1 {-# LANGUAGE UndecidableInstances #-}
2 {-# OPTIONS_GHC -fno-warn-orphans #-}
3 -- | Symantic for 'MonoFunctor'.
4 module Language.Symantic.Lib.MonoFunctor where
6 import Data.MonoTraversable (MonoFunctor)
7 import qualified Data.MonoTraversable as MT
9 import Language.Symantic
10 import Language.Symantic.Lib.Function ()
14 type instance Fam Element '[h] = MT.Element (UnProxy h)
15 instance ClassInstancesFor Element
16 instance TypeInstancesFor Element where
17 expandFamFor _c _len f (TyApp _ (TyApp _ z _ty_r) a `TypesS` TypesZ)
18 | Just HRefl <- proj_ConstKi @_ @Element f
19 , Just HRefl <- proj_ConstKiTy @_ @(->) z
21 expandFamFor _c _len _fam _as = Nothing
24 famElement :: Source src => Type src vs t -> Type src vs (MT.Element t)
25 famElement o = TyFam noSource (lenVars o) (inj_Const @Element) (o `TypesS` TypesZ)
27 -- * Class 'Sym_MonoFunctor'
28 type instance Sym (Proxy MonoFunctor) = Sym_MonoFunctor
29 class Sym_MonoFunctor term where
30 omap :: MonoFunctor o => term (MT.Element o -> MT.Element o) -> term o -> term o
32 :: Sym_MonoFunctor (UnT term)
35 => term (MT.Element o -> MT.Element o) -> term o -> term o
39 instance Sym_MonoFunctor Eval where
41 instance Sym_MonoFunctor View where
43 instance (Sym_MonoFunctor r1, Sym_MonoFunctor r2) => Sym_MonoFunctor (Dup r1 r2) where
44 omap = dup2 @Sym_MonoFunctor omap
47 instance (Sym_MonoFunctor term, Sym_Lambda term) => Sym_MonoFunctor (BetaT term)
50 instance FixityOf MonoFunctor
51 instance ClassInstancesFor MonoFunctor
52 instance TypeInstancesFor MonoFunctor
55 instance Gram_Term_AtomsFor src ss g MonoFunctor
56 instance (Source src, Inj_Sym ss MonoFunctor) => ModuleFor src ss MonoFunctor where
57 moduleFor _s = ["MonoFunctor"] `moduleWhere`
58 [ "omap" := teMonoFunctor_omap
62 tyMonoFunctor :: Source src => Type src vs a -> Type src vs (MonoFunctor a)
63 tyMonoFunctor a = tyConstLen @(K MonoFunctor) @MonoFunctor (lenVars a) `tyApp` a
65 o0 :: Source src => Inj_Len vs => Inj_Kind (K o) =>
66 Type src (Proxy o ': vs) o
69 e1 :: Source src => Inj_Len vs => Inj_Kind (K e) =>
70 Type src (a ': Proxy e ': vs) e
71 e1 = tyVar "e" $ VarS varZ
74 teMonoFunctor_omap :: TermDef MonoFunctor '[Proxy o, Proxy e] (MonoFunctor o # e #~ MT.Element o #> ((e -> e) -> o -> o))
75 teMonoFunctor_omap = Term (tyMonoFunctor o0 # e1 #~ famElement o0) ((e1 ~> e1) ~> o0 ~> o0) $ teSym @MonoFunctor $ lam2 omap