Copyright	(C) 2012-15 Edward Kmett
License	BSD-style (see the file LICENSE)
Maintainer	Edward Kmett <ekmett@gmail.com>
Stability	provisional
Portability	Rank2Types
Safe Haskell	Safe
Language	Haskell98

Control.Lens.Equality

Contents

Type Equality
The Trivial Equality
Implementation Details

Description

Synopsis

Type Equality

type Equality s t a b = forall p f. p a (f b) -> p s (f t) Source

A witness that (a ~ s, b ~ t).

Note: Composition with an Equality is index-preserving.

type Equality' s a = Equality s s a a Source

A Simple Equality.

type AnEquality s t a b = Identical a (Identity b) a (Identity b) -> Identical a (Identity b) s (Identity t) Source

When you see this as an argument to a function, it expects an Equality.

type AnEquality' s a = AnEquality s s a a Source

A Simple AnEquality.

runEq :: AnEquality s t a b -> Identical s t a b Source

Extract a witness of type Equality.

substEq :: AnEquality s t a b -> ((s ~ a, t ~ b) => r) -> r Source

Substituting types with Equality.

mapEq :: AnEquality s t a b -> f s -> f a Source

We can use Equality to do substitution into anything.

fromEq :: AnEquality s t a b -> Equality b a t s Source

Equality is symmetric.

simply :: (Optic' p f s a -> r) -> Optic' p f s a -> r Source

This is an adverb that can be used to modify many other Lens combinators to make them require simple lenses, simple traversals, simple prisms or simple isos as input.

The Trivial Equality

simple :: Equality' a a Source

Composition with this isomorphism is occasionally useful when your Lens, Traversal or Iso has a constraint on an unused argument to force that argument to agree with the type of a used argument and avoid ScopedTypeVariables or other ugliness.

Implementation Details

data Identical a b s t where Source

Provides witness that (s ~ a, b ~ t) holds.

Constructors

Identical :: Identical a b a b