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[haskell/symantic-parser.git] / parsers / Parsers / Utils / Attoparsec.hs
1 {-# LANGUAGE AllowAmbiguousTypes #-}
2 module Parsers.Utils.Attoparsec where
3
4 import Control.Applicative hiding (some)
5 import Control.Monad (Monad(..), MonadPlus)
6 import Data.Attoparsec.Combinator
7 import Data.Bool (Bool(..))
8 import Data.Char (Char)
9 import Data.Either (Either(..))
10 import Data.Eq (Eq(..))
11 import Data.Function (flip, ($), id)
12 import Data.Functor (void)
13 import Data.Maybe (Maybe(..), maybe)
14 import Data.String (String)
15 import Data.Word (Word8)
16 import qualified Data.List as List
17 import qualified Data.Text as T
18 import qualified Data.ByteString as BS
19 import qualified Data.Attoparsec.Internal.Types as AP
20 import qualified Data.Attoparsec.ByteString as AP.ByteString
21 import qualified Data.Attoparsec.ByteString.Char8 as AP.ByteString.Char8
22 import qualified Data.Attoparsec.Text as AP.Text
23
24 -- * Class 'Inputable'
25 class AP.Chunk inp => Inputable inp where
26 type Token inp
27 null :: inp -> Bool
28 empty :: inp
29 uncons :: inp -> Maybe (Token inp, inp)
30 satisfy :: (Token inp -> Bool) -> AP.Parser inp (Token inp)
31 char :: Char -> AP.Parser inp Char
32 notInClass :: String -> Token inp -> Bool
33 instance Inputable T.Text where
34 type Token T.Text = Char
35 null = T.null
36 empty = T.empty
37 uncons = T.uncons
38 satisfy = AP.Text.satisfy
39 char = AP.Text.char
40 notInClass = AP.Text.notInClass
41 instance Inputable BS.ByteString where
42 type Token BS.ByteString = Word8
43 null = BS.null
44 empty = BS.empty
45 uncons = BS.uncons
46 satisfy = AP.ByteString.satisfy
47 char = AP.ByteString.Char8.char
48 notInClass = AP.ByteString.notInClass
49
50 between :: Applicative f => f a -> f b -> f c -> f c
51 between o c p = o *> p <* c
52
53 match :: (Monad m, Eq a) => [a] -> m a -> (a -> m b) -> m b -> m b
54 match xs p f def = p >>= (\x -> if List.elem x xs then f x else def)
55
56 skipSome :: Alternative p => p a -> p ()
57 skipSome p = void (some p)
58
59 some :: Alternative p => p a -> p [a]
60 some = many1
61
62 maybeP :: Alternative p => p a -> p (Maybe a)
63 maybeP p = option Nothing (Just <$> p)
64
65 fromMaybeP :: Monad m => m (Maybe a) -> m a -> m a
66 fromMaybeP mmx d = mmx >>= maybe d return
67
68 (<+>) :: Alternative p => p a -> p b -> p (Either a b)
69 p <+> q = Left <$> p <|> Right <$> q
70
71 (<:>) :: Applicative p => p a -> p [a] -> p [a]
72 (<:>) = liftA2 (:)
73
74 (<~>) :: Applicative p => p a -> p b -> p (a, b)
75 (<~>) = liftA2 (,)
76
77 pfoldl1 :: Alternative p => (b -> a -> b) -> b -> p a -> p b
78 pfoldl1 f k p = List.foldl' f k <$> some p
79
80 (>?>) :: MonadPlus m => m a -> (a -> Bool) -> m a
81 m >?> f = m >>= \x -> if f x then return x else Control.Applicative.empty
82
83 chainPre :: Alternative p => p (a -> a) -> p a -> p a
84 chainPre op p = flip (List.foldr ($)) <$> many op <*> p
85
86 chainPost :: Alternative p => p a -> p (a -> a) -> p a
87 chainPost p op = List.foldl' (flip ($)) <$> p <*> many op
88
89 chainl1 :: Alternative p => p a -> p (a -> a -> a) -> p a
90 chainl1 p op = chainPost p (flip <$> op <*> p)
91
92 chainr1 :: Alternative p => p a -> p (a -> a -> a) -> p a
93 chainr1 p op = let go = p <**> ((flip <$> op <*> go) <|> pure id) in go
94
95 data Level p s a
96 = InfixL [p (a -> a -> a)]
97 | InfixR [p (a -> a -> a)]
98 | Prefix [p (a -> a)]
99 | Postfix [p (a -> a)]
100
101 precedence :: Alternative p => [Level p s a] -> p a -> p a
102 precedence levels atom = List.foldl' convert atom levels
103 where
104 convert x (InfixL ops) = chainl1 x (choice ops)
105 convert x (InfixR ops) = chainr1 x (choice ops)
106 convert x (Prefix ops) = chainPre (choice ops) x
107 convert x (Postfix ops) = chainPost x (choice ops)