]> Git — Sourcephile - haskell/symantic.git/blob - symantic-lib/Language/Symantic/Grammar/Megaparsec.hs
Fix symantic-lib tests.
[haskell/symantic.git] / symantic-lib / Language / Symantic / Grammar / Megaparsec.hs
1 {-# LANGUAGE ConstraintKinds #-}
2 {-# LANGUAGE UndecidableInstances #-}
3 {-# OPTIONS_GHC -fno-warn-orphans #-}
4 -- | Symantic instances for Megaparsec
5 module Grammar.Megaparsec where
6
7 import Control.Applicative (Applicative(..))
8 import Control.Monad (Monad(..))
9 import Data.Char (Char)
10 import Data.Either (Either(..))
11 import Data.Function (($), (.))
12 import Data.Functor (Functor(..), (<$>))
13 import Data.List.NonEmpty (NonEmpty(..))
14 import Data.Ord (Ord(..))
15 import Data.String (IsString(..))
16 import Data.Typeable ()
17 import Text.Show (Show(..))
18 import qualified Control.Applicative as Alt
19 import qualified Control.Monad.Classes as MC
20 import qualified Data.Char as Char
21 import qualified Data.Text as Text
22 import qualified Text.Megaparsec as P
23
24 import Language.Symantic.Grammar as Sym
25 import qualified Language.Symantic as Sym
26
27 --
28 -- Readers
29 --
30
31 -- NonEmpty P.SourcePos
32 instance ParsecC e s => Sym.Gram_Reader (NonEmpty P.SourcePos) (P.ParsecT e s m) where
33 g_ask_before g = do
34 s <- P.statePos <$> P.getParserState
35 ($ s) <$> g
36 g_ask_after g = do
37 f <- g
38 f . P.statePos <$> P.getParserState
39 type instance MC.CanDo (P.ParsecT e s m) (MC.EffReader (NonEmpty P.SourcePos)) = 'True
40 instance ParsecC e s => MC.MonadReaderN 'MC.Zero (NonEmpty P.SourcePos) (P.ParsecT e s m) where
41 askN _n = P.statePos <$> P.getParserState
42 -- P.SourcePos
43 instance ParsecC e s => Sym.Gram_Reader P.SourcePos (P.ParsecT e s m) where
44 g_ask_before g = do
45 s <- P.getPosition
46 ($ s) <$> g
47 g_ask_after g = do
48 f <- g
49 f <$> P.getPosition
50 type instance MC.CanDo (P.ParsecT e s m) (MC.EffReader P.SourcePos) = 'True
51 instance ParsecC e s => MC.MonadReaderN 'MC.Zero P.SourcePos (P.ParsecT e s m) where
52 askN _n = P.getPosition
53 -- ()
54 instance ParsecC e s => Sym.Gram_Reader () (P.ParsecT e s m) where
55 g_ask_before = fmap ($ ())
56 g_ask_after = fmap ($ ())
57
58 --
59 -- States
60 --
61
62 -- st
63 type instance MC.CanDo (P.ParsecT e s m) (MC.EffState st) = 'False
64 instance (Monad m, MC.MonadState st m) => Sym.Gram_State st m where
65 g_state_before g = do
66 s <- MC.get
67 f <- g
68 let (s', a) = f s
69 MC.put s'
70 return a
71 g_state_after g = do
72 f <- g
73 s <- MC.get
74 let (s', a) = f s
75 MC.put s'
76 return a
77 g_get_before g = do
78 s <- MC.get
79 f <- g
80 return (f s)
81 g_get_after g = do
82 f <- g
83 s <- MC.get
84 return (f s)
85 g_put g = do
86 (s, a) <- g
87 MC.put s
88 return a
89
90 -- * Type 'ParsecC'
91 -- | Convenient alias for defining instances involving 'P.ParsecT'.
92 type ParsecC e s = (P.Token s ~ Char, P.Stream s, P.ErrorComponent e)
93 instance ParsecC e s => IsString (P.ParsecT e s m [Char]) where
94 fromString = P.string
95
96 --
97 -- Sym instances
98 --
99 instance (ParsecC e s, Show err) => Sym.Gram_Error err (P.ParsecT e s m) where
100 g_catch me = do
101 e <- me
102 case e of
103 Left err -> fail $ show err
104 Right a -> return a
105 instance ParsecC e s => Sym.Gram_Rule (P.ParsecT e s m) where
106 rule = P.label . Text.unpack
107 instance ParsecC e s => Sym.Gram_Terminal (P.ParsecT e s m) where
108 any = P.anyChar
109 eoi = P.eof
110 char = P.char
111 string = P.string
112 unicat cat = P.satisfy $ (`elem` cats) . Char.generalCategory
113 where cats = unicode_categories cat
114 range (l, h) = P.satisfy $ \c -> l <= c && c <= h
115 Terminal f `but` Terminal p = Terminal $ P.notFollowedBy (P.try p) *> f
116 instance ParsecC e s => Sym.Gram_Alt (P.ParsecT e s m) where
117 empty = Alt.empty
118 (<+>) = (Alt.<|>)
119 choice = P.choice
120 instance ParsecC e s => Sym.Gram_Try (P.ParsecT e s m) where
121 try = P.try
122 instance ParsecC e s => Sym.Gram_RegR (P.ParsecT e s m) where
123 Terminal f .*> Reg x = Reg $ f <*> x
124 instance ParsecC e s => Sym.Gram_RegL (P.ParsecT e s m) where
125 Reg f <*. Terminal x = Reg $ f <*> x
126 instance ParsecC e s => Sym.Gram_App (P.ParsecT e s m) where
127 between = P.between
128 instance ParsecC e s => Sym.Gram_AltApp (P.ParsecT e s m) where
129 option = P.option
130 optional = P.optional
131 many = P.many
132 some = P.some
133 skipMany = P.skipMany
134 instance ParsecC e s => Sym.Gram_CF (P.ParsecT e s m) where
135 CF f <& Reg p = CF $ P.lookAhead f <*> p
136 Reg f &> CF p = CF $ P.lookAhead f <*> p
137 minus (CF f) (Reg p) = CF $ P.notFollowedBy (P.try p) *> f
138 instance ParsecC e s => Sym.Gram_Comment (P.ParsecT e s m)
139 instance ParsecC e s => Sym.Gram_Op (P.ParsecT e s m)
140 instance ParsecC e s => Sym.Gram_Name (P.ParsecT e s m)
141 instance -- Sym.Gram_Type
142 ( ParsecC e s
143 , Gram_Source src (P.ParsecT e s m)
144 ) => Sym.Gram_Type src (P.ParsecT e s m)
145 instance -- Sym.Gram_Term_Type
146 ( ParsecC e s
147 , Gram_Source src (P.ParsecT e s m)
148 ) => Sym.Gram_Term_Type src (P.ParsecT e s m)
149 instance -- Sym.Gram_Term
150 ( ParsecC e s
151 , Show src
152 , MC.MonadState (Sym.Imports, Sym.Modules src ss) (P.ParsecT e s m)
153 , Sym.Gram_Source src (P.ParsecT e s m)
154 , Sym.Gram_Term_Atoms src ss (P.ParsecT e s m)
155 ) => Sym.Gram_Term src ss (P.ParsecT e s m)