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[haskell/symantic-xml.git] / Language / Symantic / RNC / Sym.hs
1 {-# LANGUAGE TypeFamilyDependencies #-}
2 module Language.Symantic.RNC.Sym
3 ( module Language.Symantic.RNC.Sym
4 , Functor(..), (<$>)
5 , Applicative(..)
6 , Alternative(..)
7 ) where
8
9 import Control.Applicative (Applicative(..), Alternative(..))
10 import Data.Eq (Eq)
11 import Data.Function ((.), id)
12 import Data.Functor (Functor(..), (<$>))
13 import Data.Maybe (Maybe(..))
14 import Data.Sequence (Seq)
15 import Data.String (String)
16 import Text.Show (Show(..))
17 import qualified Data.Sequence as Seq
18
19 import qualified Language.Symantic.XML as XML
20
21 infixl 2 <$$>, <$?>, <$*>, <$:>
22 infixl 1 <||>, <|?>, <|*>{-, <|:>-}
23
24 -- * Class 'Sym_RNC'
25 class
26 ( Applicative repr
27 , Alternative repr
28 , Sym_Rule repr
29 , Sym_Interleaved repr
30 ) => Sym_RNC repr where
31 namespace :: Maybe XML.NCName -> XML.Namespace -> repr ()
32 element :: XML.QName -> repr a -> repr a
33 attribute :: XML.QName -> repr a -> repr a
34 any :: repr ()
35 anyElem :: XML.Namespace -> (XML.NCName -> repr a) -> repr a
36 text :: repr XML.Text
37 fail :: repr a
38 try :: repr a -> repr a
39 option :: a -> repr a -> repr a
40 optional :: repr a -> repr (Maybe a)
41 choice :: [repr a] -> repr a
42 intermany :: [repr a] -> repr [a]
43 intermany = many . choice . (try <$>)
44 manySeq :: repr a -> repr (Seq a)
45 manySeq r = Seq.fromList <$> many r
46 someSeq :: repr a -> repr (Seq a)
47 someSeq r = Seq.fromList <$> some r
48
49 -- * Class 'Sym_Rule'
50 class Sym_Rule repr where
51 rule :: Show a => String -> repr a -> repr a
52 rule _n = id
53 arg :: String -> repr ()
54
55
56 -- ** Type 'RuleMode'
57 data RuleMode
58 = RuleMode_Body -- ^ Request to generate the body of the rule.
59 | RuleMode_Ref -- ^ Request to generate a reference to the rule.
60 | RuleMode_Def -- ^ Request to generate a definition of the rule.
61 deriving (Eq, Show)
62
63 -- * Class 'Sym_Interleaved'
64 class Sym_Interleaved repr where
65 interleaved :: Perm repr a -> repr a
66 (<$$>) :: (a -> b) -> repr a -> Perm repr b
67
68 (<$?>) :: (a -> b) -> (a, repr a) -> Perm repr b
69 (<||>) :: Perm repr (a -> b) -> repr a -> Perm repr b
70 (<|?>) :: Perm repr (a -> b) -> (a, repr a) -> Perm repr b
71
72 (<$*>) :: ([a] -> b) -> repr a -> Perm repr b
73 (<|*>) :: Perm repr ([a] -> b) -> repr a -> Perm repr b
74
75 (<$:>) :: (Seq a -> b) -> repr a -> Perm repr b
76 (<$:>) f = (f . Seq.fromList <$*>)
77 {- NOTE: Megaparsec's PermParser has no Functor instance.
78 (<|:>) :: Perm repr (Seq a -> b) -> repr a -> Perm repr b
79 default (<|:>) :: Functor (Perm repr) => Perm repr (Seq a -> b) -> repr a -> Perm repr b
80 (<|:>) f x = (. Seq.fromList) <$> f <|*> x
81 -}
82
83 -- ** Type family 'Perm'
84 -- | Type of permutations, depending on the representation.
85 type family Perm (repr:: * -> *) = (r :: * -> *) | r -> repr
86 -- type instance Perm (Dup x y) = Dup (Perm x) (Perm y)
87 -- type instance Perm (Rule repr) = Rule (Perm repr) -- Compose [] (Rule (Perm repr))