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Fix time&space explosion of GHC's typechecker.
[haskell/symantic.git] / symantic-grammar / Language / Symantic / Grammar / ContextFree.hs
1 -- | This module defines symantics
2 -- for context-free grammars.
3 module Language.Symantic.Grammar.ContextFree where
4
5 import Control.Applicative (Applicative(..))
6 import Control.Monad
7 import Data.String (IsString(..))
8 import Data.Semigroup (Semigroup(..))
9 import Prelude hiding (any)
10
11 import Language.Symantic.Grammar.EBNF
12 import Language.Symantic.Grammar.Terminal
13 import Language.Symantic.Grammar.Regular
14
15 -- * Type 'CF'
16 -- | Context-free grammar.
17 newtype CF g a = CF { unCF :: g a }
18 deriving (IsString, Functor, Gram_Terminal, Applicative, App)
19 deriving instance Alter g => Alter (CF g)
20 deriving instance Alt g => Alt (CF g)
21 deriving instance Try g => Try (CF g)
22 deriving instance Gram_Rule g => Gram_Rule (CF g)
23 deriving instance Gram_RegL g => Gram_RegL (CF g)
24 deriving instance Gram_RegR g => Gram_RegR (CF g)
25 deriving instance Gram_CF g => Gram_CF (CF g)
26 deriving instance Gram_CF RuleDef
27 deriving instance Gram_RuleDef g => Gram_RuleDef (CF g)
28 instance Gram_CF EBNF where
29 CF (EBNF f) <& Reg (EBNF g) = CF $ EBNF $ \bo po -> infix_paren po op $
30 f bo (op, L) <> " & " <> g bo (op, R)
31 where op = infixB L 4
32 Reg (EBNF f) &> CF (EBNF g) = CF $ EBNF $ \bo po -> infix_paren po op $
33 f bo (op, L) <> " & " <> g bo (op, R)
34 where op = infixB L 4
35 CF (EBNF f) `minus` Reg (EBNF g) = CF $ EBNF $ \bo po -> infix_paren po op $
36 f bo (op, L) <> " - " <> g bo (op, R)
37 where op = infixL 6
38
39 cf_of_Terminal :: Terminal g a -> CF g a
40 cf_of_Terminal (Terminal g) = CF g
41
42 cf_of_Reg :: Reg lr g a -> CF g a
43 cf_of_Reg (Reg g) = CF g
44
45 -- ** Class 'Gram_CF'
46 -- | Symantics for context-free grammars.
47 class Gram_CF g where
48 -- | NOTE: CFL ∩ RL is a CFL.
49 -- See ISBN 81-7808-347-7, Theorem 7.27, g.286
50 (<&) :: CF g (a -> b) -> Reg lr g a -> CF g b
51 infixl 4 <&
52 (&>) :: Reg lr g (a -> b) -> CF g a -> CF g b
53 infixl 4 &>
54 -- | NOTE: CFL - RL is a CFL.
55 -- See ISBN 81-7808-347-7, Theorem 7.29, g.289
56 minus :: CF g a -> Reg lr g b -> CF g a
57
58 -- ** Class 'Alt'
59 class (Alter g, Applicative g) => Alt g where
60 option :: a -> g a -> g a
61 option x g = g <+> pure x
62 optional :: g a -> g (Maybe a)
63 optional v = Just <$> v <+> pure Nothing
64 many :: g a -> g [a]
65 many a = some a <+> pure []
66 some :: g a -> g [a]
67 some a = (:) <$> a <*> many a
68 skipMany :: g a -> g ()
69 skipMany = void . many
70 --manyTill :: g a -> g end -> g [a]
71 --manyTill g end = go where go = ([] <$ end) <|> ((:) <$> g <*> go)
72 inside
73 :: (in_ -> next)
74 -> CF g begin
75 -> CF g in_
76 -> CF g end
77 -> CF g next
78 -> CF g next
79 inside f begin in_ end next =
80 (f <$ begin <*> in_ <* end) <+> next
81 deriving instance Alt RuleDef
82 instance Alt EBNF where
83 many (EBNF g) = EBNF $ \rm _po -> "{" <> g rm (op, L) <> "}" where op = infixN0
84 some (EBNF g) = EBNF $ \rm _po -> "{" <> g rm (op, L) <> "}-" where op = infixN0
85 option _x (EBNF g) = EBNF $ \rm _po ->
86 "[" <> g rm (op, L) <> "]" where op = infixN0
87
88 -- ** Class 'App'
89 class Applicative g => App g where
90 between :: g open -> g close -> g a -> g a
91 between open close g = open *> g <* close
92 deriving instance App RuleDef
93 instance App EBNF
94
95 -- * Class 'Gram_Meta'
96 class Gram_Meta meta g where
97 metaG :: g (meta -> a) -> g a
98 instance Gram_Meta meta g => Gram_Meta meta (CF g) where
99 metaG = CF . metaG . unCF
100 instance Gram_Meta meta RuleDef where
101 metaG (RuleDef x) = RuleDef $ metaG x
102 instance Gram_Meta meta EBNF where
103 metaG (EBNF x) = EBNF x
104
105 -- * Class 'Gram_Lexer'
106 class
107 ( Alt g
108 , Alter g
109 , App g
110 , Gram_CF g
111 , Gram_Rule g
112 , Gram_Terminal g
113 ) => Gram_Lexer g where
114 commentable :: g () -> g () -> g () -> g ()
115 commentable = rule3 "commentable" $ \space line block ->
116 skipMany $ choice [space, line, block]
117 comment_line :: CF g String -> CF g String
118 comment_line prefix = rule "comment_line" $
119 prefix *> many (any `minus` (void (char '\n') <+> eoi))
120 comment_block :: CF g String -> Reg lr g String -> CF g String
121 comment_block begin end = rule "comment_block" $
122 begin *> many (any `minus` end) <* cf_of_Reg end
123 lexeme :: CF g a -> CF g a
124 lexeme = rule1 "lexeme" $ \g ->
125 g <* commentable
126 (void $ string " " <+> string "\n ")
127 (void $ comment_line (string "--"))
128 (void $ comment_block (string "{-") (string "-}"))
129 parens :: CF g a -> CF g a
130 parens = rule1 "parens" $
131 between
132 (lexeme $ char '(')
133 (lexeme $ char ')')
134 symbol :: String -> CF g String
135 symbol = lexeme . string
136 deriving instance Gram_Lexer g => Gram_Lexer (CF g)
137 instance Gram_Lexer RuleDef
138 instance Gram_Lexer EBNF
139
140 gram_lexer :: forall g. (Gram_Lexer g, Gram_RuleDef g) => [CF g ()]
141 gram_lexer =
142 [ void $ commentable (void $ rule_arg "space") (void $ rule_arg "line") (void $ rule_arg "block")
143 , void $ comment_line (rule_arg "prefix")
144 , void $ comment_block (rule_arg "begin") (rule_arg "end" :: RegL g String)
145 , void $ lexeme (rule_arg "g")
146 , void $ parens (rule_arg "g")
147 , void $ inside id (rule_arg "begin") (rule_arg "in") (rule_arg "end") (rule_arg "next")
148 ]