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{- # LANGUAGE RankNTypes # -}
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module Lets.Lens (
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fmapT
, over
, fmapTAgain
, Set
, sets
, mapped
, set
, foldMapT
, foldMapOf
, foldMapTAgain
, Fold
, folds
, folded
, Get
, get
, Traversal
, both
, traverseLeft
, traverseRight
, Traversal'
, Lens
, Prism
, _Left
, _Right
, prism
, _Just
, _Nothing
, setP
, getP
, Prism'
, modify
, ( %~ )
, ( .~ )
, fmodify
, ( |= )
, fstL
, sndL
, mapL
, setL
, compose
, ( |. )
, identity
, product
, ( *** )
, choice
, ( ||| )
, Lens'
, cityL
, stateL
, countryL
, streetL
, suburbL
, localityL
, ageL
, nameL
, addressL
, intAndIntL
, intAndL
, getSuburb
, setStreet
, getAgeAndCountry
, setCityAndLocality
, getSuburbOrCity
, setStreetOrState
, modifyCityUppercase
, modifyIntAndLengthEven
, traverseLocality
, intOrIntP
, intOrP
, intOrLengthEven
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) where
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import Control.Applicative ( Applicative ( ( <*> ) , pure ) )
import Data.Bool ( bool )
import Data.Char ( toUpper )
import Data.Foldable ( Foldable ( foldMap ) )
import Data.Functor ( ( <$> ) )
import Data.Map ( Map )
import qualified Data.Map as Map ( insert , delete , lookup )
import Data.Monoid ( Monoid )
import qualified Data.Set as Set ( Set , insert , delete , member )
import Data.Traversable ( Traversable ( traverse ) )
import Lets.Data ( AlongsideLeft ( AlongsideLeft , getAlongsideLeft ) , AlongsideRight ( AlongsideRight , getAlongsideRight ) , Identity ( Identity , getIdentity ) , Const ( Const , getConst ) , Tagged ( Tagged , getTagged ) , IntOr ( IntOrIs , IntOrIsNot ) , IntAnd ( IntAnd ) , Person ( Person ) , Locality ( Locality ) , Address ( Address ) )
import Lets.Choice ( Choice ( left , right ) )
import Lets.Profunctor ( Profunctor ( dimap ) )
import Prelude hiding ( product )
-- $setup
-- >>> import qualified Data.Map as Map(fromList)
-- >>> import qualified Data.Set as Set(fromList)
-- >>> import Data.Char(ord)
-- Let's remind ourselves of Traversable, noting Foldable and Functor.
--
-- class (Foldable t, Functor t) => Traversable t where
-- traverse ::
-- Applicative f =>
-- (a -> f b)
-- -> t a
-- -> f (t b)
-- | Observe that @fmap@ can be recovered from @traverse@ using @Identity@.
--
-- /Reminder:/ fmap :: Functor t => (a -> b) -> t a -> t b
fmapT ::
Traversable t =>
( a -> b )
-> t a
-> t b
fmapT =
error " todo: fmapT "
-- | Let's refactor out the call to @traverse@ as an argument to @fmapT@.
over ::
( ( a -> Identity b ) -> s -> Identity t )
-> ( a -> b )
-> s
-> t
over =
error " todo: over "
-- | Here is @fmapT@ again, passing @traverse@ to @over@.
fmapTAgain ::
Traversable t =>
( a -> b )
-> t a
-> t b
fmapTAgain =
error " todo: fmapTAgain "
-- | Let's create a type-alias for this type of function.
type Set s t a b =
( a -> Identity b )
-> s
-> Identity t
-- | Let's write an inverse to @over@ that does the @Identity@ wrapping &
-- unwrapping.
sets ::
( ( a -> b ) -> s -> t )
-> Set s t a b
sets =
error " todo: sets "
mapped ::
Functor f =>
Set ( f a ) ( f b ) a b
mapped =
error " todo: mapped "
set ::
Set s t a b
-> s
-> b
-> t
set =
error " todo: set "
----
-- | Observe that @fmap@ can be recovered from @traverse@ using @Identity@.
--
-- /Reminder:/ foldMap :: (Foldable t, Monoid b) => (a -> b) -> t a -> b
foldMapT ::
( Traversable t , Monoid b ) =>
( a -> b )
-> t a
-> b
foldMapT =
error " todo: foldMapT "
-- | Let's refactor out the call to @traverse@ as an argument to @foldMapT@.
foldMapOf ::
( ( a -> Const r b ) -> s -> Const r t )
-> ( a -> r )
-> s
-> r
foldMapOf =
error " todo: foldMapOf "
-- | Here is @foldMapT@ again, passing @traverse@ to @foldMapOf@.
foldMapTAgain ::
( Traversable t , Monoid b ) =>
( a -> b )
-> t a
-> b
foldMapTAgain =
error " todo: foldMapTAgain "
-- | Let's create a type-alias for this type of function.
type Fold s t a b =
forall r .
Monoid r =>
( a -> Const r b )
-> s
-> Const r t
-- | Let's write an inverse to @foldMapOf@ that does the @Const@ wrapping &
-- unwrapping.
folds ::
( ( a -> b ) -> s -> t )
-> ( a -> Const b a )
-> s
-> Const t s
folds =
error " todo: folds "
folded ::
Foldable f =>
Fold ( f a ) ( f a ) a a
folded =
error " todo: folded "
----
-- | @Get@ is like @Fold@, but without the @Monoid@ constraint.
type Get r s a =
( a -> Const r a )
-> s
-> Const r s
get ::
Get a s a
-> s
-> a
get =
error " todo: get "
----
-- | Let's generalise @Identity@ and @Const r@ to any @Applicative@ instance.
type Traversal s t a b =
forall f .
Applicative f =>
( a -> f b )
-> s
-> f t
-- | Traverse both sides of a pair.
both ::
Traversal ( a , a ) ( b , b ) a b
both =
error " todo: both "
-- | Traverse the left side of @Either@.
traverseLeft ::
Traversal ( Either a x ) ( Either b x ) a b
traverseLeft =
error " todo: traverseLeft "
-- | Traverse the right side of @Either@.
traverseRight ::
Traversal ( Either x a ) ( Either x b ) a b
traverseRight =
error " todo: traverseRight "
type Traversal' a b =
Traversal a a b b
----
-- | @Const r@ is @Applicative@, if @Monoid r@, however, without the @Monoid@
-- constraint (as in @Get@), the only shared abstraction between @Identity@ and
-- @Const r@ is @Functor@.
--
-- Consequently, we arrive at our lens derivation:
type Lens s t a b =
forall f .
Functor f =>
( a -> f b )
-> s
-> f t
----
-- | A prism is a less specific type of traversal.
type Prism s t a b =
forall p f .
( Choice p , Applicative f ) =>
p a ( f b )
-> p s ( f t )
_Left ::
Prism ( Either a x ) ( Either b x ) a b
_Left =
error " todo: _Left "
_Right ::
Prism ( Either x a ) ( Either x b ) a b
_Right =
error " todo: _Right "
prism ::
( b -> t )
-> ( s -> Either t a )
-> Prism s t a b
prism =
error " todo: prism "
_Just ::
Prism ( Maybe a ) ( Maybe b ) a b
_Just =
error " todo: _Just "
_Nothing ::
Prism ( Maybe a ) ( Maybe a ) () ()
_Nothing =
error " todo: _Nothing "
setP ::
Prism s t a b
-> s
-> Either t a
setP =
error " todo: setP "
getP ::
Prism s t a b
-> b
-> t
getP =
error " todo: getP "
type Prism' a b =
Prism a a b b
----
-- |
--
-- >>> modify fstL (+1) (0 :: Int, "abc")
-- (1,"abc")
--
-- >>> modify sndL (+1) ("abc", 0 :: Int)
-- ("abc",1)
--
-- prop> let types = (x :: Int, y :: String) in modify fstL id (x, y) == (x, y)
--
-- prop> let types = (x :: Int, y :: String) in modify sndL id (x, y) == (x, y)
modify ::
Lens s t a b
-> ( a -> b )
-> s
-> t
modify =
error " todo: modify "
-- | An alias for @modify@.
( %~ ) ::
Lens s t a b
-> ( a -> b )
-> s
-> t
( %~ ) =
modify
infixr 4 %~
-- |
--
-- >>> fstL .~ 1 $ (0 :: Int, "abc")
-- (1,"abc")
--
-- >>> sndL .~ 1 $ ("abc", 0 :: Int)
-- ("abc",1)
--
-- prop> let types = (x :: Int, y :: String) in set fstL (x, y) z == (fstL .~ z $ (x, y))
--
-- prop> let types = (x :: Int, y :: String) in set sndL (x, y) z == (sndL .~ z $ (x, y))
( .~ ) ::
Lens s t a b
-> b
-> s
-> t
( .~ ) =
error " todo: (.~) "
infixl 5 .~
-- |
--
-- >>> fmodify fstL (+) (5 :: Int, "abc") 8
-- (13,"abc")
--
-- >>> fmodify fstL (\n -> bool Nothing (Just (n * 2)) (even n)) (10, "abc")
-- Just (20,"abc")
--
-- >>> fmodify fstL (\n -> bool Nothing (Just (n * 2)) (even n)) (11, "abc")
-- Nothing
fmodify ::
Functor f =>
Lens s t a b
-> ( a -> f b )
-> s
-> f t
fmodify =
error " todo: fmodify "
-- |
--
-- >>> fstL |= Just 3 $ (7, "abc")
-- Just (3,"abc")
--
-- >>> (fstL |= (+1) $ (3, "abc")) 17
-- (18,"abc")
( |= ) ::
Functor f =>
Lens s t a b
-> f b
-> s
-> f t
( |= ) =
error " todo: (|=) "
infixl 5 |=
-- |
--
-- >>> modify fstL (*10) (3, "abc")
-- (30,"abc")
fstL ::
Lens ( a , x ) ( b , x ) a b
fstL =
error " todo: fstL "
-- |
--
-- >>> modify sndL (++ "def") (13, "abc")
-- (13,"abcdef")
sndL ::
Lens ( x , a ) ( x , b ) a b
sndL =
error " todo: sndL "
-- |
--
-- >>> get (mapL 3) (Map.fromList (map (\c -> (ord c - 96, c)) ['a'..'d']))
-- Just 'c'
--
-- >>> get (mapL 33) (Map.fromList (map (\c -> (ord c - 96, c)) ['a'..'d']))
-- Nothing
--
-- >>> set (mapL 3) (Map.fromList (map (\c -> (ord c - 96, c)) ['a'..'d'])) (Just 'X')
-- fromList [(1,'a'),(2,'b'),(3,'X'),(4,'d')]
--
-- >>> set (mapL 33) (Map.fromList (map (\c -> (ord c - 96, c)) ['a'..'d'])) (Just 'X')
-- fromList [(1,'a'),(2,'b'),(3,'c'),(4,'d'),(33,'X')]
--
-- >>> set (mapL 3) (Map.fromList (map (\c -> (ord c - 96, c)) ['a'..'d'])) Nothing
-- fromList [(1,'a'),(2,'b'),(4,'d')]
--
-- >>> set (mapL 33) (Map.fromList (map (\c -> (ord c - 96, c)) ['a'..'d'])) Nothing
-- fromList [(1,'a'),(2,'b'),(3,'c'),(4,'d')]
mapL ::
Ord k =>
k
-> Lens ( Map k v ) ( Map k v ) ( Maybe v ) ( Maybe v )
mapL =
error " todo: mapL "
-- |
--
-- >>> get (setL 3) (Set.fromList [1..5])
-- True
--
-- >>> get (setL 33) (Set.fromList [1..5])
-- False
--
-- >>> set (setL 3) (Set.fromList [1..5]) True
-- fromList [1,2,3,4,5]
--
-- >>> set (setL 3) (Set.fromList [1..5]) False
-- fromList [1,2,4,5]
--
-- >>> set (setL 33) (Set.fromList [1..5]) True
-- fromList [1,2,3,4,5,33]
--
-- >>> set (setL 33) (Set.fromList [1..5]) False
-- fromList [1,2,3,4,5]
setL ::
Ord k =>
k
-> Lens ( Set . Set k ) ( Set . Set k ) Bool Bool
setL =
error " todo: setL "
-- |
--
-- >>> get (compose fstL sndL) ("abc", (7, "def"))
-- 7
--
-- >>> set (compose fstL sndL) ("abc", (7, "def")) 8
-- ("abc",(8,"def"))
compose ::
Lens s t a b
-> Lens q r s t
-> Lens q r a b
compose =
error " todo: compose "
-- | An alias for @compose@.
( |. ) ::
Lens s t a b
-> Lens q r s t
-> Lens q r a b
( |. ) =
compose
infixr 9 |.
-- |
--
-- >>> get identity 3
-- 3
--
-- >>> set identity 3 4
-- 4
identity ::
Lens a b a b
identity =
error " todo: identity "
-- |
--
-- >>> get (product fstL sndL) (("abc", 3), (4, "def"))
-- ("abc","def")
--
-- >>> set (product fstL sndL) (("abc", 3), (4, "def")) ("ghi", "jkl")
-- (("ghi",3),(4,"jkl"))
product ::
Lens s t a b
-> Lens q r c d
-> Lens ( s , q ) ( t , r ) ( a , c ) ( b , d )
product =
error " todo: product "
-- | An alias for @product@.
( *** ) ::
Lens s t a b
-> Lens q r c d
-> Lens ( s , q ) ( t , r ) ( a , c ) ( b , d )
( *** ) =
product
infixr 3 ***
-- |
--
-- >>> get (choice fstL sndL) (Left ("abc", 7))
-- "abc"
--
-- >>> get (choice fstL sndL) (Right ("abc", 7))
-- 7
--
-- >>> set (choice fstL sndL) (Left ("abc", 7)) "def"
-- Left ("def",7)
--
-- >>> set (choice fstL sndL) (Right ("abc", 7)) 8
-- Right ("abc",8)
choice ::
Lens s t a b
-> Lens q r a b
-> Lens ( Either s q ) ( Either t r ) a b
choice =
error " todo: choice "
-- | An alias for @choice@.
( ||| ) ::
Lens s t a b
-> Lens q r a b
-> Lens ( Either s q ) ( Either t r ) a b
( ||| ) =
choice
infixr 2 |||
----
type Lens' a b =
Lens a a b b
cityL ::
Lens' Locality String
cityL p ( Locality c t y ) =
fmap ( \ c' -> Locality c' t y ) ( p c )
stateL ::
Lens' Locality String
stateL p ( Locality c t y ) =
fmap ( \ t' -> Locality c t' y ) ( p t )
countryL ::
Lens' Locality String
countryL p ( Locality c t y ) =
fmap ( \ y' -> Locality c t y' ) ( p y )
streetL ::
Lens' Address String
streetL p ( Address t s l ) =
fmap ( \ t' -> Address t' s l ) ( p t )
suburbL ::
Lens' Address String
suburbL p ( Address t s l ) =
fmap ( \ s' -> Address t s' l ) ( p s )
localityL ::
Lens' Address Locality
localityL p ( Address t s l ) =
fmap ( \ l' -> Address t s l' ) ( p l )
ageL ::
Lens' Person Int
ageL p ( Person a n d ) =
fmap ( \ a' -> Person a' n d ) ( p a )
nameL ::
Lens' Person String
nameL p ( Person a n d ) =
fmap ( \ n' -> Person a n' d ) ( p n )
addressL ::
Lens' Person Address
addressL p ( Person a n d ) =
fmap ( \ d' -> Person a n d' ) ( p d )
intAndIntL ::
Lens' ( IntAnd a ) Int
intAndIntL p ( IntAnd n a ) =
fmap ( \ n' -> IntAnd n' a ) ( p n )
-- lens for polymorphic update
intAndL ::
Lens ( IntAnd a ) ( IntAnd b ) a b
intAndL p ( IntAnd n a ) =
fmap ( \ a' -> IntAnd n a' ) ( p a )
-- |
--
-- >>> get (suburbL |. addressL) fred
-- "Fredville"
--
-- >>> get (suburbL |. addressL) mary
-- "Maryland"
getSuburb ::
Person
-> String
getSuburb =
error " todo: getSuburb "
-- |
--
-- >>> setStreet fred "Some Other St"
-- Person 24 "Fred" (Address "Some Other St" "Fredville" (Locality "Fredmania" "New South Fred" "Fredalia"))
--
-- >>> setStreet mary "Some Other St"
-- Person 28 "Mary" (Address "Some Other St" "Maryland" (Locality "Mary Mary" "Western Mary" "Maristan"))
setStreet ::
Person
-> String
-> Person
setStreet =
error " todo: setStreet "
-- |
--
-- >>> getAgeAndCountry (fred, maryLocality)
-- (24,"Maristan")
--
-- >>> getAgeAndCountry (mary, fredLocality)
-- (28,"Fredalia")
getAgeAndCountry ::
( Person , Locality )
-> ( Int , String )
getAgeAndCountry =
error " todo: getAgeAndCountry "
-- |
--
-- >>> setCityAndLocality (fred, maryAddress) ("Some Other City", fredLocality)
-- (Person 24 "Fred" (Address "15 Fred St" "Fredville" (Locality "Some Other City" "New South Fred" "Fredalia")),Address "83 Mary Ln" "Maryland" (Locality "Fredmania" "New South Fred" "Fredalia"))
--
-- >>> setCityAndLocality (mary, fredAddress) ("Some Other City", maryLocality)
-- (Person 28 "Mary" (Address "83 Mary Ln" "Maryland" (Locality "Some Other City" "Western Mary" "Maristan")),Address "15 Fred St" "Fredville" (Locality "Mary Mary" "Western Mary" "Maristan"))
setCityAndLocality ::
( Person , Address ) -> ( String , Locality ) -> ( Person , Address )
setCityAndLocality =
error " todo: setCityAndLocality "
-- |
--
-- >>> getSuburbOrCity (Left maryAddress)
-- "Maryland"
--
-- >>> getSuburbOrCity (Right fredLocality)
-- "Fredmania"
getSuburbOrCity ::
Either Address Locality
-> String
getSuburbOrCity =
error " todo: getSuburbOrCity "
-- |
--
-- >>> setStreetOrState (Right maryLocality) "Some Other State"
-- Right (Locality "Mary Mary" "Some Other State" "Maristan")
--
-- >>> setStreetOrState (Left fred) "Some Other St"
-- Left (Person 24 "Fred" (Address "Some Other St" "Fredville" (Locality "Fredmania" "New South Fred" "Fredalia")))
setStreetOrState ::
Either Person Locality
-> String
-> Either Person Locality
setStreetOrState =
error " todo: setStreetOrState "
-- |
--
-- >>> modifyCityUppercase fred
-- Person 24 "Fred" (Address "15 Fred St" "Fredville" (Locality "FREDMANIA" "New South Fred" "Fredalia"))
--
-- >>> modifyCityUppercase mary
-- Person 28 "Mary" (Address "83 Mary Ln" "Maryland" (Locality "MARY MARY" "Western Mary" "Maristan"))
modifyCityUppercase ::
Person
-> Person
modifyCityUppercase =
error " todo: modifyCityUppercase "
-- |
--
-- >>> modifyIntAndLengthEven (IntAnd 10 "abc")
-- IntAnd 10 False
--
-- >>> modifyIntAndLengthEven (IntAnd 10 "abcd")
-- IntAnd 10 True
modifyIntAndLengthEven ::
IntAnd [ a ]
-> IntAnd Bool
modifyIntAndLengthEven =
error " todo: modifyIntAndLengthEven "
----
-- |
--
-- >>> over traverseLocality (map toUpper) (Locality "abc" "def" "ghi")
-- Locality "ABC" "DEF" "GHI"
traverseLocality ::
Traversal' Locality String
traverseLocality =
error " todo: traverseLocality "
-- |
--
-- >>> over intOrIntP (*10) (IntOrIs 3)
-- IntOrIs 30
--
-- >>> over intOrIntP (*10) (IntOrIsNot "abc")
-- IntOrIsNot "abc"
intOrIntP ::
Prism' ( IntOr a ) Int
intOrIntP =
error " todo: intOrIntP "
intOrP ::
Prism ( IntOr a ) ( IntOr b ) a b
intOrP =
error " todo: intOrP "
-- |
--
-- >> over intOrP (even . length) (IntOrIsNot "abc")
-- IntOrIsNot False
--
-- >>> over intOrP (even . length) (IntOrIsNot "abcd")
-- IntOrIsNot True
--
-- >>> over intOrP (even . length) (IntOrIs 10)
-- IntOrIs 10
intOrLengthEven ::
IntOr [ a ]
-> IntOr Bool
intOrLengthEven =
error " todo: intOrLengthEven "