traverse-with-class-0.2.0.3: Generic applicative traversals

Safe HaskellNone
LanguageHaskell2010

Data.Generics.Traversable

Contents

Description

All of the functions below work only on «interesting» subterms. It is up to the instance writer to decide which subterms are interesting and which subterms should count as immediate. This can also depend on the context c.

The context, denoted c, is a constraint (of kind * -> Constraint) that provides additional facilities to work with the data. Most functions take an implicit parameter ?c :: p c; it's used to disambugate which context you are referring to. p can be Proxy from the tagged package or any other suitable type constructor.

For more information, see:

Scrap your boilerplate with class
http://research.microsoft.com/en-us/um/people/simonpj/papers/hmap/
Generalizing generic fold
http://ro-che.info/articles/2013-03-11-generalizing-gfoldl.html

Synopsis

Open recursion combinators

class GTraversable c a where Source

Minimal complete definition

Nothing

Methods

gtraverse :: (Applicative f, ?c :: p c) => (forall d. c d => d -> f d) -> a -> f a Source

Applicative traversal over (a subset of) immediate subterms. This is a generic version of traverse from Data.Traversable.

The supplied function is applied only to the «interesting» subterms.

Other subterms are lifted using pure, and the whole structure is folded back using <*>.

gtraverse has a default implementation const pure, which works for types without interesting subterms (in particular, atomic types).

Instances

GTraversable c Ordering 
GTraversable c Char 
GTraversable c Double 
GTraversable c Float 
GTraversable c Integer 
GTraversable c Int 
GTraversable c Bool 
GTraversable c () 
GTraversable c (Ratio n) 
c0 a0 => GTraversable c (Maybe a) 
c a => GTraversable c [a] 
(c0 a0, c0 b0) => GTraversable c (Either a b) 
(c0 a0, c0 b0) => GTraversable c (a, b) 
(c0 a0, c0 b0, c0 c1) => GTraversable c (a, b, c) 

gmap :: (GTraversable c a, ?c :: p c) => (forall d. c d => d -> d) -> a -> a Source

Generic map over the immediate subterms

gmapM :: (Monad m, GTraversable c a, ?c :: p c) => (forall d. c d => d -> m d) -> a -> m a Source

Generic monadic map over the immediate subterms

gfoldMap :: (Monoid r, GTraversable c a, ?c :: p c) => (forall d. c d => d -> r) -> a -> r Source

Generic monoidal fold over the immediate subterms (cf. foldMap from Data.Foldable)

gfoldr :: (GTraversable c a, ?c :: p c) => (forall d. c d => d -> r -> r) -> r -> a -> r Source

Generic right fold over the immediate subterms

gfoldl' :: (GTraversable c a, ?c :: p c) => (forall d. c d => r -> d -> r) -> r -> a -> r Source

Generic strict left fold over the immediate subterms

Closed recursion combinators

class (GTraversable (Rec c) a, c a) => Rec c a Source

Rec enables "deep traversals".

It is satisfied automatically when its superclass constraints are satisfied — you are not supposed to declare new instances of this class.

Instances

(GTraversable (Rec c) a, c a) => Rec c a 

everywhere :: forall a c p. (Rec c a, ?c :: p c) => (forall d. Rec c d => d -> d) -> a -> a Source

Apply a transformation everywhere in bottom-up manner

everywhere' :: forall a c p. (Rec c a, ?c :: p c) => (forall d. Rec c d => d -> d) -> a -> a Source

Apply a transformation everywhere in top-down manner

everywhereM :: forall m a c p. (Monad m, Rec c a, ?c :: p c) => (forall d. Rec c d => d -> m d) -> a -> m a Source

Monadic variation on everywhere

everything :: forall r a c p. (Rec c a, ?c :: p c) => (r -> r -> r) -> (forall d. Rec c d => d -> r) -> a -> r Source

Strict left fold over all elements, top-down