{-# LANGUAGE CPP #-} {-# LANGUAGE OverloadedStrings #-} {-| This is subset of Parsec. Parsec 3 provides features which Parsec 2 does not provide: * Applicative style * ByteString as input But Haskell Platform includes Parsec 2, not Parsec 3. Installing Parsec 3 to Haskell Platform environment makes it mess. So, this library was implemented. -} module Text.Appar.Parser ( -- ** Running parser parse -- ** 'Char' parsers , char , anyChar , oneOf , noneOf , alphaNum , digit , hexDigit , space -- ** 'String' parser , string -- ** Parser combinators , try , choice , option , skipMany , skipSome , sepBy1 , manyTill -- ** 'Applicative' parser combinators , (<$>) , (<$) , (<*>) , (*>) , (<*) , (<**>) , (<|>) , some , many , pure -- ** Internals , MkParser(..) , Input(..) , satisfy ) where import Control.Applicative import Control.Monad import Control.Monad.Fail as Fail import Data.Char import Text.Appar.Input ---------------------------------------------------------------- data MkParser inp a = P { -- | Getting the internal parser. runParser :: inp -> (Maybe a, inp) } ---------------------------------------------------------------- instance Functor (MkParser inp) where f `fmap` p = return f <*> p instance Applicative (MkParser inp) where pure a = P $ \bs -> (Just a, bs) (<*>) = ap instance Alternative (MkParser inp) where empty = mzero (<|>) = mplus instance Monad (MkParser inp) where return = pure p >>= f = P $ \bs -> case runParser p bs of (Nothing, bs') -> (Nothing, bs') (Just a, bs') -> runParser (f a) bs' -- fixme: GHC 8.x will remove the fail method #if !MIN_VERSION_base(4,13,0) fail = Fail.fail #endif instance MonadFail (MkParser inp) where fail _ = P $ \bs -> (Nothing, bs) instance MonadPlus (MkParser inp) where mzero = P $ \bs -> (Nothing, bs) p `mplus` q = P $ \bs -> case runParser p bs of (Nothing, bs') -> runParser q bs' (Just a, bs') -> (Just a, bs') ---------------------------------------------------------------- {-| Run a parser. -} parse :: Input inp => MkParser inp a -> inp -> Maybe a parse p bs = fst (runParser p bs) ---------------------------------------------------------------- {-| The parser @satisfy f@ succeeds for any character for which the supplied function @f@ returns 'True'. Returns the character that is actually parsed. -} satisfy :: Input inp => (Char -> Bool) -> MkParser inp Char satisfy predicate = P sat where sat bs | isNil bs = (Nothing, nil) | predicate b = (Just b, bs') | otherwise = (Nothing, bs) where b = car bs bs' = cdr bs ---------------------------------------------------------------- {-| The parser try p behaves like parser p, except that it pretends that it hasn't consumed any input when an error occurs. -} try :: MkParser inp a -> MkParser inp a try p = P $ \bs -> case runParser p bs of (Nothing, _ ) -> (Nothing, bs) (Just a, bs') -> (Just a, bs') ---------------------------------------------------------------- {-| @char c@ parses a single character @c@. Returns the parsed character. -} char :: Input inp => Char -> MkParser inp Char char c = satisfy (c ==) {-| @string s@ parses a sequence of characters given by @s@. Returns the parsed string -} string :: Input inp => String -> MkParser inp String string [] = pure "" string (c:cs) = (:) <$> char c <*> string cs ---------------------------------------------------------------- {-| This parser succeeds for any character. Returns the parsed character. -} anyChar :: Input inp => MkParser inp Char anyChar = satisfy (const True) {-| @oneOf cs@ succeeds if the current character is in the supplied list of characters @cs@. Returns the parsed character. -} oneOf :: Input inp => String -> MkParser inp Char oneOf cs = satisfy (`elem` cs) {-| As the dual of 'oneOf', @noneOf cs@ succeeds if the current character /not/ in the supplied list of characters @cs@. Returns the parsed character. -} noneOf :: Input inp => String -> MkParser inp Char noneOf cs = satisfy (`notElem` cs) {-| Parses a letter or digit (a character between \'0\' and \'9\'). Returns the parsed character. -} alphaNum :: Input inp => MkParser inp Char alphaNum = satisfy isAlphaNum {-| Parses a digit. Returns the parsed character. -} digit :: Input inp => MkParser inp Char digit = satisfy isDigit {-| Parses a hexadecimal digit (a digit or a letter between \'a\' and \'f\' or \'A\' and \'F\'). Returns the parsed character. -} hexDigit :: Input inp => MkParser inp Char hexDigit = satisfy isHexDigit {-| Parses a white space character (any character which satisfies 'isSpace') Returns the parsed character. -} space :: Input inp => MkParser inp Char space = satisfy isSpace ---------------------------------------------------------------- {-| @choice ps@ tries to apply the parsers in the list @ps@ in order, until one of them succeeds. Returns the value of the succeeding parser. -} choice :: [MkParser inp a] -> MkParser inp a choice = foldr (<|>) mzero {-| @option x p@ tries to apply parser @p@. If @p@ fails without consuming input, it returns the value @x@, otherwise the value returned by @p@. -} option :: a -> MkParser inp a -> MkParser inp a option x p = p <|> pure x {-| @skipMany p@ applies the parser @p@ /zero/ or more times, skipping its result. -} skipMany :: MkParser inp a -> MkParser inp () skipMany p = () <$ many p {-| @skipSome p@ applies the parser @p@ /one/ or more times, skipping its result. -} skipSome :: MkParser inp a -> MkParser inp () skipSome p = () <$ some p {-| @sepBy1 p sep@ parses /one/ or more occurrences of @p@, separated by @sep@. Returns a list of values returned by @p@. -} sepBy1 :: MkParser inp a -> MkParser inp b -> MkParser inp [a] sepBy1 p sep = (:) <$> p <*> many (sep *> p) {-| @manyTill p end@ applies parser @p@ /zero/ or more times until parser @end@ succeeds. Returns the list of values returned by @p@. -} manyTill :: MkParser inp a -> MkParser inp b -> MkParser inp [a] manyTill p end = scan where scan = [] <$ end <|> (:) <$> p <*> scan