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[haskell/symantic.git] / Language / Symantic / Compiling / Functor.hs
1 {-# LANGUAGE UndecidableInstances #-}
2 {-# OPTIONS_GHC -fno-warn-orphans #-}
3 -- | Symantic for 'Functor'.
4 module Language.Symantic.Compiling.Functor where
5
6 import Control.Monad (liftM2)
7 import qualified Data.Function as Fun
8 import Data.Functor (Functor)
9 import qualified Data.Functor as Functor
10 import Data.Proxy (Proxy(..))
11 import Data.Text (Text)
12 import Data.Type.Equality
13 import Prelude hiding (Functor(..))
14
15 import Language.Symantic.Parsing
16 import Language.Symantic.Typing
17 import Language.Symantic.Compiling.Term
18 import Language.Symantic.Interpreting
19 import Language.Symantic.Transforming.Trans
20
21 -- * Class 'Sym_Functor'
22 class Sym_Lambda term => Sym_Functor term where
23 fmap :: Functor f => term (a -> b) -> term (f a) -> term (f b)
24 default fmap
25 :: (Trans t term, Functor f)
26 => t term (a -> b)
27 -> t term (f a)
28 -> t term (f b)
29 fmap = trans_map2 fmap
30
31 (<$) :: Functor f => term a -> term (f b) -> term (f a)
32 (<$) a = fmap (lam (Fun.const a))
33
34 infixl 4 <$
35
36 type instance Sym_of_Iface (Proxy Functor) = Sym_Functor
37 type instance Consts_of_Iface (Proxy Functor) = Proxy Functor ': Consts_imported_by Functor
38 type instance Consts_imported_by Functor = '[]
39
40 instance Sym_Functor HostI where
41 fmap = liftM2 Functor.fmap
42 (<$) = liftM2 (Functor.<$)
43 instance Sym_Functor TextI where
44 fmap = textI2 "fmap"
45 (<$) = textI_infix "<$" (Precedence 4)
46 instance (Sym_Functor r1, Sym_Functor r2) => Sym_Functor (DupI r1 r2) where
47 fmap = dupI2 (Proxy @Sym_Functor) fmap
48 (<$) = dupI2 (Proxy @Sym_Functor) (<$)
49
50 -- | 'fmap' alias.
51 (<$>) :: (Sym_Functor term, Functor f)
52 => term (a -> b) -> term (f a) -> term (f b)
53 (<$>) = fmap
54 infixl 4 <$>
55
56 instance Const_from Text cs => Const_from Text (Proxy Functor ': cs) where
57 const_from "Functor" k = k (ConstZ kind)
58 const_from s k = const_from s $ k . ConstS
59 instance Show_Const cs => Show_Const (Proxy Functor ': cs) where
60 show_const ConstZ{} = "Functor"
61 show_const (ConstS c) = show_const c
62
63 instance Proj_ConC cs (Proxy Functor)
64 data instance TokenT meta (ts::[*]) (Proxy Functor)
65 = Token_Term_Functor_fmap (EToken meta ts) (EToken meta ts)
66 | Token_Term_Functor_ltdollar (EToken meta ts) (EToken meta ts)
67 deriving instance Eq_Token meta ts => Eq (TokenT meta ts (Proxy Functor))
68 deriving instance Show_Token meta ts => Show (TokenT meta ts (Proxy Functor))
69 instance -- CompileI
70 ( Inj_Const (Consts_of_Ifaces is) Functor
71 , Inj_Const (Consts_of_Ifaces is) (->)
72 , Proj_Con (Consts_of_Ifaces is)
73 , Compile is
74 ) => CompileI is (Proxy Functor) where
75 compileI tok ctx k =
76 case tok of
77 Token_Term_Functor_fmap tok_a2b tok_fa ->
78 -- fmap :: Functor f => (a -> b) -> f a -> f b
79 compileO tok_a2b ctx $ \ty_a2b (TermO a2b) ->
80 compileO tok_fa ctx $ \ty_fa (TermO fa) ->
81 check_type2 (ty @(->))
82 (At (Just tok_a2b) ty_a2b) $ \Refl ty_a2b_a ty_a2b_b ->
83 check_con1 (ty @Functor)
84 (At (Just tok_fa) ty_fa) $ \Refl Con ty_fa_f ty_fa_a ->
85 check_type
86 (At (Just tok_a2b) ty_a2b_a)
87 (At (Just tok_fa) ty_fa_a) $ \Refl ->
88 k (ty_fa_f :$ ty_a2b_b) $ TermO $
89 \c -> fmap (a2b c) (fa c)
90 Token_Term_Functor_ltdollar tok_a tok_fb ->
91 -- (<$) :: Functor f => a -> f b -> f a
92 compileO tok_a ctx $ \ty_a (TermO a) ->
93 compileO tok_fb ctx $ \ty_fb (TermO fb) ->
94 check_con1 (ty @Functor)
95 (At (Just tok_fb) ty_fb) $ \Refl Con ty_fb_f _ty_fb_b ->
96 k (ty_fb_f :$ ty_a) $ TermO $
97 \c -> (<$) (a c) (fb c)