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{-
Copyright (C) 2010 Paul Rivier <paul*rivier#demotera*com> | tr '*#' '.@'
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.Textile
Copyright : Copyright (C) 2010-2012 Paul Rivier and John MacFarlane
License : GNU GPL, version 2 or above
Maintainer : Paul Rivier <paul*rivier#demotera*com>
Stability : alpha
Portability : portable
Conversion from Textile to 'Pandoc' document, based on the spec
available at http://redcloth.org/textile.
Implemented and parsed:
- Paragraphs
- Code blocks
- Lists
- blockquote
- Inlines : strong, emph, cite, code, deleted, superscript,
subscript, links
- footnotes
- HTML-specific and CSS-specific attributes on headers
Left to be implemented:
- dimension sign
- all caps
- continued blocks (ex bq..)
TODO : refactor common patterns across readers :
- more ...
-}
module Text.Pandoc.Readers.Textile ( readTextile) where
import Text.Pandoc.Definition
import Text.Pandoc.Shared
import Text.Pandoc.Options
import Text.Pandoc.Parsing
import Text.Pandoc.Readers.HTML ( htmlTag, isInlineTag, isBlockTag )
import Text.Pandoc.Readers.LaTeX ( rawLaTeXInline, rawLaTeXBlock )
import Text.HTML.TagSoup.Match
import Data.List ( intercalate )
import Data.Char ( digitToInt, isUpper )
import Control.Monad ( guard, liftM )
import Control.Applicative ((<$>), (*>), (<*))
-- | Parse a Textile text and return a Pandoc document.
readTextile :: ReaderOptions -- ^ Reader options
-> String -- ^ String to parse (assuming @'\n'@ line endings)
-> Pandoc
readTextile opts s =
(readWith parseTextile) def{ stateOptions = opts } (s ++ "\n\n")
-- | Generate a Pandoc ADT from a textile document
parseTextile :: Parser [Char] ParserState Pandoc
parseTextile = do
-- textile allows raw HTML and does smart punctuation by default
oldOpts <- stateOptions `fmap` getState
updateState $ \state -> state{ stateOptions =
oldOpts{ readerSmart = True
, readerParseRaw = True
, readerOldDashes = True
} }
many blankline
startPos <- getPosition
-- go through once just to get list of reference keys and notes
-- docMinusKeys is the raw document with blanks where the keys/notes were...
let firstPassParser = noteBlock <|> lineClump
manyTill firstPassParser eof >>= setInput . concat
setPosition startPos
st' <- getState
let reversedNotes = stateNotes st'
updateState $ \s -> s { stateNotes = reverse reversedNotes }
-- now parse it for real...
blocks <- parseBlocks
return $ Pandoc (Meta [] [] []) blocks -- FIXME
noteMarker :: Parser [Char] ParserState [Char]
noteMarker = skipMany spaceChar >> string "fn" >> manyTill digit (char '.')
noteBlock :: Parser [Char] ParserState [Char]
noteBlock = try $ do
startPos <- getPosition
ref <- noteMarker
optional blankline
contents <- liftM unlines $ many1Till anyLine (blanklines <|> noteBlock)
endPos <- getPosition
let newnote = (ref, contents ++ "\n")
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'
-- | Parse document blocks
parseBlocks :: Parser [Char] ParserState [Block]
parseBlocks = manyTill block eof
-- | Block parsers list tried in definition order
blockParsers :: [Parser [Char] ParserState Block]
blockParsers = [ codeBlock
, header
, blockQuote
, hrule
, commentBlock
, anyList
, rawHtmlBlock
, rawLaTeXBlock'
, maybeExplicitBlock "table" table
, maybeExplicitBlock "p" para
]
-- | Any block in the order of definition of blockParsers
block :: Parser [Char] ParserState Block
block = choice blockParsers <?> "block"
commentBlock :: Parser [Char] ParserState Block
commentBlock = try $ do
string "###."
manyTill anyLine blanklines
return Null
codeBlock :: Parser [Char] ParserState Block
codeBlock = codeBlockBc <|> codeBlockPre
codeBlockBc :: Parser [Char] ParserState Block
codeBlockBc = try $ do
string "bc. "
contents <- manyTill anyLine blanklines
return $ CodeBlock ("",[],[]) $ unlines contents
-- | Code Blocks in Textile are between <pre> and </pre>
codeBlockPre :: Parser [Char] ParserState Block
codeBlockPre = try $ do
htmlTag (tagOpen (=="pre") null)
result' <- manyTill anyChar (try $ htmlTag (tagClose (=="pre")) >> blockBreak)
-- drop leading newline if any
let result'' = case result' of
'\n':xs -> xs
_ -> result'
-- drop trailing newline if any
let result''' = case reverse result'' of
'\n':_ -> init result''
_ -> result''
return $ CodeBlock ("",[],[]) result'''
-- | Header of the form "hN. content" with N in 1..6
header :: Parser [Char] ParserState Block
header = try $ do
char 'h'
level <- digitToInt <$> oneOf "123456"
attr <- attributes
char '.'
whitespace
name <- normalizeSpaces <$> manyTill inline blockBreak
return $ Header level attr name
-- | Blockquote of the form "bq. content"
blockQuote :: Parser [Char] ParserState Block
blockQuote = try $ do
string "bq" >> attributes >> char '.' >> whitespace
BlockQuote . singleton <$> para
-- Horizontal rule
hrule :: Parser [Char] st Block
hrule = try $ do
skipSpaces
start <- oneOf "-*"
count 2 (skipSpaces >> char start)
skipMany (spaceChar <|> char start)
newline
optional blanklines
return HorizontalRule
-- Lists handling
-- | Can be a bullet list or an ordered list. This implementation is
-- strict in the nesting, sublist must start at exactly "parent depth
-- plus one"
anyList :: Parser [Char] ParserState Block
anyList = try $ anyListAtDepth 1 <* blanklines
-- | This allow one type of list to be nested into an other type,
-- provided correct nesting
anyListAtDepth :: Int -> Parser [Char] ParserState Block
anyListAtDepth depth = choice [ bulletListAtDepth depth,
orderedListAtDepth depth,
definitionList ]
-- | Bullet List of given depth, depth being the number of leading '*'
bulletListAtDepth :: Int -> Parser [Char] ParserState Block
bulletListAtDepth depth = try $ BulletList <$> many1 (bulletListItemAtDepth depth)
-- | Bullet List Item of given depth, depth being the number of
-- leading '*'
bulletListItemAtDepth :: Int -> Parser [Char] ParserState [Block]
bulletListItemAtDepth = genericListItemAtDepth '*'
-- | Ordered List of given depth, depth being the number of
-- leading '#'
orderedListAtDepth :: Int -> Parser [Char] ParserState Block
orderedListAtDepth depth = try $ do
items <- many1 (orderedListItemAtDepth depth)
return (OrderedList (1, DefaultStyle, DefaultDelim) items)
-- | Ordered List Item of given depth, depth being the number of
-- leading '#'
orderedListItemAtDepth :: Int -> Parser [Char] ParserState [Block]
orderedListItemAtDepth = genericListItemAtDepth '#'
-- | Common implementation of list items
genericListItemAtDepth :: Char -> Int -> Parser [Char] ParserState [Block]
genericListItemAtDepth c depth = try $ do
count depth (char c) >> attributes >> whitespace
p <- many listInline
newline
sublist <- option [] (singleton <$> anyListAtDepth (depth + 1))
return (Plain p : sublist)
-- | A definition list is a set of consecutive definition items
definitionList :: Parser [Char] ParserState Block
definitionList = try $ DefinitionList <$> many1 definitionListItem
-- | List start character.
listStart :: Parser [Char] st Char
listStart = oneOf "*#-"
listInline :: Parser [Char] ParserState Inline
listInline = try (notFollowedBy newline >> inline)
<|> try (endline <* notFollowedBy listStart)
-- | A definition list item in textile begins with '- ', followed by
-- the term defined, then spaces and ":=". The definition follows, on
-- the same single line, or spaned on multiple line, after a line
-- break.
definitionListItem :: Parser [Char] ParserState ([Inline], [[Block]])
definitionListItem = try $ do
string "- "
term <- many1Till inline (try (whitespace >> string ":="))
def' <- multilineDef <|> inlineDef
return (term, def')
where inlineDef :: Parser [Char] ParserState [[Block]]
inlineDef = liftM (\d -> [[Plain d]])
$ optional whitespace >> many listInline <* newline
multilineDef :: Parser [Char] ParserState [[Block]]
multilineDef = try $ do
optional whitespace >> newline
s <- many1Till anyChar (try (string "=:" >> newline))
-- this ++ "\n\n" does not look very good
ds <- parseFromString parseBlocks (s ++ "\n\n")
return [ds]
-- | This terminates a block such as a paragraph. Because of raw html
-- blocks support, we have to lookAhead for a rawHtmlBlock.
blockBreak :: Parser [Char] ParserState ()
blockBreak = try (newline >> blanklines >> return ()) <|>
(lookAhead rawHtmlBlock >> return ())
-- raw content
-- | A raw Html Block, optionally followed by blanklines
rawHtmlBlock :: Parser [Char] ParserState Block
rawHtmlBlock = try $ do
(_,b) <- htmlTag isBlockTag
optional blanklines
return $ RawBlock "html" b
-- | Raw block of LaTeX content
rawLaTeXBlock' :: Parser [Char] ParserState Block
rawLaTeXBlock' = do
guardEnabled Ext_raw_tex
RawBlock "latex" <$> (rawLaTeXBlock <* spaces)
-- | In textile, paragraphs are separated by blank lines.
para :: Parser [Char] ParserState Block
para = try $ Para . normalizeSpaces <$> manyTill inline blockBreak
-- Tables
-- | A table cell spans until a pipe |
tableCell :: Parser [Char] ParserState TableCell
tableCell = do
c <- many1 (noneOf "|\n")
content <- parseFromString (many1 inline) c
return $ [ Plain $ normalizeSpaces content ]
-- | A table row is made of many table cells
tableRow :: Parser [Char] ParserState [TableCell]
tableRow = try $ ( char '|' *>
(endBy1 tableCell (optional blankline *> char '|')) <* newline)
-- | Many table rows
tableRows :: Parser [Char] ParserState [[TableCell]]
tableRows = many1 tableRow
-- | Table headers are made of cells separated by a tag "|_."
tableHeaders :: Parser [Char] ParserState [TableCell]
tableHeaders = let separator = (try $ string "|_.") in
try $ ( separator *> (sepBy1 tableCell separator) <* char '|' <* newline )
-- | A table with an optional header. Current implementation can
-- handle tables with and without header, but will parse cells
-- alignment attributes as content.
table :: Parser [Char] ParserState Block
table = try $ do
headers <- option [] tableHeaders
rows <- tableRows
blanklines
let nbOfCols = max (length headers) (length $ head rows)
return $ Table []
(replicate nbOfCols AlignDefault)
(replicate nbOfCols 0.0)
headers
rows
-- | Blocks like 'p' and 'table' do not need explicit block tag.
-- However, they can be used to set HTML/CSS attributes when needed.
maybeExplicitBlock :: String -- ^ block tag name
-> Parser [Char] ParserState Block -- ^ implicit block
-> Parser [Char] ParserState Block
maybeExplicitBlock name blk = try $ do
optional $ try $ string name >> attributes >> char '.' >>
optional whitespace >> optional endline
blk
----------
-- Inlines
----------
-- | Any inline element
inline :: Parser [Char] ParserState Inline
inline = choice inlineParsers <?> "inline"
-- | Inline parsers tried in order
inlineParsers :: [Parser [Char] ParserState Inline]
inlineParsers = [ str
, whitespace
, endline
, code
, escapedInline
, htmlSpan
, rawHtmlInline
, rawLaTeXInline'
, note
, try $ (char '[' *> inlineMarkup <* char ']')
, inlineMarkup
, link
, image
, mark
, smartPunctuation inline
, symbol
]
-- | Inline markups
inlineMarkup :: Parser [Char] ParserState Inline
inlineMarkup = choice [ simpleInline (string "??") (Cite [])
, simpleInline (string "**") Strong
, simpleInline (string "__") Emph
, simpleInline (char '*') Strong
, simpleInline (char '_') Emph
, simpleInline (char '+') Emph -- approximates underline
, simpleInline (char '-' <* notFollowedBy (char '-')) Strikeout
, simpleInline (char '^') Superscript
, simpleInline (char '~') Subscript
]
-- | Trademark, registered, copyright
mark :: Parser [Char] st Inline
mark = try $ char '(' >> (try tm <|> try reg <|> copy)
reg :: Parser [Char] st Inline
reg = do
oneOf "Rr"
char ')'
return $ Str "\174"
tm :: Parser [Char] st Inline
tm = do
oneOf "Tt"
oneOf "Mm"
char ')'
return $ Str "\8482"
copy :: Parser [Char] st Inline
copy = do
oneOf "Cc"
char ')'
return $ Str "\169"
note :: Parser [Char] ParserState Inline
note = try $ do
ref <- (char '[' *> many1 digit <* char ']')
notes <- stateNotes <$> getState
case lookup ref notes of
Nothing -> fail "note not found"
Just raw -> liftM Note $ parseFromString parseBlocks raw
-- | Special chars
markupChars :: [Char]
markupChars = "\\*#_@~-+^|%=[]"
-- | Break strings on following chars. Space tab and newline break for
-- inlines breaking. Open paren breaks for mark. Quote, dash and dot
-- break for smart punctuation. Punctuation breaks for regular
-- punctuation. Double quote breaks for named links. > and < break
-- for inline html.
stringBreakers :: [Char]
stringBreakers = " \t\n\r.,\"'?!;:<>«»„“”‚‘’()[]"
wordBoundaries :: [Char]
wordBoundaries = markupChars ++ stringBreakers
-- | Parse a hyphened sequence of words
hyphenedWords :: Parser [Char] ParserState String
hyphenedWords = do
x <- wordChunk
xs <- many (try $ char '-' >> wordChunk)
return $ intercalate "-" (x:xs)
wordChunk :: Parser [Char] ParserState String
wordChunk = try $ do
hd <- noneOf wordBoundaries
tl <- many ( (noneOf wordBoundaries) <|>
try (notFollowedBy' note *> oneOf markupChars
<* lookAhead (noneOf wordBoundaries) ) )
return $ hd:tl
-- | Any string
str :: Parser [Char] ParserState Inline
str = do
baseStr <- hyphenedWords
-- RedCloth compliance : if parsed word is uppercase and immediatly
-- followed by parens, parens content is unconditionally word acronym
fullStr <- option baseStr $ try $ do
guard $ all isUpper baseStr
acro <- enclosed (char '(') (char ')') anyChar
return $ concat [baseStr, " (", acro, ")"]
updateLastStrPos
return $ Str fullStr
-- | Textile allows HTML span infos, we discard them
htmlSpan :: Parser [Char] ParserState Inline
htmlSpan = try $ Str <$> ( char '%' *> attributes *> manyTill anyChar (char '%') )
-- | Some number of space chars
whitespace :: Parser [Char] ParserState Inline
whitespace = many1 spaceChar >> return Space <?> "whitespace"
-- | In Textile, an isolated endline character is a line break
endline :: Parser [Char] ParserState Inline
endline = try $ do
newline >> notFollowedBy blankline
return LineBreak
rawHtmlInline :: Parser [Char] ParserState Inline
rawHtmlInline = RawInline "html" . snd <$> htmlTag isInlineTag
-- | Raw LaTeX Inline
rawLaTeXInline' :: Parser [Char] ParserState Inline
rawLaTeXInline' = try $ do
guardEnabled Ext_raw_tex
rawLaTeXInline
-- | Textile standard link syntax is "label":target. But we
-- can also have ["label":target].
link :: Parser [Char] ParserState Inline
link = linkB <|> linkNoB
linkNoB :: Parser [Char] ParserState Inline
linkNoB = try $ do
name <- surrounded (char '"') inline
char ':'
let stopChars = "!.,;:"
url <- manyTill nonspaceChar (lookAhead $ space <|> try (oneOf stopChars >> (space <|> newline)))
let name' = if name == [Str "$"] then [Str url] else name
return $ Link name' (url, "")
linkB :: Parser [Char] ParserState Inline
linkB = try $ do
char '['
name <- surrounded (char '"') inline
char ':'
url <- manyTill nonspaceChar (char ']')
let name' = if name == [Str "$"] then [Str url] else name
return $ Link name' (url, "")
-- | image embedding
image :: Parser [Char] ParserState Inline
image = try $ do
char '!' >> notFollowedBy space
src <- manyTill anyChar (lookAhead $ oneOf "!(")
alt <- option "" (try $ (char '(' >> manyTill anyChar (char ')')))
char '!'
return $ Image [Str alt] (src, alt)
escapedInline :: Parser [Char] ParserState Inline
escapedInline = escapedEqs <|> escapedTag
escapedEqs :: Parser [Char] ParserState Inline
escapedEqs = Str <$> (try $ string "==" *> manyTill anyChar (try $ string "=="))
-- | literal text escaped btw <notextile> tags
escapedTag :: Parser [Char] ParserState Inline
escapedTag = Str <$>
(try $ string "<notextile>" *> manyTill anyChar (try $ string "</notextile>"))
-- | Any special symbol defined in wordBoundaries
symbol :: Parser [Char] ParserState Inline
symbol = Str . singleton <$> (oneOf wordBoundaries <|> oneOf markupChars)
-- | Inline code
code :: Parser [Char] ParserState Inline
code = code1 <|> code2
code1 :: Parser [Char] ParserState Inline
code1 = Code nullAttr <$> surrounded (char '@') anyChar
code2 :: Parser [Char] ParserState Inline
code2 = do
htmlTag (tagOpen (=="tt") null)
Code nullAttr <$> manyTill anyChar (try $ htmlTag $ tagClose (=="tt"))
-- | Html / CSS attributes
attributes :: Parser [Char] ParserState Attr
attributes = (foldl (flip ($)) ("",[],[])) `fmap` many attribute
attribute :: Parser [Char] ParserState (Attr -> Attr)
attribute = classIdAttr <|> styleAttr <|> langAttr
classIdAttr :: Parser [Char] ParserState (Attr -> Attr)
classIdAttr = try $ do -- (class class #id)
char '('
ws <- words `fmap` manyTill anyChar (char ')')
case reverse ws of
[] -> return $ \(_,_,keyvals) -> ("",[],keyvals)
(('#':ident'):classes') -> return $ \(_,_,keyvals) ->
(ident',classes',keyvals)
classes' -> return $ \(_,_,keyvals) ->
("",classes',keyvals)
styleAttr :: Parser [Char] ParserState (Attr -> Attr)
styleAttr = do
style <- try $ enclosed (char '{') (char '}') anyChar
return $ \(id',classes,keyvals) -> (id',classes,("style",style):keyvals)
langAttr :: Parser [Char] ParserState (Attr -> Attr)
langAttr = do
lang <- try $ enclosed (char '[') (char ']') anyChar
return $ \(id',classes,keyvals) -> (id',classes,("lang",lang):keyvals)
-- | Parses material surrounded by a parser.
surrounded :: Parser [Char] st t -- ^ surrounding parser
-> Parser [Char] st a -- ^ content parser (to be used repeatedly)
-> Parser [Char] st [a]
surrounded border = enclosed (border *> notFollowedBy (oneOf " \t\n\r")) (try border)
-- | Inlines are most of the time of the same form
simpleInline :: Parser [Char] ParserState t -- ^ surrounding parser
-> ([Inline] -> Inline) -- ^ Inline constructor
-> Parser [Char] ParserState Inline -- ^ content parser (to be used repeatedly)
simpleInline border construct = surrounded border (inlineWithAttribute) >>=
return . construct . normalizeSpaces
where inlineWithAttribute = (try $ optional attributes) >> inline
-- | Create a singleton list
singleton :: a -> [a]
singleton x = [x]
|