Copyright	(c) Edward Kmett 2009
License	BSD3
Maintainer	ekmett@gmail.com
Stability	experimental
Portability	non-portable (MPTCs)
Safe Haskell	Trustworthy
Language	Haskell98

Data.Semigroup.Reducer

Description

A c-Reducer is a Semigroup with a canonical mapping from c to the Semigroup.

Synopsis

Documentation

class Semigroup m => Reducer c m where Source

This type may be best read infix. A c Reducer m is a Semigroup m that maps values of type c through unit to values of type m. A c-Reducer may also supply operations which tack-on another c to an existing Monoid m on the left or right. These specialized reductions may be more efficient in some scenarios and are used when appropriate by a Generator. The names cons and snoc work by analogy to the synonymous operations in the list monoid.

This class deliberately avoids functional-dependencies, so that () can be a c-Reducer for all c, and so many common reducers can work over multiple types, for instance, First and Last may reduce both a and Maybe a. Since a Generator has a fixed element type, the input to the reducer is generally known and extracting from the monoid usually is sufficient to fix the result type. Combinators are available for most scenarios where this is not the case, and the few remaining cases can be handled by using an explicit type annotation.

Minimal definition: unit

Minimal complete definition

unit

Methods

unit :: c -> m Source

Convert a value into a Semigroup

snoc :: m -> c -> m Source

Append a value to a Semigroup for use in left-to-right reduction

cons :: c -> m -> m Source

Prepend a value onto a Semigroup for use during right-to-left reduction

Instances

Reducer Bool All
Reducer Bool Any
Reducer Int IntSet
Reducer c ()
Reducer a Count
Monoid m => Reducer m (WrappedMonoid m)
Ord a => Reducer a (Set a)
Reducer a (Seq a)
Reducer a (Last a)
Reducer a (First a)
Ord a => Reducer a (Max a)
Ord a => Reducer a (Min a)
Num a => Reducer a (Product a)
Num a => Reducer a (Sum a)
Semigroup a => Reducer a (Dual a)
Reducer c [c]
HasUnion f => Reducer f (Union f)
Semigroup m => Reducer m (Self m)
Measured v a => Reducer a (FingerTree v a)
(Reducer c m, Reducer c n) => Reducer c (m, n)
(Reducer c m, Reducer c n, Reducer c o) => Reducer c (m, n, o)
(Reducer c m, Reducer c n, Reducer c o, Reducer c p) => Reducer c (m, n, o, p)
Applicative f => Reducer (f a) (Traversal f)
Monad f => Reducer (f a) (Action f)
Apply f => Reducer (f a) (Trav f)
Reducer (Maybe a) (Last a)
Reducer (Maybe a) (First a)
(Applicative f, Reducer c m) => Reducer (f c) (Ap f m)
Alternative f => Reducer (f a) (Alternate f a)
(Monad f, Reducer c m) => Reducer (f c) (Mon f m)
MonadPlus f => Reducer (f a) (MonadSum f a)
(HasUnionWith f, Semigroup m, Monoid m) => Reducer (f m) (UnionWith f m)
(Apply f, Reducer c m) => Reducer (f c) (App f m)
Alt f => Reducer (f a) (Alter f a)
Reducer c m => Reducer (WithReducer m c) m
Reducer (a -> a) (Endo a)
Reducer (Int, v) (IntMap v)
Ord k => Reducer (k, v) (Map k v)

foldMapReduce :: (Foldable f, Monoid m, Reducer e m) => (a -> e) -> f a -> m Source

Apply a Reducer to a Foldable container, after mapping the contents into a suitable form for reduction.

foldMapReduce1 :: (Foldable1 f, Reducer e m) => (a -> e) -> f a -> m Source

foldReduce :: (Foldable f, Monoid m, Reducer e m) => f e -> m Source

Apply a Reducer to a Foldable mapping each element through unit

foldReduce1 :: (Foldable1 f, Reducer e m) => f e -> m Source

Apply a Reducer to a Foldable1 mapping each element through unit

pureUnit :: (Applicative f, Reducer c n) => c -> f n Source

returnUnit :: (Monad m, Reducer c n) => c -> m n Source

newtype Count Source

Constructors

Count
Fields getCount :: Int

Instances

Eq Count
Data Count
Ord Count
Read Count
Show Count
Monoid Count
Hashable Count
Semigroup Count
Typeable * Count
Reducer a Count