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|
{-
Copyright (C) 2006-2010 John MacFarlane <jgm@berkeley.edu>
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.RST
Copyright : Copyright (C) 2006-2010 John MacFarlane
License : GNU GPL, version 2 or above
Maintainer : John MacFarlane <jgm@berkeley.edu>
Stability : alpha
Portability : portable
Conversion from reStructuredText to 'Pandoc' document.
-}
module Text.Pandoc.Readers.RST (
readRST
) where
import Text.Pandoc.Definition
import Text.Pandoc.Shared
import Text.Pandoc.Parsing
import Text.Pandoc.Options
import Control.Monad ( when, liftM, guard, mzero )
import Data.List ( findIndex, intersperse, intercalate,
transpose, sort, deleteFirstsBy, isSuffixOf )
import qualified Data.Map as M
import Text.Printf ( printf )
import Data.Maybe ( catMaybes )
import Control.Applicative ((<$>), (<$), (<*), (*>))
import Text.Pandoc.Builder (Inlines, Blocks, trimInlines, (<>))
import qualified Text.Pandoc.Builder as B
import Data.Monoid (mconcat, mempty)
import Data.Sequence (viewr, ViewR(..))
-- | Parse reStructuredText string and return Pandoc document.
readRST :: ReaderOptions -- ^ Reader options
-> String -- ^ String to parse (assuming @'\n'@ line endings)
-> Pandoc
readRST opts s = (readWith parseRST) def{ stateOptions = opts } (s ++ "\n\n")
--
-- Constants and data structure definitions
---
bulletListMarkers :: [Char]
bulletListMarkers = "*+-"
underlineChars :: [Char]
underlineChars = "!\"#$%&'()*+,-./:;<=>?@[\\]^_`{|}~"
-- treat these as potentially non-text when parsing inline:
specialChars :: [Char]
specialChars = "\\`|*_<>$:/[]{}()-.\"'\8216\8217\8220\8221"
--
-- parsing documents
--
isHeader :: Int -> Block -> Bool
isHeader n (Header x _) = x == n
isHeader _ _ = False
-- | Promote all headers in a list of blocks. (Part of
-- title transformation for RST.)
promoteHeaders :: Int -> [Block] -> [Block]
promoteHeaders num ((Header level text):rest) =
(Header (level - num) text):(promoteHeaders num rest)
promoteHeaders num (other:rest) = other:(promoteHeaders num rest)
promoteHeaders _ [] = []
-- | If list of blocks starts with a header (or a header and subheader)
-- of level that are not found elsewhere, return it as a title and
-- promote all the other headers.
titleTransform :: [Block] -- ^ list of blocks
-> ([Block], [Inline]) -- ^ modified list of blocks, title
titleTransform ((Header 1 head1):(Header 2 head2):rest) |
not (any (isHeader 1) rest || any (isHeader 2) rest) = -- both title & subtitle
(promoteHeaders 2 rest, head1 ++ [Str ":", Space] ++ head2)
titleTransform ((Header 1 head1):rest) |
not (any (isHeader 1) rest) = -- title, no subtitle
(promoteHeaders 1 rest, head1)
titleTransform blocks = (blocks, [])
parseRST :: Parser [Char] ParserState Pandoc
parseRST = do
optional blanklines -- skip blank lines at beginning of file
startPos <- getPosition
-- go through once just to get list of reference keys and notes
-- docMinusKeys is the raw document with blanks where the keys were...
docMinusKeys <- concat <$>
manyTill (referenceKey <|> noteBlock <|> lineClump) eof
setInput docMinusKeys
setPosition startPos
st' <- getState
let reversedNotes = stateNotes st'
updateState $ \s -> s { stateNotes = reverse reversedNotes }
-- now parse it for real...
blocks <- B.toList <$> parseBlocks
standalone <- getOption readerStandalone
let (blocks', title) = if standalone
then titleTransform blocks
else (blocks, [])
state <- getState
let authors = stateAuthors state
let date = stateDate state
let title' = if null title then stateTitle state else title
return $ Pandoc (Meta title' authors date) blocks'
--
-- parsing blocks
--
parseBlocks :: Parser [Char] ParserState Blocks
parseBlocks = mconcat <$> manyTill block eof
block :: Parser [Char] ParserState Blocks
block = choice [ codeBlock
, rawBlock
, blockQuote
, fieldList
, imageBlock
, figureBlock
, customCodeBlock
, mathBlock
, defaultRoleBlock
, unknownDirective
, header
, hrule
, lineBlock -- must go before definitionList
, table
, list
, lhsCodeBlock
, para
, plain
] <?> "block"
--
-- field list
--
rawFieldListItem :: String -> Parser [Char] ParserState (String, String)
rawFieldListItem indent = try $ do
string indent
char ':'
name <- many1Till (noneOf "\n") (char ':')
skipSpaces
first <- manyTill anyChar newline
rest <- option "" $ try $ do lookAhead (string indent >> spaceChar)
indentedBlock
let raw = (if null first then "" else (first ++ "\n")) ++ rest ++ "\n"
return (name, raw)
fieldListItem :: String
-> Parser [Char] ParserState (Maybe (Inlines, [Blocks]))
fieldListItem indent = try $ do
(name, raw) <- rawFieldListItem indent
let term = B.str name
contents <- parseFromString parseBlocks raw
optional blanklines
case (name, B.toList contents) of
("Author", x) -> do
updateState $ \st ->
st{ stateAuthors = stateAuthors st ++ [extractContents x] }
return Nothing
("Authors", [BulletList auths]) -> do
updateState $ \st -> st{ stateAuthors = map extractContents auths }
return Nothing
("Date", x) -> do
updateState $ \st -> st{ stateDate = extractContents x }
return Nothing
("Title", x) -> do
updateState $ \st -> st{ stateTitle = extractContents x }
return Nothing
_ -> return $ Just (term, [contents])
extractContents :: [Block] -> [Inline]
extractContents [Plain auth] = auth
extractContents [Para auth] = auth
extractContents _ = []
fieldList :: Parser [Char] ParserState Blocks
fieldList = try $ do
indent <- lookAhead $ many spaceChar
items <- many1 $ fieldListItem indent
if null items
then return mempty
else return $ B.definitionList $ catMaybes items
--
-- line block
--
lineBlockLine :: Parser [Char] ParserState Inlines
lineBlockLine = try $ do
char '|'
char ' ' <|> lookAhead (char '\n')
white <- many spaceChar
line <- many $ (notFollowedBy newline >> inline) <|> (try $ endline >>~ char ' ')
optional endline
return $ if null white
then mconcat line
else B.str white <> mconcat line
lineBlock :: Parser [Char] ParserState Blocks
lineBlock = try $ do
lines' <- many1 lineBlockLine
blanklines
return $ B.para (mconcat $ intersperse B.linebreak lines')
--
-- paragraph block
--
-- note: paragraph can end in a :: starting a code block
para :: Parser [Char] ParserState Blocks
para = try $ do
result <- trimInlines . mconcat <$> many1 inline
option (B.plain result) $ try $ do
newline
blanklines
case viewr (B.unMany result) of
ys :> (Str xs) | "::" `isSuffixOf` xs -> do
codeblock <- option mempty codeBlockBody
return $ B.para (B.Many ys <> B.str (take (length xs - 1) xs))
<> codeblock
_ -> return (B.para result)
plain :: Parser [Char] ParserState Blocks
plain = B.plain . trimInlines . mconcat <$> many1 inline
--
-- image block
--
imageBlock :: Parser [Char] ParserState Blocks
imageBlock = try $ do
string ".. "
res <- imageDef (B.str "image")
return $ B.para res
imageDef :: Inlines -> Parser [Char] ParserState Inlines
imageDef defaultAlt = try $ do
string "image:: "
src <- escapeURI . removeLeadingTrailingSpace <$> manyTill anyChar newline
fields <- try $ do indent <- lookAhead $ many (oneOf " /t")
many $ rawFieldListItem indent
optional blanklines
let alt = maybe defaultAlt (\x -> B.str $ removeTrailingSpace x)
$ lookup "alt" fields
let img = B.image src "" alt
return $ case lookup "target" fields of
Just t -> B.link (escapeURI $ removeLeadingTrailingSpace t)
"" img
Nothing -> img
--
-- header blocks
--
header :: Parser [Char] ParserState Blocks
header = doubleHeader <|> singleHeader <?> "header"
-- a header with lines on top and bottom
doubleHeader :: Parser [Char] ParserState Blocks
doubleHeader = try $ do
c <- oneOf underlineChars
rest <- many (char c) -- the top line
let lenTop = length (c:rest)
skipSpaces
newline
txt <- trimInlines . mconcat <$> many1 (notFollowedBy blankline >> inline)
pos <- getPosition
let len = (sourceColumn pos) - 1
if (len > lenTop) then fail "title longer than border" else return ()
blankline -- spaces and newline
count lenTop (char c) -- the bottom line
blanklines
-- check to see if we've had this kind of header before.
-- if so, get appropriate level. if not, add to list.
state <- getState
let headerTable = stateHeaderTable state
let (headerTable',level) = case findIndex (== DoubleHeader c) headerTable of
Just ind -> (headerTable, ind + 1)
Nothing -> (headerTable ++ [DoubleHeader c], (length headerTable) + 1)
setState (state { stateHeaderTable = headerTable' })
return $ B.header level txt
-- a header with line on the bottom only
singleHeader :: Parser [Char] ParserState Blocks
singleHeader = try $ do
notFollowedBy' whitespace
txt <- trimInlines . mconcat <$> many1 (do {notFollowedBy blankline; inline})
pos <- getPosition
let len = (sourceColumn pos) - 1
blankline
c <- oneOf underlineChars
count (len - 1) (char c)
many (char c)
blanklines
state <- getState
let headerTable = stateHeaderTable state
let (headerTable',level) = case findIndex (== SingleHeader c) headerTable of
Just ind -> (headerTable, ind + 1)
Nothing -> (headerTable ++ [SingleHeader c], (length headerTable) + 1)
setState (state { stateHeaderTable = headerTable' })
return $ B.header level txt
--
-- hrule block
--
hrule :: Parser [Char] st Blocks
hrule = try $ do
chr <- oneOf underlineChars
count 3 (char chr)
skipMany (char chr)
blankline
blanklines
return B.horizontalRule
--
-- code blocks
--
-- read a line indented by a given string
indentedLine :: String -> Parser [Char] st [Char]
indentedLine indents = try $ do
string indents
manyTill anyChar newline
-- one or more indented lines, possibly separated by blank lines.
-- any amount of indentation will work.
indentedBlock :: Parser [Char] st [Char]
indentedBlock = try $ do
indents <- lookAhead $ many1 spaceChar
lns <- many1 $ try $ do b <- option "" blanklines
l <- indentedLine indents
return (b ++ l)
optional blanklines
return $ unlines lns
codeBlockStart :: Parser [Char] st Char
codeBlockStart = string "::" >> blankline >> blankline
codeBlock :: Parser [Char] st Blocks
codeBlock = try $ codeBlockStart >> codeBlockBody
codeBlockBody :: Parser [Char] st Blocks
codeBlockBody = try $ B.codeBlock . stripTrailingNewlines <$> indentedBlock
-- | The 'code-block' directive (from Sphinx) that allows a language to be
-- specified.
customCodeBlock :: Parser [Char] st Blocks
customCodeBlock = try $ do
string ".. "
string "code"
optional $ string "-block"
string "::"
skipSpaces
language <- manyTill anyChar newline
blanklines
result <- indentedBlock
return $ B.codeBlockWith ("", ["sourceCode", language], [])
$ stripTrailingNewlines result
figureBlock :: Parser [Char] ParserState Blocks
figureBlock = try $ do
string ".. figure::"
src <- escapeURI . removeLeadingTrailingSpace <$> manyTill anyChar newline
body <- indentedBlock
caption <- parseFromString extractCaption body
return $ B.para $ B.image src "" caption
extractCaption :: Parser [Char] ParserState Inlines
extractCaption = try $ do
manyTill anyLine blanklines
trimInlines . mconcat <$> many inline
-- | The 'math' directive (from Sphinx) for display math.
mathBlock :: Parser [Char] st Blocks
mathBlock = try $ do
string ".. math::"
mathBlockMultiline <|> mathBlockOneLine
mathBlockOneLine :: Parser [Char] st Blocks
mathBlockOneLine = try $ do
result <- manyTill anyChar newline
blanklines
return $ B.para $ B.displayMath $ removeLeadingTrailingSpace result
mathBlockMultiline :: Parser [Char] st Blocks
mathBlockMultiline = try $ do
blanklines
result <- indentedBlock
-- a single block can contain multiple equations, which need to go
-- in separate Pandoc math elements
let lns = map removeLeadingTrailingSpace $ lines result
-- drop :label, :nowrap, etc.
let startsWithColon (':':_) = True
startsWithColon _ = False
let lns' = dropWhile startsWithColon lns
let eqs = map (removeLeadingTrailingSpace . unlines)
$ filter (not . null) $ splitBy null lns'
return $ B.para $ mconcat $ map B.displayMath eqs
lhsCodeBlock :: Parser [Char] ParserState Blocks
lhsCodeBlock = try $ do
guardEnabled Ext_literate_haskell
optional codeBlockStart
pos <- getPosition
when (sourceColumn pos /= 1) $ fail "Not in first column"
lns <- many1 birdTrackLine
-- if (as is normal) there is always a space after >, drop it
let lns' = if all (\ln -> null ln || take 1 ln == " ") lns
then map (drop 1) lns
else lns
blanklines
return $ B.codeBlockWith ("", ["sourceCode", "literate", "haskell"], [])
$ intercalate "\n" lns'
birdTrackLine :: Parser [Char] st [Char]
birdTrackLine = char '>' >> manyTill anyChar newline
--
-- raw html/latex/etc
--
rawBlock :: Parser [Char] st Blocks
rawBlock = try $ do
string ".. raw:: "
lang <- many1 (letter <|> digit)
blanklines
result <- indentedBlock
return $ B.rawBlock lang result
--
-- block quotes
--
blockQuote :: Parser [Char] ParserState Blocks
blockQuote = do
raw <- indentedBlock
-- parse the extracted block, which may contain various block elements:
contents <- parseFromString parseBlocks $ raw ++ "\n\n"
return $ B.blockQuote contents
--
-- list blocks
--
list :: Parser [Char] ParserState Blocks
list = choice [ bulletList, orderedList, definitionList ] <?> "list"
definitionListItem :: Parser [Char] ParserState (Inlines, [Blocks])
definitionListItem = try $ do
-- avoid capturing a directive or comment
notFollowedBy (try $ char '.' >> char '.')
term <- trimInlines . mconcat <$> many1Till inline endline
raw <- indentedBlock
-- parse the extracted block, which may contain various block elements:
contents <- parseFromString parseBlocks $ raw ++ "\n"
return (term, [contents])
definitionList :: Parser [Char] ParserState Blocks
definitionList = B.definitionList <$> many1 definitionListItem
-- parses bullet list start and returns its length (inc. following whitespace)
bulletListStart :: Parser [Char] st Int
bulletListStart = try $ do
notFollowedBy' hrule -- because hrules start out just like lists
marker <- oneOf bulletListMarkers
white <- many1 spaceChar
return $ length (marker:white)
-- parses ordered list start and returns its length (inc following whitespace)
orderedListStart :: ListNumberStyle
-> ListNumberDelim
-> Parser [Char] ParserState Int
orderedListStart style delim = try $ do
(_, markerLen) <- withHorizDisplacement (orderedListMarker style delim)
white <- many1 spaceChar
return $ markerLen + length white
-- parse a line of a list item
listLine :: Int -> Parser [Char] ParserState [Char]
listLine markerLength = try $ do
notFollowedBy blankline
indentWith markerLength
line <- manyTill anyChar newline
return $ line ++ "\n"
-- indent by specified number of spaces (or equiv. tabs)
indentWith :: Int -> Parser [Char] ParserState [Char]
indentWith num = do
tabStop <- getOption readerTabStop
if (num < tabStop)
then count num (char ' ')
else choice [ try (count num (char ' ')),
(try (char '\t' >> count (num - tabStop) (char ' '))) ]
-- parse raw text for one list item, excluding start marker and continuations
rawListItem :: Parser [Char] ParserState Int
-> Parser [Char] ParserState (Int, [Char])
rawListItem start = try $ do
markerLength <- start
firstLine <- manyTill anyChar newline
restLines <- many (listLine markerLength)
return (markerLength, (firstLine ++ "\n" ++ (concat restLines)))
-- continuation of a list item - indented and separated by blankline or
-- (in compact lists) endline.
-- Note: nested lists are parsed as continuations.
listContinuation :: Int -> Parser [Char] ParserState [Char]
listContinuation markerLength = try $ do
blanks <- many1 blankline
result <- many1 (listLine markerLength)
return $ blanks ++ concat result
listItem :: Parser [Char] ParserState Int
-> Parser [Char] ParserState Blocks
listItem start = try $ do
(markerLength, first) <- rawListItem start
rest <- many (listContinuation markerLength)
blanks <- choice [ try (many blankline >>~ lookAhead start),
many1 blankline ] -- whole list must end with blank.
-- parsing with ListItemState forces markers at beginning of lines to
-- count as list item markers, even if not separated by blank space.
-- see definition of "endline"
state <- getState
let oldContext = stateParserContext state
setState $ state {stateParserContext = ListItemState}
-- parse the extracted block, which may itself contain block elements
parsed <- parseFromString parseBlocks $ concat (first:rest) ++ blanks
updateState (\st -> st {stateParserContext = oldContext})
return parsed
orderedList :: Parser [Char] ParserState Blocks
orderedList = try $ do
(start, style, delim) <- lookAhead (anyOrderedListMarker >>~ spaceChar)
items <- many1 (listItem (orderedListStart style delim))
let items' = compactify' items
return $ B.orderedListWith (start, style, delim) items'
bulletList :: Parser [Char] ParserState Blocks
bulletList = B.bulletList . compactify' <$> many1 (listItem bulletListStart)
--
-- default-role block
--
defaultRoleBlock :: Parser [Char] ParserState Blocks
defaultRoleBlock = try $ do
string ".. default-role::"
-- doesn't enforce any restrictions on the role name; embedded spaces shouldn't be allowed, for one
role <- manyTill anyChar newline >>= return . removeLeadingTrailingSpace
updateState $ \s -> s { stateRstDefaultRole =
if null role
then stateRstDefaultRole defaultParserState
else role
}
-- skip body of the directive if it exists
skipMany $ blanklines <|> (spaceChar >> manyTill anyChar newline)
return mempty
--
-- unknown directive (e.g. comment)
--
unknownDirective :: Parser [Char] st Blocks
unknownDirective = try $ do
string ".."
notFollowedBy (noneOf " \t\n")
manyTill anyChar newline
many $ blanklines <|> (spaceChar >> manyTill anyChar newline)
return mempty
---
--- note block
---
noteBlock :: Parser [Char] ParserState [Char]
noteBlock = try $ do
startPos <- getPosition
string ".."
spaceChar >> skipMany spaceChar
ref <- noteMarker
first <- (spaceChar >> skipMany spaceChar >> anyLine)
<|> (newline >> return "")
blanks <- option "" blanklines
rest <- option "" indentedBlock
endPos <- getPosition
let raw = first ++ "\n" ++ blanks ++ rest ++ "\n"
let newnote = (ref, raw)
st <- getState
let oldnotes = stateNotes st
updateState $ \s -> s { stateNotes = newnote : oldnotes }
-- return blanks so line count isn't affected
return $ replicate (sourceLine endPos - sourceLine startPos) '\n'
noteMarker :: Parser [Char] ParserState [Char]
noteMarker = do
char '['
res <- many1 digit
<|> (try $ char '#' >> liftM ('#':) simpleReferenceName')
<|> count 1 (oneOf "#*")
char ']'
return res
--
-- reference key
--
quotedReferenceName :: Parser [Char] ParserState Inlines
quotedReferenceName = try $ do
char '`' >> notFollowedBy (char '`') -- `` means inline code!
label' <- trimInlines . mconcat <$> many1Till inline (char '`')
return label'
unquotedReferenceName :: Parser [Char] ParserState Inlines
unquotedReferenceName = try $ do
label' <- trimInlines . mconcat <$> many1Till inline (lookAhead $ char ':')
return label'
-- Simple reference names are single words consisting of alphanumerics
-- plus isolated (no two adjacent) internal hyphens, underscores,
-- periods, colons and plus signs; no whitespace or other characters
-- are allowed.
simpleReferenceName' :: Parser [Char] st String
simpleReferenceName' = do
x <- alphaNum
xs <- many $ alphaNum
<|> (try $ oneOf "-_:+." >> lookAhead alphaNum)
return (x:xs)
simpleReferenceName :: Parser [Char] st Inlines
simpleReferenceName = do
raw <- simpleReferenceName'
return $ B.str raw
referenceName :: Parser [Char] ParserState Inlines
referenceName = quotedReferenceName <|>
(try $ simpleReferenceName >>~ lookAhead (char ':')) <|>
unquotedReferenceName
referenceKey :: Parser [Char] ParserState [Char]
referenceKey = do
startPos <- getPosition
choice [imageKey, anonymousKey, regularKey]
optional blanklines
endPos <- getPosition
-- return enough blanks to replace key
return $ replicate (sourceLine endPos - sourceLine startPos) '\n'
targetURI :: Parser [Char] st [Char]
targetURI = do
skipSpaces
optional newline
contents <- many1 (try (many spaceChar >> newline >>
many1 spaceChar >> noneOf " \t\n") <|> noneOf "\n")
blanklines
return $ escapeURI $ removeLeadingTrailingSpace $ contents
imageKey :: Parser [Char] ParserState ()
imageKey = try $ do
string ".. |"
(alt,ref) <- withRaw (trimInlines . mconcat <$> manyTill inline (char '|'))
skipSpaces
img <- imageDef alt
let key = toKey $ init ref
updateState $ \s -> s{ stateSubstitutions = M.insert key img $ stateSubstitutions s }
anonymousKey :: Parser [Char] ParserState ()
anonymousKey = try $ do
oneOfStrings [".. __:", "__"]
src <- targetURI
pos <- getPosition
let key = toKey $ "_" ++ printf "%09d" (sourceLine pos)
updateState $ \s -> s { stateKeys = M.insert key (src,"") $ stateKeys s }
stripTicks :: String -> String
stripTicks = reverse . stripTick . reverse . stripTick
where stripTick ('`':xs) = xs
stripTick xs = xs
regularKey :: Parser [Char] ParserState ()
regularKey = try $ do
string ".. _"
(_,ref) <- withRaw referenceName
char ':'
src <- targetURI
let key = toKey $ stripTicks ref
updateState $ \s -> s { stateKeys = M.insert key (src,"") $ stateKeys s }
--
-- tables
--
-- General tables TODO:
-- - figure out if leading spaces are acceptable and if so, add
-- support for them
--
-- Simple tables TODO:
-- - column spans
-- - multiline support
-- - ensure that rightmost column span does not need to reach end
-- - require at least 2 columns
--
-- Grid tables TODO:
-- - column spans
dashedLine :: Char -> Parser [Char] st (Int, Int)
dashedLine ch = do
dashes <- many1 (char ch)
sp <- many (char ' ')
return (length dashes, length $ dashes ++ sp)
simpleDashedLines :: Char -> Parser [Char] st [(Int,Int)]
simpleDashedLines ch = try $ many1 (dashedLine ch)
-- Parse a table row separator
simpleTableSep :: Char -> Parser [Char] ParserState Char
simpleTableSep ch = try $ simpleDashedLines ch >> newline
-- Parse a table footer
simpleTableFooter :: Parser [Char] ParserState [Char]
simpleTableFooter = try $ simpleTableSep '=' >> blanklines
-- Parse a raw line and split it into chunks by indices.
simpleTableRawLine :: [Int] -> Parser [Char] ParserState [String]
simpleTableRawLine indices = do
line <- many1Till anyChar newline
return (simpleTableSplitLine indices line)
-- Parse a table row and return a list of blocks (columns).
simpleTableRow :: [Int] -> Parser [Char] ParserState [[Block]]
simpleTableRow indices = do
notFollowedBy' simpleTableFooter
firstLine <- simpleTableRawLine indices
colLines <- return [] -- TODO
let cols = map unlines . transpose $ firstLine : colLines
mapM (parseFromString (B.toList . mconcat <$> many plain)) cols
simpleTableSplitLine :: [Int] -> String -> [String]
simpleTableSplitLine indices line =
map removeLeadingTrailingSpace
$ tail $ splitByIndices (init indices) line
simpleTableHeader :: Bool -- ^ Headerless table
-> Parser [Char] ParserState ([[Block]], [Alignment], [Int])
simpleTableHeader headless = try $ do
optional blanklines
rawContent <- if headless
then return ""
else simpleTableSep '=' >> anyLine
dashes <- simpleDashedLines '=' <|> simpleDashedLines '-'
newline
let lines' = map snd dashes
let indices = scanl (+) 0 lines'
let aligns = replicate (length lines') AlignDefault
let rawHeads = if headless
then replicate (length dashes) ""
else simpleTableSplitLine indices rawContent
heads <- mapM (parseFromString (B.toList . mconcat <$> many plain)) $
map removeLeadingTrailingSpace rawHeads
return (heads, aligns, indices)
-- Parse a simple table.
simpleTable :: Bool -- ^ Headerless table
-> Parser [Char] ParserState Blocks
simpleTable headless = do
Table c a _w h l <- tableWith (simpleTableHeader headless) simpleTableRow sep simpleTableFooter
-- Simple tables get 0s for relative column widths (i.e., use default)
return $ B.singleton $ Table c a (replicate (length a) 0) h l
where
sep = return () -- optional (simpleTableSep '-')
gridTable :: Bool -- ^ Headerless table
-> Parser [Char] ParserState Blocks
gridTable headerless = B.singleton
<$> gridTableWith (B.toList <$> parseBlocks) headerless
table :: Parser [Char] ParserState Blocks
table = gridTable False <|> simpleTable False <|>
gridTable True <|> simpleTable True <?> "table"
--
-- inline
--
inline :: Parser [Char] ParserState Inlines
inline = choice [ whitespace
, link
, str
, endline
, strong
, emph
, code
, image
, superscript
, subscript
, math
, note
, smart
, hyphens
, escapedChar
, symbol ] <?> "inline"
hyphens :: Parser [Char] ParserState Inlines
hyphens = do
result <- many1 (char '-')
optional endline
-- don't want to treat endline after hyphen or dash as a space
return $ B.str result
escapedChar :: Parser [Char] st Inlines
escapedChar = do c <- escaped anyChar
return $ if c == ' ' -- '\ ' is null in RST
then mempty
else B.str [c]
symbol :: Parser [Char] ParserState Inlines
symbol = do
result <- oneOf specialChars
return $ B.str [result]
-- parses inline code, between codeStart and codeEnd
code :: Parser [Char] ParserState Inlines
code = try $ do
string "``"
result <- manyTill anyChar (try (string "``"))
return $ B.code
$ removeLeadingTrailingSpace $ unwords $ lines result
-- succeeds only if we're not right after a str (ie. in middle of word)
atStart :: Parser [Char] ParserState a -> Parser [Char] ParserState a
atStart p = do
pos <- getPosition
st <- getState
-- single quote start can't be right after str
guard $ stateLastStrPos st /= Just pos
p
emph :: Parser [Char] ParserState Inlines
emph = B.emph . trimInlines . mconcat <$>
enclosed (atStart $ char '*') (char '*') inline
strong :: Parser [Char] ParserState Inlines
strong = B.strong . trimInlines . mconcat <$>
enclosed (atStart $ string "**") (try $ string "**") inline
-- Parses inline interpreted text which is required to have the given role.
-- This decision is based on the role marker (if present),
-- and the current default interpreted text role.
interpreted :: [Char] -> Parser [Char] ParserState [Char]
interpreted role = try $ do
state <- getState
if role == stateRstDefaultRole state
then try markedInterpretedText <|> unmarkedInterpretedText
else markedInterpretedText
where
markedInterpretedText = try (roleMarker *> unmarkedInterpretedText)
<|> (unmarkedInterpretedText <* roleMarker)
roleMarker = string $ ":" ++ role ++ ":"
-- Note, this doesn't precisely implement the complex rule in
-- http://docutils.sourceforge.net/docs/ref/rst/restructuredtext.html#inline-markup-recognition-rules
-- but it should be good enough for most purposes
unmarkedInterpretedText = do
result <- enclosed (atStart $ char '`') (char '`') anyChar
return result
superscript :: Parser [Char] ParserState Inlines
superscript = B.superscript . B.str <$> interpreted "sup"
subscript :: Parser [Char] ParserState Inlines
subscript = B.subscript . B.str <$> interpreted "sub"
math :: Parser [Char] ParserState Inlines
math = B.math <$> interpreted "math"
whitespace :: Parser [Char] ParserState Inlines
whitespace = B.space <$ skipMany1 spaceChar <?> "whitespace"
str :: Parser [Char] ParserState Inlines
str = do
let strChar = noneOf ("\t\n " ++ specialChars)
result <- many1 strChar
updateLastStrPos
return $ B.str result
-- an endline character that can be treated as a space, not a structural break
endline :: Parser [Char] ParserState Inlines
endline = try $ do
newline
notFollowedBy blankline
-- parse potential list-starts at beginning of line differently in a list:
st <- getState
if (stateParserContext st) == ListItemState
then notFollowedBy (anyOrderedListMarker >> spaceChar) >>
notFollowedBy' bulletListStart
else return ()
return B.space
--
-- links
--
link :: Parser [Char] ParserState Inlines
link = choice [explicitLink, referenceLink, autoLink] <?> "link"
explicitLink :: Parser [Char] ParserState Inlines
explicitLink = try $ do
char '`'
notFollowedBy (char '`') -- `` marks start of inline code
label' <- trimInlines . mconcat <$>
manyTill (notFollowedBy (char '`') >> inline) (char '<')
src <- manyTill (noneOf ">\n") (char '>')
skipSpaces
string "`_"
return $ B.link (escapeURI $ removeLeadingTrailingSpace src) "" label'
referenceLink :: Parser [Char] ParserState Inlines
referenceLink = try $ do
(label',ref) <- withRaw (quotedReferenceName <|> simpleReferenceName) >>~
char '_'
state <- getState
let keyTable = stateKeys state
let isAnonKey (Key ('_':_)) = True
isAnonKey _ = False
key <- option (toKey $ stripTicks ref) $
do char '_'
let anonKeys = sort $ filter isAnonKey $ M.keys keyTable
if null anonKeys
then mzero
else return (head anonKeys)
(src,tit) <- case M.lookup key keyTable of
Nothing -> fail "no corresponding key"
Just target -> return target
-- if anonymous link, remove key so it won't be used again
when (isAnonKey key) $ updateState $ \s -> s{ stateKeys = M.delete key keyTable }
return $ B.link src tit label'
autoURI :: Parser [Char] ParserState Inlines
autoURI = do
(orig, src) <- uri
return $ B.link src "" $ B.str orig
autoEmail :: Parser [Char] ParserState Inlines
autoEmail = do
(orig, src) <- emailAddress
return $ B.link src "" $ B.str orig
autoLink :: Parser [Char] ParserState Inlines
autoLink = autoURI <|> autoEmail
-- For now, we assume that all substitution references are for images.
image :: Parser [Char] ParserState Inlines
image = try $ do
char '|'
(_,ref) <- withRaw (manyTill inline (char '|'))
state <- getState
let substTable = stateSubstitutions state
case M.lookup (toKey $ init ref) substTable of
Nothing -> fail "no corresponding key"
Just target -> return target
note :: Parser [Char] ParserState Inlines
note = try $ do
ref <- noteMarker
char '_'
state <- getState
let notes = stateNotes state
case lookup ref notes of
Nothing -> fail "note not found"
Just raw -> do
-- We temporarily empty the note list while parsing the note,
-- so that we don't get infinite loops with notes inside notes...
-- Note references inside other notes are allowed in reST, but
-- not yet in this implementation.
updateState $ \st -> st{ stateNotes = [] }
contents <- parseFromString parseBlocks raw
let newnotes = if (ref == "*" || ref == "#") -- auto-numbered
-- delete the note so the next auto-numbered note
-- doesn't get the same contents:
then deleteFirstsBy (==) notes [(ref,raw)]
else notes
updateState $ \st -> st{ stateNotes = newnotes }
return $ B.note contents
smart :: Parser [Char] ParserState Inlines
smart = do
getOption readerSmart >>= guard
doubleQuoted <|> singleQuoted <|>
choice (map (B.singleton <$>) [apostrophe, dash, ellipses])
singleQuoted :: Parser [Char] ParserState Inlines
singleQuoted = try $ do
singleQuoteStart
withQuoteContext InSingleQuote $
B.singleQuoted . trimInlines . mconcat <$>
many1Till inline singleQuoteEnd
doubleQuoted :: Parser [Char] ParserState Inlines
doubleQuoted = try $ do
doubleQuoteStart
withQuoteContext InDoubleQuote $
B.doubleQuoted . trimInlines . mconcat <$>
many1Till inline doubleQuoteEnd
|