#Comonad Source

class (Extend w) <= Comonad w  where

Comonad extends the Extend class with the extract function which extracts a value, discarding the comonadic context.

Comonad is the dual of Monad, and extract is the dual of pure.


  • Left Identity: extract <<= xs = xs
  • Right Identity: extract (f <<= xs) = f xs


Re-exports from Control.Extend

#Extend Source

class (Functor w) <= Extend w  where

The Extend class defines the extension operator (<<=) which extends a local context-dependent computation to a global computation.

Extend is the dual of Bind, and (<<=) is the dual of (>>=).


  • Associativity: extend f <<< extend g = extend (f <<< extend g)


  • extend :: forall a b. (w a -> b) -> w a -> w b


#duplicate Source

duplicate :: forall w a. Extend w => w a -> w (w a)

Duplicate a comonadic context.

duplicate is dual to Control.Bind.join.

#(=>>) Source

Operator alias for Control.Extend.extendFlipped (left-associative / precedence 1)

#(=>=) Source

Operator alias for Control.Extend.composeCoKleisli (right-associative / precedence 1)

#(=<=) Source

Operator alias for Control.Extend.composeCoKleisliFlipped (right-associative / precedence 1)

#(<<=) Source

Operator alias for Control.Extend.extend (right-associative / precedence 1)

Re-exports from Data.Functor

#Functor Source

class Functor f  where

A Functor is a type constructor which supports a mapping operation map.

map can be used to turn functions a -> b into functions f a -> f b whose argument and return types use the type constructor f to represent some computational context.

Instances must satisfy the following laws:

  • Identity: map id = id
  • Composition: map (f <<< g) = map f <<< map g


  • map :: forall b a. (a -> b) -> f a -> f b


#void Source

void :: forall a f. Functor f => f a -> f Unit

The void function is used to ignore the type wrapped by a Functor, replacing it with Unit and keeping only the type information provided by the type constructor itself.

void is often useful when using do notation to change the return type of a monadic computation:

main = forE 1 10 \n -> void do
  print n
  print (n * n)

#(<$>) Source

Operator alias for (left-associative / precedence 4)

#(<$) Source

Operator alias for Data.Functor.voidRight (left-associative / precedence 4)

#(<#>) Source

Operator alias for Data.Functor.mapFlipped (left-associative / precedence 1)

#($>) Source

Operator alias for Data.Functor.voidLeft (left-associative / precedence 4)