{-# LANGUAGE UndecidableInstances #-}
{-# OPTIONS_GHC -fno-warn-orphans #-}
-- | Symantic for 'Monoid'.
module Language.Symantic.Lib.Monoid where
import Control.Monad
import Data.Monoid (Monoid)
import Data.Proxy
import Data.Type.Equality ((:~:)(Refl))
import Prelude hiding (Monoid(..))
import qualified Data.Function as Fun
import qualified Data.Monoid as Monoid
import Language.Symantic.Parsing
import Language.Symantic.Typing
import Language.Symantic.Compiling
import Language.Symantic.Interpreting
import Language.Symantic.Transforming
import Language.Symantic.Lib.Lambda
-- * Class 'Sym_Monoid'
class Sym_Monoid term where
mempty :: Monoid a => term a
mappend :: Monoid a => term a -> term a -> term a
default mempty :: (Trans t term, Monoid a) => t term a
default mappend :: (Trans t term, Monoid a) => t term a -> t term a -> t term a
mempty = trans_lift mempty
mappend = trans_map2 mappend
type instance Sym_of_Iface (Proxy Monoid) = Sym_Monoid
type instance TyConsts_of_Iface (Proxy Monoid) = Proxy Monoid ': TyConsts_imported_by (Proxy Monoid)
type instance TyConsts_imported_by (Proxy Monoid) = '[]
instance Sym_Monoid HostI where
mempty = HostI Monoid.mempty
mappend = liftM2 Monoid.mappend
instance Sym_Monoid TextI where
mempty = textI0 "mempty"
mappend = textI2 "mappend"
instance (Sym_Monoid r1, Sym_Monoid r2) => Sym_Monoid (DupI r1 r2) where
mempty = dupI0 @Sym_Monoid mempty
mappend = dupI2 @Sym_Monoid mappend
instance
( Read_TyNameR TyName cs rs
, Inj_TyConst cs Monoid
) => Read_TyNameR TyName cs (Proxy Monoid ': rs) where
read_TyNameR _cs (TyName "Monoid") k = k (ty @Monoid)
read_TyNameR _rs raw k = read_TyNameR (Proxy @rs) raw k
instance Show_TyConst cs => Show_TyConst (Proxy Monoid ': cs) where
show_TyConst TyConstZ{} = "Monoid"
show_TyConst (TyConstS c) = show_TyConst c
instance Proj_TyConC cs (Proxy Monoid)
data instance TokenT meta (ts::[*]) (Proxy Monoid)
= Token_Term_Monoid_mempty (EToken meta '[Proxy Token_Type])
| Token_Term_Monoid_mappend (EToken meta ts)
deriving instance (Eq meta, Eq_Token meta ts) => Eq (TokenT meta ts (Proxy Monoid))
deriving instance (Show meta, Show_Token meta ts) => Show (TokenT meta ts (Proxy Monoid))
instance -- CompileI
( Read_TyName TyName cs
, Inj_TyConst cs Monoid
, Inj_TyConst cs (->)
, Proj_TyCon cs
, Compile cs is
) => CompileI cs is (Proxy Monoid) where
compileI tok ctx k =
case tok of
Token_Term_Monoid_mempty tok_ty_a ->
-- mempty :: Monoid a => a
compile_Type tok_ty_a $ \(ty_a::Type cs a) ->
check_Kind
(At Nothing SKiType)
(At (Just tok_ty_a) $ kind_of ty_a) $ \Refl ->
check_TyCon (At (Just tok_ty_a) (ty @Monoid :$ ty_a)) $ \TyCon ->
k ty_a $ Term $ Fun.const mempty
Token_Term_Monoid_mappend tok_a ->
-- mappend :: Monoid a => a -> a -> a
compile tok_a ctx $ \ty_a (Term x) ->
check_TyCon (At (Just tok_a) (ty @Monoid :$ ty_a)) $ \TyCon ->
k (ty_a ~> ty_a) $ Term $
\c -> lam $ \y -> mappend (x c) y
instance -- TokenizeT
Inj_Token meta ts Monoid =>
TokenizeT meta ts (Proxy Monoid) where
tokenizeT _t = Monoid.mempty
{ tokenizers_infix = tokenizeTMod []
[ (TeName "mempty",) ProTok_Term
{ protok_term = \meta -> ProTokPi $ \a ->
ProTokTe $ inj_EToken meta $ Token_Term_Monoid_mempty a
, protok_fixity = infixN5
}
, tokenize1 "mappend" infixN5 Token_Term_Monoid_mappend
]
}
instance Gram_Term_AtomsT meta ts (Proxy Monoid) g