Module

Control.Comonad.Cofree

The cofree comonad for a Functor.

newtype Cofree f a

The Cofree Comonad for a functor.

A value of type Cofree f a consists of an f-branching tree, annotated with labels of type a.

The Comonad instance supports redecoration, recomputing labels from the local context.

deferCofree :: forall a f. (Unit -> Tuple a (f (Cofree f a))) -> Cofree f a

Lazily creates a value of type Cofree f a from a label and a functor-full of "subtrees".

mkCofree :: forall a f. a -> f (Cofree f a) -> Cofree f a

Create a value of type Cofree f a from a label and a functor-full of "subtrees".

Operator alias for Control.Comonad.Cofree.mkCofree (right-associative / precedence 5)

head :: forall a f. Cofree f a -> a

Returns the label for a tree.

tail :: forall a f. Cofree f a -> f (Cofree f a)

Returns the "subtrees" of a tree.

hoistCofree :: forall g f. Functor f => (f ~> g) -> (Cofree f) ~> (Cofree g)

unfoldCofree :: forall a s f. Functor f => (s -> a) -> (s -> f s) -> s -> Cofree f a

This signature is deprecated and will be replaced by buildCofree in a future release.

buildCofree :: forall a s f. Functor f => (s -> Tuple a (f s)) -> s -> Cofree f a

Recursively unfolds a Cofree structure given a seed.

explore :: forall b a g f. Functor f => Functor g => (forall y x. f (x -> y) -> g x -> y) -> Free f (a -> b) -> Cofree g a -> b

Explore a value in the cofree comonad by using an expression in a corresponding free monad.

The free monad should be built from a functor which pairs with the functor underlying the cofree comonad.

exploreM :: forall m b a g f. Functor f => Functor g => MonadRec m => (forall y x. f (x -> y) -> g x -> m y) -> Free f (a -> b) -> Cofree g a -> m b

Modules: Control.Comonad.Cofree; Control.Comonad.Cofree.Class; Control.Monad.Free; Control.Monad.Free.Class; Control.Monad.Trampoline; Data.Coyoneda; Data.Yoneda