]> Git — Sourcephile - haskell/symantic-parser.git/blob - src/Symantic/Parser/Grammar/Production.hs
legal: add license `BSD-3-Clause`
[haskell/symantic-parser.git] / src / Symantic / Parser / Grammar / Production.hs
1 {-# LANGUAGE DefaultSignatures #-}
2 {-# LANGUAGE StandaloneDeriving #-} -- For prodCon
3 {-# LANGUAGE TemplateHaskell #-}
4 {-# LANGUAGE StandaloneDeriving #-}
5 {-# LANGUAGE DeriveLift #-}
6 {-# LANGUAGE UndecidableInstances #-}
7 {-# OPTIONS_GHC -fno-warn-orphans #-}
8 module Symantic.Parser.Grammar.Production where
9
10 import Control.Monad (Monad(..))
11 import Data.Functor.Identity (Identity(..))
12 import Data.Functor.Product (Product(..))
13 import Prelude (Num(..), undefined)
14 import Text.Show (Show(..), showString)
15 import Type.Reflection (Typeable)
16 import qualified Data.Either as Either
17 import qualified Data.Eq as Eq
18 import qualified Data.Function as Fun
19 import qualified Data.Maybe as Maybe
20 import qualified Language.Haskell.TH as TH
21 import qualified Language.Haskell.TH.Syntax as TH
22 import qualified Language.Haskell.TH.Show as TH
23
24 import Symantic.Class
25 import Symantic.Data
26 import Symantic.Derive
27
28 type Production = Product
29 (SomeData Identity)
30 (SomeData TH.CodeQ)
31
32 {-# INLINE prodValue #-}
33 prodValue :: Production a -> SomeData Identity a
34 prodValue (Pair v _) = v
35 {-# INLINE prodCode #-}
36 prodCode :: Production a -> SomeData TH.CodeQ a
37 prodCode (Pair _ c) = c
38
39 {-# INLINE production #-}
40 production :: a -> TH.CodeQ a -> Production a
41 production v c = Pair
42 (SomeData (Var (Identity v)))
43 (SomeData (Var c))
44
45 {-# INLINE prod #-}
46 prod :: TH.Lift a => a -> Production a
47 prod x = production x [||x||]
48
49 {-# INLINE runValue #-}
50 runValue :: Production a -> a
51 runValue (Pair v _c) = runIdentity (derive v)
52 {-# INLINE runCode #-}
53 runCode :: Production a -> TH.CodeQ a
54 runCode (Pair _v c) = derive c
55
56 -- Missing instances in 'Language.Haskell.TH',
57 -- needed for 'prodCon'.
58 deriving instance TH.Lift TH.OccName
59 deriving instance TH.Lift TH.NameFlavour
60 deriving instance TH.Lift TH.ModName
61 deriving instance TH.Lift TH.PkgName
62 deriving instance TH.Lift TH.NameSpace
63 deriving instance TH.Lift TH.Name
64
65 -- | @$(prodCon 'SomeConstructor)@ generates the 'Production' for @SomeConstructor@.
66 prodCon :: TH.Name -> TH.Q TH.Exp
67 prodCon name = do
68 info <- TH.reify name
69 case info of
70 TH.DataConI n _ty _pn ->
71 [| production $(return (TH.ConE n))
72 (TH.unsafeCodeCoerce (return (TH.ConE $(TH.lift n)))) |]
73
74 instance Show (SomeData TH.CodeQ a) where
75 -- The 'Derivable' constraint contained in 'SomeData'
76 -- is 'TH.CodeQ', hence 'Symantic.View' cannot be used here.
77 -- Fortunately 'TH.showCode' can be implemented.
78 showsPrec p = showString Fun.. TH.showCode p Fun.. derive
79
80 instance (Abstractable f, Abstractable g) => Abstractable (Product f g) where
81 -- Those 'undefined' are not unreachables by 'f'
82 -- but this is the cost to pay for defining this instance.
83 -- In particular, 'f' must not define the 'TH.CodeQ' part
84 -- using the 'Identity' part.
85 lam f = Pair
86 (lam (\x -> let Pair fx _ = f (Pair x undefined) in fx))
87 (lam (\y -> let Pair _ fy = f (Pair undefined y) in fy))
88 lam1 f = Pair
89 (lam1 (\x -> let Pair fx _ = f (Pair x undefined) in fx))
90 (lam1 (\y -> let Pair _ fy = f (Pair undefined y) in fy))
91 Pair f1 f2 .@ Pair x1 x2 = Pair (f1 .@x1) (f2 .@x2)
92 var = Fun.id
93 instance (Functionable f, Functionable g) => Functionable (Product f g) where
94 const = Pair const const
95 id = Pair id id
96 flip = Pair flip flip
97 (.) = Pair (.) (.)
98 ($) = Pair ($) ($)
99 instance (Num (f a), Num (g a)) => Num (Product f g a) where
100 Pair x1 x2 + Pair y1 y2 = Pair (x1 + y1) (x2 + y2)
101 Pair x1 x2 * Pair y1 y2 = Pair (x1 * y1) (x2 * y2)
102 Pair x1 x2 - Pair y1 y2 = Pair (x1 - y1) (x2 - y2)
103 abs (Pair x1 x2) = Pair (abs x1) (abs x2)
104 fromInteger i = Pair (fromInteger i) (fromInteger i)
105 negate (Pair x1 x2) = Pair (negate x1) (negate x2)
106 signum (Pair x1 x2) = Pair (signum x1) (signum x2)
107 instance (Eitherable f, Eitherable g) => Eitherable (Product f g) where
108 left = Pair left left
109 right = Pair right right
110 instance (TH.Lift c, Typeable c) => Constantable c Production where
111 constant c = Pair (constant c) (constant c)
112 instance (Inferable a (SomeData Identity), Inferable a (SomeData TH.CodeQ)) => Inferable a Production where
113 infer = Pair infer infer
114 instance Inferable () (SomeData Identity) where
115 infer = constant ()
116 instance Inferable () (SomeData TH.CodeQ) where
117 infer = constant ()
118 instance Maybeable Production where
119 nothing = Pair nothing nothing
120 just = Pair just just
121 instance Listable Production where
122 nil = Pair nil nil
123 cons = Pair cons cons
124 instance Equalable Production where
125 equal = Pair equal equal
126
127 -- Identity
128 instance Anythingable Identity
129 instance Abstractable Identity where
130 f .@ x = Identity (runIdentity f (runIdentity x))
131 lam f = Identity (runIdentity Fun.. f Fun.. Identity)
132 lam1 = lam
133 var = Fun.id
134 instance Functionable Identity where
135 const = Identity Fun.const
136 flip = Identity Fun.flip
137 id = Identity Fun.id
138 ($) = Identity (Fun.$)
139 (.) = Identity (Fun..)
140 instance Constantable c Identity where
141 constant = Identity
142 instance Eitherable Identity where
143 left = Identity Either.Left
144 right = Identity Either.Right
145 instance Equalable Identity where
146 equal = Identity (Eq.==)
147 instance IfThenElseable Identity where
148 ifThenElse test ok ko = Identity
149 (if runIdentity test
150 then runIdentity ok
151 else runIdentity ko)
152 instance Listable Identity where
153 cons = Identity (:)
154 nil = Identity []
155 instance Maybeable Identity where
156 nothing = Identity Maybe.Nothing
157 just = Identity Maybe.Just
158
159 -- TH.CodeQ
160 instance Anythingable TH.CodeQ
161 instance Abstractable TH.CodeQ where
162 (.@) f x = [|| $$f $$x ||]
163 lam f = [|| \x -> $$(f [||x||]) ||]
164 lam1 = lam
165 var = Fun.id
166 instance Functionable TH.CodeQ where
167 id = [|| \x -> x ||]
168 const = [|| Fun.const ||]
169 flip = [|| \f x y -> f y x ||]
170 ($) = [|| (Fun.$) ||]
171 (.) = [|| (Fun..) ||]
172 instance TH.Lift c => Constantable c TH.CodeQ where
173 constant c = [|| c ||]
174 instance Eitherable TH.CodeQ where
175 left = [|| Either.Left ||]
176 right = [|| Either.Right ||]
177 instance Equalable TH.CodeQ where
178 equal = [|| (Eq.==) ||]
179 instance IfThenElseable TH.CodeQ where
180 ifThenElse test ok ko = [|| if $$test then $$ok else $$ko ||]
181 instance Listable TH.CodeQ where
182 cons = [|| (:) ||]
183 nil = [|| [] ||]
184 instance Maybeable TH.CodeQ where
185 nothing = [|| Maybe.Nothing ||]
186 just = [|| Maybe.Just ||]
187 instance Num a => Num (TH.CodeQ a) where
188 x + y = [|| $$x + $$y||]
189 x * y = [|| $$x * $$y||]
190 x - y = [|| $$x - $$y||]
191 abs x = [|| abs $$x ||]
192 fromInteger i = [|| fromInteger $$(TH.liftTyped i) ||]
193 negate x = [|| negate $$x ||]
194 signum x = [|| signum $$x ||]