This module defines the `Accessor`

type.
It should be imported with qualification.

- data T r a
- fromSetGet :: (a -> r -> r) -> (r -> a) -> T r a
- fromLens :: (r -> (a, a -> r)) -> T r a
- fromWrapper :: (b -> a) -> (a -> b) -> T a b
- self :: T r r
- null :: T r ()
- result :: Eq a => a -> T (a -> r) r
- set :: T r a -> a -> r -> r
- (^=) :: T r a -> a -> r -> r
- compose :: [r -> r] -> r -> r
- get :: T r a -> r -> a
- (^.) :: r -> T r a -> a
- modify :: T r a -> (a -> a) -> r -> r
- (^:) :: T r a -> (a -> a) -> r -> r
- (.>) :: T a b -> T b c -> T a c
- (<.) :: T b c -> T a b -> T a c
- ($%) :: a -> (a -> b) -> b

# Documentation

The access functions we propose, look very similar to those needed for List.mapAccumL (but parameter order is swapped) and State monad. They get the new value of the field and the record and return the old value of the field and the record with the updated field.

fromSetGet :: (a -> r -> r) -> (r -> a) -> T r aSource

fromWrapper :: (b -> a) -> (a -> b) -> T a bSource

If an object is wrapped in a `newtype`

,
you can generate an `Accessor`

to the unwrapped data
by providing a wrapper and an unwrapper function.
The set function is simpler in this case,
since no existing data must be kept.
Since the information content of the wrapped and unwrapped data is equivalent,
you can swap wrapper and unwrapper.
This way you can construct an `Accessor`

that treats a record field containing an unwrapped object
like a field containing a wrapped object.

newtype A = A {unA :: Int} access :: Accessor.T A Int access = fromWrapper A unA

result :: Eq a => a -> T (a -> r) rSource

`result a`

accesses the value of a function for argument `a`

.

Also see semantic editor combinators, that allow to modify all function values of a function at once. Cf. http://conal.net/blog/posts/semantic-editor-combinators/

(^=) :: T r a -> a -> r -> rSource

`set`

as infix operator.
This lets us write `first ^= 2+3 $ second ^= 5+7 $ record`

.

compose :: [r -> r] -> r -> rSource

This is a general function, but it is especially useful for setting many values of different type at once.

`get`

as infix operator.
This lets us write `record^.field^.subfield`

.
This imitates Modula II syntax.

(^:) :: T r a -> (a -> a) -> r -> rSource

`modify`

as infix operator.
This lets us write
`field^:subfield^:(2*) $ record`

,
`record$%field^:subfield^:(2*)`

or `record$%field^:subfield^:(const 1)`

.