lens-family-core-1.0.0: Haskell 98 Lens Families

Safe HaskellSafe-Inferred

Lens.Family.Stock

Contents

Description

This module contains lenses and traversals for common structures in Haskell. It also contains the combinators for lenses and traversals.

Synopsis

Lens Combinators

choosing :: Functor f => LensLike f a a' c c' -> LensLike f b b' c c' -> LensLike f (Either a b) (Either a' b') c c'Source

 choosing :: Lens a a' c c' -> Lens b b' c c' -> Lens (Either a b) (Either a' b') c c'
 choosing :: Traversal a a' c c' -> Traversal b b' c c' -> Traversal (Either a b) (Either a' b') c c'
 choosing :: Getter a a' c c' -> Getter b b' c c' -> Getter (Either a b) (Either a' b') c c'
 choosing :: Fold a a' c c' -> Fold b b' c c' -> Fold (Either a b) (Either a' b') c c'
 choosing :: Setter a a' c c' -> Setter b b' c c' -> Setter (Either a b) (Either a' b') c c'

Given two lens/traversal/getter/fold/setter families with the same substructure, make a new lens/traversal/getter/fold/setter on Either.

alongside :: Functor f => LensLike (AlongsideLeft f b2') a1 a1' b1 b1' -> LensLike (AlongsideRight f a1') a2 a2' b2 b2' -> LensLike f (a1, a2) (a1', a2') (b1, b2) (b1', b2')Source

 alongside :: Lens a1 a1' b1 b1' -> Lens a2 a2' b2 b2' -> Lens (a1, a2) (a1', a2') (b1, b2) (b1', b2')
 alongside :: Getter a1 a1' b1 b1' -> Getter a2 a2' b2 b2' -> Getter (a1, a2) (a1', a2') (b1, b2) (b1', b2')

Given two lens/getter families, make a new lens/getter on their product.

beside :: Applicative f => LensLike f a a' c c' -> LensLike f b b' c c' -> LensLike f (a, b) (a', b') c c'Source

 beside :: Traversal a a' c c' -> Traversal b' b' c c' -> Traversal (a,b) (a',b') c c'
 beside :: Fold a a' c c' -> Fold b' b' c c' -> Fold (a,b) (a',b') c c'
 beside :: Setter a a' c c' -> Setter b' b' c c' -> Setter (a,b) (a',b') c c'

Given two traversals/folds/setters referencing a type c, create a traversal/fold/setter on the pair referencing c.

Stock Lenses

_1 :: Functor f => LensLike f (a, b) (a', b) a a'Source

 _1 :: Lens (a, b) (a', b) a a'

Lens on the first element of a pair.

_2 :: Functor f => LensLike f (a, b) (a, b') b b'Source

 _2 :: Lens (a, b) (a, b') b b'

Lens on the second element of a pair.

both :: Applicative f => LensLike f (a, a) (b, b) a bSource

 both :: Traversal (a,a) (b,b) a b

Traversals on both elements of a pair (a,a).

chosen :: Functor f => LensLike f (Either a a) (Either b b) a bSource

 chosen :: Lens (Either a a) (Either b b) a b

Lens on the Left or Right element of an (Either a a).

ix :: (Eq k, Functor f) => k -> LensLike' f (k -> v) vSource

 ix :: Eq k => k -> Lens' (k -> v) v

Lens on a given point of a function.

at :: (Ord k, Functor f) => k -> LensLike' f (Map k v) (Maybe v)Source

 at :: Ord k => k -> Lens' (Map.Map k v) (Maybe v)

Lens on a given point of a Map.

intAt :: Functor f => Int -> LensLike' f (IntMap v) (Maybe v)Source

 intAt :: Int -> Lens (IntMap.IntMap v) (Maybe v)

Lens on a given point of a IntMap.

contains :: (Ord k, Functor f) => k -> LensLike' f (Set k) BoolSource

 contains :: Ord => k -> Lens' (Set.Set k) Bool

Lens on a given point of a Set.

intContains :: Functor f => Int -> LensLike' f IntSet BoolSource

 intContains :: Int -> Lens' IntSet.IntSet Bool

Lens on a given point of a IntSet.

Stock Traversals

_Left :: Applicative f => LensLike f (Either a b) (Either a' b) a a'Source

 _Left :: Traversal (Either a b) (Either a' b) a a'

Traversal on the Left element of an Either.

_Right :: Applicative f => LensLike f (Either a b) (Either a b') b b'Source

 _Right :: Traversal (Either a b) (Either a b') b b'

Traversal on the Right element of an Either.

_Just :: Applicative f => LensLike f (Maybe a) (Maybe a') a a'Source

 _Just :: Traversal (Maybe a) (Maybe a') a a'

Traversal on the Just element of a Maybe.

_Nothing :: Applicative f => LensLike' f (Maybe a) ()Source

 _Nothing :: Traversal' (Maybe a) ()

Traversal on the Nothing element of a Maybe.

ignored :: Applicative f => null -> a -> f aSource

 ignored :: Traversal a a b b'

The empty traversal on any type.

Types

data AlongsideLeft f b a Source

Instances

data AlongsideRight f a b Source

Instances

Re-exports

type LensLike f a a' b b' = (b -> f b') -> a -> f a'Source

type LensLike' f a b = (b -> f b) -> a -> f aSource

class Functor f => Applicative f

A functor with application, providing operations to

  • embed pure expressions (pure), and
  • sequence computations and combine their results (<*>).

A minimal complete definition must include implementations of these functions satisfying the following laws:

identity
pure id <*> v = v
composition
pure (.) <*> u <*> v <*> w = u <*> (v <*> w)
homomorphism
pure f <*> pure x = pure (f x)
interchange
u <*> pure y = pure ($ y) <*> u

The other methods have the following default definitions, which may be overridden with equivalent specialized implementations:

      u *> v = pure (const id) <*> u <*> v
      u <* v = pure const <*> u <*> v

As a consequence of these laws, the Functor instance for f will satisfy

      fmap f x = pure f <*> x

If f is also a Monad, it should satisfy pure = return and (<*>) = ap (which implies that pure and <*> satisfy the applicative functor laws).