{-# LANGUAGE CPP #-}
{-# LANGUAGE Rank2Types #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE DefaultSignatures #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE UndecidableInstances #-}
#if __GLASGOW_HASKELL__ >= 706
{-# LANGUAGE PolyKinds #-}
#endif
#ifdef TRUSTWORTHY
{-# LANGUAGE Trustworthy #-}
#endif
#if __GLASGOW_HASKELL__ >= 710
{-# LANGUAGE PatternSynonyms #-}
{-# LANGUAGE ViewPatterns #-}
#endif
{-# OPTIONS_GHC -fno-warn-warnings-deprecations #-}
#include "lens-common.h"
module Control.Lens.Wrapped
(
Wrapped(..)
, _Unwrapped'
, _Wrapping', _Unwrapping'
, Rewrapped, Rewrapping
, _Wrapped, _Unwrapped
, _Wrapping, _Unwrapping
, op
, ala, alaf
#if __GLASGOW_HASKELL__ >= 710
, pattern Wrapped
, pattern Unwrapped
#endif
, _GWrapped'
) where
#include "HsBaseConfig.h"
import qualified Control.Alternative.Free as Free
import qualified Control.Applicative as Applicative
import Control.Applicative hiding (WrappedArrow(..))
import Control.Applicative.Trans.Free
import Control.Arrow
import Control.Applicative.Backwards
import Control.Comonad.Trans.Cofree
import Control.Comonad.Trans.Coiter
import Control.Comonad.Trans.Traced
import Control.Exception
import Control.Lens.Getter
import Control.Lens.Internal.CTypes
import Control.Lens.Iso
#if __GLASGOW_HASKELL__ >= 710
import Control.Lens.Review
#endif
import Control.Monad.Catch.Pure
import Control.Monad.Trans.Cont
import Control.Monad.Trans.Error
import Control.Monad.Trans.Except
import Control.Monad.Trans.Free
import Control.Monad.Trans.Identity
import Control.Monad.Trans.Iter
import Control.Monad.Trans.List
import Control.Monad.Trans.Maybe
import Control.Monad.Trans.Reader
import qualified Control.Monad.Trans.RWS.Lazy as Lazy
import qualified Control.Monad.Trans.RWS.Strict as Strict
import qualified Control.Monad.Trans.State.Lazy as Lazy
import qualified Control.Monad.Trans.State.Strict as Strict
import qualified Control.Monad.Trans.Writer.Lazy as Lazy
import qualified Control.Monad.Trans.Writer.Strict as Strict
import Data.Bifunctor.Biff
import Data.Bifunctor.Clown
import Data.Bifunctor.Fix
import Data.Bifunctor.Flip
import Data.Bifunctor.Join
import Data.Bifunctor.Joker
import Data.Bifunctor.Tannen
import Data.Bifunctor.Wrapped
import Data.Foldable as Foldable
import Data.Functor.Bind
import Data.Functor.Compose
import Data.Functor.Contravariant
import qualified Data.Functor.Contravariant.Compose as Contravariant
import Data.Functor.Constant
import Data.Functor.Identity
import Data.Functor.Reverse
import Data.Hashable
import Data.IntSet as IntSet
import Data.IntMap as IntMap
import Data.HashSet as HashSet
import Data.HashMap.Lazy as HashMap
import Data.List.NonEmpty
import Data.Map as Map
import Data.Monoid
import qualified Data.Profunctor as Profunctor
import Data.Profunctor hiding (WrappedArrow(..))
import Data.Profunctor.Cayley
import qualified Data.Semigroup as S
import Data.Semigroupoid
import qualified Data.Semigroupoid.Dual as Semigroupoid
import Data.Semigroupoid.Static
import Data.Sequence as Seq hiding (length)
import Data.Set as Set
import Data.Tagged
import Data.Vector as Vector
import Data.Vector.Primitive as Prim
import Data.Vector.Unboxed as Unboxed
import Data.Vector.Storable as Storable
import Foreign.C.Error
import Foreign.C.Types
import qualified GHC.Generics as Generic
import GHC.Generics hiding (from, to)
import System.Posix.Types
#if MIN_VERSION_base(4,6,0)
import Data.Ord (Down(Down))
#else
import GHC.Exts (Down(Down))
#endif
#if MIN_VERSION_base(4,8,0)
import qualified Data.Monoid as Monoid
#endif
#ifdef HLINT
{-# ANN module "HLint: ignore Use uncurry" #-}
#endif
class Wrapped s where
type Unwrapped s :: *
type Unwrapped s = GUnwrapped (Rep s)
_Wrapped' :: Iso' s (Unwrapped s)
default _Wrapped' :: (Generic s, D1 d (C1 c (S1 s' (Rec0 a))) ~ Rep s, Unwrapped s ~ GUnwrapped (Rep s))
=> Iso' s (Unwrapped s)
_Wrapped' = _GWrapped'
{-# INLINE _Wrapped' #-}
_GWrapped' :: (Generic s, D1 d (C1 c (S1 s' (Rec0 a))) ~ Rep s, Unwrapped s ~ GUnwrapped (Rep s))
=> Iso' s (Unwrapped s)
_GWrapped' = iso Generic.from Generic.to . iso remitter reviewer
where
remitter (M1 (M1 (M1 (K1 x)))) = x
reviewer x = M1 (M1 (M1 (K1 x)))
{-# INLINE _GWrapped' #-}
type family GUnwrapped (rep :: * -> *) :: *
type instance GUnwrapped (D1 d (C1 c (S1 s (Rec0 a)))) = a
#if __GLASGOW_HASKELL__ >= 710
pattern Wrapped a <- (view _Wrapped -> a) where
Wrapped a = review _Wrapped a
pattern Unwrapped a <- (view _Unwrapped -> a) where
Unwrapped a = review _Unwrapped a
#endif
class Wrapped s => Rewrapped (s :: *) (t :: *)
class (Rewrapped s t, Rewrapped t s) => Rewrapping s t
instance (Rewrapped s t, Rewrapped t s) => Rewrapping s t
_Unwrapped' :: Wrapped s => Iso' (Unwrapped s) s
_Unwrapped' = from _Wrapped'
{-# INLINE _Unwrapped' #-}
_Wrapped :: Rewrapping s t => Iso s t (Unwrapped s) (Unwrapped t)
_Wrapped = withIso _Wrapped' $ \ sa _ -> withIso _Wrapped' $ \ _ bt -> iso sa bt
{-# INLINE _Wrapped #-}
_Unwrapped :: Rewrapping s t => Iso (Unwrapped t) (Unwrapped s) t s
_Unwrapped = from _Wrapped
{-# INLINE _Unwrapped #-}
instance (t ~ All) => Rewrapped All t
instance Wrapped All where
type Unwrapped All = Bool
_Wrapped' = iso getAll All
{-# INLINE _Wrapped' #-}
instance (t ~ Any) => Rewrapped Any t
instance Wrapped Any where
type Unwrapped Any = Bool
_Wrapped' = iso getAny Any
{-# INLINE _Wrapped' #-}
instance (t ~ Sum b) => Rewrapped (Sum a) t
instance Wrapped (Sum a) where
type Unwrapped (Sum a) = a
_Wrapped' = iso getSum Sum
{-# INLINE _Wrapped' #-}
instance (t ~ Product b) => Rewrapped (Product a) t
instance Wrapped (Product a) where
type Unwrapped (Product a) = a
_Wrapped' = iso getProduct Product
{-# INLINE _Wrapped' #-}
instance (t ~ Kleisli m' a' b') => Rewrapped (Kleisli m a b) t
instance Wrapped (Kleisli m a b) where
type Unwrapped (Kleisli m a b) = a -> m b
_Wrapped' = iso runKleisli Kleisli
{-# INLINE _Wrapped' #-}
instance (t ~ WrappedMonad m' a') => Rewrapped (WrappedMonad m a) t
instance Wrapped (WrappedMonad m a) where
type Unwrapped (WrappedMonad m a) = m a
_Wrapped' = iso unwrapMonad WrapMonad
{-# INLINE _Wrapped' #-}
instance (t ~ Applicative.WrappedArrow a' b' c') => Rewrapped (Applicative.WrappedArrow a b c) t
instance Wrapped (Applicative.WrappedArrow a b c) where
type Unwrapped (Applicative.WrappedArrow a b c) = a b c
_Wrapped' = iso Applicative.unwrapArrow Applicative.WrapArrow
{-# INLINE _Wrapped' #-}
instance (t ~ ZipList b) => Rewrapped (ZipList a) t
instance Wrapped (ZipList a) where
type Unwrapped (ZipList a) = [a]
_Wrapped' = iso getZipList ZipList
{-# INLINE _Wrapped' #-}
instance (t ~ NonEmpty b) => Rewrapped (NonEmpty a) t
instance Wrapped (NonEmpty a) where
type Unwrapped (NonEmpty a) = (a, [a])
_Wrapped' = iso (\(a :| as) -> (a, as)) (\(a,as) -> a :| as)
{-# INLINE _Wrapped' #-}
instance (t ~ Const a' x') => Rewrapped (Const a x) t
instance Wrapped (Const a x) where
type Unwrapped (Const a x) = a
_Wrapped' = iso getConst Const
{-# INLINE _Wrapped' #-}
instance (t ~ Dual b) => Rewrapped (Dual a) t
instance Wrapped (Dual a) where
type Unwrapped (Dual a) = a
_Wrapped' = iso getDual Dual
{-# INLINE _Wrapped' #-}
instance (t ~ Endo b) => Rewrapped (Endo a) t
instance Wrapped (Endo a) where
type Unwrapped (Endo a) = a -> a
_Wrapped' = iso appEndo Endo
{-# INLINE _Wrapped' #-}
instance (t ~ First b) => Rewrapped (First a) t
instance Wrapped (First a) where
type Unwrapped (First a) = Maybe a
_Wrapped' = iso getFirst First
{-# INLINE _Wrapped' #-}
instance (t ~ Last b) => Rewrapped (Last a) t
instance Wrapped (Last a) where
type Unwrapped (Last a) = Maybe a
_Wrapped' = iso getLast Last
{-# INLINE _Wrapped' #-}
#if MIN_VERSION_base(4,8,0)
instance (t ~ Monoid.Alt g b) => Rewrapped (Monoid.Alt f a) t
instance Wrapped (Monoid.Alt f a) where
type Unwrapped (Monoid.Alt f a) = f a
_Wrapped' = iso Monoid.getAlt Monoid.Alt
{-# INLINE _Wrapped' #-}
#endif
#if MIN_VERSION_base(4,12,0)
instance (t ~ Monoid.Ap g b) => Rewrapped (Monoid.Ap f a) t
instance Wrapped (Monoid.Ap f a) where
type Unwrapped (Monoid.Ap f a) = f a
_Wrapped' = iso Monoid.getAp Monoid.Ap
{-# INLINE _Wrapped' #-}
#endif
instance t ~ ArrowMonad m' a' => Rewrapped (ArrowMonad m a) t
instance Wrapped (ArrowMonad m a) where
type Unwrapped (ArrowMonad m a) = m () a
_Wrapped' = iso getArrowMonad ArrowMonad
{-# INLINE _Wrapped' #-}
instance t ~ Down b => Rewrapped (Down a) t
instance Wrapped (Down a) where
type Unwrapped (Down a) = a
_Wrapped' = iso (\(Down a) -> a) Down
{-# INLINE _Wrapped' #-}
instance Rewrapped Errno t
instance Wrapped Errno where
type Unwrapped Errno = CInt
_Wrapped' = iso (\(Errno x) -> x) Errno
{-# INLINE _Wrapped' #-}
getArrowMonad :: ArrowMonad m a -> m () a
getArrowMonad (ArrowMonad x) = x
{-# INLINE getArrowMonad #-}
instance (t ~ Backwards g b) => Rewrapped (Backwards f a) t
instance Wrapped (Backwards f a) where
type Unwrapped (Backwards f a) = f a
_Wrapped' = iso forwards Backwards
instance (t ~ Compose f' g' a') => Rewrapped (Compose f g a) t
instance Wrapped (Compose f g a) where
type Unwrapped (Compose f g a) = f (g a)
_Wrapped' = iso getCompose Compose
instance (t ~ Constant a' b') => Rewrapped (Constant a b) t
instance Wrapped (Constant a b) where
type Unwrapped (Constant a b) = a
_Wrapped' = iso getConstant Constant
instance (t ~ ContT r' m' a') => Rewrapped (ContT r m a) t
instance Wrapped (ContT r m a) where
type Unwrapped (ContT r m a) = (a -> m r) -> m r
_Wrapped' = iso runContT ContT
instance (t ~ ErrorT e' m' a') => Rewrapped (ErrorT e m a) t
instance Wrapped (ErrorT e m a) where
type Unwrapped (ErrorT e m a) = m (Either e a)
_Wrapped' = iso runErrorT ErrorT
{-# INLINE _Wrapped' #-}
instance (t ~ ExceptT e' m' a') => Rewrapped (ExceptT e m a) t
instance Wrapped (ExceptT e m a) where
type Unwrapped (ExceptT e m a) = m (Either e a)
_Wrapped' = iso runExceptT ExceptT
{-# INLINE _Wrapped' #-}
instance (t ~ Identity b) => Rewrapped (Identity a) t
instance Wrapped (Identity a) where
type Unwrapped (Identity a) = a
_Wrapped' = iso runIdentity Identity
{-# INLINE _Wrapped' #-}
instance (t ~ IdentityT n b) => Rewrapped (IdentityT m a) t
instance Wrapped (IdentityT m a) where
type Unwrapped (IdentityT m a) = m a
_Wrapped' = iso runIdentityT IdentityT
{-# INLINE _Wrapped' #-}
instance (t ~ ListT n b) => Rewrapped (ListT m a) t
instance Wrapped (ListT m a) where
type Unwrapped (ListT m a) = m [a]
_Wrapped' = iso runListT ListT
{-# INLINE _Wrapped' #-}
instance (t ~ MaybeT n b) => Rewrapped (MaybeT m a) t
instance Wrapped (MaybeT m a) where
type Unwrapped (MaybeT m a) = m (Maybe a)
_Wrapped' = iso runMaybeT MaybeT
{-# INLINE _Wrapped' #-}
instance (t ~ ReaderT s n b) => Rewrapped (ReaderT r m a) t
instance Wrapped (ReaderT r m a) where
type Unwrapped (ReaderT r m a) = r -> m a
_Wrapped' = iso runReaderT ReaderT
{-# INLINE _Wrapped' #-}
instance (t ~ Reverse g b) => Rewrapped (Reverse f a) t
instance Wrapped (Reverse f a) where
type Unwrapped (Reverse f a) = f a
_Wrapped' = iso getReverse Reverse
{-# INLINE _Wrapped' #-}
instance (t ~ Lazy.RWST r' w' s' m' a') => Rewrapped (Lazy.RWST r w s m a) t
instance Wrapped (Lazy.RWST r w s m a) where
type Unwrapped (Lazy.RWST r w s m a) = r -> s -> m (a, s, w)
_Wrapped' = iso Lazy.runRWST Lazy.RWST
{-# INLINE _Wrapped' #-}
instance (t ~ Strict.RWST r' w' s' m' a') => Rewrapped (Strict.RWST r w s m a) t
instance Wrapped (Strict.RWST r w s m a) where
type Unwrapped (Strict.RWST r w s m a) = r -> s -> m (a, s, w)
_Wrapped' = iso Strict.runRWST Strict.RWST
{-# INLINE _Wrapped' #-}
instance (t ~ Lazy.StateT s' m' a') => Rewrapped (Lazy.StateT s m a) t
instance Wrapped (Lazy.StateT s m a) where
type Unwrapped (Lazy.StateT s m a) = s -> m (a, s)
_Wrapped' = iso Lazy.runStateT Lazy.StateT
{-# INLINE _Wrapped' #-}
instance (t ~ Strict.StateT s' m' a') => Rewrapped (Strict.StateT s m a) t
instance Wrapped (Strict.StateT s m a) where
type Unwrapped (Strict.StateT s m a) = s -> m (a, s)
_Wrapped' = iso Strict.runStateT Strict.StateT
{-# INLINE _Wrapped' #-}
instance (t ~ Lazy.WriterT w' m' a') => Rewrapped (Lazy.WriterT w m a) t
instance Wrapped (Lazy.WriterT w m a) where
type Unwrapped (Lazy.WriterT w m a) = m (a, w)
_Wrapped' = iso Lazy.runWriterT Lazy.WriterT
{-# INLINE _Wrapped' #-}
instance (t ~ Strict.WriterT w' m' a') => Rewrapped (Strict.WriterT w m a) t
instance Wrapped (Strict.WriterT w m a) where
type Unwrapped (Strict.WriterT w m a) = m (a, w)
_Wrapped' = iso Strict.runWriterT Strict.WriterT
{-# INLINE _Wrapped' #-}
instance (t ~ Biff p' f' g' a' b') => Rewrapped (Biff p f g a b) t
instance Wrapped (Biff p f g a b) where
type Unwrapped (Biff p f g a b) = p (f a) (g b)
_Wrapped' = iso runBiff Biff
{-# INLINE _Wrapped' #-}
instance (t ~ Clown f' a' b') => Rewrapped (Clown f a b) t
instance Wrapped (Clown f a b) where
type Unwrapped (Clown f a b) = f a
_Wrapped' = iso runClown Clown
{-# INLINE _Wrapped' #-}
instance (t ~ Fix p' a') => Rewrapped (Fix p a) t
instance Wrapped (Fix p a) where
type Unwrapped (Fix p a) = p (Fix p a) a
_Wrapped' = iso out In
{-# INLINE _Wrapped' #-}
instance (t ~ Flip p' a' b') => Rewrapped (Flip p a b) t
instance Wrapped (Flip p a b) where
type Unwrapped (Flip p a b) = p b a
_Wrapped' = iso runFlip Flip
{-# INLINE _Wrapped' #-}
instance (t ~ Join p' a') => Rewrapped (Join p a) t
instance Wrapped (Join p a) where
type Unwrapped (Join p a) = p a a
_Wrapped' = iso runJoin Join
{-# INLINE _Wrapped' #-}
instance (t ~ Joker g' a' b') => Rewrapped (Joker g a b) t
instance Wrapped (Joker g a b) where
type Unwrapped (Joker g a b) = g b
_Wrapped' = iso runJoker Joker
{-# INLINE _Wrapped' #-}
instance (t ~ Tannen f' p' a' b') => Rewrapped (Tannen f p a b) t
instance Wrapped (Tannen f p a b) where
type Unwrapped (Tannen f p a b) = f (p a b)
_Wrapped' = iso runTannen Tannen
{-# INLINE _Wrapped' #-}
instance (t ~ WrappedBifunctor p' a' b') => Rewrapped (WrappedBifunctor p a b) t
instance Wrapped (WrappedBifunctor p a b) where
type Unwrapped (WrappedBifunctor p a b) = p a b
_Wrapped' = iso unwrapBifunctor WrapBifunctor
{-# INLINE _Wrapped' #-}
instance (t ~ TracedT m' w' a') => Rewrapped (TracedT m w a) t
instance Wrapped (TracedT m w a) where
type Unwrapped (TracedT m w a) = w (m -> a)
_Wrapped' = iso runTracedT TracedT
{-# INLINE _Wrapped' #-}
instance (t ~ CatchT m' a') => Rewrapped (CatchT m a) t
instance Wrapped (CatchT m a) where
type Unwrapped (CatchT m a) = m (Either SomeException a)
_Wrapped' = iso runCatchT CatchT
{-# INLINE _Wrapped' #-}
instance (t ~ Free.Alt f' a') => Rewrapped (Free.Alt f a) t
instance Wrapped (Free.Alt f a) where
type Unwrapped (Free.Alt f a) = [Free.AltF f a]
_Wrapped' = iso Free.alternatives Free.Alt
{-# INLINE _Wrapped' #-}
instance (t ~ ApT f' g' a') => Rewrapped (ApT f g a) t
instance Wrapped (ApT f g a) where
type Unwrapped (ApT f g a) = g (ApF f g a)
_Wrapped' = iso getApT ApT
{-# INLINE _Wrapped' #-}
instance (t ~ CofreeT f' w' a') => Rewrapped (CofreeT f w a) t
instance Wrapped (CofreeT f w a) where
type Unwrapped (CofreeT f w a) = w (CofreeF f a (CofreeT f w a))
_Wrapped' = iso runCofreeT CofreeT
{-# INLINE _Wrapped' #-}
instance (t ~ CoiterT w' a') => Rewrapped (CoiterT w a) t
instance Wrapped (CoiterT w a) where
type Unwrapped (CoiterT w a) = w (a, CoiterT w a)
_Wrapped' = iso runCoiterT CoiterT
{-# INLINE _Wrapped' #-}
instance (t ~ FreeT f' m' a') => Rewrapped (FreeT f m a) t
instance Wrapped (FreeT f m a) where
type Unwrapped (FreeT f m a) = m (FreeF f a (FreeT f m a))
_Wrapped' = iso runFreeT FreeT
{-# INLINE _Wrapped' #-}
instance (t ~ IterT m' a') => Rewrapped (IterT m a) t
instance Wrapped (IterT m a) where
type Unwrapped (IterT m a) = m (Either a (IterT m a))
_Wrapped' = iso runIterT IterT
{-# INLINE _Wrapped' #-}
instance (t ~ HashMap k' a', Hashable k, Eq k) => Rewrapped (HashMap k a) t
instance (Hashable k, Eq k) => Wrapped (HashMap k a) where
type Unwrapped (HashMap k a) = [(k, a)]
_Wrapped' = iso HashMap.toList HashMap.fromList
{-# INLINE _Wrapped' #-}
instance (t ~ HashSet a', Hashable a, Eq a) => Rewrapped (HashSet a) t
instance (Hashable a, Eq a) => Wrapped (HashSet a) where
type Unwrapped (HashSet a) = [a]
_Wrapped' = iso HashSet.toList HashSet.fromList
{-# INLINE _Wrapped' #-}
instance (t ~ IntMap a') => Rewrapped (IntMap a) t
instance Wrapped (IntMap a) where
type Unwrapped (IntMap a) = [(Int, a)]
_Wrapped' = iso IntMap.toAscList IntMap.fromList
{-# INLINE _Wrapped' #-}
instance (t ~ IntSet) => Rewrapped IntSet t
instance Wrapped IntSet where
type Unwrapped IntSet = [Int]
_Wrapped' = iso IntSet.toAscList IntSet.fromList
{-# INLINE _Wrapped' #-}
instance (t ~ Map k' a', Ord k) => Rewrapped (Map k a) t
instance Ord k => Wrapped (Map k a) where
type Unwrapped (Map k a) = [(k, a)]
_Wrapped' = iso Map.toAscList Map.fromList
{-# INLINE _Wrapped' #-}
instance (t ~ Set a', Ord a) => Rewrapped (Set a) t
instance Ord a => Wrapped (Set a) where
type Unwrapped (Set a) = [a]
_Wrapped' = iso Set.toAscList Set.fromList
{-# INLINE _Wrapped' #-}
instance (t ~ Seq a') => Rewrapped (Seq a) t
instance Wrapped (Seq a) where
type Unwrapped (Seq a) = [a]
_Wrapped' = iso Foldable.toList Seq.fromList
{-# INLINE _Wrapped' #-}
instance (t ~ Star f' d' c') => Rewrapped (Star f d c) t
instance Wrapped (Star f d c) where
type Unwrapped (Star f d c) = d -> f c
_Wrapped' = iso runStar Star
{-# INLINE _Wrapped' #-}
instance (t ~ Costar f' d' c') => Rewrapped (Costar f d c) t
instance Wrapped (Costar f d c) where
type Unwrapped (Costar f d c) = f d -> c
_Wrapped' = iso runCostar Costar
{-# INLINE _Wrapped' #-}
instance (t ~ Profunctor.WrappedArrow p' a' b') => Rewrapped (Profunctor.WrappedArrow p a b) t
instance Wrapped (Profunctor.WrappedArrow p a b) where
type Unwrapped (Profunctor.WrappedArrow p a b) = p a b
_Wrapped' = iso Profunctor.unwrapArrow Profunctor.WrapArrow
{-# INLINE _Wrapped' #-}
instance (t ~ Forget r' a' b') => Rewrapped (Forget r a b) t
instance Wrapped (Forget r a b) where
type Unwrapped (Forget r a b) = a -> r
_Wrapped' = iso runForget Forget
{-# INLINE _Wrapped' #-}
instance (t ~ Cayley f' p' a' b') => Rewrapped (Cayley f p a b) t
instance Wrapped (Cayley f p a b) where
type Unwrapped (Cayley f p a b) = f (p a b)
_Wrapped' = iso runCayley Cayley
{-# INLINE _Wrapped' #-}
instance (t ~ Vector.Vector a') => Rewrapped (Vector.Vector a) t
instance Wrapped (Vector.Vector a) where
type Unwrapped (Vector.Vector a) = [a]
_Wrapped' = iso Vector.toList Vector.fromList
{-# INLINE _Wrapped' #-}
instance (Prim a, t ~ Prim.Vector a') => Rewrapped (Prim.Vector a) t
instance Prim a => Wrapped (Prim.Vector a) where
type Unwrapped (Prim.Vector a) = [a]
_Wrapped' = iso Prim.toList Prim.fromList
{-# INLINE _Wrapped' #-}
instance (Unbox a, t ~ Unboxed.Vector a') => Rewrapped (Unboxed.Vector a) t
instance Unbox a => Wrapped (Unboxed.Vector a) where
type Unwrapped (Unboxed.Vector a) = [a]
_Wrapped' = iso Unboxed.toList Unboxed.fromList
{-# INLINE _Wrapped' #-}
instance (Storable a, t ~ Storable.Vector a') => Rewrapped (Storable.Vector a) t
instance Storable a => Wrapped (Storable.Vector a) where
type Unwrapped (Storable.Vector a) = [a]
_Wrapped' = iso Storable.toList Storable.fromList
{-# INLINE _Wrapped' #-}
instance (t ~ WrappedApplicative f' a') => Rewrapped (WrappedApplicative f a) t
instance Wrapped (WrappedApplicative f a) where
type Unwrapped (WrappedApplicative f a) = f a
_Wrapped' = iso unwrapApplicative WrapApplicative
{-# INLINE _Wrapped' #-}
instance (t ~ MaybeApply f' a') => Rewrapped (MaybeApply f a) t
instance Wrapped (MaybeApply f a) where
type Unwrapped (MaybeApply f a) = Either (f a) a
_Wrapped' = iso runMaybeApply MaybeApply
{-# INLINE _Wrapped' #-}
instance (t ~ WrappedCategory k' a' b') => Rewrapped (WrappedCategory k a b) t
instance Wrapped (WrappedCategory k a b) where
type Unwrapped (WrappedCategory k a b) = k a b
_Wrapped' = iso unwrapCategory WrapCategory
{-# INLINE _Wrapped' #-}
instance (t ~ Semi m' a' b') => Rewrapped (Semi m a b) t
instance Wrapped (Semi m a b) where
type Unwrapped (Semi m a b) = m
_Wrapped' = iso getSemi Semi
{-# INLINE _Wrapped' #-}
instance (t ~ Semigroupoid.Dual k' a' b') => Rewrapped (Semigroupoid.Dual k a b) t
instance Wrapped (Semigroupoid.Dual k a b) where
type Unwrapped (Semigroupoid.Dual k a b) = k b a
_Wrapped' = iso Semigroupoid.getDual Semigroupoid.Dual
{-# INLINE _Wrapped' #-}
instance (t ~ Static f' a' b') => Rewrapped (Static f a b) t
instance Wrapped (Static f a b) where
type Unwrapped (Static f a b) = f (a -> b)
_Wrapped' = iso runStatic Static
{-# INLINE _Wrapped' #-}
instance (t ~ S.Min b) => Rewrapped (S.Min a) t
instance Wrapped (S.Min a) where
type Unwrapped (S.Min a) = a
_Wrapped' = iso S.getMin S.Min
{-# INLINE _Wrapped' #-}
instance (t ~ S.Max b) => Rewrapped (S.Max a) t
instance Wrapped (S.Max a) where
type Unwrapped (S.Max a) = a
_Wrapped' = iso S.getMax S.Max
{-# INLINE _Wrapped' #-}
instance (t ~ S.First b) => Rewrapped (S.First a) t
instance Wrapped (S.First a) where
type Unwrapped (S.First a) = a
_Wrapped' = iso S.getFirst S.First
{-# INLINE _Wrapped' #-}
instance (t ~ S.Last b) => Rewrapped (S.Last a) t
instance Wrapped (S.Last a) where
type Unwrapped (S.Last a) = a
_Wrapped' = iso S.getLast S.Last
{-# INLINE _Wrapped' #-}
instance (t ~ S.WrappedMonoid b) => Rewrapped (S.WrappedMonoid a) t
instance Wrapped (S.WrappedMonoid a) where
type Unwrapped (S.WrappedMonoid a) = a
_Wrapped' = iso S.unwrapMonoid S.WrapMonoid
{-# INLINE _Wrapped' #-}
instance (t ~ S.Option b) => Rewrapped (S.Option a) t
instance Wrapped (S.Option a) where
type Unwrapped (S.Option a) = Maybe a
_Wrapped' = iso S.getOption S.Option
{-# INLINE _Wrapped' #-}
instance (t ~ Predicate b) => Rewrapped (Predicate a) t
instance Wrapped (Predicate a) where
type Unwrapped (Predicate a) = a -> Bool
_Wrapped' = iso getPredicate Predicate
{-# INLINE _Wrapped' #-}
instance (t ~ Comparison b) => Rewrapped (Comparison a) t
instance Wrapped (Comparison a) where
type Unwrapped (Comparison a) = a -> a -> Ordering
_Wrapped' = iso getComparison Comparison
{-# INLINE _Wrapped' #-}
instance (t ~ Equivalence b) => Rewrapped (Equivalence a) t
instance Wrapped (Equivalence a) where
type Unwrapped (Equivalence a) = a -> a -> Bool
_Wrapped' = iso getEquivalence Equivalence
{-# INLINE _Wrapped' #-}
instance (t ~ Op a' b') => Rewrapped (Op a b) t
instance Wrapped (Op a b) where
type Unwrapped (Op a b) = b -> a
_Wrapped' = iso getOp Op
{-# INLINE _Wrapped' #-}
instance (t ~ Contravariant.Compose f' g' a') => Rewrapped (Contravariant.Compose f g a) t
instance Wrapped (Contravariant.Compose f g a) where
type Unwrapped (Contravariant.Compose f g a) = f (g a)
_Wrapped' = iso Contravariant.getCompose Contravariant.Compose
{-# INLINE _Wrapped' #-}
instance (t ~ Contravariant.ComposeFC f' g' a') => Rewrapped (Contravariant.ComposeFC f g a) t
instance Wrapped (Contravariant.ComposeFC f g a) where
type Unwrapped (Contravariant.ComposeFC f g a) = f (g a)
_Wrapped' = iso Contravariant.getComposeFC Contravariant.ComposeFC
{-# INLINE _Wrapped' #-}
instance (t ~ Contravariant.ComposeCF f' g' a') => Rewrapped (Contravariant.ComposeCF f g a) t
instance Wrapped (Contravariant.ComposeCF f g a) where
type Unwrapped (Contravariant.ComposeCF f g a) = f (g a)
_Wrapped' = iso Contravariant.getComposeCF Contravariant.ComposeCF
{-# INLINE _Wrapped' #-}
instance (t ~ Tagged s' a') => Rewrapped (Tagged s a) t
instance Wrapped (Tagged s a) where
type Unwrapped (Tagged s a) = a
_Wrapped' = iso unTagged Tagged
{-# INLINE _Wrapped' #-}
instance (t ~ AssertionFailed) => Rewrapped AssertionFailed t
instance Wrapped AssertionFailed where
type Unwrapped AssertionFailed = String
_Wrapped' = iso failedAssertion AssertionFailed
{-# INLINE _Wrapped' #-}
instance (t ~ NoMethodError) => Rewrapped NoMethodError t
instance Wrapped NoMethodError where
type Unwrapped NoMethodError = String
_Wrapped' = iso getNoMethodError NoMethodError
{-# INLINE _Wrapped' #-}
instance (t ~ PatternMatchFail) => Rewrapped PatternMatchFail t
instance Wrapped PatternMatchFail where
type Unwrapped PatternMatchFail = String
_Wrapped' = iso getPatternMatchFail PatternMatchFail
{-# INLINE _Wrapped' #-}
instance (t ~ RecConError) => Rewrapped RecConError t
instance Wrapped RecConError where
type Unwrapped RecConError = String
_Wrapped' = iso getRecConError RecConError
{-# INLINE _Wrapped' #-}
instance (t ~ RecSelError) => Rewrapped RecSelError t
instance Wrapped RecSelError where
type Unwrapped RecSelError = String
_Wrapped' = iso getRecSelError RecSelError
{-# INLINE _Wrapped' #-}
instance (t ~ RecUpdError) => Rewrapped RecUpdError t
instance Wrapped RecUpdError where
type Unwrapped RecUpdError = String
_Wrapped' = iso getRecUpdError RecUpdError
{-# INLINE _Wrapped' #-}
instance (t ~ ErrorCall) => Rewrapped ErrorCall t
instance Wrapped ErrorCall where
type Unwrapped ErrorCall = String
_Wrapped' = iso getErrorCall ErrorCall
{-# INLINE _Wrapped' #-}
#if MIN_VERSION_base(4,9,0)
instance (t ~ TypeError) => Rewrapped TypeError t
instance Wrapped TypeError where
type Unwrapped TypeError = String
_Wrapped' = iso getTypeError TypeError
{-# INLINE _Wrapped' #-}
getTypeError :: TypeError -> String
getTypeError (TypeError x) = x
{-# INLINE getTypeError #-}
#endif
#if MIN_VERSION_base(4,10,0)
instance (t ~ CompactionFailed) => Rewrapped CompactionFailed t
instance Wrapped CompactionFailed where
type Unwrapped CompactionFailed = String
_Wrapped' = iso getCompactionFailed CompactionFailed
{-# INLINE _Wrapped' #-}
getCompactionFailed :: CompactionFailed -> String
getCompactionFailed (CompactionFailed x) = x
{-# INLINE getCompactionFailed #-}
#endif
getErrorCall :: ErrorCall -> String
#if __GLASGOW_HASKELL__ < 800
getErrorCall (ErrorCall x) = x
#else
getErrorCall (ErrorCallWithLocation x _) = x
#endif
{-# INLINE getErrorCall #-}
getRecUpdError :: RecUpdError -> String
getRecUpdError (RecUpdError x) = x
{-# INLINE getRecUpdError #-}
getRecSelError :: RecSelError -> String
getRecSelError (RecSelError x) = x
{-# INLINE getRecSelError #-}
getRecConError :: RecConError -> String
getRecConError (RecConError x) = x
{-# INLINE getRecConError #-}
getPatternMatchFail :: PatternMatchFail -> String
getPatternMatchFail (PatternMatchFail x) = x
{-# INLINE getPatternMatchFail #-}
getNoMethodError :: NoMethodError -> String
getNoMethodError (NoMethodError x) = x
{-# INLINE getNoMethodError #-}
failedAssertion :: AssertionFailed -> String
failedAssertion (AssertionFailed x) = x
{-# INLINE failedAssertion #-}
instance Rewrapped CChar t
instance Wrapped CChar where
type Unwrapped CChar = HTYPE_CHAR
_Wrapped' = iso (\(CChar x) -> x) CChar
{-# INLINE _Wrapped' #-}
instance Rewrapped CSChar t
instance Wrapped CSChar where
type Unwrapped CSChar = HTYPE_SIGNED_CHAR
_Wrapped' = iso (\(CSChar x) -> x) CSChar
{-# INLINE _Wrapped' #-}
instance Rewrapped CUChar t
instance Wrapped CUChar where
type Unwrapped CUChar = HTYPE_UNSIGNED_CHAR
_Wrapped' = iso (\(CUChar x) -> x) CUChar
{-# INLINE _Wrapped' #-}
instance Rewrapped CShort t
instance Wrapped CShort where
type Unwrapped CShort = HTYPE_SHORT
_Wrapped' = iso (\(CShort x) -> x) CShort
{-# INLINE _Wrapped' #-}
instance Rewrapped CUShort t
instance Wrapped CUShort where
type Unwrapped CUShort = HTYPE_UNSIGNED_SHORT
_Wrapped' = iso (\(CUShort x) -> x) CUShort
{-# INLINE _Wrapped' #-}
instance Rewrapped CInt t
instance Wrapped CInt where
type Unwrapped CInt = HTYPE_INT
_Wrapped' = iso (\(CInt x) -> x) CInt
{-# INLINE _Wrapped' #-}
instance Rewrapped CUInt t
instance Wrapped CUInt where
type Unwrapped CUInt = HTYPE_UNSIGNED_INT
_Wrapped' = iso (\(CUInt x) -> x) CUInt
{-# INLINE _Wrapped' #-}
instance Rewrapped CLong t
instance Wrapped CLong where
type Unwrapped CLong = HTYPE_LONG
_Wrapped' = iso (\(CLong x) -> x) CLong
{-# INLINE _Wrapped' #-}
instance Rewrapped CULong t
instance Wrapped CULong where
type Unwrapped CULong = HTYPE_UNSIGNED_LONG
_Wrapped' = iso (\(CULong x) -> x) CULong
{-# INLINE _Wrapped' #-}
instance Rewrapped CLLong t
instance Wrapped CLLong where
type Unwrapped CLLong = HTYPE_LONG_LONG
_Wrapped' = iso (\(CLLong x) -> x) CLLong
{-# INLINE _Wrapped' #-}
instance Rewrapped CULLong t
instance Wrapped CULLong where
type Unwrapped CULLong = HTYPE_UNSIGNED_LONG_LONG
_Wrapped' = iso (\(CULLong x) -> x) CULLong
{-# INLINE _Wrapped' #-}
instance Rewrapped CFloat t
instance Wrapped CFloat where
type Unwrapped CFloat = HTYPE_FLOAT
_Wrapped' = iso (\(CFloat x) -> x) CFloat
{-# INLINE _Wrapped' #-}
instance Rewrapped CDouble t
instance Wrapped CDouble where
type Unwrapped CDouble = HTYPE_DOUBLE
_Wrapped' = iso (\(CDouble x) -> x) CDouble
{-# INLINE _Wrapped' #-}
instance Rewrapped CPtrdiff t
instance Wrapped CPtrdiff where
type Unwrapped CPtrdiff = HTYPE_PTRDIFF_T
_Wrapped' = iso (\(CPtrdiff x) -> x) CPtrdiff
{-# INLINE _Wrapped' #-}
instance Rewrapped CSize t
instance Wrapped CSize where
type Unwrapped CSize = HTYPE_SIZE_T
_Wrapped' = iso (\(CSize x) -> x) CSize
{-# INLINE _Wrapped' #-}
instance Rewrapped CWchar t
instance Wrapped CWchar where
type Unwrapped CWchar = HTYPE_WCHAR_T
_Wrapped' = iso (\(CWchar x) -> x) CWchar
{-# INLINE _Wrapped' #-}
instance Rewrapped CSigAtomic t
instance Wrapped CSigAtomic where
type Unwrapped CSigAtomic = HTYPE_SIG_ATOMIC_T
_Wrapped' = iso (\(CSigAtomic x) -> x) CSigAtomic
{-# INLINE _Wrapped' #-}
instance Rewrapped CClock t
instance Wrapped CClock where
type Unwrapped CClock = HTYPE_CLOCK_T
_Wrapped' = iso (\(CClock x) -> x) CClock
{-# INLINE _Wrapped' #-}
instance Rewrapped CTime t
instance Wrapped CTime where
type Unwrapped CTime = HTYPE_TIME_T
_Wrapped' = iso (\(CTime x) -> x) CTime
{-# INLINE _Wrapped' #-}
instance Rewrapped CUSeconds t
instance Wrapped CUSeconds where
type Unwrapped CUSeconds = HTYPE_USECONDS_T
_Wrapped' = iso (\(CUSeconds x) -> x) CUSeconds
{-# INLINE _Wrapped' #-}
instance Rewrapped CSUSeconds t
instance Wrapped CSUSeconds where
type Unwrapped CSUSeconds = HTYPE_SUSECONDS_T
_Wrapped' = iso (\(CSUSeconds x) -> x) CSUSeconds
{-# INLINE _Wrapped' #-}
instance Rewrapped CIntPtr t
instance Wrapped CIntPtr where
type Unwrapped CIntPtr = HTYPE_INTPTR_T
_Wrapped' = iso (\(CIntPtr x) -> x) CIntPtr
{-# INLINE _Wrapped' #-}
instance Rewrapped CUIntPtr t
instance Wrapped CUIntPtr where
type Unwrapped CUIntPtr = HTYPE_UINTPTR_T
_Wrapped' = iso (\(CUIntPtr x) -> x) CUIntPtr
{-# INLINE _Wrapped' #-}
instance Rewrapped CIntMax t
instance Wrapped CIntMax where
type Unwrapped CIntMax = HTYPE_INTMAX_T
_Wrapped' = iso (\(CIntMax x) -> x) CIntMax
{-# INLINE _Wrapped' #-}
instance Rewrapped CUIntMax t
instance Wrapped CUIntMax where
type Unwrapped CUIntMax = HTYPE_UINTMAX_T
_Wrapped' = iso (\(CUIntMax x) -> x) CUIntMax
{-# INLINE _Wrapped' #-}
instance (t ~ Par1 p') => Rewrapped (Par1 p) t
instance Wrapped (Par1 p) where
type Unwrapped (Par1 p) = p
_Wrapped' = iso unPar1 Par1
{-# INLINE _Wrapped' #-}
instance (t ~ Rec1 f' p') => Rewrapped (Rec1 f p) t
instance Wrapped (Rec1 f p) where
type Unwrapped (Rec1 f p) = f p
_Wrapped' = iso unRec1 Rec1
{-# INLINE _Wrapped' #-}
instance (t ~ K1 i' c' p') => Rewrapped (K1 i c p) t
instance Wrapped (K1 i c p) where
type Unwrapped (K1 i c p) = c
_Wrapped' = iso unK1 K1
{-# INLINE _Wrapped' #-}
instance (t ~ M1 i' c' f' p') => Rewrapped (M1 i c f p) t
instance Wrapped (M1 i c f p) where
type Unwrapped (M1 i c f p) = f p
_Wrapped' = iso unM1 M1
{-# INLINE _Wrapped' #-}
instance (t ~ (f' :.: g') p') => Rewrapped ((f :.: g) p) t
instance Wrapped ((f :.: g) p) where
type Unwrapped ((f :.: g) p) = f (g p)
_Wrapped' = iso unComp1 Comp1
{-# INLINE _Wrapped' #-}
#if defined(HTYPE_DEV_T)
instance Rewrapped CDev t
instance Wrapped CDev where
type Unwrapped CDev = HTYPE_DEV_T
_Wrapped' = iso (\(CDev x) -> x) CDev
{-# INLINE _Wrapped' #-}
#endif
#if defined(HTYPE_INO_T)
instance Rewrapped CIno t
instance Wrapped CIno where
type Unwrapped CIno = HTYPE_INO_T
_Wrapped' = iso (\(CIno x) -> x) CIno
{-# INLINE _Wrapped' #-}
#endif
#if defined(HTYPE_MODE_T)
instance Rewrapped CMode t
instance Wrapped CMode where
type Unwrapped CMode = HTYPE_MODE_T
_Wrapped' = iso (\(CMode x) -> x) CMode
{-# INLINE _Wrapped' #-}
#endif
#if defined(HTYPE_OFF_T)
instance Rewrapped COff t
instance Wrapped COff where
type Unwrapped COff = HTYPE_OFF_T
_Wrapped' = iso (\(COff x) -> x) COff
{-# INLINE _Wrapped' #-}
#endif
#if defined(HTYPE_PID_T)
instance Rewrapped CPid t
instance Wrapped CPid where
type Unwrapped CPid = HTYPE_PID_T
_Wrapped' = iso (\(CPid x) -> x) CPid
{-# INLINE _Wrapped' #-}
#endif
#if defined(HTYPE_SSIZE_T)
instance Rewrapped CSsize t
instance Wrapped CSsize where
type Unwrapped CSsize = HTYPE_SSIZE_T
_Wrapped' = iso (\(CSsize x) -> x) CSsize
{-# INLINE _Wrapped' #-}
#endif
#if defined(HTYPE_GID_T)
instance Rewrapped CGid t
instance Wrapped CGid where
type Unwrapped CGid = HTYPE_GID_T
_Wrapped' = iso (\(CGid x) -> x) CGid
{-# INLINE _Wrapped' #-}
#endif
#if defined(HTYPE_NLINK_T)
instance Rewrapped CNlink t
instance Wrapped CNlink where
type Unwrapped CNlink = HTYPE_NLINK_T
_Wrapped' = iso (\(CNlink x) -> x) CNlink
{-# INLINE _Wrapped' #-}
#endif
#if defined(HTYPE_UID_T)
instance Rewrapped CUid t
instance Wrapped CUid where
type Unwrapped CUid = HTYPE_UID_T
_Wrapped' = iso (\(CUid x) -> x) CUid
{-# INLINE _Wrapped' #-}
#endif
#if defined(HTYPE_CC_T)
instance Rewrapped CCc t
instance Wrapped CCc where
type Unwrapped CCc = HTYPE_CC_T
_Wrapped' = iso (\(CCc x) -> x) CCc
{-# INLINE _Wrapped' #-}
#endif
#if defined(HTYPE_SPEED_T)
instance Rewrapped CSpeed t
instance Wrapped CSpeed where
type Unwrapped CSpeed = HTYPE_SPEED_T
_Wrapped' = iso (\(CSpeed x) -> x) CSpeed
{-# INLINE _Wrapped' #-}
#endif
#if defined(HTYPE_TCFLAG_T)
instance Rewrapped CTcflag t
instance Wrapped CTcflag where
type Unwrapped CTcflag = HTYPE_TCFLAG_T
_Wrapped' = iso (\(CTcflag x) -> x) CTcflag
{-# INLINE _Wrapped' #-}
#endif
#if defined(HTYPE_RLIM_T)
instance Rewrapped CRLim t
instance Wrapped CRLim where
type Unwrapped CRLim = HTYPE_RLIM_T
_Wrapped' = iso (\(CRLim x) -> x) CRLim
{-# INLINE _Wrapped' #-}
#endif
instance Rewrapped Fd t
instance Wrapped Fd where
type Unwrapped Fd = CInt
_Wrapped' = iso (\(Fd x) -> x) Fd
{-# INLINE _Wrapped' #-}
#if MIN_VERSION_base(4,10,0)
instance Rewrapped CBool t
instance Wrapped CBool where
type Unwrapped CBool = HTYPE_BOOL
_Wrapped' = iso (\(CBool x) -> x) CBool
{-# INLINE _Wrapped' #-}
# if defined(HTYPE_BLKSIZE_T)
instance Rewrapped CBlkSize t
instance Wrapped CBlkSize where
type Unwrapped CBlkSize = HTYPE_BLKSIZE_T
_Wrapped' = iso (\(CBlkSize x) -> x) CBlkSize
{-# INLINE _Wrapped' #-}
# endif
# if defined(HTYPE_BLKCNT_T)
instance Rewrapped CBlkCnt t
instance Wrapped CBlkCnt where
type Unwrapped CBlkCnt = HTYPE_BLKCNT_T
_Wrapped' = iso (\(CBlkCnt x) -> x) CBlkCnt
{-# INLINE _Wrapped' #-}
# endif
# if defined(HTYPE_CLOCKID_T)
instance Rewrapped CClockId t
instance Wrapped CClockId where
type Unwrapped CClockId = HTYPE_CLOCKID_T
_Wrapped' = iso (\(CClockId x) -> x) CClockId
{-# INLINE _Wrapped' #-}
# endif
# if defined(HTYPE_FSBLKCNT_T)
instance Rewrapped CFsBlkCnt t
instance Wrapped CFsBlkCnt where
type Unwrapped CFsBlkCnt = HTYPE_FSBLKCNT_T
_Wrapped' = iso (\(CFsBlkCnt x) -> x) CFsBlkCnt
{-# INLINE _Wrapped' #-}
# endif
# if defined(HTYPE_FSFILCNT_T)
instance Rewrapped CFsFilCnt t
instance Wrapped CFsFilCnt where
type Unwrapped CFsFilCnt = HTYPE_FSFILCNT_T
_Wrapped' = iso (\(CFsFilCnt x) -> x) CFsFilCnt
{-# INLINE _Wrapped' #-}
# endif
# if defined(HTYPE_ID_T)
instance Rewrapped CId t
instance Wrapped CId where
type Unwrapped CId = HTYPE_ID_T
_Wrapped' = iso (\(CId x) -> x) CId
{-# INLINE _Wrapped' #-}
# endif
# if defined(HTYPE_KEY_T)
instance Rewrapped CKey t
instance Wrapped CKey where
type Unwrapped CKey = HTYPE_KEY_T
_Wrapped' = iso (\(CKey x) -> x) CKey
{-# INLINE _Wrapped' #-}
# endif
# if defined(HTYPE_TIMER_T)
instance Rewrapped CTimer t
instance Wrapped CTimer where
type Unwrapped CTimer = HTYPE_TIMER_T
_Wrapped' = iso (\(CTimer x) -> x) CTimer
{-# INLINE _Wrapped' #-}
# endif
#endif
op :: Wrapped s => (Unwrapped s -> s) -> s -> Unwrapped s
op _ = view _Wrapped'
{-# INLINE op #-}
_Wrapping' :: Wrapped s => (Unwrapped s -> s) -> Iso' s (Unwrapped s)
_Wrapping' _ = _Wrapped'
{-# INLINE _Wrapping' #-}
_Unwrapping' :: Wrapped s => (Unwrapped s -> s) -> Iso' (Unwrapped s) s
_Unwrapping' _ = from _Wrapped'
{-# INLINE _Unwrapping' #-}
_Wrapping :: Rewrapping s t => (Unwrapped s -> s) -> Iso s t (Unwrapped s) (Unwrapped t)
_Wrapping _ = _Wrapped
{-# INLINE _Wrapping #-}
_Unwrapping :: Rewrapping s t => (Unwrapped s -> s) -> Iso (Unwrapped t) (Unwrapped s) t s
_Unwrapping _ = from _Wrapped
{-# INLINE _Unwrapping #-}
ala :: (Functor f, Rewrapping s t) => (Unwrapped s -> s) -> ((Unwrapped t -> t) -> f s) -> f (Unwrapped s)
ala = xplat . _Unwrapping
{-# INLINE ala #-}
alaf :: (Functor f, Functor g, Rewrapping s t) => (Unwrapped s -> s) -> (f t -> g s) -> f (Unwrapped t) -> g (Unwrapped s)
alaf = xplatf . _Unwrapping
{-# INLINE alaf #-}