{-# LANGUAGE BangPatterns, CPP, FlexibleInstances, GADTs, OverloadedStrings, Rank2Types, RecordWildCards, TypeFamilies, TypeSynonymInstances #-} {-# OPTIONS_GHC -fno-warn-orphans #-} -- | -- Module : Data.Attoparsec.Text.Internal -- Copyright : Bryan O'Sullivan 2011 -- License : BSD3 -- -- Maintainer : bos@serpentine.com -- Stability : experimental -- Portability : unknown -- -- Simple, efficient parser combinators for 'T.Text' strings, loosely -- based on the Parsec library. module Data.Attoparsec.Text.Internal ( -- * Parser types Parser , Result -- * Running parsers , parse , parseOnly -- * Combinators , module Data.Attoparsec.Combinator -- * Parsing individual characters , satisfy , satisfyWith , anyChar , skip , char , notChar -- ** Lookahead , peekChar , peekChar' -- ** Character classes , inClass , notInClass -- * Efficient string handling , skipWhile , string , stringCI , asciiCI , take , scan , runScanner , takeWhile , takeWhile1 , takeTill -- ** Consume all remaining input , takeText , takeLazyText -- * Utilities , endOfLine ) where import Control.Applicative ((<|>), (<$>)) import Control.Monad (when) import Data.Attoparsec.Combinator import Data.Attoparsec.Internal.Types hiding (Parser, Input, Added, Failure, Success) import Data.Attoparsec.Internal import Data.Monoid (Monoid(..)) import Data.String (IsString(..)) import Data.Text (Text) import Prelude hiding (getChar, take, takeWhile) import Data.Char (chr, ord) import qualified Data.Attoparsec.Internal.Types as T import qualified Data.Attoparsec.Text.FastSet as Set import qualified Data.Text as T import qualified Data.Text.Lazy as L type Parser = T.Parser Text type Result = IResult Text type Failure r = T.Failure Text r type Success a r = T.Success Text a r instance (a ~ Text) => IsString (Parser a) where fromString = string . T.pack unsafeHead :: Text -> Char unsafeHead = T.head unsafeTail :: Text -> Text unsafeTail = T.tail unsafeTake :: Int -> Text -> Text unsafeTake = T.take unsafeDrop :: Int -> Text -> Text unsafeDrop = T.drop -- | The parser @satisfy p@ succeeds for any character for which the -- predicate @p@ returns 'True'. Returns the character that is -- actually parsed. -- -- >digit = satisfy isDigit -- > where isDigit c = c >= '0' && c <= '9' satisfy :: (Char -> Bool) -> Parser Char satisfy = satisfyElem {-# INLINE satisfy #-} -- | The parser @skip p@ succeeds for any character for which the -- predicate @p@ returns 'True'. -- -- >skipDigit = skip isDigit -- > where isDigit c = c >= '0' && c <= '9' skip :: (Char -> Bool) -> Parser () skip p = do s <- ensure 1 if p (unsafeHead s) then put (unsafeTail s) else fail "skip" -- | The parser @satisfyWith f p@ transforms a character, and succeeds -- if the predicate @p@ returns 'True' on the transformed value. The -- parser returns the transformed character that was parsed. satisfyWith :: (Char -> a) -> (a -> Bool) -> Parser a satisfyWith f p = do s <- ensure 1 let c = f $! unsafeHead s if p c then let !t = unsafeTail s in put t >> return c else fail "satisfyWith" {-# INLINE satisfyWith #-} -- | Consume @n@ characters of input, but succeed only if the -- predicate returns 'True'. takeWith :: Int -> (Text -> Bool) -> Parser Text takeWith n p = do s <- ensure n let (h,t) = T.splitAt n s if p h then put t >> return h else fail "takeWith" -- | Consume exactly @n@ characters of input. take :: Int -> Parser Text take n = takeWith n (const True) {-# INLINE take #-} -- | @string s@ parses a sequence of characters that identically match -- @s@. Returns the parsed string (i.e. @s@). This parser consumes no -- input if it fails (even if a partial match). -- -- /Note/: The behaviour of this parser is different to that of the -- similarly-named parser in Parsec, as this one is all-or-nothing. -- To illustrate the difference, the following parser will fail under -- Parsec given an input of @\"for\"@: -- -- >string "foo" <|> string "for" -- -- The reason for its failure is that the first branch is a -- partial match, and will consume the letters @\'f\'@ and @\'o\'@ -- before failing. In Attoparsec, the above parser will /succeed/ on -- that input, because the failed first branch will consume nothing. string :: Text -> Parser Text string s = takeWith (T.length s) (==s) {-# INLINE string #-} -- | Satisfy a literal string, ignoring case. -- -- Note: this function is currently quite inefficient. Unicode case -- folding can change the length of a string (\"ß\" becomes -- "ss"), which makes a simple, efficient implementation tricky. We -- have (for now) chosen simplicity over efficiency. stringCI :: Text -> Parser Text stringCI s = go 0 where go !n | n > T.length fs = fail "stringCI" | otherwise = do t <- ensure n let h = unsafeTake n t if T.toCaseFold h == fs then put (unsafeDrop n t) >> return h else go (n+1) fs = T.toCaseFold s {-# INLINE stringCI #-} {-# DEPRECATED stringCI "this is very inefficient, use asciiCI instead" #-} -- | Satisfy a literal string, ignoring case for characters in the ASCII range. asciiCI :: Text -> Parser Text asciiCI input = do t <- ensure n let h = unsafeTake n t if asciiToLower h == s then put (unsafeDrop n t) >> return h else fail "asciiCI" where n = T.length input s = asciiToLower input -- convert letters in the ASCII range to lower-case asciiToLower = T.map f where offset = ord 'a' - ord 'A' f c | 'A' <= c && c <= 'Z' = chr (ord c + offset) | otherwise = c {-# INLINE asciiCI #-} -- | Skip past input for as long as the predicate returns 'True'. skipWhile :: (Char -> Bool) -> Parser () skipWhile p = go where go = do t <- T.dropWhile p <$> get put t when (T.null t) $ do input <- wantInput when input go {-# INLINE skipWhile #-} -- | Consume input as long as the predicate returns 'False' -- (i.e. until it returns 'True'), and return the consumed input. -- -- This parser does not fail. It will return an empty string if the -- predicate returns 'True' on the first character of input. -- -- /Note/: Because this parser does not fail, do not use it with -- combinators such as 'many', because such parsers loop until a -- failure occurs. Careless use will thus result in an infinite loop. takeTill :: (Char -> Bool) -> Parser Text takeTill p = takeWhile (not . p) {-# INLINE takeTill #-} -- | Consume input as long as the predicate returns 'True', and return -- the consumed input. -- -- This parser does not fail. It will return an empty string if the -- predicate returns 'False' on the first character of input. -- -- /Note/: Because this parser does not fail, do not use it with -- combinators such as 'many', because such parsers loop until a -- failure occurs. Careless use will thus result in an infinite loop. takeWhile :: (Char -> Bool) -> Parser Text takeWhile p = (T.concat . reverse) `fmap` go [] where go acc = do (h,t) <- T.span p <$> get put t if T.null t then do input <- wantInput if input then go (h:acc) else return (h:acc) else return (h:acc) takeRest :: Parser [Text] takeRest = go [] where go acc = do input <- wantInput if input then do s <- get put T.empty go (s:acc) else return (reverse acc) -- | Consume all remaining input and return it as a single string. takeText :: Parser Text takeText = T.concat `fmap` takeRest -- | Consume all remaining input and return it as a single string. takeLazyText :: Parser L.Text takeLazyText = L.fromChunks `fmap` takeRest data Scan s = Continue s | Finished {-# UNPACK #-} !Int T.Text scan_ :: (s -> [Text] -> Parser r) -> s -> (s -> Char -> Maybe s) -> Parser r scan_ f s0 p = go [] s0 where scanner s !n t = case T.uncons t of Just (c,t') -> case p s c of Just s' -> scanner s' (n+1) t' Nothing -> Finished n t Nothing -> Continue s go acc s = do input <- get case scanner s 0 input of Continue s' -> do put T.empty more <- wantInput if more then go (input : acc) s' else f s' (input : acc) Finished n t -> put t >> f s (T.take n input : acc) {-# INLINE scan_ #-} -- | A stateful scanner. The predicate consumes and transforms a -- state argument, and each transformed state is passed to successive -- invocations of the predicate on each character of the input until one -- returns 'Nothing' or the input ends. -- -- This parser does not fail. It will return an empty string if the -- predicate returns 'Nothing' on the first character of input. -- -- /Note/: Because this parser does not fail, do not use it with -- combinators such as 'many', because such parsers loop until a -- failure occurs. Careless use will thus result in an infinite loop. scan :: s -> (s -> Char -> Maybe s) -> Parser Text scan = scan_ $ \_ chunks -> case chunks of [x] -> return x xs -> return . T.concat . reverse $ xs {-# INLINE scan #-} -- | Like 'scan', but generalized to return the final state of the -- scanner. runScanner :: s -> (s -> Char -> Maybe s) -> Parser (Text, s) runScanner = scan_ $ \s xs -> return (T.concat (reverse xs), s) {-# INLINE runScanner #-} -- | Consume input as long as the predicate returns 'True', and return -- the consumed input. -- -- This parser requires the predicate to succeed on at least one -- character of input: it will fail if the predicate never returns -- 'True' or if there is no input left. takeWhile1 :: (Char -> Bool) -> Parser Text takeWhile1 p = do (`when` demandInput) =<< T.null <$> get (h,t) <- T.span p <$> get when (T.null h) $ fail "takeWhile1" put t if T.null t then (h<>) `fmap` takeWhile p else return h -- | Match any character in a set. -- -- >vowel = inClass "aeiou" -- -- Range notation is supported. -- -- >halfAlphabet = inClass "a-nA-N" -- -- To add a literal @\'-\'@ to a set, place it at the beginning or end -- of the string. inClass :: String -> Char -> Bool inClass s = (`Set.member` mySet) where mySet = Set.charClass s {-# NOINLINE mySet #-} {-# INLINE inClass #-} -- | Match any character not in a set. notInClass :: String -> Char -> Bool notInClass s = not . inClass s {-# INLINE notInClass #-} -- | Match any character. anyChar :: Parser Char anyChar = satisfy $ const True {-# INLINE anyChar #-} -- | Match a specific character. char :: Char -> Parser Char char c = satisfy (== c) <?> show c {-# INLINE char #-} -- | Match any character except the given one. notChar :: Char -> Parser Char notChar c = satisfy (/= c) <?> "not " ++ show c {-# INLINE notChar #-} -- | Match any character, to perform lookahead. Returns 'Nothing' if -- end of input has been reached. Does not consume any input. -- -- /Note/: Because this parser does not fail, do not use it with -- combinators such as 'many', because such parsers loop until a -- failure occurs. Careless use will thus result in an infinite loop. peekChar :: Parser (Maybe Char) peekChar = T.Parser $ \i0 a0 m0 _kf ks -> if T.null (unI i0) then if m0 == Complete then ks i0 a0 m0 Nothing else let ks' i a m = let !c = unsafeHead (unI i) in ks i a m (Just c) kf' i a m = ks i a m Nothing in prompt i0 a0 m0 kf' ks' else let !c = unsafeHead (unI i0) in ks i0 a0 m0 (Just c) {-# INLINE peekChar #-} -- | Match any character, to perform lookahead. Does not consume any -- input, but will fail if end of input has been reached. peekChar' :: Parser Char peekChar' = do s <- ensure 1 return $! unsafeHead s {-# INLINE peekChar' #-} -- | Match either a single newline character @\'\\n\'@, or a carriage -- return followed by a newline character @\"\\r\\n\"@. endOfLine :: Parser () endOfLine = (char '\n' >> return ()) <|> (string "\r\n" >> return ()) -- | Terminal failure continuation. failK :: Failure a failK i0 _a0 _m0 stack msg = Fail (unI i0) stack msg {-# INLINE failK #-} -- | Terminal success continuation. successK :: Success a a successK i0 _a0 _m0 a = Done (unI i0) a {-# INLINE successK #-} -- | Run a parser. parse :: Parser a -> Text -> Result a parse m s = runParser m (I s) mempty Incomplete failK successK {-# INLINE parse #-} -- | Run a parser that cannot be resupplied via a 'Partial' result. parseOnly :: Parser a -> Text -> Either String a parseOnly m s = case runParser m (I s) mempty Complete failK successK of Fail _ _ err -> Left err Done _ a -> Right a _ -> error "parseOnly: impossible error!" {-# INLINE parseOnly #-}