{-# LANGUAGE CPP #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE UndecidableInstances #-}
#if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 702
{-# LANGUAGE Trustworthy #-}
#endif
{-# OPTIONS_GHC -fspec-constr -fspec-constr-count=8 #-}
module Text.Parser.Token
(
whiteSpace
, charLiteral
, stringLiteral
, stringLiteral'
, natural
, integer
, double
, naturalOrDouble
, integerOrDouble
, scientific
, naturalOrScientific
, integerOrScientific
, symbol
, textSymbol
, symbolic
, parens
, braces
, angles
, brackets
, comma
, colon
, dot
, semiSep
, semiSep1
, commaSep
, commaSep1
, TokenParsing(..)
, Unspaced(..)
, Unlined(..)
, Unhighlighted(..)
, decimal
, hexadecimal
, octal
, characterChar
, integer'
, IdentifierStyle(..)
, liftIdentifierStyle
, ident
, reserve
, reserveText
, styleName
, styleStart
, styleLetter
, styleChars
, styleReserved
, styleHighlight
, styleReservedHighlight
, styleHighlights
) where
import Control.Applicative
import Control.Monad (MonadPlus(..), when)
import Control.Monad.Trans.Class
import Control.Monad.Trans.State.Lazy as Lazy
import Control.Monad.Trans.State.Strict as Strict
import Control.Monad.Trans.Writer.Lazy as Lazy
import Control.Monad.Trans.Writer.Strict as Strict
import Control.Monad.Trans.RWS.Lazy as Lazy
import Control.Monad.Trans.RWS.Strict as Strict
import Control.Monad.Trans.Reader
import Control.Monad.Trans.Identity
import Control.Monad.State.Class as Class
import Control.Monad.Reader.Class as Class
import Control.Monad.Writer.Class as Class
import Data.Char
import Data.Functor.Identity
import qualified Data.HashSet as HashSet
import Data.HashSet (HashSet)
import Data.List (foldl', transpose)
#if __GLASGOW_HASKELL__ < 710
import Data.Monoid
#endif
import Data.Scientific ( Scientific )
import qualified Data.Scientific as Sci
import Data.String
import Data.Text hiding (empty,zip,foldl',take,map,length,splitAt,null,transpose)
import Numeric (showIntAtBase)
import qualified Text.ParserCombinators.ReadP as ReadP
import qualified Text.Parsec as Parsec
import qualified Data.Attoparsec.Types as Att
import Text.Parser.Char
import Text.Parser.Combinators
import Text.Parser.Token.Highlight
whiteSpace :: TokenParsing m => m ()
whiteSpace = someSpace <|> pure ()
{-# INLINE whiteSpace #-}
charLiteral :: forall m. TokenParsing m => m Char
charLiteral = token (highlight CharLiteral lit) where
lit :: m Char
lit = between (char '\'') (char '\'' <?> "end of character") characterChar
<?> "character"
{-# INLINE charLiteral #-}
stringLiteral :: forall m s. (TokenParsing m, IsString s) => m s
stringLiteral = fromString <$> token (highlight StringLiteral lit) where
lit :: m [Char]
lit = Prelude.foldr (maybe id (:)) ""
<$> between (char '"') (char '"' <?> "end of string") (many stringChar)
<?> "string"
stringChar :: m (Maybe Char)
stringChar = Just <$> stringLetter
<|> stringEscape
<?> "string character"
stringLetter :: m Char
stringLetter = satisfy (\c -> (c /= '"') && (c /= '\\') && (c > '\026'))
stringEscape :: m (Maybe Char)
stringEscape = highlight EscapeCode $ char '\\' *> esc where
esc :: m (Maybe Char)
esc = Nothing <$ escapeGap
<|> Nothing <$ escapeEmpty
<|> Just <$> escapeCode
escapeEmpty, escapeGap :: m Char
escapeEmpty = char '&'
escapeGap = skipSome space *> (char '\\' <?> "end of string gap")
{-# INLINE stringLiteral #-}
stringLiteral' :: forall m s. (TokenParsing m, IsString s) => m s
stringLiteral' = fromString <$> token (highlight StringLiteral lit) where
lit :: m [Char]
lit = Prelude.foldr (maybe id (:)) ""
<$> between (char '\'') (char '\'' <?> "end of string") (many stringChar)
<?> "string"
stringChar :: m (Maybe Char)
stringChar = Just <$> stringLetter
<|> stringEscape
<?> "string character"
stringLetter :: m Char
stringLetter = satisfy (\c -> (c /= '\'') && (c /= '\\') && (c > '\026'))
stringEscape :: m (Maybe Char)
stringEscape = highlight EscapeCode $ char '\\' *> esc where
esc :: m (Maybe Char)
esc = Nothing <$ escapeGap
<|> Nothing <$ escapeEmpty
<|> Just <$> escapeCode
escapeEmpty, escapeGap :: m Char
escapeEmpty = char '&'
escapeGap = skipSome space *> (char '\\' <?> "end of string gap")
{-# INLINE stringLiteral' #-}
natural :: TokenParsing m => m Integer
natural = token natural'
{-# INLINE natural #-}
integer :: forall m. TokenParsing m => m Integer
integer = token (token (highlight Operator sgn <*> natural')) <?> "integer"
where
sgn :: m (Integer -> Integer)
sgn = negate <$ char '-'
<|> id <$ char '+'
<|> pure id
{-# INLINE integer #-}
double :: TokenParsing m => m Double
double = token (highlight Number (Sci.toRealFloat <$> floating) <?> "double")
{-# INLINE double #-}
naturalOrDouble :: TokenParsing m => m (Either Integer Double)
naturalOrDouble = fmap Sci.toRealFloat <$> naturalOrScientific
{-# INLINE naturalOrDouble #-}
integerOrDouble :: TokenParsing m => m (Either Integer Double)
integerOrDouble = fmap Sci.toRealFloat <$> integerOrScientific
{-# INLINE integerOrDouble #-}
scientific :: TokenParsing m => m Scientific
scientific = token (highlight Number floating <?> "scientific")
{-# INLINE scientific #-}
naturalOrScientific :: TokenParsing m => m (Either Integer Scientific)
naturalOrScientific = token (highlight Number natFloating <?> "number")
{-# INLINE naturalOrScientific #-}
integerOrScientific :: forall m. TokenParsing m => m (Either Integer Scientific)
integerOrScientific = token (highlight Number ios <?> "number")
where ios :: m (Either Integer Scientific)
ios = mneg <$> optional (oneOf "+-") <*> natFloating
mneg (Just '-') nd = either (Left . negate) (Right . negate) nd
mneg _ nd = nd
{-# INLINE integerOrScientific #-}
symbol :: TokenParsing m => String -> m String
symbol name = token (highlight Symbol (string name))
{-# INLINE symbol #-}
textSymbol :: TokenParsing m => Text -> m Text
textSymbol name = token (highlight Symbol (text name))
{-# INLINE textSymbol #-}
symbolic :: TokenParsing m => Char -> m Char
symbolic name = token (highlight Symbol (char name))
{-# INLINE symbolic #-}
parens :: TokenParsing m => m a -> m a
parens = nesting . between (symbolic '(') (symbolic ')')
{-# INLINE parens #-}
braces :: TokenParsing m => m a -> m a
braces = nesting . between (symbolic '{') (symbolic '}')
{-# INLINE braces #-}
angles :: TokenParsing m => m a -> m a
angles = nesting . between (symbolic '<') (symbolic '>')
{-# INLINE angles #-}
brackets :: TokenParsing m => m a -> m a
brackets = nesting . between (symbolic '[') (symbolic ']')
{-# INLINE brackets #-}
comma :: TokenParsing m => m Char
comma = symbolic ','
{-# INLINE comma #-}
colon :: TokenParsing m => m Char
colon = symbolic ':'
{-# INLINE colon #-}
dot :: TokenParsing m => m Char
dot = symbolic '.'
{-# INLINE dot #-}
semiSep :: TokenParsing m => m a -> m [a]
semiSep p = sepBy p semi
{-# INLINE semiSep #-}
semiSep1 :: TokenParsing m => m a -> m [a]
semiSep1 p = sepBy1 p semi
{-# INLINE semiSep1 #-}
commaSep :: TokenParsing m => m a -> m [a]
commaSep p = sepBy p comma
{-# INLINE commaSep #-}
commaSep1 :: TokenParsing m => m a -> m [a]
commaSep1 p = sepBy1 p comma
{-# INLINE commaSep1 #-}
class CharParsing m => TokenParsing m where
someSpace :: m ()
someSpace = skipSome (satisfy isSpace)
{-# INLINE someSpace #-}
nesting :: m a -> m a
nesting = id
{-# INLINE nesting #-}
semi :: m Char
semi = token (satisfy (';'==) <?> ";")
{-# INLINE semi #-}
highlight :: Highlight -> m a -> m a
highlight _ a = a
{-# INLINE highlight #-}
token :: m a -> m a
token p = p <* (someSpace <|> pure ())
instance (TokenParsing m, MonadPlus m) => TokenParsing (Lazy.StateT s m) where
nesting (Lazy.StateT m) = Lazy.StateT $ nesting . m
{-# INLINE nesting #-}
someSpace = lift someSpace
{-# INLINE someSpace #-}
semi = lift semi
{-# INLINE semi #-}
highlight h (Lazy.StateT m) = Lazy.StateT $ highlight h . m
{-# INLINE highlight #-}
instance (TokenParsing m, MonadPlus m) => TokenParsing (Strict.StateT s m) where
nesting (Strict.StateT m) = Strict.StateT $ nesting . m
{-# INLINE nesting #-}
someSpace = lift someSpace
{-# INLINE someSpace #-}
semi = lift semi
{-# INLINE semi #-}
highlight h (Strict.StateT m) = Strict.StateT $ highlight h . m
{-# INLINE highlight #-}
instance (TokenParsing m, MonadPlus m) => TokenParsing (ReaderT e m) where
nesting (ReaderT m) = ReaderT $ nesting . m
{-# INLINE nesting #-}
someSpace = lift someSpace
{-# INLINE someSpace #-}
semi = lift semi
{-# INLINE semi #-}
highlight h (ReaderT m) = ReaderT $ highlight h . m
{-# INLINE highlight #-}
instance (TokenParsing m, MonadPlus m, Monoid w) => TokenParsing (Strict.WriterT w m) where
nesting (Strict.WriterT m) = Strict.WriterT $ nesting m
{-# INLINE nesting #-}
someSpace = lift someSpace
{-# INLINE someSpace #-}
semi = lift semi
{-# INLINE semi #-}
highlight h (Strict.WriterT m) = Strict.WriterT $ highlight h m
{-# INLINE highlight #-}
instance (TokenParsing m, MonadPlus m, Monoid w) => TokenParsing (Lazy.WriterT w m) where
nesting (Lazy.WriterT m) = Lazy.WriterT $ nesting m
{-# INLINE nesting #-}
someSpace = lift someSpace
{-# INLINE someSpace #-}
semi = lift semi
{-# INLINE semi #-}
highlight h (Lazy.WriterT m) = Lazy.WriterT $ highlight h m
{-# INLINE highlight #-}
instance (TokenParsing m, MonadPlus m, Monoid w) => TokenParsing (Lazy.RWST r w s m) where
nesting (Lazy.RWST m) = Lazy.RWST $ \r s -> nesting (m r s)
{-# INLINE nesting #-}
someSpace = lift someSpace
{-# INLINE someSpace #-}
semi = lift semi
{-# INLINE semi #-}
highlight h (Lazy.RWST m) = Lazy.RWST $ \r s -> highlight h (m r s)
{-# INLINE highlight #-}
instance (TokenParsing m, MonadPlus m, Monoid w) => TokenParsing (Strict.RWST r w s m) where
nesting (Strict.RWST m) = Strict.RWST $ \r s -> nesting (m r s)
{-# INLINE nesting #-}
someSpace = lift someSpace
{-# INLINE someSpace #-}
semi = lift semi
{-# INLINE semi #-}
highlight h (Strict.RWST m) = Strict.RWST $ \r s -> highlight h (m r s)
{-# INLINE highlight #-}
instance (TokenParsing m, MonadPlus m) => TokenParsing (IdentityT m) where
nesting = IdentityT . nesting . runIdentityT
{-# INLINE nesting #-}
someSpace = lift someSpace
{-# INLINE someSpace #-}
semi = lift semi
{-# INLINE semi #-}
highlight h = IdentityT . highlight h . runIdentityT
{-# INLINE highlight #-}
data IdentifierStyle m = IdentifierStyle
{ _styleName :: String
, _styleStart :: m Char
, _styleLetter :: m Char
, _styleReserved :: HashSet String
, _styleHighlight :: Highlight
, _styleReservedHighlight :: Highlight
}
styleName :: Functor f => (String -> f String) -> IdentifierStyle m -> f (IdentifierStyle m)
styleName f is = (\n -> is { _styleName = n }) <$> f (_styleName is)
{-# INLINE styleName #-}
styleStart :: Functor f => (m Char -> f (m Char)) -> IdentifierStyle m -> f (IdentifierStyle m)
styleStart f is = (\n -> is { _styleStart = n }) <$> f (_styleStart is)
{-# INLINE styleStart #-}
styleLetter :: Functor f => (m Char -> f (m Char)) -> IdentifierStyle m -> f (IdentifierStyle m)
styleLetter f is = (\n -> is { _styleLetter = n }) <$> f (_styleLetter is)
{-# INLINE styleLetter #-}
styleChars :: Applicative f => (m Char -> f (n Char)) -> IdentifierStyle m -> f (IdentifierStyle n)
styleChars f is = (\n m -> is { _styleStart = n, _styleLetter = m }) <$> f (_styleStart is) <*> f (_styleLetter is)
{-# INLINE styleChars #-}
styleReserved :: Functor f => (HashSet String -> f (HashSet String)) -> IdentifierStyle m -> f (IdentifierStyle m)
styleReserved f is = (\n -> is { _styleReserved = n }) <$> f (_styleReserved is)
{-# INLINE styleReserved #-}
styleHighlight :: Functor f => (Highlight -> f Highlight) -> IdentifierStyle m -> f (IdentifierStyle m)
styleHighlight f is = (\n -> is { _styleHighlight = n }) <$> f (_styleHighlight is)
{-# INLINE styleHighlight #-}
styleReservedHighlight :: Functor f => (Highlight -> f Highlight) -> IdentifierStyle m -> f (IdentifierStyle m)
styleReservedHighlight f is = (\n -> is { _styleReservedHighlight = n }) <$> f (_styleReservedHighlight is)
{-# INLINE styleReservedHighlight #-}
styleHighlights :: Applicative f => (Highlight -> f Highlight) -> IdentifierStyle m -> f (IdentifierStyle m)
styleHighlights f is = (\n m -> is { _styleHighlight = n, _styleReservedHighlight = m }) <$> f (_styleHighlight is) <*> f (_styleReservedHighlight is)
{-# INLINE styleHighlights #-}
liftIdentifierStyle :: (MonadTrans t, Monad m) => IdentifierStyle m -> IdentifierStyle (t m)
liftIdentifierStyle = runIdentity . styleChars (Identity . lift)
{-# INLINE liftIdentifierStyle #-}
reserve :: (TokenParsing m, Monad m) => IdentifierStyle m -> String -> m ()
reserve s name = token $ try $ do
_ <- highlight (_styleReservedHighlight s) $ string name
notFollowedBy (_styleLetter s) <?> "end of " ++ show name
{-# INLINE reserve #-}
reserveText :: (TokenParsing m, Monad m) => IdentifierStyle m -> Text -> m ()
reserveText s name = token $ try $ do
_ <- highlight (_styleReservedHighlight s) $ text name
notFollowedBy (_styleLetter s) <?> "end of " ++ show name
{-# INLINE reserveText #-}
ident :: (TokenParsing m, Monad m, IsString s) => IdentifierStyle m -> m s
ident s = fmap fromString $ token $ try $ do
name <- highlight (_styleHighlight s)
((:) <$> _styleStart s <*> many (_styleLetter s) <?> _styleName s)
when (HashSet.member name (_styleReserved s)) $ unexpected $ "reserved " ++ _styleName s ++ " " ++ show name
return name
{-# INLINE ident #-}
characterChar :: TokenParsing m => m Char
charEscape, charLetter :: TokenParsing m => m Char
characterChar = charLetter <|> charEscape <?> "literal character"
{-# INLINE characterChar #-}
charEscape = highlight EscapeCode $ char '\\' *> escapeCode
{-# INLINE charEscape #-}
charLetter = satisfy (\c -> (c /= '\'') && (c /= '\\') && (c > '\026'))
{-# INLINE charLetter #-}
escapeCode :: forall m. TokenParsing m => m Char
escapeCode = (charEsc <|> charNum <|> charAscii <|> charControl) <?> "escape code"
where
charControl, charNum :: m Char
charControl = (\c -> toEnum (fromEnum c - fromEnum '@')) <$> (char '^' *> (upper <|> char '@'))
charNum = toEnum <$> num
where
num :: m Int
num = bounded 10 maxchar
<|> (char 'o' *> bounded 8 maxchar)
<|> (char 'x' *> bounded 16 maxchar)
maxchar = fromEnum (maxBound :: Char)
bounded :: Int -> Int -> m Int
bounded base bnd = foldl' (\x d -> base * x + digitToInt d) 0
<$> bounded' (take base thedigits) (map digitToInt $ showIntAtBase base intToDigit bnd "")
where
thedigits :: [m Char]
thedigits = map char ['0'..'9'] ++ map oneOf (transpose [['A'..'F'],['a'..'f']])
toomuch :: m a
toomuch = unexpected "out-of-range numeric escape sequence"
bounded', bounded'' :: [m Char] -> [Int] -> m [Char]
bounded' dps@(zero:_) bds = skipSome zero *> ([] <$ notFollowedBy (choice dps) <|> bounded'' dps bds)
<|> bounded'' dps bds
bounded' [] _ = error "bounded called with base 0"
bounded'' dps [] = [] <$ notFollowedBy (choice dps) <|> toomuch
bounded'' dps (bd : bds) = let anyd :: m Char
anyd = choice dps
nomore :: m ()
nomore = notFollowedBy anyd <|> toomuch
(low, ex : high) = splitAt bd dps
in ((:) <$> choice low <*> atMost (length bds) anyd) <* nomore
<|> ((:) <$> ex <*> ([] <$ nomore <|> bounded'' dps bds))
<|> if not (null bds)
then (:) <$> choice high <*> atMost (length bds - 1) anyd <* nomore
else empty
atMost n p | n <= 0 = pure []
| otherwise = ((:) <$> p <*> atMost (n - 1) p) <|> pure []
charEsc :: m Char
charEsc = choice $ parseEsc <$> escMap
parseEsc (c,code) = code <$ char c
escMap = zip "abfnrtv\\\"\'" "\a\b\f\n\r\t\v\\\"\'"
charAscii :: m Char
charAscii = choice $ parseAscii <$> asciiMap
parseAscii (asc,code) = try $ code <$ string asc
asciiMap = zip (ascii3codes ++ ascii2codes) (ascii3 ++ ascii2)
ascii2codes, ascii3codes :: [String]
ascii2codes = [ "BS","HT","LF","VT","FF","CR","SO"
, "SI","EM","FS","GS","RS","US","SP"]
ascii3codes = ["NUL","SOH","STX","ETX","EOT","ENQ","ACK"
,"BEL","DLE","DC1","DC2","DC3","DC4","NAK"
,"SYN","ETB","CAN","SUB","ESC","DEL"]
ascii2, ascii3 :: String
ascii2 = "\BS\HT\LF\VT\FF\CR\SO\SI\EM\FS\GS\RS\US\SP"
ascii3 = "\NUL\SOH\STX\ETX\EOT\ENQ\ACK\BEL\DLE\DC1\DC2\DC3\DC4\NAK\SYN\ETB\CAN\SUB\ESC\DEL"
natural' :: TokenParsing m => m Integer
natural' = highlight Number nat <?> "natural"
number :: TokenParsing m => Integer -> m Char -> m Integer
number base baseDigit =
foldl' (\x d -> base*x + toInteger (digitToInt d)) 0 <$> some baseDigit
integer' :: TokenParsing m => m Integer
integer' = int <?> "integer"
{-# INLINE integer' #-}
sign :: TokenParsing m => m (Integer -> Integer)
sign = highlight Operator
$ negate <$ char '-'
<|> id <$ char '+'
<|> pure id
int :: TokenParsing m => m Integer
int = sign <*> highlight Number nat
nat, zeroNumber :: TokenParsing m => m Integer
nat = zeroNumber <|> decimal
zeroNumber = char '0' *> (hexadecimal <|> octal <|> decimal <|> pure 0) <?> ""
floating :: TokenParsing m => m Scientific
floating = decimal <**> fractExponent
{-# INLINE floating #-}
fractExponent :: forall m. TokenParsing m => m (Integer -> Scientific)
fractExponent = (\fract expo n -> (fromInteger n + fract) * expo) <$> fraction <*> option 1 exponent'
<|> (\expo n -> fromInteger n * expo) <$> exponent'
where
fraction :: m Scientific
fraction = foldl' op 0 <$> (char '.' *> (some digit <?> "fraction"))
op f d = f + Sci.scientific (fromIntegral (digitToInt d)) (Sci.base10Exponent f - 1)
exponent' :: m Scientific
exponent' = ((\f e -> power (f e)) <$ oneOf "eE" <*> sign <*> (decimal <?> "exponent")) <?> "exponent"
power = Sci.scientific 1 . fromInteger
natFloating, zeroNumFloat, decimalFloat :: TokenParsing m => m (Either Integer Scientific)
natFloating
= char '0' *> zeroNumFloat
<|> decimalFloat
zeroNumFloat
= Left <$> (hexadecimal <|> octal)
<|> decimalFloat
<|> pure 0 <**> try fractFloat
<|> pure (Left 0)
decimalFloat = decimal <**> option Left (try fractFloat)
fractFloat :: TokenParsing m => m (Integer -> Either Integer Scientific)
fractFloat = (Right .) <$> fractExponent
{-# INLINE fractFloat #-}
decimal :: TokenParsing m => m Integer
decimal = number 10 digit
{-# INLINE decimal #-}
hexadecimal :: TokenParsing m => m Integer
hexadecimal = oneOf "xX" *> number 16 hexDigit
{-# INLINE hexadecimal #-}
octal :: TokenParsing m => m Integer
octal = oneOf "oO" *> number 8 octDigit
{-# INLINE octal #-}
newtype Unhighlighted m a = Unhighlighted { runUnhighlighted :: m a }
deriving (Functor,Applicative,Alternative,Monad,MonadPlus,CharParsing)
instance Parsing m => Parsing (Unhighlighted m) where
try (Unhighlighted m) = Unhighlighted $ try m
{-# INLINE try #-}
Unhighlighted m <?> l = Unhighlighted $ m <?> l
{-# INLINE (<?>) #-}
unexpected = Unhighlighted . unexpected
{-# INLINE unexpected #-}
eof = Unhighlighted eof
{-# INLINE eof #-}
notFollowedBy (Unhighlighted m) = Unhighlighted $ notFollowedBy m
{-# INLINE notFollowedBy #-}
instance MonadTrans Unhighlighted where
lift = Unhighlighted
{-# INLINE lift #-}
instance MonadState s m => MonadState s (Unhighlighted m) where
get = lift Class.get
{-# INLINE get #-}
put = lift . Class.put
{-# INLINE put #-}
instance MonadReader e m => MonadReader e (Unhighlighted m) where
ask = lift Class.ask
{-# INLINE ask #-}
local f = Unhighlighted . Class.local f . runUnhighlighted
{-# INLINE local #-}
instance MonadWriter e m => MonadWriter e (Unhighlighted m) where
tell = lift . Class.tell
{-# INLINE tell #-}
listen = Unhighlighted . Class.listen . runUnhighlighted
{-# INLINE listen #-}
pass = Unhighlighted . Class.pass . runUnhighlighted
{-# INLINE pass #-}
instance TokenParsing m => TokenParsing (Unhighlighted m) where
nesting (Unhighlighted m) = Unhighlighted (nesting m)
{-# INLINE nesting #-}
someSpace = Unhighlighted someSpace
{-# INLINE someSpace #-}
semi = Unhighlighted semi
{-# INLINE semi #-}
highlight _ m = m
{-# INLINE highlight #-}
newtype Unspaced m a = Unspaced { runUnspaced :: m a }
deriving (Functor,Applicative,Alternative,Monad,MonadPlus,CharParsing)
instance Parsing m => Parsing (Unspaced m) where
try (Unspaced m) = Unspaced $ try m
{-# INLINE try #-}
Unspaced m <?> l = Unspaced $ m <?> l
{-# INLINE (<?>) #-}
unexpected = Unspaced . unexpected
{-# INLINE unexpected #-}
eof = Unspaced eof
{-# INLINE eof #-}
notFollowedBy (Unspaced m) = Unspaced $ notFollowedBy m
{-# INLINE notFollowedBy #-}
instance MonadTrans Unspaced where
lift = Unspaced
{-# INLINE lift #-}
instance MonadState s m => MonadState s (Unspaced m) where
get = lift Class.get
{-# INLINE get #-}
put = lift . Class.put
{-# INLINE put #-}
instance MonadReader e m => MonadReader e (Unspaced m) where
ask = lift Class.ask
{-# INLINE ask #-}
local f = Unspaced . Class.local f . runUnspaced
{-# INLINE local #-}
instance MonadWriter e m => MonadWriter e (Unspaced m) where
tell = lift . Class.tell
{-# INLINE tell #-}
listen = Unspaced . Class.listen . runUnspaced
{-# INLINE listen #-}
pass = Unspaced . Class.pass . runUnspaced
{-# INLINE pass #-}
instance TokenParsing m => TokenParsing (Unspaced m) where
nesting (Unspaced m) = Unspaced (nesting m)
{-# INLINE nesting #-}
someSpace = empty
{-# INLINE someSpace #-}
semi = Unspaced semi
{-# INLINE semi #-}
highlight h (Unspaced m) = Unspaced (highlight h m)
{-# INLINE highlight #-}
newtype Unlined m a = Unlined { runUnlined :: m a }
deriving (Functor,Applicative,Alternative,Monad,MonadPlus,CharParsing)
instance Parsing m => Parsing (Unlined m) where
try (Unlined m) = Unlined $ try m
{-# INLINE try #-}
Unlined m <?> l = Unlined $ m <?> l
{-# INLINE (<?>) #-}
unexpected = Unlined . unexpected
{-# INLINE unexpected #-}
eof = Unlined eof
{-# INLINE eof #-}
notFollowedBy (Unlined m) = Unlined $ notFollowedBy m
{-# INLINE notFollowedBy #-}
instance MonadTrans Unlined where
lift = Unlined
{-# INLINE lift #-}
instance MonadState s m => MonadState s (Unlined m) where
get = lift Class.get
{-# INLINE get #-}
put = lift . Class.put
{-# INLINE put #-}
instance MonadReader e m => MonadReader e (Unlined m) where
ask = lift Class.ask
{-# INLINE ask #-}
local f = Unlined . Class.local f . runUnlined
{-# INLINE local #-}
instance MonadWriter e m => MonadWriter e (Unlined m) where
tell = lift . Class.tell
{-# INLINE tell #-}
listen = Unlined . Class.listen . runUnlined
{-# INLINE listen #-}
pass = Unlined . Class.pass . runUnlined
{-# INLINE pass #-}
instance TokenParsing m => TokenParsing (Unlined m) where
nesting (Unlined m) = Unlined (nesting m)
{-# INLINE nesting #-}
someSpace = skipMany (satisfy $ \c -> c /= '\n' && isSpace c)
{-# INLINE someSpace #-}
semi = Unlined semi
{-# INLINE semi #-}
highlight h (Unlined m) = Unlined (highlight h m)
{-# INLINE highlight #-}
instance Parsec.Stream s m Char => TokenParsing (Parsec.ParsecT s u m)
instance Att.Chunk t => TokenParsing (Att.Parser t)
instance TokenParsing ReadP.ReadP