Copyright	(c) 2009--2010 Universiteit Utrecht
License	BSD3
Maintainer	generics@haskell.org
Stability	experimental
Portability	non-portable
Safe Haskell	Safe
Language	Haskell2010

Generics.MultiRec.FoldAlgK

Contents

The type family of convenient algebras.
The class to turn convenient algebras into standard algebras.
Interface
Construction of algebras

Description

A variant of fold that allows the specification of the algebra in a convenient way, and that fixes the result type to a constant.

Synopsis

The type family of convenient algebras.

type family Alg (f :: (* -> *) -> * -> *) (r :: *) :: * Source #

The type family we use to describe the convenient algebras.

Instances

type Alg U r Source #
type Alg U r = r
type Alg (K a) r Source #
type Alg (K a) r = a -> r
type Alg (I xi) r Source #
type Alg (I xi) r = r -> r
type Alg (C c f) r Source #
type Alg (C c f) r = Alg f r
type Alg ((:>:) f xi) r Source #
type Alg ((:>:) f xi) r = Alg f r
type Alg ((:*:) (K a) g) r Source #
type Alg ((:*:) (K a) g) r = a -> Alg g r
type Alg ((:*:) (I xi) g) r Source #
type Alg ((:*:) (I xi) g) r = r -> Alg g r
type Alg ((:+:) f g) r Source #
type Alg ((:+:) f g) r = (Alg f r, Alg g r)

type Algebra phi r = forall ix. phi ix -> Alg (PF phi) r Source #

The algebras passed to the fold have to work for all index types in the family. The additional witness argument is required only to make GHC's typechecker happy.

The class to turn convenient algebras into standard algebras.

class Fold f where Source #

The class fold explains how to convert a convenient algebra Alg back into a function from functor to result, as required by the standard fold function.

Minimal complete definition

alg

Methods

alg :: Alg f r -> f (K0 r) ix -> r Source #

Instances

Fold U Source #
Methods alg :: Alg U r -> U (K0 r) ix -> r Source #
Fold (K a) Source #
Methods alg :: Alg (K a) r -> K a (K0 r) ix -> r Source #
Fold (I xi) Source #
Methods alg :: Alg (I xi) r -> I xi (K0 r) ix -> r Source #
Fold f => Fold (C c f) Source #
Methods alg :: Alg (C c f) r -> C c f (K0 r) ix -> r Source #
Fold f => Fold ((:>:) f xi) Source #
Methods alg :: Alg (f :>: xi) r -> (f :>: xi) (K0 r) ix -> r Source #
Fold g => Fold ((:*:) (K a) g) Source #
Methods alg :: Alg (K a :: g) r -> (K a :: g) (K0 r) ix -> r Source #
Fold g => Fold ((:*:) (I xi) g) Source #
Methods alg :: Alg (I xi :: g) r -> (I xi :: g) (K0 r) ix -> r Source #
(Fold f, Fold g) => Fold ((:+:) f g) Source #
Methods alg :: Alg (f :+: g) r -> (f :+: g) (K0 r) ix -> r Source #

Interface

fold :: forall phi ix r. (Fam phi, HFunctor phi (PF phi), Fold (PF phi)) => Algebra phi r -> phi ix -> ix -> r Source #

Fold with convenient algebras.

Construction of algebras

(&) :: a -> b -> (a, b) infixr 5 Source #

For constructing algebras that are made of nested pairs rather than n-ary tuples, it is helpful to use this pairing combinator.