{-# LANGUAGE CPP #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE FunctionalDependencies #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE UndecidableInstances #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE KindSignatures #-} {-# LANGUAGE Trustworthy #-} -- This is needed because ErrorT is deprecated. {-# OPTIONS_GHC -fno-warn-warnings-deprecations #-} {- | Module : Lens.Micro.Mtl.Internal Copyright : (C) 2013-2016 Edward Kmett, 2015-2016 Artyom License : BSD-style (see the file LICENSE) This module lets you define your own instances of 'Zoom' and 'Magnify'. The warning from "Lens.Micro.Internal" applies to this module as well. Don't export functions that have 'Zoom' or 'Magnify' in their type signatures. If you absolutely need to define an instance (e.g. for internal use), only do it for your own types, because otherwise I might add an instance to one of the microlens packages later and if our instances are different it might lead to subtle bugs. -} module Lens.Micro.Mtl.Internal ( -- * Classes Zoomed, Zoom(..), Magnified, Magnify(..), -- * Focusing (used for 'Zoom') Focusing(..), FocusingWith(..), FocusingPlus(..), FocusingOn(..), FocusingMay(..), FocusingErr(..), -- * Effect (used for 'Magnify') Effect(..), EffectRWS(..), -- * Utilities May(..), Err(..), ) where import Control.Applicative import Control.Monad.Reader as Reader import Control.Monad.State as State import Control.Monad.Trans.State.Lazy as Lazy import Control.Monad.Trans.State.Strict as Strict import Control.Monad.Trans.Writer.Lazy as Lazy import Control.Monad.Trans.Writer.Strict as Strict import Control.Monad.Trans.RWS.Lazy as Lazy import Control.Monad.Trans.RWS.Strict as Strict import Control.Monad.Trans.Error import Control.Monad.Trans.Except import Control.Monad.Trans.List import Control.Monad.Trans.Identity import Control.Monad.Trans.Maybe -- microlens import Lens.Micro import Lens.Micro.Internal #if __GLASGOW_HASKELL__ < 710 import Data.Monoid #endif ------------------------------------------------------------------------------ -- Zoomed ------------------------------------------------------------------------------ -- | This type family is used by 'Zoom' to describe the common effect type. type family Zoomed (m :: * -> *) :: * -> * -> * type instance Zoomed (Strict.StateT s z) = Focusing z type instance Zoomed (Lazy.StateT s z) = Focusing z type instance Zoomed (ReaderT e m) = Zoomed m type instance Zoomed (IdentityT m) = Zoomed m type instance Zoomed (Strict.RWST r w s z) = FocusingWith w z type instance Zoomed (Lazy.RWST r w s z) = FocusingWith w z type instance Zoomed (Strict.WriterT w m) = FocusingPlus w (Zoomed m) type instance Zoomed (Lazy.WriterT w m) = FocusingPlus w (Zoomed m) type instance Zoomed (ListT m) = FocusingOn [] (Zoomed m) type instance Zoomed (MaybeT m) = FocusingMay (Zoomed m) type instance Zoomed (ErrorT e m) = FocusingErr e (Zoomed m) type instance Zoomed (ExceptT e m) = FocusingErr e (Zoomed m) ------------------------------------------------------------------------------ -- Focusing ------------------------------------------------------------------------------ -- | Used by 'Zoom' to 'zoom' into 'Control.Monad.State.StateT'. newtype Focusing m s a = Focusing { unfocusing :: m (s, a) } instance Monad m => Functor (Focusing m s) where fmap f (Focusing m) = Focusing $ do (s, a) <- m return (s, f a) {-# INLINE fmap #-} instance (Monad m, Monoid s) => Applicative (Focusing m s) where pure a = Focusing (return (mempty, a)) {-# INLINE pure #-} Focusing mf <*> Focusing ma = Focusing $ do (s, f) <- mf (s', a) <- ma return (mappend s s', f a) {-# INLINE (<*>) #-} ------------------------------------------------------------------------------ -- FocusingWith ------------------------------------------------------------------------------ -- | Used by 'Zoom' to 'zoom' into 'Control.Monad.RWS.RWST'. newtype FocusingWith w m s a = FocusingWith { unfocusingWith :: m (s, a, w) } instance Monad m => Functor (FocusingWith w m s) where fmap f (FocusingWith m) = FocusingWith $ do (s, a, w) <- m return (s, f a, w) {-# INLINE fmap #-} instance (Monad m, Monoid s, Monoid w) => Applicative (FocusingWith w m s) where pure a = FocusingWith (return (mempty, a, mempty)) {-# INLINE pure #-} FocusingWith mf <*> FocusingWith ma = FocusingWith $ do (s, f, w) <- mf (s', a, w') <- ma return (mappend s s', f a, mappend w w') {-# INLINE (<*>) #-} ------------------------------------------------------------------------------ -- FocusingPlus ------------------------------------------------------------------------------ -- | Used by 'Zoom' to 'zoom' into 'Control.Monad.Writer.WriterT'. newtype FocusingPlus w k s a = FocusingPlus { unfocusingPlus :: k (s, w) a } instance Functor (k (s, w)) => Functor (FocusingPlus w k s) where fmap f (FocusingPlus as) = FocusingPlus (fmap f as) {-# INLINE fmap #-} instance Applicative (k (s, w)) => Applicative (FocusingPlus w k s) where pure = FocusingPlus . pure {-# INLINE pure #-} FocusingPlus kf <*> FocusingPlus ka = FocusingPlus (kf <*> ka) {-# INLINE (<*>) #-} ------------------------------------------------------------------------------ -- FocusingOn ------------------------------------------------------------------------------ -- | Used by 'Zoom' to 'zoom' into 'Control.Monad.Trans.Maybe.MaybeT' or 'Control.Monad.Trans.List.ListT'. newtype FocusingOn f k s a = FocusingOn { unfocusingOn :: k (f s) a } instance Functor (k (f s)) => Functor (FocusingOn f k s) where fmap f (FocusingOn as) = FocusingOn (fmap f as) {-# INLINE fmap #-} instance Applicative (k (f s)) => Applicative (FocusingOn f k s) where pure = FocusingOn . pure {-# INLINE pure #-} FocusingOn kf <*> FocusingOn ka = FocusingOn (kf <*> ka) {-# INLINE (<*>) #-} ------------------------------------------------------------------------------ -- May ------------------------------------------------------------------------------ -- | Make a 'Monoid' out of 'Maybe' for error handling. newtype May a = May { getMay :: Maybe a } instance Monoid a => Monoid (May a) where mempty = May (Just mempty) {-# INLINE mempty #-} #if !MIN_VERSION_base(4,11,0) May Nothing `mappend` _ = May Nothing _ `mappend` May Nothing = May Nothing May (Just a) `mappend` May (Just b) = May (Just (mappend a b)) {-# INLINE mappend #-} #else instance Semigroup a => Semigroup (May a) where May Nothing <> _ = May Nothing _ <> May Nothing = May Nothing May (Just a) <> May (Just b) = May (Just (a <> b)) {-# INLINE (<>) #-} #endif ------------------------------------------------------------------------------ -- FocusingMay ------------------------------------------------------------------------------ -- | Used by 'Zoom' to 'zoom' into 'Control.Monad.Error.ErrorT'. newtype FocusingMay k s a = FocusingMay { unfocusingMay :: k (May s) a } instance Functor (k (May s)) => Functor (FocusingMay k s) where fmap f (FocusingMay as) = FocusingMay (fmap f as) {-# INLINE fmap #-} instance Applicative (k (May s)) => Applicative (FocusingMay k s) where pure = FocusingMay . pure {-# INLINE pure #-} FocusingMay kf <*> FocusingMay ka = FocusingMay (kf <*> ka) {-# INLINE (<*>) #-} ------------------------------------------------------------------------------ -- Err ------------------------------------------------------------------------------ -- | Make a 'Monoid' out of 'Either' for error handling. newtype Err e a = Err { getErr :: Either e a } instance Monoid a => Monoid (Err e a) where mempty = Err (Right mempty) {-# INLINE mempty #-} #if !MIN_VERSION_base(4,11,0) Err (Left e) `mappend` _ = Err (Left e) _ `mappend` Err (Left e) = Err (Left e) Err (Right a) `mappend` Err (Right b) = Err (Right (mappend a b)) {-# INLINE mappend #-} #else instance Semigroup a => Semigroup (Err e a) where Err (Left e) <> _ = Err (Left e) _ <> Err (Left e) = Err (Left e) Err (Right a) <> Err (Right b) = Err (Right (a <> b)) {-# INLINE (<>) #-} #endif ------------------------------------------------------------------------------ -- FocusingErr ------------------------------------------------------------------------------ -- | Used by 'Zoom' to 'zoom' into 'Control.Monad.Error.ErrorT'. newtype FocusingErr e k s a = FocusingErr { unfocusingErr :: k (Err e s) a } instance Functor (k (Err e s)) => Functor (FocusingErr e k s) where fmap f (FocusingErr as) = FocusingErr (fmap f as) {-# INLINE fmap #-} instance Applicative (k (Err e s)) => Applicative (FocusingErr e k s) where pure = FocusingErr . pure {-# INLINE pure #-} FocusingErr kf <*> FocusingErr ka = FocusingErr (kf <*> ka) {-# INLINE (<*>) #-} ------------------------------------------------------------------------------ -- Zoom ------------------------------------------------------------------------------ infixr 2 `zoom` class (Zoomed m ~ Zoomed n, MonadState s m, MonadState t n) => Zoom m n s t | m -> s, n -> t, m t -> n, n s -> m where {- | When you're in a state monad, this function lets you operate on a part of your state. For instance, if your state was a record containing a @position@ field, after zooming @position@ would become your whole state (and when you modify it, the bigger structure would be modified as well). (Your 'Lazy.State' \/ 'Lazy.StateT' or 'Lazy.RWS' \/ 'Lazy.RWST' can be anywhere in the stack, but you can't use 'zoom' with arbitrary 'MonadState' because it doesn't provide any methods to change the type of the state. See <https://github.com/ekmett/lens/issues/316 this issue> for details.) For the sake of the example, let's define some types first: @ data Position = Position { _x, _y :: Int } data Player = Player { _position :: Position, ... } data Game = Game { _player :: Player, _obstacles :: [Position], ... } concat \<$\> mapM makeLenses [''Position, ''Player, ''Game] @ Now, here's an action that moves the player north-east: @ moveNE :: 'Lazy.State' Game () moveNE = do player.position.x 'Lens.Micro.Mtl.+=' 1 player.position.y 'Lens.Micro.Mtl.+=' 1 @ With 'zoom', you can use @player.position@ to focus just on a part of the state: @ moveNE :: 'Lazy.State' Game () moveNE = do 'zoom' (player.position) $ do x 'Lens.Micro.Mtl.+=' 1 y 'Lens.Micro.Mtl.+=' 1 @ You can just as well use it for retrieving things out of the state: @ getCoords :: 'Lazy.State' Game (Int, Int) getCoords = 'zoom' (player.position) ((,) '<$>' 'Lens.Micro.Mtl.use' x '<*>' 'Lens.Micro.Mtl.use' y) @ Or more explicitly: @ getCoords = 'zoom' (player.position) $ do x' <- 'Lens.Micro.Mtl.use' x y' <- 'Lens.Micro.Mtl.use' y return (x', y') @ When you pass a traversal to 'zoom', it'll work as a loop. For instance, here we move all obstacles: @ moveObstaclesNE :: 'Lazy.State' Game () moveObstaclesNE = do 'zoom' (obstacles.'each') $ do x 'Lens.Micro.Mtl.+=' 1 y 'Lens.Micro.Mtl.+=' 1 @ If the action returns a result, all results would be combined with '<>' – the same way they're combined when '^.' is passed a traversal. In this example, @moveObstaclesNE@ returns a list of old coordinates of obstacles in addition to moving them: @ moveObstaclesNE = do xys <- 'zoom' (obstacles.'each') $ do -- Get old coordinates. x' <- 'Lens.Micro.Mtl.use' x y' <- 'Lens.Micro.Mtl.use' y -- Update them. x 'Lens.Micro.Mtl..=' x' + 1 y 'Lens.Micro.Mtl..=' y' + 1 -- Return a single-element list with old coordinates. return [(x', y')] ... @ Finally, you might need to write your own instances of 'Zoom' if you use @newtype@d transformers in your monad stack. This can be done as follows: @ import "Lens.Micro.Mtl.Internal" type instance 'Zoomed' (MyStateT s m) = 'Zoomed' (StateT s m) instance Monad m =\> 'Zoom' (MyStateT s m) (MyStateT t m) s t where 'zoom' l (MyStateT m) = MyStateT ('zoom' l m) @ -} zoom :: LensLike' (Zoomed m c) t s -> m c -> n c instance Monad z => Zoom (Strict.StateT s z) (Strict.StateT t z) s t where zoom l (Strict.StateT m) = Strict.StateT $ unfocusing #. l (Focusing #. m) {-# INLINE zoom #-} instance Monad z => Zoom (Lazy.StateT s z) (Lazy.StateT t z) s t where zoom l (Lazy.StateT m) = Lazy.StateT $ unfocusing #. l (Focusing #. m) {-# INLINE zoom #-} instance Zoom m n s t => Zoom (ReaderT e m) (ReaderT e n) s t where zoom l (ReaderT m) = ReaderT (zoom l . m) {-# INLINE zoom #-} instance Zoom m n s t => Zoom (IdentityT m) (IdentityT n) s t where zoom l (IdentityT m) = IdentityT (zoom l m) {-# INLINE zoom #-} instance (Monoid w, Monad z) => Zoom (Strict.RWST r w s z) (Strict.RWST r w t z) s t where zoom l (Strict.RWST m) = Strict.RWST $ \r -> unfocusingWith #. l (FocusingWith #. m r) {-# INLINE zoom #-} instance (Monoid w, Monad z) => Zoom (Lazy.RWST r w s z) (Lazy.RWST r w t z) s t where zoom l (Lazy.RWST m) = Lazy.RWST $ \r -> unfocusingWith #. l (FocusingWith #. m r) {-# INLINE zoom #-} instance (Monoid w, Zoom m n s t) => Zoom (Strict.WriterT w m) (Strict.WriterT w n) s t where zoom l = Strict.WriterT . zoom (\afb -> unfocusingPlus #. l (FocusingPlus #. afb)) . Strict.runWriterT {-# INLINE zoom #-} instance (Monoid w, Zoom m n s t) => Zoom (Lazy.WriterT w m) (Lazy.WriterT w n) s t where zoom l = Lazy.WriterT . zoom (\afb -> unfocusingPlus #. l (FocusingPlus #. afb)) . Lazy.runWriterT {-# INLINE zoom #-} instance Zoom m n s t => Zoom (ListT m) (ListT n) s t where zoom l = ListT . zoom (\afb -> unfocusingOn . l (FocusingOn . afb)) . runListT {-# INLINE zoom #-} instance Zoom m n s t => Zoom (MaybeT m) (MaybeT n) s t where zoom l = MaybeT . liftM getMay . zoom (\afb -> unfocusingMay #. l (FocusingMay #. afb)) . liftM May . runMaybeT {-# INLINE zoom #-} instance (Error e, Zoom m n s t) => Zoom (ErrorT e m) (ErrorT e n) s t where zoom l = ErrorT . liftM getErr . zoom (\afb -> unfocusingErr #. l (FocusingErr #. afb)) . liftM Err . runErrorT {-# INLINE zoom #-} instance Zoom m n s t => Zoom (ExceptT e m) (ExceptT e n) s t where zoom l = ExceptT . liftM getErr . zoom (\afb -> unfocusingErr #. l (FocusingErr #. afb)) . liftM Err . runExceptT {-# INLINE zoom #-} -- TODO: instance Zoom m m a a => Zoom (ContT r m) (ContT r m) a a where ------------------------------------------------------------------------------ -- Magnified ------------------------------------------------------------------------------ -- | This type family is used by 'Magnify' to describe the common effect type. type family Magnified (m :: * -> *) :: * -> * -> * type instance Magnified (ReaderT b m) = Effect m type instance Magnified ((->)b) = Const type instance Magnified (Strict.RWST a w s m) = EffectRWS w s m type instance Magnified (Lazy.RWST a w s m) = EffectRWS w s m type instance Magnified (IdentityT m) = Magnified m ------------------------------------------------------------------------------ -- Magnify ------------------------------------------------------------------------------ infixr 2 `magnify` class (Magnified m ~ Magnified n, MonadReader b m, MonadReader a n) => Magnify m n b a | m -> b, n -> a, m a -> n, n b -> m where {- | This is an equivalent of 'Reader.local' which lets you apply a getter to your environment instead of merely applying a function (and it also lets you change the type of the environment). @ 'Reader.local' :: (r -> r) -> 'Reader.Reader' r a -> 'Reader.Reader' r a 'magnify' :: Getter r x -> 'Reader.Reader' x a -> 'Reader.Reader' r a @ 'magnify' works with 'Reader.Reader' \/ 'Reader.ReaderT', 'Lazy.RWS' \/ 'Lazy.RWST', and @(->)@. Here's an example of 'magnify' being used to work with a part of a bigger config. First, the types: @ data URL = URL { _protocol :: Maybe String, _path :: String } data Config = Config { _base :: URL, ... } makeLenses ''URL makeLenses ''Config @ Now, let's define a function which returns the base url: @ getBase :: 'Reader.Reader' Config String getBase = do protocol \<- 'Data.Maybe.fromMaybe' \"https\" '<$>' 'Lens.Micro.Mtl.view' (base.protocol) path \<- 'Lens.Micro.Mtl.view' (base.path) return (protocol ++ path) @ With 'magnify', we can factor out @base@: @ getBase = 'magnify' base $ do protocol \<- 'Data.Maybe.fromMaybe' \"https\" '<$>' 'Lens.Micro.Mtl.view' protocol path \<- 'Lens.Micro.Mtl.view' path return (protocol ++ path) @ This concludes the example. Finally, you should know writing instances of 'Magnify' for your own types can be done as follows: @ import "Lens.Micro.Mtl.Internal" type instance 'Magnified' (MyReaderT r m) = 'Magnified' (ReaderT r m) instance Monad m =\> 'Magnify' (MyReaderT r m) (MyReaderT t m) r t where 'magnify' l (MyReaderT m) = MyReaderT ('magnify' l m) @ -} magnify :: LensLike' (Magnified m c) a b -> m c -> n c instance Monad m => Magnify (ReaderT b m) (ReaderT a m) b a where magnify l (ReaderT m) = ReaderT $ getEffect #. l (Effect #. m) {-# INLINE magnify #-} instance Magnify ((->) b) ((->) a) b a where magnify l f = Reader.asks (getConst #. l (Const #. f)) {-# INLINE magnify #-} instance (Monad m, Monoid w) => Magnify (Strict.RWST b w s m) (Strict.RWST a w s m) b a where magnify l (Strict.RWST m) = Strict.RWST $ getEffectRWS #. l (EffectRWS #. m) {-# INLINE magnify #-} instance (Monad m, Monoid w) => Magnify (Lazy.RWST b w s m) (Lazy.RWST a w s m) b a where magnify l (Lazy.RWST m) = Lazy.RWST $ getEffectRWS #. l (EffectRWS #. m) {-# INLINE magnify #-} instance Magnify m n b a => Magnify (IdentityT m) (IdentityT n) b a where magnify l (IdentityT m) = IdentityT (magnify l m) {-# INLINE magnify #-} ----------------------------------------------------------------------------- --- Effect ------------------------------------------------------------------------------- -- | Wrap a monadic effect with a phantom type argument. newtype Effect m r a = Effect { getEffect :: m r } -- type role Effect representational nominal phantom instance Functor (Effect m r) where fmap _ (Effect m) = Effect m {-# INLINE fmap #-} instance (Monad m, Monoid r) => Monoid (Effect m r a) where mempty = Effect (return mempty) {-# INLINE mempty #-} #if !MIN_VERSION_base(4,11,0) Effect ma `mappend` Effect mb = Effect (liftM2 mappend ma mb) {-# INLINE mappend #-} #else instance (Monad m, Semigroup r) => Semigroup (Effect m r a) where Effect ma <> Effect mb = Effect (liftM2 (<>) ma mb) {-# INLINE (<>) #-} #endif instance (Monad m, Monoid r) => Applicative (Effect m r) where pure _ = Effect (return mempty) {-# INLINE pure #-} Effect ma <*> Effect mb = Effect (liftM2 mappend ma mb) {-# INLINE (<*>) #-} ------------------------------------------------------------------------------ -- EffectRWS ------------------------------------------------------------------------------ -- | Wrap a monadic effect with a phantom type argument. Used when magnifying 'Control.Monad.RWS.RWST'. newtype EffectRWS w st m s a = EffectRWS { getEffectRWS :: st -> m (s,st,w) } instance Functor (EffectRWS w st m s) where fmap _ (EffectRWS m) = EffectRWS m {-# INLINE fmap #-} instance (Monoid s, Monoid w, Monad m) => Applicative (EffectRWS w st m s) where pure _ = EffectRWS $ \st -> return (mempty, st, mempty) {-# INLINE pure #-} EffectRWS m <*> EffectRWS n = EffectRWS $ \st -> m st >>= \ (s,t,w) -> n t >>= \ (s',u,w') -> return (mappend s s', u, mappend w w') {-# INLINE (<*>) #-}