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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.Parsing
Copyright : Copyright (C) 2006-2010 John MacFarlane
License : GNU GPL, version 2 or above
Maintainer : John MacFarlane <jgm@berkeley.edu>
Stability : alpha
Portability : portable
A utility library with parsers used in pandoc readers.
-}
module Text.Pandoc.Parsing ( (>>~),
anyLine,
many1Till,
notFollowedBy',
oneOfStrings,
spaceChar,
skipSpaces,
blankline,
blanklines,
enclosed,
stringAnyCase,
parseFromString,
lineClump,
charsInBalanced,
charsInBalanced',
romanNumeral,
emailAddress,
uri,
withHorizDisplacement,
nullBlock,
failIfStrict,
failUnlessLHS,
escaped,
anyOrderedListMarker,
orderedListMarker,
charRef,
tableWith,
gridTableWith,
readWith,
testStringWith,
ParserState (..),
defaultParserState,
HeaderType (..),
ParserContext (..),
QuoteContext (..),
NoteTable,
KeyTable,
Key,
toKey,
fromKey,
lookupKeySrc,
smartPunctuation,
macro,
applyMacros' )
where
import Text.Pandoc.Definition
import Text.Pandoc.Generic
import qualified Text.Pandoc.UTF8 as UTF8 (putStrLn)
import Text.ParserCombinators.Parsec
import Text.Pandoc.CharacterReferences ( characterReference )
import Data.Char ( toLower, toUpper, ord, isAscii, isAlphaNum, isDigit, isPunctuation )
import Data.List ( intercalate, transpose )
import Network.URI ( parseURI, URI (..), isAllowedInURI )
import Control.Monad ( join, liftM, guard )
import Text.Pandoc.Shared
import qualified Data.Map as M
import Text.TeXMath.Macros (applyMacros, Macro, parseMacroDefinitions)
-- | Like >>, but returns the operation on the left.
-- (Suggested by Tillmann Rendel on Haskell-cafe list.)
(>>~) :: (Monad m) => m a -> m b -> m a
a >>~ b = a >>= \x -> b >> return x
-- | Parse any line of text
anyLine :: GenParser Char st [Char]
anyLine = manyTill anyChar newline
-- | Like @manyTill@, but reads at least one item.
many1Till :: GenParser tok st a
-> GenParser tok st end
-> GenParser tok st [a]
many1Till p end = do
first <- p
rest <- manyTill p end
return (first:rest)
-- | A more general form of @notFollowedBy@. This one allows any
-- type of parser to be specified, and succeeds only if that parser fails.
-- It does not consume any input.
notFollowedBy' :: Show b => GenParser a st b -> GenParser a st ()
notFollowedBy' p = try $ join $ do a <- try p
return (unexpected (show a))
<|>
return (return ())
-- (This version due to Andrew Pimlott on the Haskell mailing list.)
-- | Parses one of a list of strings (tried in order).
oneOfStrings :: [String] -> GenParser Char st String
oneOfStrings listOfStrings = choice $ map (try . string) listOfStrings
-- | Parses a space or tab.
spaceChar :: CharParser st Char
spaceChar = satisfy $ \c -> c == ' ' || c == '\t'
-- | Skips zero or more spaces or tabs.
skipSpaces :: GenParser Char st ()
skipSpaces = skipMany spaceChar
-- | Skips zero or more spaces or tabs, then reads a newline.
blankline :: GenParser Char st Char
blankline = try $ skipSpaces >> newline
-- | Parses one or more blank lines and returns a string of newlines.
blanklines :: GenParser Char st [Char]
blanklines = many1 blankline
-- | Parses material enclosed between start and end parsers.
enclosed :: GenParser Char st t -- ^ start parser
-> GenParser Char st end -- ^ end parser
-> GenParser Char st a -- ^ content parser (to be used repeatedly)
-> GenParser Char st [a]
enclosed start end parser = try $
start >> notFollowedBy space >> many1Till parser end
-- | Parse string, case insensitive.
stringAnyCase :: [Char] -> CharParser st String
stringAnyCase [] = string ""
stringAnyCase (x:xs) = do
firstChar <- char (toUpper x) <|> char (toLower x)
rest <- stringAnyCase xs
return (firstChar:rest)
-- | Parse contents of 'str' using 'parser' and return result.
parseFromString :: GenParser tok st a -> [tok] -> GenParser tok st a
parseFromString parser str = do
oldPos <- getPosition
oldInput <- getInput
setInput str
result <- parser
setInput oldInput
setPosition oldPos
return result
-- | Parse raw line block up to and including blank lines.
lineClump :: GenParser Char st String
lineClump = blanklines
<|> (many1 (notFollowedBy blankline >> anyLine) >>= return . unlines)
-- | Parse a string of characters between an open character
-- and a close character, including text between balanced
-- pairs of open and close, which must be different. For example,
-- @charsInBalanced '(' ')'@ will parse "(hello (there))"
-- and return "hello (there)". Stop if a blank line is
-- encountered.
charsInBalanced :: Char -> Char -> GenParser Char st String
charsInBalanced open close = try $ do
char open
raw <- many $ (many1 (satisfy $ \c ->
c /= open && c /= close && c /= '\n'))
<|> (do res <- charsInBalanced open close
return $ [open] ++ res ++ [close])
<|> try (string "\n" >>~ notFollowedBy' blanklines)
char close
return $ concat raw
-- | Like @charsInBalanced@, but allow blank lines in the content.
charsInBalanced' :: Char -> Char -> GenParser Char st String
charsInBalanced' open close = try $ do
char open
raw <- many $ (many1 (satisfy $ \c -> c /= open && c /= close))
<|> (do res <- charsInBalanced' open close
return $ [open] ++ res ++ [close])
char close
return $ concat raw
-- Auxiliary functions for romanNumeral:
lowercaseRomanDigits :: [Char]
lowercaseRomanDigits = ['i','v','x','l','c','d','m']
uppercaseRomanDigits :: [Char]
uppercaseRomanDigits = map toUpper lowercaseRomanDigits
-- | Parses a roman numeral (uppercase or lowercase), returns number.
romanNumeral :: Bool -- ^ Uppercase if true
-> GenParser Char st Int
romanNumeral upperCase = do
let romanDigits = if upperCase
then uppercaseRomanDigits
else lowercaseRomanDigits
lookAhead $ oneOf romanDigits
let [one, five, ten, fifty, hundred, fivehundred, thousand] =
map char romanDigits
thousands <- many thousand >>= (return . (1000 *) . length)
ninehundreds <- option 0 $ try $ hundred >> thousand >> return 900
fivehundreds <- many fivehundred >>= (return . (500 *) . length)
fourhundreds <- option 0 $ try $ hundred >> fivehundred >> return 400
hundreds <- many hundred >>= (return . (100 *) . length)
nineties <- option 0 $ try $ ten >> hundred >> return 90
fifties <- many fifty >>= (return . (50 *) . length)
forties <- option 0 $ try $ ten >> fifty >> return 40
tens <- many ten >>= (return . (10 *) . length)
nines <- option 0 $ try $ one >> ten >> return 9
fives <- many five >>= (return . (5 *) . length)
fours <- option 0 $ try $ one >> five >> return 4
ones <- many one >>= (return . length)
let total = thousands + ninehundreds + fivehundreds + fourhundreds +
hundreds + nineties + fifties + forties + tens + nines +
fives + fours + ones
if total == 0
then fail "not a roman numeral"
else return total
-- Parsers for email addresses and URIs
emailChar :: GenParser Char st Char
emailChar = alphaNum <|>
satisfy (\c -> c == '-' || c == '+' || c == '_' || c == '.')
domainChar :: GenParser Char st Char
domainChar = alphaNum <|> char '-'
domain :: GenParser Char st [Char]
domain = do
first <- many1 domainChar
dom <- many1 $ try (char '.' >> many1 domainChar )
return $ intercalate "." (first:dom)
-- | Parses an email address; returns original and corresponding
-- escaped mailto: URI.
emailAddress :: GenParser Char st (String, String)
emailAddress = try $ do
firstLetter <- alphaNum
restAddr <- many emailChar
let addr = firstLetter:restAddr
char '@'
dom <- domain
let full = addr ++ '@':dom
return (full, escapeURI $ "mailto:" ++ full)
-- | Parses a URI. Returns pair of original and URI-escaped version.
uri :: GenParser Char st (String, String)
uri = try $ do
let protocols = [ "http:", "https:", "ftp:", "file:", "mailto:",
"news:", "telnet:" ]
lookAhead $ oneOfStrings protocols
-- Scan non-ascii characters and ascii characters allowed in a URI.
-- We allow punctuation except when followed by a space, since
-- we don't want the trailing '.' in 'http://google.com.'
let innerPunct = try $ satisfy isPunctuation >>~
notFollowedBy (newline <|> spaceChar)
let uriChar = innerPunct <|>
satisfy (\c -> not (isPunctuation c) &&
(not (isAscii c) || isAllowedInURI c))
-- We want to allow
-- http://en.wikipedia.org/wiki/State_of_emergency_(disambiguation)
-- as a URL, while NOT picking up the closing paren in
-- (http://wikipedia.org)
-- So we include balanced parens in the URL.
let inParens = try $ do char '('
res <- many uriChar
char ')'
return $ '(' : res ++ ")"
str <- liftM concat $ many1 $ inParens <|> count 1 (innerPunct <|> uriChar)
-- now see if they amount to an absolute URI
case parseURI (escapeURI str) of
Just uri' -> if uriScheme uri' `elem` protocols
then return (str, show uri')
else fail "not a URI"
Nothing -> fail "not a URI"
-- | Applies a parser, returns tuple of its results and its horizontal
-- displacement (the difference between the source column at the end
-- and the source column at the beginning). Vertical displacement
-- (source row) is ignored.
withHorizDisplacement :: GenParser Char st a -- ^ Parser to apply
-> GenParser Char st (a, Int) -- ^ (result, displacement)
withHorizDisplacement parser = do
pos1 <- getPosition
result <- parser
pos2 <- getPosition
return (result, sourceColumn pos2 - sourceColumn pos1)
-- | Parses a character and returns 'Null' (so that the parser can move on
-- if it gets stuck).
nullBlock :: GenParser Char st Block
nullBlock = anyChar >> return Null
-- | Fail if reader is in strict markdown syntax mode.
failIfStrict :: GenParser a ParserState ()
failIfStrict = do
state <- getState
if stateStrict state then fail "strict mode" else return ()
-- | Fail unless we're in literate haskell mode.
failUnlessLHS :: GenParser tok ParserState ()
failUnlessLHS = do
state <- getState
if stateLiterateHaskell state then return () else fail "Literate haskell feature"
-- | Parses backslash, then applies character parser.
escaped :: GenParser Char st Char -- ^ Parser for character to escape
-> GenParser Char st Inline
escaped parser = try $ do
char '\\'
result <- parser
return (Str [result])
-- | Parses an uppercase roman numeral and returns (UpperRoman, number).
upperRoman :: GenParser Char st (ListNumberStyle, Int)
upperRoman = do
num <- romanNumeral True
return (UpperRoman, num)
-- | Parses a lowercase roman numeral and returns (LowerRoman, number).
lowerRoman :: GenParser Char st (ListNumberStyle, Int)
lowerRoman = do
num <- romanNumeral False
return (LowerRoman, num)
-- | Parses a decimal numeral and returns (Decimal, number).
decimal :: GenParser Char st (ListNumberStyle, Int)
decimal = do
num <- many1 digit
return (Decimal, read num)
-- | Parses a '@' and optional label and
-- returns (DefaultStyle, [next example number]). The next
-- example number is incremented in parser state, and the label
-- (if present) is added to the label table.
exampleNum :: GenParser Char ParserState (ListNumberStyle, Int)
exampleNum = do
char '@'
lab <- many (alphaNum <|> satisfy (\c -> c == '_' || c == '-'))
st <- getState
let num = stateNextExample st
let newlabels = if null lab
then stateExamples st
else M.insert lab num $ stateExamples st
updateState $ \s -> s{ stateNextExample = num + 1
, stateExamples = newlabels }
return (Example, num)
-- | Parses a '#' returns (DefaultStyle, 1).
defaultNum :: GenParser Char st (ListNumberStyle, Int)
defaultNum = do
char '#'
return (DefaultStyle, 1)
-- | Parses a lowercase letter and returns (LowerAlpha, number).
lowerAlpha :: GenParser Char st (ListNumberStyle, Int)
lowerAlpha = do
ch <- oneOf ['a'..'z']
return (LowerAlpha, ord ch - ord 'a' + 1)
-- | Parses an uppercase letter and returns (UpperAlpha, number).
upperAlpha :: GenParser Char st (ListNumberStyle, Int)
upperAlpha = do
ch <- oneOf ['A'..'Z']
return (UpperAlpha, ord ch - ord 'A' + 1)
-- | Parses a roman numeral i or I
romanOne :: GenParser Char st (ListNumberStyle, Int)
romanOne = (char 'i' >> return (LowerRoman, 1)) <|>
(char 'I' >> return (UpperRoman, 1))
-- | Parses an ordered list marker and returns list attributes.
anyOrderedListMarker :: GenParser Char ParserState ListAttributes
anyOrderedListMarker = choice $
[delimParser numParser | delimParser <- [inPeriod, inOneParen, inTwoParens],
numParser <- [decimal, exampleNum, defaultNum, romanOne,
lowerAlpha, lowerRoman, upperAlpha, upperRoman]]
-- | Parses a list number (num) followed by a period, returns list attributes.
inPeriod :: GenParser Char st (ListNumberStyle, Int)
-> GenParser Char st ListAttributes
inPeriod num = try $ do
(style, start) <- num
char '.'
let delim = if style == DefaultStyle
then DefaultDelim
else Period
return (start, style, delim)
-- | Parses a list number (num) followed by a paren, returns list attributes.
inOneParen :: GenParser Char st (ListNumberStyle, Int)
-> GenParser Char st ListAttributes
inOneParen num = try $ do
(style, start) <- num
char ')'
return (start, style, OneParen)
-- | Parses a list number (num) enclosed in parens, returns list attributes.
inTwoParens :: GenParser Char st (ListNumberStyle, Int)
-> GenParser Char st ListAttributes
inTwoParens num = try $ do
char '('
(style, start) <- num
char ')'
return (start, style, TwoParens)
-- | Parses an ordered list marker with a given style and delimiter,
-- returns number.
orderedListMarker :: ListNumberStyle
-> ListNumberDelim
-> GenParser Char ParserState Int
orderedListMarker style delim = do
let num = defaultNum <|> -- # can continue any kind of list
case style of
DefaultStyle -> decimal
Example -> exampleNum
Decimal -> decimal
UpperRoman -> upperRoman
LowerRoman -> lowerRoman
UpperAlpha -> upperAlpha
LowerAlpha -> lowerAlpha
let context = case delim of
DefaultDelim -> inPeriod
Period -> inPeriod
OneParen -> inOneParen
TwoParens -> inTwoParens
(start, _, _) <- context num
return start
-- | Parses a character reference and returns a Str element.
charRef :: GenParser Char st Inline
charRef = do
c <- characterReference
return $ Str [c]
-- | Parse a table using 'headerParser', 'rowParser',
-- 'lineParser', and 'footerParser'.
tableWith :: GenParser Char ParserState ([[Block]], [Alignment], [Int])
-> ([Int] -> GenParser Char ParserState [[Block]])
-> GenParser Char ParserState sep
-> GenParser Char ParserState end
-> GenParser Char ParserState [Inline]
-> GenParser Char ParserState Block
tableWith headerParser rowParser lineParser footerParser captionParser = try $ do
caption' <- option [] captionParser
(heads, aligns, indices) <- headerParser
lines' <- rowParser indices `sepEndBy` lineParser
footerParser
caption <- if null caption'
then option [] captionParser
else return caption'
state <- getState
let numColumns = stateColumns state
let widths = widthsFromIndices numColumns indices
return $ Table caption aligns widths heads lines'
-- Calculate relative widths of table columns, based on indices
widthsFromIndices :: Int -- Number of columns on terminal
-> [Int] -- Indices
-> [Double] -- Fractional relative sizes of columns
widthsFromIndices _ [] = []
widthsFromIndices numColumns' indices =
let numColumns = max numColumns' (if null indices then 0 else last indices)
lengths' = zipWith (-) indices (0:indices)
lengths = reverse $
case reverse lengths' of
[] -> []
[x] -> [x]
-- compensate for the fact that intercolumn
-- spaces are counted in widths of all columns
-- but the last...
(x:y:zs) -> if x < y && y - x <= 2
then y:y:zs
else x:y:zs
totLength = sum lengths
quotient = if totLength > numColumns
then fromIntegral totLength
else fromIntegral numColumns
fracs = map (\l -> (fromIntegral l) / quotient) lengths in
tail fracs
-- Parse a grid table: starts with row of '-' on top, then header
-- (which may be grid), then the rows,
-- which may be grid, separated by blank lines, and
-- ending with a footer (dashed line followed by blank line).
gridTableWith :: GenParser Char ParserState Block -- ^ Block parser
-> GenParser Char ParserState [Inline] -- ^ Caption parser
-> Bool -- ^ Headerless table
-> GenParser Char ParserState Block
gridTableWith block tableCaption headless =
tableWith (gridTableHeader headless block) (gridTableRow block) (gridTableSep '-') gridTableFooter tableCaption
gridTableSplitLine :: [Int] -> String -> [String]
gridTableSplitLine indices line = map removeFinalBar $ tail $
splitByIndices (init indices) $ removeTrailingSpace line
gridPart :: Char -> GenParser Char st (Int, Int)
gridPart ch = do
dashes <- many1 (char ch)
char '+'
return (length dashes, length dashes + 1)
gridDashedLines :: Char -> GenParser Char st [(Int,Int)]
gridDashedLines ch = try $ char '+' >> many1 (gridPart ch) >>~ blankline
removeFinalBar :: String -> String
removeFinalBar =
reverse . dropWhile (`elem` " \t") . dropWhile (=='|') . reverse
-- | Separator between rows of grid table.
gridTableSep :: Char -> GenParser Char ParserState Char
gridTableSep ch = try $ gridDashedLines ch >> return '\n'
-- | Parse header for a grid table.
gridTableHeader :: Bool -- ^ Headerless table
-> GenParser Char ParserState Block
-> GenParser Char ParserState ([[Block]], [Alignment], [Int])
gridTableHeader headless block = try $ do
optional blanklines
dashes <- gridDashedLines '-'
rawContent <- if headless
then return $ repeat ""
else many1
(notFollowedBy (gridTableSep '=') >> char '|' >>
many1Till anyChar newline)
if headless
then return ()
else gridTableSep '=' >> return ()
let lines' = map snd dashes
let indices = scanl (+) 0 lines'
let aligns = replicate (length lines') AlignDefault
-- RST does not have a notion of alignments
let rawHeads = if headless
then replicate (length dashes) ""
else map (intercalate " ") $ transpose
$ map (gridTableSplitLine indices) rawContent
heads <- mapM (parseFromString $ many block) $
map removeLeadingTrailingSpace rawHeads
return (heads, aligns, indices)
gridTableRawLine :: [Int] -> GenParser Char ParserState [String]
gridTableRawLine indices = do
char '|'
line <- many1Till anyChar newline
return (gridTableSplitLine indices line)
-- | Parse row of grid table.
gridTableRow :: GenParser Char ParserState Block
-> [Int]
-> GenParser Char ParserState [[Block]]
gridTableRow block indices = do
colLines <- many1 (gridTableRawLine indices)
let cols = map ((++ "\n") . unlines . removeOneLeadingSpace) $
transpose colLines
mapM (liftM compactifyCell . parseFromString (many block)) cols
removeOneLeadingSpace :: [String] -> [String]
removeOneLeadingSpace xs =
if all startsWithSpace xs
then map (drop 1) xs
else xs
where startsWithSpace "" = True
startsWithSpace (y:_) = y == ' '
compactifyCell :: [Block] -> [Block]
compactifyCell bs = head $ compactify [bs]
-- | Parse footer for a grid table.
gridTableFooter :: GenParser Char ParserState [Char]
gridTableFooter = blanklines
---
-- | Parse a string with a given parser and state.
readWith :: GenParser t ParserState a -- ^ parser
-> ParserState -- ^ initial state
-> [t] -- ^ input
-> a
readWith parser state input =
case runParser parser state "source" input of
Left err -> error $ "\nError:\n" ++ show err
Right result -> result
-- | Parse a string with @parser@ (for testing).
testStringWith :: (Show a) => GenParser Char ParserState a
-> String
-> IO ()
testStringWith parser str = UTF8.putStrLn $ show $
readWith parser defaultParserState str
-- | Parsing options.
data ParserState = ParserState
{ stateParseRaw :: Bool, -- ^ Parse raw HTML and LaTeX?
stateParserContext :: ParserContext, -- ^ Inside list?
stateQuoteContext :: QuoteContext, -- ^ Inside quoted environment?
stateKeys :: KeyTable, -- ^ List of reference keys
stateCitations :: [String], -- ^ List of available citations
stateNotes :: NoteTable, -- ^ List of notes
stateTabStop :: Int, -- ^ Tab stop
stateStandalone :: Bool, -- ^ Parse bibliographic info?
stateTitle :: [Inline], -- ^ Title of document
stateAuthors :: [[Inline]], -- ^ Authors of document
stateDate :: [Inline], -- ^ Date of document
stateStrict :: Bool, -- ^ Use strict markdown syntax?
stateSmart :: Bool, -- ^ Use smart typography?
stateLiterateHaskell :: Bool, -- ^ Treat input as literate haskell
stateColumns :: Int, -- ^ Number of columns in terminal
stateHeaderTable :: [HeaderType], -- ^ Ordered list of header types used
stateIndentedCodeClasses :: [String], -- ^ Classes to use for indented code blocks
stateNextExample :: Int, -- ^ Number of next example
stateExamples :: M.Map String Int, -- ^ Map from example labels to numbers
stateHasChapters :: Bool, -- ^ True if \chapter encountered
stateApplyMacros :: Bool, -- ^ Apply LaTeX macros?
stateMacros :: [Macro] -- ^ List of macros defined so far
}
deriving Show
defaultParserState :: ParserState
defaultParserState =
ParserState { stateParseRaw = False,
stateParserContext = NullState,
stateQuoteContext = NoQuote,
stateKeys = M.empty,
stateCitations = [],
stateNotes = [],
stateTabStop = 4,
stateStandalone = False,
stateTitle = [],
stateAuthors = [],
stateDate = [],
stateStrict = False,
stateSmart = False,
stateLiterateHaskell = False,
stateColumns = 80,
stateHeaderTable = [],
stateIndentedCodeClasses = [],
stateNextExample = 1,
stateExamples = M.empty,
stateHasChapters = False,
stateApplyMacros = True,
stateMacros = []}
data HeaderType
= SingleHeader Char -- ^ Single line of characters underneath
| DoubleHeader Char -- ^ Lines of characters above and below
deriving (Eq, Show)
data ParserContext
= ListItemState -- ^ Used when running parser on list item contents
| NullState -- ^ Default state
deriving (Eq, Show)
data QuoteContext
= InSingleQuote -- ^ Used when parsing inside single quotes
| InDoubleQuote -- ^ Used when parsing inside double quotes
| NoQuote -- ^ Used when not parsing inside quotes
deriving (Eq, Show)
type NoteTable = [(String, String)]
newtype Key = Key [Inline] deriving (Show, Read, Eq, Ord)
toKey :: [Inline] -> Key
toKey = Key . bottomUp lowercase
where lowercase :: Inline -> Inline
lowercase (Str xs) = Str (map toLower xs)
lowercase (Math t xs) = Math t (map toLower xs)
lowercase (Code attr xs) = Code attr (map toLower xs)
lowercase (RawInline f xs) = RawInline f (map toLower xs)
lowercase LineBreak = Space
lowercase x = x
fromKey :: Key -> [Inline]
fromKey (Key xs) = xs
type KeyTable = M.Map Key Target
-- | Look up key in key table and return target object.
lookupKeySrc :: KeyTable -- ^ Key table
-> Key -- ^ Key
-> Maybe Target
lookupKeySrc table key = case M.lookup key table of
Nothing -> Nothing
Just src -> Just src
-- | Fail unless we're in "smart typography" mode.
failUnlessSmart :: GenParser tok ParserState ()
failUnlessSmart = getState >>= guard . stateSmart
smartPunctuation :: GenParser Char ParserState Inline
-> GenParser Char ParserState Inline
smartPunctuation inlineParser = do
failUnlessSmart
choice [ quoted inlineParser, apostrophe, dash, ellipses ]
apostrophe :: GenParser Char ParserState Inline
apostrophe = (char '\'' <|> char '\8217') >> return Apostrophe
quoted :: GenParser Char ParserState Inline
-> GenParser Char ParserState Inline
quoted inlineParser = doubleQuoted inlineParser <|> singleQuoted inlineParser
withQuoteContext :: QuoteContext
-> (GenParser Char ParserState Inline)
-> GenParser Char ParserState Inline
withQuoteContext context parser = do
oldState <- getState
let oldQuoteContext = stateQuoteContext oldState
setState oldState { stateQuoteContext = context }
result <- parser
newState <- getState
setState newState { stateQuoteContext = oldQuoteContext }
return result
singleQuoted :: GenParser Char ParserState Inline
-> GenParser Char ParserState Inline
singleQuoted inlineParser = try $ do
singleQuoteStart
withQuoteContext InSingleQuote $ many1Till inlineParser singleQuoteEnd >>=
return . Quoted SingleQuote . normalizeSpaces
doubleQuoted :: GenParser Char ParserState Inline
-> GenParser Char ParserState Inline
doubleQuoted inlineParser = try $ do
doubleQuoteStart
withQuoteContext InDoubleQuote $ do
contents <- manyTill inlineParser doubleQuoteEnd
return . Quoted DoubleQuote . normalizeSpaces $ contents
failIfInQuoteContext :: QuoteContext -> GenParser tok ParserState ()
failIfInQuoteContext context = do
st <- getState
if stateQuoteContext st == context
then fail "already inside quotes"
else return ()
charOrRef :: [Char] -> GenParser Char st Char
charOrRef cs =
oneOf cs <|> try (do c <- characterReference
guard (c `elem` cs)
return c)
singleQuoteStart :: GenParser Char ParserState ()
singleQuoteStart = do
failIfInQuoteContext InSingleQuote
try $ do charOrRef "'\8216\145"
notFollowedBy (oneOf ")!],;:-? \t\n")
notFollowedBy (char '.') <|> lookAhead (string "..." >> return ())
notFollowedBy (try (oneOfStrings ["s","t","m","ve","ll","re"] >>
satisfy (not . isAlphaNum)))
-- possess/contraction
return ()
singleQuoteEnd :: GenParser Char st ()
singleQuoteEnd = try $ do
charOrRef "'\8217\146"
notFollowedBy alphaNum
doubleQuoteStart :: GenParser Char ParserState ()
doubleQuoteStart = do
failIfInQuoteContext InDoubleQuote
try $ do charOrRef "\"\8220\147"
notFollowedBy (satisfy (\c -> c == ' ' || c == '\t' || c == '\n'))
doubleQuoteEnd :: GenParser Char st ()
doubleQuoteEnd = do
charOrRef "\"\8221\148"
return ()
ellipses :: GenParser Char st Inline
ellipses = do
try (charOrRef "…\133") <|> try (string "..." >> return '…')
return Ellipses
dash :: GenParser Char st Inline
dash = enDash <|> emDash
enDash :: GenParser Char st Inline
enDash = do
try (charOrRef "–\150") <|>
try (char '-' >> lookAhead (satisfy isDigit) >> return '–')
return EnDash
emDash :: GenParser Char st Inline
emDash = do
try (charOrRef "—\151") <|> (try $ string "--" >> optional (char '-') >> return '—')
return EmDash
--
-- Macros
--
-- | Parse a \newcommand or \renewcommand macro definition.
macro :: GenParser Char ParserState Block
macro = do
getState >>= guard . stateApplyMacros
inp <- getInput
case parseMacroDefinitions inp of
([], _) -> pzero
(ms, rest) -> do count (length inp - length rest) anyChar
updateState $ \st ->
st { stateMacros = ms ++ stateMacros st }
return Null
-- | Apply current macros to string.
applyMacros' :: String -> GenParser Char ParserState String
applyMacros' target = do
apply <- liftM stateApplyMacros getState
if apply
then do macros <- liftM stateMacros getState
return $ applyMacros macros target
else return target
|