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|
{-# LANGUAGE CPP #-}
{-# LANGUAGE ExplicitForAll #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE IncoherentInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE ViewPatterns #-}
{-# LANGUAGE OverloadedStrings #-}
{- |
Module : Text.Pandoc.Parsing
Copyright : Copyright (C) 2006-2020 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 ( take1WhileP,
takeP,
countChar,
textStr,
anyLine,
anyLineNewline,
indentWith,
manyChar,
many1Char,
manyTillChar,
many1TillChar,
many1Till,
manyUntil,
manyUntilChar,
sepBy1',
notFollowedBy',
oneOfStrings,
oneOfStringsCI,
spaceChar,
nonspaceChar,
skipSpaces,
blankline,
blanklines,
gobbleSpaces,
gobbleAtMostSpaces,
enclosed,
stringAnyCase,
parseFromString,
parseFromString',
lineClump,
charsInBalanced,
romanNumeral,
emailAddress,
uri,
mathInline,
mathDisplay,
withHorizDisplacement,
withRaw,
escaped,
characterReference,
upperRoman,
lowerRoman,
decimal,
lowerAlpha,
upperAlpha,
anyOrderedListMarker,
orderedListMarker,
charRef,
lineBlockLines,
tableWith,
widthsFromIndices,
gridTableWith,
gridTableWith',
readWith,
readWithM,
testStringWith,
guardEnabled,
guardDisabled,
updateLastStrPos,
notAfterString,
logMessage,
reportLogMessages,
ParserState (..),
HasReaderOptions (..),
HasIdentifierList (..),
HasMacros (..),
HasLogMessages (..),
HasLastStrPosition (..),
HasIncludeFiles (..),
defaultParserState,
HeaderType (..),
ParserContext (..),
QuoteContext (..),
HasQuoteContext (..),
NoteTable,
NoteTable',
KeyTable,
SubstTable,
Key (..),
toKey,
registerHeader,
smartPunctuation,
singleQuoteStart,
singleQuoteEnd,
doubleQuoteStart,
doubleQuoteEnd,
ellipses,
apostrophe,
dash,
nested,
citeKey,
Parser,
ParserT,
F,
Future(..),
runF,
askF,
asksF,
returnF,
trimInlinesF,
token,
(<+?>),
extractIdClass,
insertIncludedFile,
insertIncludedFileF,
-- * Re-exports from Text.Parsec
Stream,
runParser,
runParserT,
parse,
tokenPrim,
anyToken,
getInput,
setInput,
unexpected,
char,
letter,
digit,
alphaNum,
skipMany,
skipMany1,
spaces,
space,
anyChar,
satisfy,
newline,
string,
count,
eof,
noneOf,
oneOf,
lookAhead,
notFollowedBy,
many,
many1,
manyTill,
(<|>),
(<?>),
choice,
try,
sepBy,
sepBy1,
sepEndBy,
sepEndBy1,
endBy,
endBy1,
option,
optional,
optionMaybe,
getState,
setState,
updateState,
SourcePos,
getPosition,
setPosition,
sourceColumn,
sourceLine,
setSourceColumn,
setSourceLine,
incSourceColumn,
newPos,
Line,
Column
)
where
import Control.Monad.Identity
import Control.Monad.Reader
import Data.Char (chr, isAlphaNum, isAscii, isAsciiUpper,
isPunctuation, isSpace, ord, toLower, toUpper)
import Data.Default
import Data.Functor (($>))
import Data.List (intercalate, transpose)
import qualified Data.Map as M
import Data.Maybe (mapMaybe, fromMaybe)
import qualified Data.Set as Set
import Data.String
import Data.Text (Text)
import qualified Data.Text as T
import Text.HTML.TagSoup.Entity (lookupEntity)
import Text.Pandoc.Asciify (toAsciiChar)
import Text.Pandoc.Builder (Blocks, HasMeta (..), Inlines, trimInlines)
import qualified Text.Pandoc.Builder as B
import Text.Pandoc.Class.PandocMonad (PandocMonad, readFileFromDirs, report)
import Text.Pandoc.Definition
import Text.Pandoc.Logging
import Text.Pandoc.Options
import Text.Pandoc.Readers.LaTeX.Types (Macro)
import Text.Pandoc.Shared
import qualified Text.Pandoc.UTF8 as UTF8 (putStrLn)
import Text.Pandoc.XML (fromEntities)
import Text.Parsec hiding (token)
import Text.Parsec.Pos (initialPos, newPos, updatePosString)
import Control.Monad.Except
import Text.Pandoc.Error
type Parser t s = Parsec t s
type ParserT = ParsecT
-- | Reader monad wrapping the parser state. This is used to possibly delay
-- evaluation until all relevant information has been parsed and made available
-- in the parser state.
newtype Future s a = Future { runDelayed :: Reader s a }
deriving (Monad, Applicative, Functor)
type F = Future ParserState
runF :: Future s a -> s -> a
runF = runReader . runDelayed
askF :: Future s s
askF = Future ask
asksF :: (s -> a) -> Future s a
asksF f = Future $ asks f
returnF :: Monad m => a -> m (Future s a)
returnF = return . return
trimInlinesF :: Future s Inlines -> Future s Inlines
trimInlinesF = liftM trimInlines
instance Semigroup a => Semigroup (Future s a) where
(<>) = liftM2 (<>)
instance (Semigroup a, Monoid a) => Monoid (Future s a) where
mempty = return mempty
mappend = (<>)
-- | Like @count@, but packs its result
countChar :: (Stream s m Char, Monad m)
=> Int
-> ParsecT s st m Char
-> ParsecT s st m Text
countChar n = fmap T.pack . count n
-- | Like @string@, but uses @Text@.
textStr :: Stream s m Char => Text -> ParsecT s u m Text
textStr t = string (T.unpack t) $> t
-- | Parse characters while a predicate is true.
take1WhileP :: Monad m
=> (Char -> Bool)
-> ParserT Text st m Text
take1WhileP f = do
-- needed to persuade parsec that this won't match an empty string:
c <- satisfy f
inp <- getInput
pos <- getPosition
let (t, rest) = T.span f inp
setInput rest
setPosition $
if f '\t' || f '\n'
then updatePosString pos $ T.unpack t
else incSourceColumn pos (T.length t)
return $ T.singleton c <> t
-- Parse n characters of input (or the rest of the input if
-- there aren't n characters).
takeP :: Monad m => Int -> ParserT Text st m Text
takeP n = do
guard (n > 0)
-- faster than 'count n anyChar'
inp <- getInput
pos <- getPosition
let (xs, rest) = T.splitAt n inp
-- needed to persuade parsec that this won't match an empty string:
anyChar
setInput rest
setPosition $ updatePosString pos $ T.unpack xs
return xs
-- | Parse any line of text
anyLine :: Monad m => ParserT Text st m Text
anyLine = do
-- This is much faster than:
-- manyTill anyChar newline
inp <- getInput
pos <- getPosition
case T.break (=='\n') inp of
(this, T.uncons -> Just ('\n', rest)) -> do
-- needed to persuade parsec that this won't match an empty string:
anyChar
setInput rest
setPosition $ incSourceLine (setSourceColumn pos 1) 1
return this
_ -> mzero
-- | Parse any line, include the final newline in the output
anyLineNewline :: Monad m => ParserT Text st m Text
anyLineNewline = (<> "\n") <$> anyLine
-- | Parse indent by specified number of spaces (or equiv. tabs)
indentWith :: Stream s m Char
=> HasReaderOptions st
=> Int -> ParserT s st m Text
indentWith num = do
tabStop <- getOption readerTabStop
if num < tabStop
then countChar num (char ' ')
else choice [ try (countChar num (char ' '))
, try (char '\t' >> indentWith (num - tabStop)) ]
-- | Like @many@, but packs its result.
manyChar :: Stream s m t
=> ParserT s st m Char
-> ParserT s st m Text
manyChar = fmap T.pack . many
-- | Like @many1@, but packs its result.
many1Char :: Stream s m t
=> ParserT s st m Char
-> ParserT s st m Text
many1Char = fmap T.pack . many1
-- | Like @manyTill@, but packs its result.
manyTillChar :: Stream s m t
=> ParserT s st m Char
-> ParserT s st m a
-> ParserT s st m Text
manyTillChar p = fmap T.pack . manyTill p
-- | Like @manyTill@, but reads at least one item.
many1Till :: (Show end, Stream s m t)
=> ParserT s st m a
-> ParserT s st m end
-> ParserT s st m [a]
many1Till p end = do
notFollowedBy' end
first <- p
rest <- manyTill p end
return (first:rest)
-- | Like @many1Till@, but packs its result
many1TillChar :: (Show end, Stream s m t)
=> ParserT s st m Char
-> ParserT s st m end
-> ParserT s st m Text
many1TillChar p = fmap T.pack . many1Till p
-- | Like @manyTill@, but also returns the result of end parser.
manyUntil :: ParserT s u m a
-> ParserT s u m b
-> ParserT s u m ([a], b)
manyUntil p end = scan
where scan =
(do e <- end
return ([], e)
) <|>
(do x <- p
(xs, e) <- scan
return (x:xs, e))
-- | Like @manyUntil@, but also packs its result.
manyUntilChar :: ParserT s u m Char
-> ParserT s u m b
-> ParserT s u m (Text, b)
manyUntilChar p = fmap go . manyUntil p
where
go (x, y) = (T.pack x, y)
-- | Like @sepBy1@ from Parsec,
-- but does not fail if it @sep@ succeeds and @p@ fails.
sepBy1' :: ParsecT s u m a
-> ParsecT s u m sep
-> ParsecT s u m [a]
sepBy1' p sep = (:) <$> p <*> many (try $ sep >> p)
-- | 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, Stream s m a) => ParserT s st m b -> ParserT s st m ()
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.)
oneOfStrings' :: Stream s m Char => (Char -> Char -> Bool) -> [Text] -> ParserT s st m Text
oneOfStrings' f = fmap T.pack . oneOfStrings'' f . fmap T.unpack
-- TODO: This should be re-implemented in a Text-aware way
oneOfStrings'' :: Stream s m Char => (Char -> Char -> Bool) -> [String] -> ParserT s st m String
oneOfStrings'' _ [] = Prelude.fail "no strings"
oneOfStrings'' matches strs = try $ do
c <- anyChar
let strs' = [xs | (x:xs) <- strs, x `matches` c]
case strs' of
[] -> Prelude.fail "not found"
_ -> (c:) <$> oneOfStrings'' matches strs'
<|> if "" `elem` strs'
then return [c]
else Prelude.fail "not found"
-- | Parses one of a list of strings. If the list contains
-- two strings one of which is a prefix of the other, the longer
-- string will be matched if possible.
oneOfStrings :: Stream s m Char => [Text] -> ParserT s st m Text
oneOfStrings = oneOfStrings' (==)
-- | Parses one of a list of strings (tried in order), case insensitive.
-- TODO: This will not be accurate with general Unicode (neither
-- Text.toLower nor Text.toCaseFold can be implemented with a map)
oneOfStringsCI :: Stream s m Char => [Text] -> ParserT s st m Text
oneOfStringsCI = oneOfStrings' ciMatch
where ciMatch x y = toLower' x == toLower' y
-- this optimizes toLower by checking common ASCII case
-- first, before calling the expensive unicode-aware
-- function:
toLower' c | isAsciiUpper c = chr (ord c + 32)
| isAscii c = c
| otherwise = toLower c
-- | Parses a space or tab.
spaceChar :: Stream s m Char => ParserT s st m Char
spaceChar = satisfy $ \c -> c == ' ' || c == '\t'
-- | Parses a nonspace, nonnewline character.
nonspaceChar :: Stream s m Char => ParserT s st m Char
nonspaceChar = noneOf ['\t', '\n', ' ', '\r']
-- | Skips zero or more spaces or tabs.
skipSpaces :: Stream s m Char => ParserT s st m ()
skipSpaces = skipMany spaceChar
-- | Skips zero or more spaces or tabs, then reads a newline.
blankline :: Stream s m Char => ParserT s st m Char
blankline = try $ skipSpaces >> newline
-- | Parses one or more blank lines and returns a string of newlines.
blanklines :: Stream s m Char => ParserT s st m Text
blanklines = T.pack <$> many1 blankline
-- | Gobble n spaces; if tabs are encountered, expand them
-- and gobble some or all of their spaces, leaving the rest.
gobbleSpaces :: (HasReaderOptions st, Monad m)
=> Int -> ParserT Text st m ()
gobbleSpaces 0 = return ()
gobbleSpaces n
| n < 0 = error "gobbleSpaces called with negative number"
| otherwise = try $ do
char ' ' <|> eatOneSpaceOfTab
gobbleSpaces (n - 1)
eatOneSpaceOfTab :: (HasReaderOptions st, Monad m) => ParserT Text st m Char
eatOneSpaceOfTab = do
char '\t'
tabstop <- getOption readerTabStop
inp <- getInput
setInput $ T.replicate (tabstop - 1) " " <> inp
return ' '
-- | Gobble up to n spaces; if tabs are encountered, expand them
-- and gobble some or all of their spaces, leaving the rest.
gobbleAtMostSpaces :: (HasReaderOptions st, Monad m)
=> Int -> ParserT Text st m Int
gobbleAtMostSpaces 0 = return 0
gobbleAtMostSpaces n
| n < 0 = error "gobbleAtMostSpaces called with negative number"
| otherwise = option 0 $ do
char ' ' <|> eatOneSpaceOfTab
(+ 1) <$> gobbleAtMostSpaces (n - 1)
-- | Parses material enclosed between start and end parsers.
enclosed :: (Show end, Stream s m Char) => ParserT s st m t -- ^ start parser
-> ParserT s st m end -- ^ end parser
-> ParserT s st m a -- ^ content parser (to be used repeatedly)
-> ParserT s st m [a]
enclosed start end parser = try $
start >> notFollowedBy space >> many1Till parser end
-- | Parse string, case insensitive.
stringAnyCase :: Stream s m Char => Text -> ParserT s st m Text
stringAnyCase = fmap T.pack . stringAnyCase' . T.unpack
stringAnyCase' :: Stream s m Char => String -> ParserT s st m 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 :: (Stream s m Char, IsString s)
=> ParserT s st m r
-> Text
-> ParserT s st m r
parseFromString parser str = do
oldPos <- getPosition
setPosition $ initialPos "chunk"
oldInput <- getInput
setInput $ fromString $ T.unpack str
result <- parser
spaces
eof
setInput oldInput
setPosition oldPos
return result
-- | Like 'parseFromString' but specialized for 'ParserState'.
-- This resets 'stateLastStrPos', which is almost always what we want.
parseFromString' :: (Stream s m Char, IsString s, HasLastStrPosition u)
=> ParserT s u m a
-> Text
-> ParserT s u m a
parseFromString' parser str = do
oldLastStrPos <- getLastStrPos <$> getState
updateState $ setLastStrPos Nothing
res <- parseFromString parser str
updateState $ setLastStrPos oldLastStrPos
return res
-- | Parse raw line block up to and including blank lines.
lineClump :: Monad m => ParserT Text st m Text
lineClump = blanklines
<|> (T.unlines <$> many1 (notFollowedBy blankline >> anyLine))
-- | 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 '(' ')' anyChar@ will parse "(hello (there))"
-- and return "hello (there)".
charsInBalanced :: Stream s m Char => Char -> Char -> ParserT s st m Char
-> ParserT s st m Text
charsInBalanced open close parser = try $ do
char open
let isDelim c = c == open || c == close
raw <- many $ T.pack <$> many1 (notFollowedBy (satisfy isDelim) >> parser)
<|> (do res <- charsInBalanced open close parser
return $ T.singleton open <> res <> T.singleton close)
char close
return $ T.concat raw
-- old charsInBalanced would be:
-- charsInBalanced open close (noneOf "\n" <|> char '\n' >> notFollowedBy blankline)
-- old charsInBalanced' would be:
-- charsInBalanced open close anyChar
-- Auxiliary functions for romanNumeral:
-- | Parses a roman numeral (uppercase or lowercase), returns number.
romanNumeral :: Stream s m Char => Bool -- ^ Uppercase if true
-> ParserT s st m Int
romanNumeral upperCase = do
let rchar uc = char $ if upperCase then uc else toLower uc
let one = rchar 'I'
let five = rchar 'V'
let ten = rchar 'X'
let fifty = rchar 'L'
let hundred = rchar 'C'
let fivehundred = rchar 'D'
let thousand = rchar 'M'
lookAhead $ choice [one, five, ten, fifty, hundred, fivehundred, thousand]
thousands <- ((1000 *) . length) <$> many thousand
ninehundreds <- option 0 $ try $ hundred >> thousand >> return 900
fivehundreds <- option 0 $ 500 <$ fivehundred
fourhundreds <- option 0 $ try $ hundred >> fivehundred >> return 400
hundreds <- ((100 *) . length) <$> many hundred
nineties <- option 0 $ try $ ten >> hundred >> return 90
fifties <- option 0 (50 <$ fifty)
forties <- option 0 $ try $ ten >> fifty >> return 40
tens <- ((10 *) . length) <$> many ten
nines <- option 0 $ try $ one >> ten >> return 9
fives <- option 0 (5 <$ five)
fours <- option 0 $ try $ one >> five >> return 4
ones <- length <$> many one
let total = thousands + ninehundreds + fivehundreds + fourhundreds +
hundreds + nineties + fifties + forties + tens + nines +
fives + fours + ones
if total == 0
then Prelude.fail "not a roman numeral"
else return total
-- Parsers for email addresses and URIs
-- | Parses an email address; returns original and corresponding
-- escaped mailto: URI.
emailAddress :: Stream s m Char => ParserT s st m (Text, Text)
emailAddress = try $ toResult <$> mailbox <*> (char '@' *> domain)
where toResult mbox dom = let full = fromEntities $ T.pack $ mbox ++ '@':dom
in (full, escapeURI $ "mailto:" <> full)
mailbox = intercalate "." <$> (emailWord `sepBy1'` dot)
domain = intercalate "." <$> (subdomain `sepBy1'` dot)
dot = char '.'
subdomain = many1 $ alphaNum <|> innerPunct
-- this excludes some valid email addresses, since an
-- email could contain e.g. '__', but gives better results
-- for our purposes, when combined with markdown parsing:
innerPunct = try (satisfy (\c -> isEmailPunct c || c == '@')
<* notFollowedBy space
<* notFollowedBy (satisfy isPunctuation))
-- technically an email address could begin with a symbol,
-- but allowing this creates too many problems.
-- See e.g. https://github.com/jgm/pandoc/issues/2940
emailWord = do x <- satisfy isAlphaNum
xs <- many (satisfy isEmailChar)
return (x:xs)
isEmailChar c = isAlphaNum c || isEmailPunct c
isEmailPunct c = T.any (== c) "!\"#$%&'*+-/=?^_{|}~;"
uriScheme :: Stream s m Char => ParserT s st m Text
uriScheme = oneOfStringsCI (Set.toList schemes)
-- | Parses a URI. Returns pair of original and URI-escaped version.
uri :: Stream s m Char => ParserT s st m (Text, Text)
uri = try $ do
scheme <- uriScheme
char ':'
-- Avoid parsing e.g. "**Notes:**" as a raw URI:
notFollowedBy (oneOf "*_]")
-- We allow sentence punctuation except at the end, since
-- we don't want the trailing '.' in 'http://google.com.' 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.
str <- T.concat <$> many1 (uriChunkBetween '(' ')'
<|> uriChunkBetween '{' '}'
<|> uriChunkBetween '[' ']'
<|> T.pack <$> uriChunk)
str' <- option str $ char '/' >> return (str <> "/")
let uri' = scheme <> ":" <> fromEntities str'
return (uri', escapeURI uri')
where
wordChar = alphaNum <|> oneOf "#$%+/@\\_-&="
percentEscaped = try $ (:) <$> char '%' <*> many1 hexDigit
entity = try $ pure <$> characterReference
punct = try $ many1 (char ',') <|> fmap pure (satisfy (\c -> not (isSpace c) && c /= '<' && c /= '>'))
uriChunk = many1 wordChar
<|> percentEscaped
<|> entity
<|> try (punct <* lookAhead (void wordChar <|> void percentEscaped))
uriChunkBetween l r = try $ do chunk <- between (char l) (char r) uriChunk
return (T.pack $ [l] ++ chunk ++ [r])
mathInlineWith :: Stream s m Char => Text -> Text -> ParserT s st m Text
mathInlineWith op cl = try $ do
textStr op
when (op == "$") $ notFollowedBy space
words' <- many1Till (countChar 1 (noneOf " \t\n\\")
<|> (char '\\' >>
-- This next clause is needed because \text{..} can
-- contain $, \(\), etc.
(try (string "text" >>
(("\\text" <>) <$> inBalancedBraces 0 ""))
<|> (\c -> T.pack ['\\',c]) <$> anyChar))
<|> do (blankline <* notFollowedBy' blankline) <|>
(oneOf " \t" <* skipMany (oneOf " \t"))
notFollowedBy (char '$')
return " "
) (try $ textStr cl)
notFollowedBy digit -- to prevent capture of $5
return $ trimMath $ T.concat words'
where
inBalancedBraces :: Stream s m Char => Int -> Text -> ParserT s st m Text
inBalancedBraces n = fmap T.pack . inBalancedBraces' n . T.unpack
inBalancedBraces' :: Stream s m Char => Int -> String -> ParserT s st m String
inBalancedBraces' 0 "" = do
c <- anyChar
if c == '{'
then inBalancedBraces' 1 "{"
else mzero
inBalancedBraces' 0 s = return $ reverse s
inBalancedBraces' numOpen ('\\':xs) = do
c <- anyChar
inBalancedBraces' numOpen (c:'\\':xs)
inBalancedBraces' numOpen xs = do
c <- anyChar
case c of
'}' -> inBalancedBraces' (numOpen - 1) (c:xs)
'{' -> inBalancedBraces' (numOpen + 1) (c:xs)
_ -> inBalancedBraces' numOpen (c:xs)
mathDisplayWith :: Stream s m Char => Text -> Text -> ParserT s st m Text
mathDisplayWith op cl = try $ fmap T.pack $ do
textStr op
many1Till (noneOf "\n" <|> (newline <* notFollowedBy' blankline)) (try $ textStr cl)
mathDisplay :: (HasReaderOptions st, Stream s m Char)
=> ParserT s st m Text
mathDisplay =
(guardEnabled Ext_tex_math_dollars >> mathDisplayWith "$$" "$$")
<|> (guardEnabled Ext_tex_math_single_backslash >>
mathDisplayWith "\\[" "\\]")
<|> (guardEnabled Ext_tex_math_double_backslash >>
mathDisplayWith "\\\\[" "\\\\]")
mathInline :: (HasReaderOptions st , Stream s m Char)
=> ParserT s st m Text
mathInline =
(guardEnabled Ext_tex_math_dollars >> mathInlineWith "$" "$")
<|> (guardEnabled Ext_tex_math_single_backslash >>
mathInlineWith "\\(" "\\)")
<|> (guardEnabled Ext_tex_math_double_backslash >>
mathInlineWith "\\\\(" "\\\\)")
-- | 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 :: Stream s m Char
=> ParserT s st m a -- ^ Parser to apply
-> ParserT s st m (a, Int) -- ^ (result, displacement)
withHorizDisplacement parser = do
pos1 <- getPosition
result <- parser
pos2 <- getPosition
return (result, sourceColumn pos2 - sourceColumn pos1)
-- | Applies a parser and returns the raw string that was parsed,
-- along with the value produced by the parser.
withRaw :: Monad m
=> ParsecT Text st m a
-> ParsecT Text st m (a, Text)
withRaw parser = do
pos1 <- getPosition
inp <- getInput
result <- parser
pos2 <- getPosition
let (l1,c1) = (sourceLine pos1, sourceColumn pos1)
let (l2,c2) = (sourceLine pos2, sourceColumn pos2)
let inplines = take ((l2 - l1) + 1) $ T.lines inp
let raw = case inplines of
[] -> ""
[l] -> T.take (c2 - c1) l
ls -> T.unlines (init ls) <> T.take (c2 - 1) (last ls)
return (result, raw)
-- | Parses backslash, then applies character parser.
escaped :: Stream s m Char
=> ParserT s st m Char -- ^ Parser for character to escape
-> ParserT s st m Char
escaped parser = try $ char '\\' >> parser
-- | Parse character entity.
characterReference :: Stream s m Char => ParserT s st m Char
characterReference = try $ do
char '&'
ent <- many1Till nonspaceChar (char ';')
let ent' = case ent of
'#':'X':xs -> '#':'x':xs -- workaround tagsoup bug
'#':_ -> ent
_ -> ent ++ ";"
case lookupEntity ent' of
Just (c : _) -> return c
_ -> Prelude.fail "entity not found"
-- | Parses an uppercase roman numeral and returns (UpperRoman, number).
upperRoman :: Stream s m Char => ParserT s st m (ListNumberStyle, Int)
upperRoman = do
num <- romanNumeral True
return (UpperRoman, num)
-- | Parses a lowercase roman numeral and returns (LowerRoman, number).
lowerRoman :: Stream s m Char => ParserT s st m (ListNumberStyle, Int)
lowerRoman = do
num <- romanNumeral False
return (LowerRoman, num)
-- | Parses a decimal numeral and returns (Decimal, number).
decimal :: Stream s m Char => ParserT s st m (ListNumberStyle, Int)
decimal = do
num <- many1 digit
return (Decimal, fromMaybe 1 $ safeRead $ T.pack 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 :: Stream s m Char
=> ParserT s ParserState m (ListNumberStyle, Int)
exampleNum = do
char '@'
lab <- T.pack <$> many (alphaNum <|> satisfy (\c -> c == '_' || c == '-'))
st <- getState
let num = stateNextExample st
let newlabels = if T.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 :: Stream s m Char => ParserT s st m (ListNumberStyle, Int)
defaultNum = do
char '#'
return (DefaultStyle, 1)
-- | Parses a lowercase letter and returns (LowerAlpha, number).
lowerAlpha :: Stream s m Char => ParserT s st m (ListNumberStyle, Int)
lowerAlpha = do
ch <- oneOf ['a'..'z']
return (LowerAlpha, ord ch - ord 'a' + 1)
-- | Parses an uppercase letter and returns (UpperAlpha, number).
upperAlpha :: Stream s m Char => ParserT s st m (ListNumberStyle, Int)
upperAlpha = do
ch <- oneOf ['A'..'Z']
return (UpperAlpha, ord ch - ord 'A' + 1)
-- | Parses a roman numeral i or I
romanOne :: Stream s m Char => ParserT s st m (ListNumberStyle, Int)
romanOne = (char 'i' >> return (LowerRoman, 1)) <|>
(char 'I' >> return (UpperRoman, 1))
-- | Parses an ordered list marker and returns list attributes.
anyOrderedListMarker :: Stream s m Char => ParserT s ParserState m 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 :: Stream s m Char
=> ParserT s st m (ListNumberStyle, Int)
-> ParserT s st m 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 :: Stream s m Char
=> ParserT s st m (ListNumberStyle, Int)
-> ParserT s st m 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 :: Stream s m Char
=> ParserT s st m (ListNumberStyle, Int)
-> ParserT s st m 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 :: Stream s m Char
=> ListNumberStyle
-> ListNumberDelim
-> ParserT s ParserState m 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 :: Stream s m Char => ParserT s st m Inline
charRef = Str . T.singleton <$> characterReference
lineBlockLine :: Monad m => ParserT Text st m Text
lineBlockLine = try $ do
char '|'
char ' '
white <- T.pack <$> many (spaceChar >> return '\160')
notFollowedBy newline
line <- anyLine
continuations <- many (try $ char ' ' >> anyLine)
return $ white <> T.unwords (line : continuations)
blankLineBlockLine :: Stream s m Char => ParserT s st m Char
blankLineBlockLine = try (char '|' >> blankline)
-- | Parses an RST-style line block and returns a list of strings.
lineBlockLines :: Monad m => ParserT Text st m [Text]
lineBlockLines = try $ do
lines' <- many1 (lineBlockLine <|> (T.singleton <$> blankLineBlockLine))
skipMany blankline
return lines'
-- | Parse a table using 'headerParser', 'rowParser',
-- 'lineParser', and 'footerParser'.
tableWith :: (Stream s m Char, HasReaderOptions st, Monad mf)
=> ParserT s st m (mf [Blocks], [Alignment], [Int])
-> ([Int] -> ParserT s st m (mf [Blocks]))
-> ParserT s st m sep
-> ParserT s st m end
-> ParserT s st m (mf Blocks)
tableWith headerParser rowParser lineParser footerParser = try $ do
(aligns, widths, heads, rows) <- tableWith' headerParser rowParser
lineParser footerParser
let th = TableHead nullAttr <$> heads
tb = (:[]) . TableBody nullAttr 0 [] <$> rows
tf = pure $ TableFoot nullAttr []
return $ B.table B.emptyCaption (zip aligns (map fromWidth widths)) <$> th <*> tb <*> tf
where
fromWidth n
| n > 0 = ColWidth n
| otherwise = ColWidthDefault
type TableComponents mf = ([Alignment], [Double], mf [Row], mf [Row])
tableWith' :: (Stream s m Char, HasReaderOptions st, Monad mf)
=> ParserT s st m (mf [Blocks], [Alignment], [Int])
-> ([Int] -> ParserT s st m (mf [Blocks]))
-> ParserT s st m sep
-> ParserT s st m end
-> ParserT s st m (TableComponents mf)
tableWith' headerParser rowParser lineParser footerParser = try $ do
(heads, aligns, indices) <- headerParser
lines' <- sequence <$> rowParser indices `sepEndBy1` lineParser
footerParser
numColumns <- getOption readerColumns
let widths = if null indices
then replicate (length aligns) 0.0
else widthsFromIndices numColumns indices
let toRow = Row nullAttr . map B.simpleCell
toHeaderRow l = if null l then [] else [toRow l]
return (aligns, widths, toHeaderRow <$> heads, map toRow <$> 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 :: (Stream s m Char, HasReaderOptions st, HasLastStrPosition st,
Monad mf, IsString s)
=> ParserT s st m (mf Blocks) -- ^ Block list parser
-> Bool -- ^ Headerless table
-> ParserT s st m (mf Blocks)
gridTableWith blocks headless =
tableWith (gridTableHeader headless blocks) (gridTableRow blocks)
(gridTableSep '-') gridTableFooter
gridTableWith' :: (Stream s m Char, HasReaderOptions st, HasLastStrPosition st,
Monad mf, IsString s)
=> ParserT s st m (mf Blocks) -- ^ Block list parser
-> Bool -- ^ Headerless table
-> ParserT s st m (TableComponents mf)
gridTableWith' blocks headless =
tableWith' (gridTableHeader headless blocks) (gridTableRow blocks)
(gridTableSep '-') gridTableFooter
gridTableSplitLine :: [Int] -> Text -> [Text]
gridTableSplitLine indices line = map removeFinalBar $ tail $
splitTextByIndices (init indices) $ trimr line
gridPart :: Stream s m Char => Char -> ParserT s st m ((Int, Int), Alignment)
gridPart ch = do
leftColon <- option False (True <$ char ':')
dashes <- many1 (char ch)
rightColon <- option False (True <$ char ':')
char '+'
let lengthDashes = length dashes + (if leftColon then 1 else 0) +
(if rightColon then 1 else 0)
let alignment = case (leftColon, rightColon) of
(True, True) -> AlignCenter
(True, False) -> AlignLeft
(False, True) -> AlignRight
(False, False) -> AlignDefault
return ((lengthDashes, lengthDashes + 1), alignment)
gridDashedLines :: Stream s m Char => Char -> ParserT s st m [((Int, Int), Alignment)]
gridDashedLines ch = try $ char '+' >> many1 (gridPart ch) <* blankline
removeFinalBar :: Text -> Text
removeFinalBar = T.dropWhileEnd go . T.dropWhileEnd (=='|')
where
go c = T.any (== c) " \t"
-- | Separator between rows of grid table.
gridTableSep :: Stream s m Char => Char -> ParserT s st m Char
gridTableSep ch = try $ gridDashedLines ch >> return '\n'
-- | Parse header for a grid table.
gridTableHeader :: (Stream s m Char, Monad mf, IsString s, HasLastStrPosition st)
=> Bool -- ^ Headerless table
-> ParserT s st m (mf Blocks)
-> ParserT s st m (mf [Blocks], [Alignment], [Int])
gridTableHeader headless blocks = try $ do
optional blanklines
dashes <- gridDashedLines '-'
rawContent <- if headless
then return $ repeat ""
else many1
(notFollowedBy (gridTableSep '=') >> char '|' >>
T.pack <$> many1Till anyChar newline)
underDashes <- if headless
then return dashes
else gridDashedLines '='
guard $ length dashes == length underDashes
let lines' = map (snd . fst) underDashes
let indices = scanl (+) 0 lines'
let aligns = map snd underDashes
let rawHeads = if headless
then replicate (length underDashes) ""
else map (T.unlines . map trim) $ transpose
$ map (gridTableSplitLine indices) rawContent
heads <- sequence <$> mapM (parseFromString' blocks . trim) rawHeads
return (heads, aligns, indices)
gridTableRawLine :: Stream s m Char => [Int] -> ParserT s st m [Text]
gridTableRawLine indices = do
char '|'
line <- many1Till anyChar newline
return (gridTableSplitLine indices $ T.pack line)
-- | Parse row of grid table.
gridTableRow :: (Stream s m Char, Monad mf, IsString s, HasLastStrPosition st)
=> ParserT s st m (mf Blocks)
-> [Int]
-> ParserT s st m (mf [Blocks])
gridTableRow blocks indices = do
colLines <- many1 (gridTableRawLine indices)
let cols = map ((<> "\n") . T.unlines . removeOneLeadingSpace) $
transpose colLines
compactifyCell bs = case compactify [bs] of
[] -> mempty
x:_ -> x
cells <- sequence <$> mapM (parseFromString' blocks) cols
return $ fmap (map compactifyCell) cells
removeOneLeadingSpace :: [Text] -> [Text]
removeOneLeadingSpace xs =
if all startsWithSpace xs
then map (T.drop 1) xs
else xs
where startsWithSpace t = case T.uncons t of
Nothing -> True
Just (c, _) -> c == ' '
-- | Parse footer for a grid table.
gridTableFooter :: Stream s m Char => ParserT s st m Text
gridTableFooter = blanklines
---
-- | Removes the ParsecT layer from the monad transformer stack
readWithM :: (Stream s m Char, ToText s)
=> ParserT s st m a -- ^ parser
-> st -- ^ initial state
-> s -- ^ input
-> m (Either PandocError a)
readWithM parser state input =
mapLeft (PandocParsecError $ toText input) `liftM` runParserT parser state "source" input
-- | Parse a string with a given parser and state
readWith :: Parser Text st a
-> st
-> Text
-> Either PandocError a
readWith p t inp = runIdentity $ readWithM p t inp
-- | Parse a string with @parser@ (for testing).
testStringWith :: Show a
=> ParserT Text ParserState Identity a
-> Text
-> IO ()
testStringWith parser str = UTF8.putStrLn $ show $
readWith parser defaultParserState str
-- | Parsing options.
data ParserState = ParserState
{ stateOptions :: ReaderOptions, -- ^ User options
stateParserContext :: ParserContext, -- ^ Inside list?
stateQuoteContext :: QuoteContext, -- ^ Inside quoted environment?
stateAllowLinks :: Bool, -- ^ Allow parsing of links
stateAllowLineBreaks :: Bool, -- ^ Allow parsing of line breaks
stateMaxNestingLevel :: Int, -- ^ Max # of nested Strong/Emph
stateLastStrPos :: Maybe SourcePos, -- ^ Position after last str parsed
stateKeys :: KeyTable, -- ^ List of reference keys
stateHeaderKeys :: KeyTable, -- ^ List of implicit header ref keys
stateSubstitutions :: SubstTable, -- ^ List of substitution references
stateNotes :: NoteTable, -- ^ List of notes (raw bodies)
stateNotes' :: NoteTable', -- ^ List of notes (parsed bodies)
stateNoteRefs :: Set.Set Text, -- ^ List of note references used
stateMeta :: Meta, -- ^ Document metadata
stateMeta' :: F Meta, -- ^ Document metadata
stateCitations :: M.Map Text Text, -- ^ RST-style citations
stateHeaderTable :: [HeaderType], -- ^ Ordered list of header types used
stateIdentifiers :: Set.Set Text, -- ^ Header identifiers used
stateNextExample :: Int, -- ^ Number of next example
stateExamples :: M.Map Text Int, -- ^ Map from example labels to numbers
stateMacros :: M.Map Text Macro, -- ^ Table of macros defined so far
stateRstDefaultRole :: Text, -- ^ Current rST default interpreted text role
stateRstHighlight :: Maybe Text, -- ^ Current rST literal block language
stateRstCustomRoles :: M.Map Text (Text, Maybe Text, Attr), -- ^ Current rST custom text roles
-- Triple represents: 1) Base role, 2) Optional format (only for :raw:
-- roles), 3) Additional classes (rest of Attr is unused)).
stateCaption :: Maybe Inlines, -- ^ Caption in current environment
stateInHtmlBlock :: Maybe Text, -- ^ Tag type of HTML block being parsed
stateFencedDivLevel :: Int, -- ^ Depth of fenced div
stateContainers :: [Text], -- ^ parent include files
stateLogMessages :: [LogMessage], -- ^ log messages
stateMarkdownAttribute :: Bool -- ^ True if in markdown=1 context
}
instance Default ParserState where
def = defaultParserState
instance HasMeta ParserState where
setMeta field val st =
st{ stateMeta = setMeta field val $ stateMeta st }
deleteMeta field st =
st{ stateMeta = deleteMeta field $ stateMeta st }
class HasReaderOptions st where
extractReaderOptions :: st -> ReaderOptions
getOption :: (Stream s m t) => (ReaderOptions -> b) -> ParserT s st m b
-- default
getOption f = (f . extractReaderOptions) <$> getState
instance HasReaderOptions ParserState where
extractReaderOptions = stateOptions
class HasQuoteContext st m where
getQuoteContext :: (Stream s m t) => ParsecT s st m QuoteContext
withQuoteContext :: QuoteContext -> ParsecT s st m a -> ParsecT s st m a
instance Monad m => HasQuoteContext ParserState m where
getQuoteContext = stateQuoteContext <$> getState
withQuoteContext context parser = do
oldState <- getState
let oldQuoteContext = stateQuoteContext oldState
setState oldState { stateQuoteContext = context }
result <- parser
newState <- getState
setState newState { stateQuoteContext = oldQuoteContext }
return result
class HasIdentifierList st where
extractIdentifierList :: st -> Set.Set Text
updateIdentifierList :: (Set.Set Text -> Set.Set Text) -> st -> st
instance HasIdentifierList ParserState where
extractIdentifierList = stateIdentifiers
updateIdentifierList f st = st{ stateIdentifiers = f $ stateIdentifiers st }
class HasMacros st where
extractMacros :: st -> M.Map Text Macro
updateMacros :: (M.Map Text Macro -> M.Map Text Macro) -> st -> st
instance HasMacros ParserState where
extractMacros = stateMacros
updateMacros f st = st{ stateMacros = f $ stateMacros st }
class HasLastStrPosition st where
setLastStrPos :: Maybe SourcePos -> st -> st
getLastStrPos :: st -> Maybe SourcePos
instance HasLastStrPosition ParserState where
setLastStrPos pos st = st{ stateLastStrPos = pos }
getLastStrPos st = stateLastStrPos st
class HasLogMessages st where
addLogMessage :: LogMessage -> st -> st
getLogMessages :: st -> [LogMessage]
instance HasLogMessages ParserState where
addLogMessage msg st = st{ stateLogMessages = msg : stateLogMessages st }
getLogMessages st = reverse $ stateLogMessages st
class HasIncludeFiles st where
getIncludeFiles :: st -> [Text]
addIncludeFile :: Text -> st -> st
dropLatestIncludeFile :: st -> st
instance HasIncludeFiles ParserState where
getIncludeFiles = stateContainers
addIncludeFile f s = s{ stateContainers = f : stateContainers s }
dropLatestIncludeFile s = s { stateContainers = drop 1 $ stateContainers s }
defaultParserState :: ParserState
defaultParserState =
ParserState { stateOptions = def,
stateParserContext = NullState,
stateQuoteContext = NoQuote,
stateAllowLinks = True,
stateAllowLineBreaks = True,
stateMaxNestingLevel = 6,
stateLastStrPos = Nothing,
stateKeys = M.empty,
stateHeaderKeys = M.empty,
stateSubstitutions = M.empty,
stateNotes = [],
stateNotes' = M.empty,
stateNoteRefs = Set.empty,
stateMeta = nullMeta,
stateMeta' = return nullMeta,
stateCitations = M.empty,
stateHeaderTable = [],
stateIdentifiers = Set.empty,
stateNextExample = 1,
stateExamples = M.empty,
stateMacros = M.empty,
stateRstDefaultRole = "title-reference",
stateRstHighlight = Nothing,
stateRstCustomRoles = M.empty,
stateCaption = Nothing,
stateInHtmlBlock = Nothing,
stateFencedDivLevel = 0,
stateContainers = [],
stateLogMessages = [],
stateMarkdownAttribute = False
}
-- | Add a log message.
logMessage :: (Stream s m a, HasLogMessages st)
=> LogMessage -> ParserT s st m ()
logMessage msg = updateState (addLogMessage msg)
-- | Report all the accumulated log messages, according to verbosity level.
reportLogMessages :: (PandocMonad m, HasLogMessages st) => ParserT s st m ()
reportLogMessages = do
msgs <- getLogMessages <$> getState
mapM_ report msgs
-- | Succeed only if the extension is enabled.
guardEnabled :: (Stream s m a, HasReaderOptions st) => Extension -> ParserT s st m ()
guardEnabled ext = getOption readerExtensions >>= guard . extensionEnabled ext
-- | Succeed only if the extension is disabled.
guardDisabled :: (Stream s m a, HasReaderOptions st) => Extension -> ParserT s st m ()
guardDisabled ext = getOption readerExtensions >>= guard . not . extensionEnabled ext
-- | Update the position on which the last string ended.
updateLastStrPos :: (Stream s m a, HasLastStrPosition st) => ParserT s st m ()
updateLastStrPos = getPosition >>= updateState . setLastStrPos . Just
-- | Whether we are right after the end of a string.
notAfterString :: (Stream s m a, HasLastStrPosition st) => ParserT s st m Bool
notAfterString = do
pos <- getPosition
st <- getState
return $ getLastStrPos st /= Just pos
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 = [(Text, Text)]
type NoteTable' = M.Map Text (SourcePos, F Blocks)
-- used in markdown reader
newtype Key = Key Text deriving (Show, Read, Eq, Ord)
toKey :: Text -> Key
toKey = Key . T.toLower . T.unwords . T.words . unbracket
where unbracket t
| Just ('[', t') <- T.uncons t
, Just (t'', ']') <- T.unsnoc t'
= t''
| otherwise
= t
type KeyTable = M.Map Key (Target, Attr)
type SubstTable = M.Map Key Inlines
-- | Add header to the list of headers in state, together
-- with its associated identifier. If the identifier is null
-- and the auto_identifiers extension is set, generate a new
-- unique identifier, and update the list of identifiers
-- in state. Issue a warning if an explicit identifier
-- is encountered that duplicates an earlier identifier
-- (explicit or automatically generated).
registerHeader :: (Stream s m a, HasReaderOptions st,
HasLogMessages st, HasIdentifierList st)
=> Attr -> Inlines -> ParserT s st m Attr
registerHeader (ident,classes,kvs) header' = do
ids <- extractIdentifierList <$> getState
exts <- getOption readerExtensions
if T.null ident && Ext_auto_identifiers `extensionEnabled` exts
then do
let id' = uniqueIdent exts (B.toList header') ids
let id'' = if Ext_ascii_identifiers `extensionEnabled` exts
then T.pack $ mapMaybe toAsciiChar $ T.unpack id'
else id'
updateState $ updateIdentifierList $ Set.insert id'
updateState $ updateIdentifierList $ Set.insert id''
return (id'',classes,kvs)
else do
unless (T.null ident) $ do
when (ident `Set.member` ids) $ do
pos <- getPosition
logMessage $ DuplicateIdentifier ident pos
updateState $ updateIdentifierList $ Set.insert ident
return (ident,classes,kvs)
smartPunctuation :: (HasReaderOptions st, HasLastStrPosition st, HasQuoteContext st m, Stream s m Char)
=> ParserT s st m Inlines
-> ParserT s st m Inlines
smartPunctuation inlineParser = do
guardEnabled Ext_smart
choice [ quoted inlineParser, apostrophe, dash, ellipses ]
apostrophe :: Stream s m Char => ParserT s st m Inlines
apostrophe = (char '\'' <|> char '\8217') >> return (B.str "\x2019")
quoted :: (HasLastStrPosition st, HasQuoteContext st m, Stream s m Char)
=> ParserT s st m Inlines
-> ParserT s st m Inlines
quoted inlineParser = doubleQuoted inlineParser <|> singleQuoted inlineParser
singleQuoted :: (HasLastStrPosition st, HasQuoteContext st m, Stream s m Char)
=> ParserT s st m Inlines
-> ParserT s st m Inlines
singleQuoted inlineParser = try $ B.singleQuoted . mconcat
<$ singleQuoteStart
<*> withQuoteContext InSingleQuote (many1Till inlineParser singleQuoteEnd)
doubleQuoted :: (HasQuoteContext st m, Stream s m Char)
=> ParserT s st m Inlines
-> ParserT s st m Inlines
doubleQuoted inlineParser = try $ B.doubleQuoted . mconcat
<$ doubleQuoteStart
<*> withQuoteContext InDoubleQuote (manyTill inlineParser doubleQuoteEnd)
failIfInQuoteContext :: (HasQuoteContext st m, Stream s m t)
=> QuoteContext
-> ParserT s st m ()
failIfInQuoteContext context = do
context' <- getQuoteContext
when (context' == context) $ Prelude.fail "already inside quotes"
charOrRef :: Stream s m Char => [Char] -> ParserT s st m Char
charOrRef cs =
oneOf cs <|> try (do c <- characterReference
guard (c `elem` cs)
return c)
singleQuoteStart :: (HasLastStrPosition st, HasQuoteContext st m, Stream s m Char)
=> ParserT s st m ()
singleQuoteStart = do
failIfInQuoteContext InSingleQuote
-- single quote start can't be right after str
guard =<< notAfterString
try $ do
charOrRef "'\8216\145"
notFollowedBy (oneOf [' ', '\t', '\n'])
singleQuoteEnd :: Stream s m Char
=> ParserT s st m ()
singleQuoteEnd = try $ do
charOrRef "'\8217\146"
notFollowedBy alphaNum
doubleQuoteStart :: (HasQuoteContext st m, Stream s m Char)
=> ParserT s st m ()
doubleQuoteStart = do
failIfInQuoteContext InDoubleQuote
try $ do charOrRef "\"\8220\147"
notFollowedBy (oneOf [' ', '\t', '\n'])
doubleQuoteEnd :: Stream s m Char
=> ParserT s st m ()
doubleQuoteEnd = void (charOrRef "\"\8221\148")
ellipses :: Stream s m Char
=> ParserT s st m Inlines
ellipses = try (string "..." >> return (B.str "\8230"))
dash :: (HasReaderOptions st, Stream s m Char)
=> ParserT s st m Inlines
dash = try $ do
oldDashes <- extensionEnabled Ext_old_dashes <$> getOption readerExtensions
if oldDashes
then do
char '-'
(char '-' >> return (B.str "\8212"))
<|> (lookAhead digit >> return (B.str "\8211"))
else do
string "--"
(char '-' >> return (B.str "\8212"))
<|> return (B.str "\8211")
-- This is used to prevent exponential blowups for things like:
-- a**a*a**a*a**a*a**a*a**a*a**a*a**
nested :: Stream s m a
=> ParserT s ParserState m a
-> ParserT s ParserState m a
nested p = do
nestlevel <- stateMaxNestingLevel <$> getState
guard $ nestlevel > 0
updateState $ \st -> st{ stateMaxNestingLevel = stateMaxNestingLevel st - 1 }
res <- p
updateState $ \st -> st{ stateMaxNestingLevel = nestlevel }
return res
citeKey :: (Stream s m Char, HasLastStrPosition st)
=> ParserT s st m (Bool, Text)
citeKey = try $ do
guard =<< notAfterString
suppress_author <- option False (True <$ char '-')
char '@'
firstChar <- alphaNum <|> char '_' <|> char '*' -- @* for wildcard in nocite
let regchar = satisfy (\c -> isAlphaNum c || c == '_')
let internal p = try $ p <* lookAhead regchar
rest <- many $ regchar <|> internal (oneOf ":.#$%&-+?<>~/") <|>
try (oneOf ":/" <* lookAhead (char '/'))
let key = firstChar:rest
return (suppress_author, T.pack key)
token :: (Stream s m t)
=> (t -> Text)
-> (t -> SourcePos)
-> (t -> Maybe a)
-> ParsecT s st m a
token pp pos match = tokenPrim (T.unpack . pp) (\_ t _ -> pos t) match
infixr 5 <+?>
(<+?>) :: (Monoid a) => ParserT s st m a -> ParserT s st m a -> ParserT s st m a
a <+?> b = a >>= flip fmap (try b <|> return mempty) . mappend
extractIdClass :: Attr -> Attr
extractIdClass (ident, cls, kvs) = (ident', cls', kvs')
where
ident' = fromMaybe ident (lookup "id" kvs)
cls' = case lookup "class" kvs of
Just cl -> T.words cl
Nothing -> cls
kvs' = filter (\(k,_) -> k /= "id" || k /= "class") kvs
insertIncludedFile' :: (PandocMonad m, HasIncludeFiles st)
=> ParserT a st m (mf Blocks)
-> (Text -> a)
-> [FilePath] -> FilePath
-> ParserT a st m (mf Blocks)
insertIncludedFile' blocks totoks dirs f = do
oldPos <- getPosition
oldInput <- getInput
containers <- getIncludeFiles <$> getState
when (T.pack f `elem` containers) $
throwError $ PandocParseError $ T.pack $ "Include file loop at " ++ show oldPos
updateState $ addIncludeFile $ T.pack f
mbcontents <- readFileFromDirs dirs f
contents <- case mbcontents of
Just s -> return s
Nothing -> do
report $ CouldNotLoadIncludeFile (T.pack f) oldPos
return ""
setPosition $ newPos f 1 1
setInput $ totoks contents
bs <- blocks
setInput oldInput
setPosition oldPos
updateState dropLatestIncludeFile
return bs
-- | Parse content of include file as blocks. Circular includes result in an
-- @PandocParseError@.
insertIncludedFile :: (PandocMonad m, HasIncludeFiles st)
=> ParserT [a] st m Blocks
-> (Text -> [a])
-> [FilePath] -> FilePath
-> ParserT [a] st m Blocks
insertIncludedFile blocks totoks dirs f =
runIdentity <$> insertIncludedFile' (Identity <$> blocks) totoks dirs f
-- | Parse content of include file as future blocks. Circular includes result in
-- an @PandocParseError@.
insertIncludedFileF :: (PandocMonad m, HasIncludeFiles st)
=> ParserT Text st m (Future st Blocks)
-> [FilePath] -> FilePath
-> ParserT Text st m (Future st Blocks)
insertIncludedFileF p = insertIncludedFile' p id
|