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[haskell/symantic.git] / symantic-grammar / Language / Symantic / Grammar / Regular.hs
1 -- | Symantics for regular grammars.
2 module Language.Symantic.Grammar.Regular where
3
4 import Control.Applicative (Applicative(..))
5 import Data.Foldable (foldr)
6 import Data.Function (($), flip, id)
7 import Data.Functor (Functor, (<$>))
8 import Data.Semigroup (Semigroup(..))
9 import Data.String (IsString(..))
10 import qualified Data.List as List
11 import qualified Data.Text as Text
12
13 import Language.Symantic.Grammar.Meta
14 import Language.Symantic.Grammar.Fixity
15 import Language.Symantic.Grammar.EBNF
16 import Language.Symantic.Grammar.Terminal
17
18 -- * Type 'Reg'
19 -- | Left or right regular grammar.
20 newtype Reg (lr::Side) g a = Reg { unReg :: g a }
21 deriving (IsString, Functor, Gram_Char, Gram_String)
22 deriving instance Gram_Alt g => Gram_Alt (Reg lr g)
23 deriving instance Gram_Try g => Gram_Try (Reg lr g)
24 deriving instance Gram_Rule g => Gram_Rule (Reg lr g)
25 deriving instance Gram_Reader st g => Gram_Reader st (Reg lr g)
26 deriving instance Gram_State st g => Gram_State st (Reg lr g)
27 deriving instance Gram_Error err g => Gram_Error err (Reg lr g)
28 deriving instance (Functor g, Gram_Alt g, Gram_RegL g) => Gram_RegL (RegL g)
29 deriving instance (Functor g, Gram_Alt g, Gram_RegR g) => Gram_RegR (RegR g)
30 deriving instance Gram_RegL RuleEBNF
31 deriving instance Gram_RegR RuleEBNF
32 deriving instance Gram_RuleEBNF g => Gram_RuleEBNF (RegR g)
33 deriving instance Gram_RuleEBNF g => Gram_RuleEBNF (RegL g)
34
35 reg_of_Terminal :: Terminal g a -> Reg lr g a
36 reg_of_Terminal (Terminal g) = Reg g
37
38 type RegL = Reg 'SideL
39 type RegR = Reg 'SideR
40
41 -- ** Class 'Gram_Alt'
42 -- | Like 'Alternative' but without the 'Applicative' super-class,
43 -- because a regular grammar is not closed under 'Applicative'.
44 class Gram_Alt g where
45 empty :: g a
46 (<+>) :: g a -> g a -> g a
47 infixl 3 <+>
48 choice :: [g a] -> g a
49 choice = foldr (<+>) empty
50 deriving instance Gram_Alt p => Gram_Alt (Terminal p)
51 deriving instance Gram_Alt RuleEBNF
52 instance Gram_Alt EBNF where
53 empty = ebnf_const $ "empty"
54 EBNF g <+> EBNF q =
55 EBNF $ \bo po -> pairIfNeeded pairParen po op $
56 g bo (op, SideL) <> " | " <> q bo (op, SideR)
57 where op = infixB SideL 2
58 choice [] = empty
59 choice [g] = g
60 choice l@(_:_) =
61 EBNF $ \bo po -> pairIfNeeded pairParen po op $
62 Text.intercalate " | " $
63 (unEBNF <$> l) <*> pure bo <*> pure (op, SideL)
64 where op = infixB SideL 2
65
66 -- *** Type 'Gram_Try'
67 -- | Explicit backtracking.
68 --
69 -- To get more accurate error messages,
70 -- it is helpful to backtrack (put 'try' constructors)
71 -- only when the grammar actually has another alternative
72 -- that could match, instead of always backtracking
73 -- all previous alternatives, as in: 'try'@ a @'<+>'@ b@
74 class Gram_Try g where
75 try :: g a -> g a
76 instance Gram_Try EBNF where
77 try = id
78 deriving instance Gram_Try RuleEBNF
79
80 -- ** Class 'Gram_RegR'
81 -- | Symantics for right regular grammars.
82 class (Functor g, Gram_Alt g) => Gram_RegR g where
83 (.*>) :: Terminal g (a -> b) -> RegR g a -> RegR g b
84 infixl 4 .*>
85 manyR :: Terminal g a -> RegR g [a]
86 manyR g = (:) <$> g .*> manyR g <+> empty
87 someR :: Terminal g a -> RegR g [a]
88 someR g = (:) <$> g .*> manyR g
89 instance Gram_RegR EBNF where
90 Terminal f .*> Reg x = Reg $ f <*> x
91 manyR (Terminal (EBNF g)) = Reg $ EBNF $ \rm _po -> "{" <> g rm (op, SideL) <> "}" where op = infixN0
92 someR (Terminal (EBNF g)) = Reg $ EBNF $ \rm _po -> "{" <> g rm (op, SideL) <> "}-" where op = infixN0
93 -- NOTE: the suffix "-" symbolizes "minus the empty string".
94
95 -- ** Class 'Gram_RegL'
96 -- | Symantics for left regular grammars.
97 class (Functor g, Gram_Alt g) => Gram_RegL g where
98 (<*.) :: RegL g (a -> b) -> Terminal g a -> RegL g b
99 infixl 4 <*.
100 manyL :: Terminal g a -> RegL g [a]
101 manyL g' = List.reverse <$> go g'
102 where go g = flip (:) <$> go g <*. g <+> empty
103 someL :: Terminal g a -> RegL g [a]
104 someL g = (\cs c -> cs <> [c]) <$> manyL g <*. g
105 instance Gram_RegL EBNF where
106 Reg f <*. Terminal x = Reg $ f <*> x
107 manyL (Terminal (EBNF g)) = Reg $ EBNF $ \rm _po -> "{" <> g rm (op, SideL) <> "}" where op = infixN0
108 someL (Terminal (EBNF g)) = Reg $ EBNF $ \rm _po -> "{" <> g rm (op, SideL) <> "}-" where op = infixN0