvl -> let levels = Walk.query headerLevel blks
curMin = if null levels then 0 else minimum levels
in Walk.walk (shiftHeader (curMin - lvl)) blks
headerLevel :: Block -> [Int]
headerLevel (Header lvl _attr _content) = [lvl]
headerLevel _ = []
shiftHeader :: Int -> Block -> Block
shiftHeader shift blk =
case blk of
(Header lvl attr content)
| lvl - shift > 0 -> Header (lvl - shift) attr content
| otherwise -> Para content
_ -> blk
rawExportLine :: PandocMonad m => OrgParser m Blocks
rawExportLine = try $ do
metaLineStart
key <- metaKey
if key `elem` ["latex", "html", "texinfo", "beamer"]
then B.rawBlock key <$> anyLine
else mzero
rawOrgLine :: PandocMonad m => OrgParser m (F Blocks)
rawOrgLine = do
line <- metaLineStart *> anyLine
returnF $ B.rawBlock "org" $ "#+" <> line
commentLine :: Monad m => OrgParser m Blocks
commentLine = commentLineStart *> anyLine $> mempty
data ColumnProperty = ColumnProperty
{ columnAlignment :: Maybe Alignment
, columnRelWidth :: Maybe Int
} deriving (Show, Eq)
instance Default ColumnProperty where
def = ColumnProperty Nothing Nothing
data OrgTableRow = OrgContentRow (F [Blocks])
| OrgAlignRow [ColumnProperty]
| OrgHlineRow
data OrgTable = OrgTable
{ orgTableColumnProperties :: [ColumnProperty]
, orgTableHeader :: [Blocks]
, orgTableRows :: [[Blocks]]
}
table :: PandocMonad m => OrgParser m (F Blocks)
table = do
withTables <- getExportSetting exportWithTables
tbl <- gridTableWith blocks True <|> orgTable
return $ if withTables then tbl else mempty
orgTable :: PandocMonad m => OrgParser m (F Blocks)
orgTable = try $ do
let isFirstInListItem st = orgStateParserContext st == ListItemState &&
isNothing (orgStateLastPreCharPos st)
guard . not . isFirstInListItem =<< getState
blockAttrs <- blockAttributes
lookAhead tableStart
rows <- tableRows
let caption = fromMaybe mempty (blockAttrCaption blockAttrs)
let orgTbl = normalizeTable <$> rowsToTable rows
let identMb = blockAttrName blockAttrs `mplus` blockAttrLabel blockAttrs
let wrap = case identMb of
Just ident -> B.divWith (ident, mempty, mempty)
Nothing -> id
return . fmap wrap $ (orgToPandocTable <$> orgTbl <*> caption)
orgToPandocTable :: OrgTable
-> Inlines
-> Blocks
orgToPandocTable (OrgTable colProps heads lns) caption =
let totalWidth = if any (isJust . columnRelWidth) colProps
then Just . sum $ map (fromMaybe 1 . columnRelWidth) colProps
else Nothing
in B.table (B.simpleCaption $ B.plain caption)
(map (convertColProp totalWidth) colProps)
(TableHead nullAttr $ toHeaderRow heads)
[TableBody nullAttr 0 [] $ map toRow lns]
(TableFoot nullAttr [])
where
toRow = Row nullAttr . map B.simpleCell
toHeaderRow l = [toRow l | not (null l)]
convertColProp :: Maybe Int -> ColumnProperty -> (Alignment, ColWidth)
convertColProp totalWidth colProp =
let
align' = fromMaybe AlignDefault $ columnAlignment colProp
width' = (\w t -> fromIntegral w / fromIntegral t)
<$> columnRelWidth colProp
<*> totalWidth
in (align', maybe ColWidthDefault ColWidth width')
tableRows :: PandocMonad m => OrgParser m [OrgTableRow]
tableRows = try $ many (tableAlignRow <|> tableHline <|> tableContentRow)
tableContentRow :: PandocMonad m => OrgParser m OrgTableRow
tableContentRow = try $
OrgContentRow . sequence <$> (tableStart *> many1Till tableContentCell newline)
tableContentCell :: PandocMonad m => OrgParser m (F Blocks)
tableContentCell = try $
fmap B.plain . trimInlinesF . mconcat <$> manyTill inline endOfCell
tableAlignRow :: Monad m => OrgParser m OrgTableRow
tableAlignRow = try $ do
tableStart
colProps <- many1Till columnPropertyCell newline
guard $ any (/= def) colProps
return $ OrgAlignRow colProps
columnPropertyCell :: Monad m => OrgParser m ColumnProperty
columnPropertyCell = emptyOrgCell <|> propCell <?> "alignment info"
where
emptyOrgCell = ColumnProperty Nothing Nothing <$ try (skipSpaces *> endOfCell)
propCell = try $ ColumnProperty
<$> (skipSpaces
*> char '<'
*> optionMaybe tableAlignFromChar)
<*> (optionMaybe (many1Char digit >>= safeRead)
<* char '>'
<* emptyOrgCell)
tableAlignFromChar :: Monad m => OrgParser m Alignment
tableAlignFromChar = try $
choice [ char 'l' $> AlignLeft
, char 'c' $> AlignCenter
, char 'r' $> AlignRight
]
tableHline :: Monad m => OrgParser m OrgTableRow
tableHline = try $
OrgHlineRow <$ (tableStart *> char '-' *> anyLine)
endOfCell :: Monad m => OrgParser m Char
endOfCell = try $ char '|' <|> lookAhead newline
rowsToTable :: [OrgTableRow]
-> F OrgTable
rowsToTable = foldM rowToContent emptyTable
where emptyTable = OrgTable mempty mempty mempty
normalizeTable :: OrgTable -> OrgTable
normalizeTable (OrgTable colProps heads rows) =
OrgTable colProps' heads rows
where
refRow = if heads /= mempty
then heads
else case rows of
(r:_) -> r
_ -> mempty
cols = length refRow
fillColumns base padding = take cols $ base ++ repeat padding
colProps' = fillColumns colProps def
rowToContent :: OrgTable
-> OrgTableRow
-> F OrgTable
rowToContent tbl row =
case row of
OrgHlineRow -> return singleRowPromotedToHeader
OrgAlignRow props -> return . setProperties $ props
OrgContentRow cs -> appendToBody cs
where
singleRowPromotedToHeader :: OrgTable
singleRowPromotedToHeader = case tbl of
OrgTable{ orgTableHeader = [], orgTableRows = [b] } ->
tbl{ orgTableHeader = b , orgTableRows = [] }
_ -> tbl
setProperties :: [ColumnProperty] -> OrgTable
setProperties ps = tbl{ orgTableColumnProperties = ps }
appendToBody :: F [Blocks] -> F OrgTable
appendToBody frow = do
newRow <- frow
let oldRows = orgTableRows tbl
return tbl{ orgTableRows = oldRows ++ [newRow] }
latexFragment :: PandocMonad m => OrgParser m (F Blocks)
latexFragment = try $ do
envName <- latexEnvStart
texOpt <- getExportSetting exportWithLatex
let envStart = "\\begin{" <> envName <> "}"
let envEnd = "\\end{" <> envName <> "}"
envLines <- do
content <- manyTill anyLine (latexEnd envName)
return $ envStart : content ++ [envEnd]
returnF $ case texOpt of
TeXExport -> B.rawBlock "latex" . T.unlines $ envLines
TeXIgnore -> mempty
TeXVerbatim -> B.para . mconcat . intersperse B.softbreak $
map B.str envLines
where
latexEnd :: Monad m => Text -> OrgParser m ()
latexEnd envName = try . void
$ skipSpaces
<* textStr ("\\end{" <> envName <> "}")
<* blankline
noteBlock :: PandocMonad m => OrgParser m (F Blocks)
noteBlock = try $ do
ref <- noteMarker <* skipSpaces <* updateLastPreCharPos
content <- mconcat <$> many1Till block endOfFootnote
addToNotesTable (ref, content)
return mempty
where
endOfFootnote = eof
<|> () <$ lookAhead noteMarker
<|> () <$ lookAhead headerStart
<|> () <$ lookAhead (try $ blankline *> blankline)
paraOrPlain :: PandocMonad m => OrgParser m (F Blocks)
paraOrPlain = try $ do
notFollowedBy' headerStart
ils <- inlines
nl <- option False (newline $> True)
try (guard nl
*> notFollowedBy (inList *> (orderedListStart <|> bulletListStart))
$> (B.para <$> ils))
<|> return (B.plain <$> ils)
list :: PandocMonad m => OrgParser m (F Blocks)
list = choice [ definitionList, bulletList, orderedList ] <?> "list"
definitionList :: PandocMonad m => OrgParser m (F Blocks)
definitionList = try $ do
indent <- lookAhead bulletListStart
fmap (B.definitionList . compactifyDL) . sequence
<$> many1 (definitionListItem (bulletListStart `indented` indent))
bulletList :: PandocMonad m => OrgParser m (F Blocks)
bulletList = try $ do
indent <- lookAhead bulletListStart
fmap (B.bulletList . compactify) . sequence
<$> many1 (listItem (bulletListStart `indented` indent))
indented :: OrgParser m Int -> Int -> OrgParser m Int
indented indentedMarker minIndent = try $ do
n <- indentedMarker
guard (minIndent <= n)
return n
orderedList :: PandocMonad m => OrgParser m (F Blocks)
orderedList = try $ do
indent <- lookAhead orderedListStart
fmap (B.orderedList . compactify) . sequence
<$> many1 (listItem (orderedListStart `indented` indent))
definitionListItem :: PandocMonad m
=> OrgParser m Int
-> OrgParser m (F (Inlines, [Blocks]))
definitionListItem parseIndentedMarker = try $ do
markerLength <- parseIndentedMarker
term <- manyTillChar (noneOf "\n\r") (try definitionMarker)
line1 <- anyLineNewline
blank <- option "" ("\n" <$ blankline)
cont <- T.concat <$> many (listContinuation markerLength)
term' <- parseFromString inlines term
contents' <- parseFromString blocks $ line1 <> blank <> cont
return $ (,) <$> term' <*> fmap (:[]) contents'
where
definitionMarker =
spaceChar *> string "::" <* (spaceChar <|> lookAhead newline)
listItem :: PandocMonad m
=> OrgParser m Int
-> OrgParser m (F Blocks)
listItem parseIndentedMarker = try . withContext ListItemState $ do
markerLength <- try parseIndentedMarker
firstLine <- anyLineNewline
blank <- option "" ("\n" <$ blankline)
rest <- T.concat <$> many (listContinuation markerLength)
parseFromString blocks $ firstLine <> blank <> rest
listContinuation :: PandocMonad m => Int -> OrgParser m Text
listContinuation markerLength = try $ do
notFollowedBy' blankline
mappend <$> (T.concat <$> many1 (listContinuation' markerLength))
<*> manyChar blankline
where
listContinuation' indentation =
blockLines indentation <|> listLine indentation
listLine indentation = try $ indentWith indentation *> anyLineNewline
blockLines indentation =
try $ lookAhead (indentWith indentation
>> blockAttributes
>>= (\blockAttrs ->
case attrFromBlockAttributes blockAttrs of
("", [], []) -> countChar 1 anyChar
_ -> indentWith indentation))
>> (snd <$> withRaw orgBlock)