Portability | portable |
---|---|

Stability | experimental |

Maintainer | sjoerd |

FoldMap lists: lists represented by their `foldMap`

function.

Examples:

-- A right-infinite list c = 1 `cons` c

-- A left-infinite list d = d `snoc` 2

-- A middle-infinite list ?? e = c `append` d

*> head e 1 *> last e 2

- newtype FMList a = FM {}
- transform :: (forall b. Monoid b => (a -> b) -> c -> b) -> FMList c -> FMList a
- empty :: Alternative f => forall a. f a
- singleton :: a -> FMList a
- cons :: a -> FMList a -> FMList a
- snoc :: FMList a -> a -> FMList a
- pair :: a -> a -> FMList a
- append :: FMList a -> FMList a -> FMList a
- fromList :: [a] -> FMList a
- fromFoldable :: Foldable f => f a -> FMList a
- null :: FMList a -> Bool
- length :: FMList a -> Int
- genericLength :: Num b => FMList a -> b
- head :: FMList a -> a
- tail :: FMList a -> FMList a
- last :: FMList a -> a
- init :: FMList a -> FMList a
- reverse :: FMList a -> FMList a
- toList :: Foldable t => t a -> [a]
- flatten :: Foldable t => FMList (t a) -> FMList a
- filter :: (a -> Bool) -> FMList a -> FMList a
- take :: (Ord n, Num n) => n -> FMList a -> FMList a
- drop :: (Ord n, Num n) => n -> FMList a -> FMList a
- takeWhile :: (a -> Bool) -> FMList a -> FMList a
- dropWhile :: (a -> Bool) -> FMList a -> FMList a
- zip :: FMList a -> FMList b -> FMList (a, b)
- zipWith :: (a -> b -> c) -> FMList a -> FMList b -> FMList c
- iterate :: (a -> a) -> a -> FMList a
- repeat :: a -> FMList a
- unfold :: Foldable t => (b -> t (Either b a)) -> b -> FMList a
- unfoldr :: (b -> Maybe (a, b)) -> b -> FMList a

# Documentation

transform :: (forall b. Monoid b => (a -> b) -> c -> b) -> FMList c -> FMList aSource

The function `transform`

transforms a list by changing
the map function that is passed to `foldMap`

.

It has the following property:

transform a . transform b = transform (b . a)

For example:

m >>= g

= flatten (fmap g m)

= flatten . fmap g $ m

= transform foldMap . transform (. g) $ m

= transform ((. g) . foldMap) m

= transform (\f -> foldMap f . g) m

# Construction

empty :: Alternative f => forall a. f a

The identity of `<|>`

fromFoldable :: Foldable f => f a -> FMList aSource

# Basic functions

genericLength :: Num b => FMList a -> bSource

# Folding

# Unfolding

unfold :: Foldable t => (b -> t (Either b a)) -> b -> FMList aSource

`unfold`

builds a list from a seed value.
The function takes the seed and returns an `FMList`

(or any other `Foldable`

instance) of values.
If the value is `Right`

`a`

, then `a`

is appended to the result, and if the
value is `Left`

`b`

, then `b`

is used as seed value in a recursive call.

A simple use of `unfold`

(simulating unfoldl):

*> unfold (\b -> if b == 0 then empty else Left (b-1) `pair` Right b) 10 fromList [1,2,3,4,5,6,7,8,9,10]

unfoldr :: (b -> Maybe (a, b)) -> b -> FMList aSource

`unfoldr`

builds an `FMList`

from a seed value from left to right.
The function takes the element and returns `Nothing`

if it is done producing the list or returns `Just`

`(a,b)`

, in which
case, `a`

is a appended to the result and `b`

is used as the next
seed value in a recursive call.

A simple use of `unfoldr`

:

*> unfoldr (\b -> if b == 0 then Nothing else Just (b, b-1)) 10 fromList [10,9,8,7,6,5,4,3,2,1]