lens-4.15.3: Lenses, Folds and Traversals

Copyright(C) 2012-16 Edward Kmett
LicenseBSD-style (see the file LICENSE)
MaintainerEdward Kmett <ekmett@gmail.com>
Stabilityprovisional
PortabilityRank2Types
Safe HaskellNone
LanguageHaskell98

Control.Lens.Zoom

Description

 

Synopsis

Documentation

type family Magnified (m :: * -> *) :: * -> * -> * Source #

This type family is used by Magnify to describe the common effect type.

Instances

type Magnified ((->) b) Source # 
type Magnified ((->) b) = Const *
type Magnified (IdentityT * m) Source # 
type Magnified (ReaderT * b m) Source # 
type Magnified (ReaderT * b m) = Effect m
type Magnified (RWST a w s m) Source # 
type Magnified (RWST a w s m) = EffectRWS w s m
type Magnified (RWST a w s m) Source # 
type Magnified (RWST a w s m) = EffectRWS w s m

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 Source #

This class allows us to use magnify part of the environment, changing the environment supplied by many different Monad transformers. Unlike zoom this can change the environment of a deeply nested Monad transformer.

Also, unlike zoom, this can be used with any valid Getter, but cannot be used with a Traversal or Fold.

Minimal complete definition

magnify

Methods

magnify :: LensLike' (Magnified m c) a b -> m c -> n c infixr 2 Source #

Run a monadic action in a larger environment than it was defined in, using a Getter.

This acts like local, but can in many cases change the type of the environment as well.

This is commonly used to lift actions in a simpler Reader Monad into a Monad with a larger environment type.

This can be used to edit pretty much any Monad transformer stack with an environment in it:

>>> (1,2) & magnify _2 (+1)
3
>>> flip Reader.runReader (1,2) $ magnify _1 Reader.ask
1
>>> flip Reader.runReader (1,2,[10..20]) $ magnify (_3._tail) Reader.ask
[11,12,13,14,15,16,17,18,19,20]
magnify :: Getter s a -> (a -> r) -> s -> r
magnify :: Monoid r => Fold s a   -> (a -> r) -> s -> r
magnify :: Monoid w                 => Getter s t -> RWS t w st c -> RWS s w st c
magnify :: (Monoid w, Monoid c) => Fold s a   -> RWS a w st c -> RWS s w st c
...

Instances

Magnify ((->) b) ((->) a) b a Source #
magnify = views

Methods

magnify :: LensLike' (Magnified ((->) b) c) a b -> (b -> c) -> a -> c Source #

Magnify m n b a => Magnify (IdentityT * m) (IdentityT * n) b a Source # 

Methods

magnify :: LensLike' (Magnified (IdentityT * m) c) a b -> IdentityT * m c -> IdentityT * n c Source #

Monad m => Magnify (ReaderT * b m) (ReaderT * a m) b a Source # 

Methods

magnify :: LensLike' (Magnified (ReaderT * b m) c) a b -> ReaderT * b m c -> ReaderT * a m c Source #

(Monad m, Monoid w) => Magnify (RWST b w s m) (RWST a w s m) b a Source # 

Methods

magnify :: LensLike' (Magnified (RWST b w s m) c) a b -> RWST b w s m c -> RWST a w s m c Source #

(Monad m, Monoid w) => Magnify (RWST b w s m) (RWST a w s m) b a Source # 

Methods

magnify :: LensLike' (Magnified (RWST b w s m) c) a b -> RWST b w s m c -> RWST a w s m c Source #

class (MonadState s m, MonadState t n) => Zoom m n s t | m -> s, n -> t, m t -> n, n s -> m where Source #

This class allows us to use zoom in, changing the State supplied by many different Monad transformers, potentially quite deep in a Monad transformer stack.

Minimal complete definition

zoom

Methods

zoom :: LensLike' (Zoomed m c) t s -> m c -> n c infixr 2 Source #

Run a monadic action in a larger State than it was defined in, using a Lens' or Traversal'.

This is commonly used to lift actions in a simpler State Monad into a State Monad with a larger State type.

When applied to a Traversal' over multiple values, the actions for each target are executed sequentially and the results are aggregated.

This can be used to edit pretty much any Monad transformer stack with a State in it!

>>> flip State.evalState (a,b) $ zoom _1 $ use id
a
>>> flip State.execState (a,b) $ zoom _1 $ id .= c
(c,b)
>>> flip State.execState [(a,b),(c,d)] $ zoom traverse $ _2 %= f
[(a,f b),(c,f d)]
>>> flip State.runState [(a,b),(c,d)] $ zoom traverse $ _2 <%= f
(f b <> f d <> mempty,[(a,f b),(c,f d)])
>>> flip State.evalState (a,b) $ zoom both (use id)
a <> b
zoom :: Monad m             => Lens' s t      -> StateT t m a -> StateT s m a
zoom :: (Monad m, Monoid c) => Traversal' s t -> StateT t m c -> StateT s m c
zoom :: (Monad m, Monoid w)             => Lens' s t      -> RWST r w t m c -> RWST r w s m c
zoom :: (Monad m, Monoid w, Monoid c) => Traversal' s t -> RWST r w t m c -> RWST r w s m c
zoom :: (Monad m, Monoid w, Error e)  => Lens' s t      -> ErrorT e (RWST r w t m) c -> ErrorT e (RWST r w s m) c
zoom :: (Monad m, Monoid w, Monoid c, Error e) => Traversal' s t -> ErrorT e (RWST r w t m) c -> ErrorT e (RWST r w s m) c
...

Instances

Zoom m n s t => Zoom (ListT m) (ListT n) s t Source # 

Methods

zoom :: LensLike' (Zoomed (ListT m) c) t s -> ListT m c -> ListT n c Source #

Zoom m n s t => Zoom (MaybeT m) (MaybeT n) s t Source # 

Methods

zoom :: LensLike' (Zoomed (MaybeT m) c) t s -> MaybeT m c -> MaybeT n c Source #

Zoom m n s t => Zoom (IdentityT * m) (IdentityT * n) s t Source # 

Methods

zoom :: LensLike' (Zoomed (IdentityT * m) c) t s -> IdentityT * m c -> IdentityT * n c Source #

(Functor f, Zoom m n s t) => Zoom (FreeT f m) (FreeT f n) s t Source # 

Methods

zoom :: LensLike' (Zoomed (FreeT f m) c) t s -> FreeT f m c -> FreeT f n c Source #

(Error e, Zoom m n s t) => Zoom (ErrorT e m) (ErrorT e n) s t Source # 

Methods

zoom :: LensLike' (Zoomed (ErrorT e m) c) t s -> ErrorT e m c -> ErrorT e n c Source #

Zoom m n s t => Zoom (ExceptT e m) (ExceptT e n) s t Source # 

Methods

zoom :: LensLike' (Zoomed (ExceptT e m) c) t s -> ExceptT e m c -> ExceptT e n c Source #

Monad z => Zoom (StateT s z) (StateT t z) s t Source # 

Methods

zoom :: LensLike' (Zoomed (StateT s z) c) t s -> StateT s z c -> StateT t z c Source #

Monad z => Zoom (StateT s z) (StateT t z) s t Source # 

Methods

zoom :: LensLike' (Zoomed (StateT s z) c) t s -> StateT s z c -> StateT t z c Source #

(Monoid w, Zoom m n s t) => Zoom (WriterT w m) (WriterT w n) s t Source # 

Methods

zoom :: LensLike' (Zoomed (WriterT w m) c) t s -> WriterT w m c -> WriterT w n c Source #

(Monoid w, Zoom m n s t) => Zoom (WriterT w m) (WriterT w n) s t Source # 

Methods

zoom :: LensLike' (Zoomed (WriterT w m) c) t s -> WriterT w m c -> WriterT w n c Source #

Zoom m n s t => Zoom (ReaderT * e m) (ReaderT * e n) s t Source # 

Methods

zoom :: LensLike' (Zoomed (ReaderT * e m) c) t s -> ReaderT * e m c -> ReaderT * e n c Source #

(Monoid w, Monad z) => Zoom (RWST r w s z) (RWST r w t z) s t Source # 

Methods

zoom :: LensLike' (Zoomed (RWST r w s z) c) t s -> RWST r w s z c -> RWST r w t z c Source #

(Monoid w, Monad z) => Zoom (RWST r w s z) (RWST r w t z) s t Source # 

Methods

zoom :: LensLike' (Zoomed (RWST r w s z) c) t s -> RWST r w s z c -> RWST r w t z c Source #

type family Zoomed (m :: * -> *) :: * -> * -> * Source #

This type family is used by Zoom to describe the common effect type.

Instances

type Zoomed (ListT m) Source # 
type Zoomed (ListT m) = FocusingOn [] (Zoomed m)
type Zoomed (MaybeT m) Source # 
type Zoomed (IdentityT * m) Source # 
type Zoomed (IdentityT * m) = Zoomed m
type Zoomed (FreeT f m) Source # 
type Zoomed (FreeT f m) = FocusingFree f m (Zoomed m)
type Zoomed (ErrorT e m) Source # 
type Zoomed (ErrorT e m) = FocusingErr e (Zoomed m)
type Zoomed (ExceptT e m) Source # 
type Zoomed (ExceptT e m) = FocusingErr e (Zoomed m)
type Zoomed (StateT s z) Source # 
type Zoomed (StateT s z) = Focusing z
type Zoomed (StateT s z) Source # 
type Zoomed (StateT s z) = Focusing z
type Zoomed (WriterT w m) Source # 
type Zoomed (WriterT w m) = FocusingPlus w (Zoomed m)
type Zoomed (WriterT w m) Source # 
type Zoomed (WriterT w m) = FocusingPlus w (Zoomed m)
type Zoomed (ReaderT * e m) Source # 
type Zoomed (ReaderT * e m) = Zoomed m
type Zoomed (RWST r w s z) Source # 
type Zoomed (RWST r w s z) = FocusingWith w z
type Zoomed (RWST r w s z) Source # 
type Zoomed (RWST r w s z) = FocusingWith w z