{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE ConstraintKinds #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE CPP #-}
-- | Warning: This module should be considered highly experimental.
module Data.Containers where

import Prelude hiding (lookup)
import Data.Maybe (fromMaybe)
import qualified Data.Map.Strict as Map
import qualified Data.IntMap.Strict as IntMap
import qualified Data.HashMap.Strict as HashMap
import Data.Hashable (Hashable)
import qualified Data.Set as Set
import qualified Data.HashSet as HashSet
import Data.Monoid (Monoid (..))
import Data.MonoTraversable (MonoFunctor(..), MonoFoldable, MonoTraversable, Element, GrowingAppend, ofoldl', otoList)
import Data.Function (on)
import qualified Data.List as List
import qualified Data.IntSet as IntSet

import qualified Data.Text.Lazy as LText
import qualified Data.Text as Text
import qualified Data.ByteString.Lazy as LByteString
import qualified Data.ByteString as ByteString
import Control.Arrow ((***))
import GHC.Exts (Constraint)

-- | A container whose values are stored in Key-Value pairs.
class (Data.Monoid.Monoid set, Semigroup set, MonoFoldable set, Eq (ContainerKey set), GrowingAppend set) => SetContainer set where
    -- | The type of the key
    type ContainerKey set

    -- | Check if there is a value with the supplied key
    -- in the container.
    member :: ContainerKey set -> set -> Bool

    -- | Check if there isn't a value with the supplied key
    -- in the container.
    notMember ::  ContainerKey set -> set -> Bool

    -- | Get the union of two containers.
    union :: set -> set -> set

    -- | Combine a collection of @SetContainer@s, with left-most values overriding
    -- when there are matching keys.
    --
    -- @since 1.0.0
    unions :: (MonoFoldable mono, Element mono ~ set) => mono -> set
    unions = (set -> Element mono -> set) -> set -> mono -> set
forall mono a.
MonoFoldable mono =>
(a -> Element mono -> a) -> a -> mono -> a
forall a. (a -> Element mono -> a) -> a -> mono -> a
ofoldl' set -> set -> set
set -> Element mono -> set
forall set. SetContainer set => set -> set -> set
union set
forall a. Monoid a => a
Data.Monoid.mempty
    {-# INLINE unions #-}

    -- | Get the difference of two containers.
    difference :: set -> set -> set

    -- | Get the intersection of two containers.
    intersection :: set -> set -> set

    -- | Get a list of all of the keys in the container.
    keys :: set -> [ContainerKey set]

-- | This instance uses the functions from "Data.Map.Strict".
instance Ord k => SetContainer (Map.Map k v) where
    type ContainerKey (Map.Map k v) = k
    member :: ContainerKey (Map k v) -> Map k v -> Bool
member = k -> Map k v -> Bool
ContainerKey (Map k v) -> Map k v -> Bool
forall k a. Ord k => k -> Map k a -> Bool
Map.member
    {-# INLINE member #-}
    notMember :: ContainerKey (Map k v) -> Map k v -> Bool
notMember = k -> Map k v -> Bool
ContainerKey (Map k v) -> Map k v -> Bool
forall k a. Ord k => k -> Map k a -> Bool
Map.notMember
    {-# INLINE notMember #-}
    union :: Map k v -> Map k v -> Map k v
union = Map k v -> Map k v -> Map k v
forall k v. Ord k => Map k v -> Map k v -> Map k v
Map.union
    {-# INLINE union #-}
    unions :: forall mono.
(MonoFoldable mono, Element mono ~ Map k v) =>
mono -> Map k v
unions = [Map k v] -> Map k v
forall (f :: * -> *) k a.
(Foldable f, Ord k) =>
f (Map k a) -> Map k a
Map.unions ([Map k v] -> Map k v) -> (mono -> [Map k v]) -> mono -> Map k v
forall b c a. (b -> c) -> (a -> b) -> a -> c
. mono -> [Map k v]
mono -> [Element mono]
forall mono. MonoFoldable mono => mono -> [Element mono]
otoList
    {-# INLINE unions #-}
    difference :: Map k v -> Map k v -> Map k v
difference = Map k v -> Map k v -> Map k v
forall k a b. Ord k => Map k a -> Map k b -> Map k a
Map.difference
    {-# INLINE difference #-}
    intersection :: Map k v -> Map k v -> Map k v
intersection = Map k v -> Map k v -> Map k v
forall k a b. Ord k => Map k a -> Map k b -> Map k a
Map.intersection
    {-# INLINE intersection #-}
    keys :: Map k v -> [ContainerKey (Map k v)]
keys = Map k v -> [k]
Map k v -> [ContainerKey (Map k v)]
forall k a. Map k a -> [k]
Map.keys
    {-# INLINE keys #-}

-- | This instance uses the functions from "Data.HashMap.Strict".
instance (Eq key, Hashable key) => SetContainer (HashMap.HashMap key value) where
    type ContainerKey (HashMap.HashMap key value) = key
    member :: ContainerKey (HashMap key value) -> HashMap key value -> Bool
member = key -> HashMap key value -> Bool
ContainerKey (HashMap key value) -> HashMap key value -> Bool
forall k a. (Eq k, Hashable k) => k -> HashMap k a -> Bool
HashMap.member
    {-# INLINE member #-}
    notMember :: ContainerKey (HashMap key value) -> HashMap key value -> Bool
notMember ContainerKey (HashMap key value)
k = Bool -> Bool
not (Bool -> Bool)
-> (HashMap key value -> Bool) -> HashMap key value -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. key -> HashMap key value -> Bool
forall k a. (Eq k, Hashable k) => k -> HashMap k a -> Bool
HashMap.member key
ContainerKey (HashMap key value)
k
    {-# INLINE notMember #-}
    union :: HashMap key value -> HashMap key value -> HashMap key value
union = HashMap key value -> HashMap key value -> HashMap key value
forall key value.
(Eq key, Hashable key) =>
HashMap key value -> HashMap key value -> HashMap key value
HashMap.union
    {-# INLINE union #-}
    unions :: forall mono.
(MonoFoldable mono, Element mono ~ HashMap key value) =>
mono -> HashMap key value
unions = [HashMap key value] -> HashMap key value
forall k v. (Eq k, Hashable k) => [HashMap k v] -> HashMap k v
HashMap.unions ([HashMap key value] -> HashMap key value)
-> (mono -> [HashMap key value]) -> mono -> HashMap key value
forall b c a. (b -> c) -> (a -> b) -> a -> c
. mono -> [HashMap key value]
mono -> [Element mono]
forall mono. MonoFoldable mono => mono -> [Element mono]
otoList
    {-# INLINE unions #-}
    difference :: HashMap key value -> HashMap key value -> HashMap key value
difference = HashMap key value -> HashMap key value -> HashMap key value
forall k v w.
(Eq k, Hashable k) =>
HashMap k v -> HashMap k w -> HashMap k v
HashMap.difference
    {-# INLINE difference #-}
    intersection :: HashMap key value -> HashMap key value -> HashMap key value
intersection = HashMap key value -> HashMap key value -> HashMap key value
forall k v w.
(Eq k, Hashable k) =>
HashMap k v -> HashMap k w -> HashMap k v
HashMap.intersection
    {-# INLINE intersection #-}
    keys :: HashMap key value -> [ContainerKey (HashMap key value)]
keys = HashMap key value -> [key]
HashMap key value -> [ContainerKey (HashMap key value)]
forall k v. HashMap k v -> [k]
HashMap.keys
    {-# INLINE keys #-}

-- | This instance uses the functions from "Data.IntMap.Strict".
instance SetContainer (IntMap.IntMap value) where
    type ContainerKey (IntMap.IntMap value) = Int
    member :: ContainerKey (IntMap value) -> IntMap value -> Bool
member = Int -> IntMap value -> Bool
ContainerKey (IntMap value) -> IntMap value -> Bool
forall a. Int -> IntMap a -> Bool
IntMap.member
    {-# INLINE member #-}
    notMember :: ContainerKey (IntMap value) -> IntMap value -> Bool
notMember = Int -> IntMap value -> Bool
ContainerKey (IntMap value) -> IntMap value -> Bool
forall a. Int -> IntMap a -> Bool
IntMap.notMember
    {-# INLINE notMember #-}
    union :: IntMap value -> IntMap value -> IntMap value
union = IntMap value -> IntMap value -> IntMap value
forall value. IntMap value -> IntMap value -> IntMap value
IntMap.union
    {-# INLINE union #-}
    unions :: forall mono.
(MonoFoldable mono, Element mono ~ IntMap value) =>
mono -> IntMap value
unions = [IntMap value] -> IntMap value
forall (f :: * -> *) a. Foldable f => f (IntMap a) -> IntMap a
IntMap.unions ([IntMap value] -> IntMap value)
-> (mono -> [IntMap value]) -> mono -> IntMap value
forall b c a. (b -> c) -> (a -> b) -> a -> c
. mono -> [IntMap value]
mono -> [Element mono]
forall mono. MonoFoldable mono => mono -> [Element mono]
otoList
    {-# INLINE unions #-}
    difference :: IntMap value -> IntMap value -> IntMap value
difference = IntMap value -> IntMap value -> IntMap value
forall a b. IntMap a -> IntMap b -> IntMap a
IntMap.difference
    {-# INLINE difference #-}
    intersection :: IntMap value -> IntMap value -> IntMap value
intersection = IntMap value -> IntMap value -> IntMap value
forall a b. IntMap a -> IntMap b -> IntMap a
IntMap.intersection
    {-# INLINE intersection #-}
    keys :: IntMap value -> [ContainerKey (IntMap value)]
keys = IntMap value -> [Int]
IntMap value -> [ContainerKey (IntMap value)]
forall a. IntMap a -> [Int]
IntMap.keys
    {-# INLINE keys #-}

instance Ord element => SetContainer (Set.Set element) where
    type ContainerKey (Set.Set element) = element
    member :: ContainerKey (Set element) -> Set element -> Bool
member = element -> Set element -> Bool
ContainerKey (Set element) -> Set element -> Bool
forall a. Ord a => a -> Set a -> Bool
Set.member
    {-# INLINE member #-}
    notMember :: ContainerKey (Set element) -> Set element -> Bool
notMember = element -> Set element -> Bool
ContainerKey (Set element) -> Set element -> Bool
forall a. Ord a => a -> Set a -> Bool
Set.notMember
    {-# INLINE notMember #-}
    union :: Set element -> Set element -> Set element
union = Set element -> Set element -> Set element
forall element.
Ord element =>
Set element -> Set element -> Set element
Set.union
    {-# INLINE union #-}
    unions :: forall mono.
(MonoFoldable mono, Element mono ~ Set element) =>
mono -> Set element
unions = [Set element] -> Set element
forall (f :: * -> *) a. (Foldable f, Ord a) => f (Set a) -> Set a
Set.unions ([Set element] -> Set element)
-> (mono -> [Set element]) -> mono -> Set element
forall b c a. (b -> c) -> (a -> b) -> a -> c
. mono -> [Set element]
mono -> [Element mono]
forall mono. MonoFoldable mono => mono -> [Element mono]
otoList
    {-# INLINE unions #-}
    difference :: Set element -> Set element -> Set element
difference = Set element -> Set element -> Set element
forall element.
Ord element =>
Set element -> Set element -> Set element
Set.difference
    {-# INLINE difference #-}
    intersection :: Set element -> Set element -> Set element
intersection = Set element -> Set element -> Set element
forall element.
Ord element =>
Set element -> Set element -> Set element
Set.intersection
    {-# INLINE intersection #-}
    keys :: Set element -> [ContainerKey (Set element)]
keys = Set element -> [element]
Set element -> [ContainerKey (Set element)]
forall a. Set a -> [a]
Set.toList
    {-# INLINE keys #-}

instance (Eq element, Hashable element) => SetContainer (HashSet.HashSet element) where
    type ContainerKey (HashSet.HashSet element) = element
    member :: ContainerKey (HashSet element) -> HashSet element -> Bool
member = element -> HashSet element -> Bool
ContainerKey (HashSet element) -> HashSet element -> Bool
forall a. (Eq a, Hashable a) => a -> HashSet a -> Bool
HashSet.member
    {-# INLINE member #-}
    notMember :: ContainerKey (HashSet element) -> HashSet element -> Bool
notMember ContainerKey (HashSet element)
e = Bool -> Bool
not (Bool -> Bool)
-> (HashSet element -> Bool) -> HashSet element -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. element -> HashSet element -> Bool
forall a. (Eq a, Hashable a) => a -> HashSet a -> Bool
HashSet.member element
ContainerKey (HashSet element)
e
    {-# INLINE notMember #-}
    union :: HashSet element -> HashSet element -> HashSet element
union = HashSet element -> HashSet element -> HashSet element
forall element.
(Eq element, Hashable element) =>
HashSet element -> HashSet element -> HashSet element
HashSet.union
    {-# INLINE union #-}
    difference :: HashSet element -> HashSet element -> HashSet element
difference = HashSet element -> HashSet element -> HashSet element
forall element.
(Eq element, Hashable element) =>
HashSet element -> HashSet element -> HashSet element
HashSet.difference
    {-# INLINE difference #-}
    intersection :: HashSet element -> HashSet element -> HashSet element
intersection = HashSet element -> HashSet element -> HashSet element
forall element.
(Eq element, Hashable element) =>
HashSet element -> HashSet element -> HashSet element
HashSet.intersection
    {-# INLINE intersection #-}
    keys :: HashSet element -> [ContainerKey (HashSet element)]
keys = HashSet element -> [element]
HashSet element -> [ContainerKey (HashSet element)]
forall a. HashSet a -> [a]
HashSet.toList
    {-# INLINE keys #-}

instance SetContainer IntSet.IntSet where
    type ContainerKey IntSet.IntSet = Int
    member :: ContainerKey IntSet -> IntSet -> Bool
member = Int -> IntSet -> Bool
ContainerKey IntSet -> IntSet -> Bool
IntSet.member
    {-# INLINE member #-}
    notMember :: ContainerKey IntSet -> IntSet -> Bool
notMember = Int -> IntSet -> Bool
ContainerKey IntSet -> IntSet -> Bool
IntSet.notMember
    {-# INLINE notMember #-}
    union :: IntSet -> IntSet -> IntSet
union = IntSet -> IntSet -> IntSet
IntSet.union
    {-# INLINE union #-}
    difference :: IntSet -> IntSet -> IntSet
difference = IntSet -> IntSet -> IntSet
IntSet.difference
    {-# INLINE difference #-}
    intersection :: IntSet -> IntSet -> IntSet
intersection = IntSet -> IntSet -> IntSet
IntSet.intersection
    {-# INLINE intersection #-}
    keys :: IntSet -> [ContainerKey IntSet]
keys = IntSet -> [Int]
IntSet -> [ContainerKey IntSet]
IntSet.toList
    {-# INLINE keys #-}

instance Eq key => SetContainer [(key, value)] where
    type ContainerKey [(key, value)] = key
    member :: ContainerKey [(key, value)] -> [(key, value)] -> Bool
member ContainerKey [(key, value)]
k = ((key, value) -> Bool) -> [(key, value)] -> Bool
forall (t :: * -> *) a. Foldable t => (a -> Bool) -> t a -> Bool
List.any ((ContainerKey [(key, value)] -> ContainerKey [(key, value)] -> Bool
forall a. Eq a => a -> a -> Bool
== ContainerKey [(key, value)]
k) (key -> Bool) -> ((key, value) -> key) -> (key, value) -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (key, value) -> key
forall a b. (a, b) -> a
fst)
    {-# INLINE member #-}
    notMember :: ContainerKey [(key, value)] -> [(key, value)] -> Bool
notMember ContainerKey [(key, value)]
k = Bool -> Bool
not (Bool -> Bool)
-> ([(key, value)] -> Bool) -> [(key, value)] -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. ContainerKey [(key, value)] -> [(key, value)] -> Bool
forall set. SetContainer set => ContainerKey set -> set -> Bool
member ContainerKey [(key, value)]
k
    {-# INLINE notMember #-}
    union :: [(key, value)] -> [(key, value)] -> [(key, value)]
union = ((key, value) -> (key, value) -> Bool)
-> [(key, value)] -> [(key, value)] -> [(key, value)]
forall a. (a -> a -> Bool) -> [a] -> [a] -> [a]
List.unionBy (key -> key -> Bool
forall a. Eq a => a -> a -> Bool
(==) (key -> key -> Bool)
-> ((key, value) -> key) -> (key, value) -> (key, value) -> Bool
forall b c a. (b -> b -> c) -> (a -> b) -> a -> a -> c
`on` (key, value) -> key
forall a b. (a, b) -> a
fst)
    {-# INLINE union #-}
    [(key, value)]
x difference :: [(key, value)] -> [(key, value)] -> [(key, value)]
`difference` [(key, value)]
y =
        [(key, value)] -> [(key, value)]
loop [(key, value)]
x
      where
        loop :: [(key, value)] -> [(key, value)]
loop [] = []
        loop ((key
k, value
v):[(key, value)]
rest) =
            case ContainerKey [(key, value)]
-> [(key, value)] -> Maybe (MapValue [(key, value)])
forall map.
IsMap map =>
ContainerKey map -> map -> Maybe (MapValue map)
lookup key
ContainerKey [(key, value)]
k [(key, value)]
y of
                Maybe (MapValue [(key, value)])
Nothing -> (key
k, value
v) (key, value) -> [(key, value)] -> [(key, value)]
forall a. a -> [a] -> [a]
: [(key, value)] -> [(key, value)]
loop [(key, value)]
rest
                Just MapValue [(key, value)]
_ -> [(key, value)] -> [(key, value)]
loop [(key, value)]
rest
    intersection :: [(key, value)] -> [(key, value)] -> [(key, value)]
intersection = ((key, value) -> (key, value) -> Bool)
-> [(key, value)] -> [(key, value)] -> [(key, value)]
forall a. (a -> a -> Bool) -> [a] -> [a] -> [a]
List.intersectBy (key -> key -> Bool
forall a. Eq a => a -> a -> Bool
(==) (key -> key -> Bool)
-> ((key, value) -> key) -> (key, value) -> (key, value) -> Bool
forall b c a. (b -> b -> c) -> (a -> b) -> a -> a -> c
`on` (key, value) -> key
forall a b. (a, b) -> a
fst)
    {-# INLINE intersection #-}
    keys :: [(key, value)] -> [ContainerKey [(key, value)]]
keys = ((key, value) -> key) -> [(key, value)] -> [key]
forall a b. (a -> b) -> [a] -> [b]
map (key, value) -> key
forall a b. (a, b) -> a
fst
    {-# INLINE keys #-}

-- | A guaranteed-polymorphic @Map@, which allows for more polymorphic versions
-- of functions.
class PolyMap map where
    -- | Get the difference between two maps, using the left map's values.
    differenceMap :: map value1 -> map value2 -> map value1
    {-
    differenceWithMap :: (value1 -> value2 -> Maybe value1)
                      -> map value1 -> map value2 -> map value1
    -}

    -- | Get the intersection of two maps, using the left map's values.
    intersectionMap :: map value1 -> map value2 -> map value1

    -- | Get the intersection of two maps with a supplied function
    -- that takes in the left map's value and the right map's value.
    intersectionWithMap :: (value1 -> value2 -> value3)
                        -> map value1 -> map value2 -> map value3

-- | This instance uses the functions from "Data.Map.Strict".
instance Ord key => PolyMap (Map.Map key) where
    differenceMap :: forall value1 value2.
Map key value1 -> Map key value2 -> Map key value1
differenceMap = Map key value1 -> Map key value2 -> Map key value1
forall k a b. Ord k => Map k a -> Map k b -> Map k a
Map.difference
    {-# INLINE differenceMap #-}
    --differenceWithMap = Map.differenceWith
    intersectionMap :: forall value1 value2.
Map key value1 -> Map key value2 -> Map key value1
intersectionMap = Map key value1 -> Map key value2 -> Map key value1
forall k a b. Ord k => Map k a -> Map k b -> Map k a
Map.intersection
    {-# INLINE intersectionMap #-}
    intersectionWithMap :: forall value1 value2 value3.
(value1 -> value2 -> value3)
-> Map key value1 -> Map key value2 -> Map key value3
intersectionWithMap = (value1 -> value2 -> value3)
-> Map key value1 -> Map key value2 -> Map key value3
forall k a b c.
Ord k =>
(a -> b -> c) -> Map k a -> Map k b -> Map k c
Map.intersectionWith
    {-# INLINE intersectionWithMap #-}

-- | This instance uses the functions from "Data.HashMap.Strict".
instance (Eq key, Hashable key) => PolyMap (HashMap.HashMap key) where
    differenceMap :: forall value1 value2.
HashMap key value1 -> HashMap key value2 -> HashMap key value1
differenceMap = HashMap key value1 -> HashMap key value2 -> HashMap key value1
forall k v w.
(Eq k, Hashable k) =>
HashMap k v -> HashMap k w -> HashMap k v
HashMap.difference
    {-# INLINE differenceMap #-}
    --differenceWithMap = HashMap.differenceWith
    intersectionMap :: forall value1 value2.
HashMap key value1 -> HashMap key value2 -> HashMap key value1
intersectionMap = HashMap key value1 -> HashMap key value2 -> HashMap key value1
forall k v w.
(Eq k, Hashable k) =>
HashMap k v -> HashMap k w -> HashMap k v
HashMap.intersection
    {-# INLINE intersectionMap #-}
    intersectionWithMap :: forall value1 value2 value3.
(value1 -> value2 -> value3)
-> HashMap key value1 -> HashMap key value2 -> HashMap key value3
intersectionWithMap = (value1 -> value2 -> value3)
-> HashMap key value1 -> HashMap key value2 -> HashMap key value3
forall k v1 v2 v3.
(Eq k, Hashable k) =>
(v1 -> v2 -> v3) -> HashMap k v1 -> HashMap k v2 -> HashMap k v3
HashMap.intersectionWith
    {-# INLINE intersectionWithMap #-}

-- | This instance uses the functions from "Data.IntMap.Strict".
instance PolyMap IntMap.IntMap where
    differenceMap :: forall a b. IntMap a -> IntMap b -> IntMap a
differenceMap = IntMap value1 -> IntMap value2 -> IntMap value1
forall a b. IntMap a -> IntMap b -> IntMap a
IntMap.difference
    {-# INLINE differenceMap #-}
    --differenceWithMap = IntMap.differenceWith
    intersectionMap :: forall a b. IntMap a -> IntMap b -> IntMap a
intersectionMap = IntMap value1 -> IntMap value2 -> IntMap value1
forall a b. IntMap a -> IntMap b -> IntMap a
IntMap.intersection
    {-# INLINE intersectionMap #-}
    intersectionWithMap :: forall value1 value2 value3.
(value1 -> value2 -> value3)
-> IntMap value1 -> IntMap value2 -> IntMap value3
intersectionWithMap = (value1 -> value2 -> value3)
-> IntMap value1 -> IntMap value2 -> IntMap value3
forall value1 value2 value3.
(value1 -> value2 -> value3)
-> IntMap value1 -> IntMap value2 -> IntMap value3
IntMap.intersectionWith
    {-# INLINE intersectionWithMap #-}

-- | A @Map@ type polymorphic in both its key and value.
class BiPolyMap map where
    type BPMKeyConstraint map key :: Constraint
    mapKeysWith :: (BPMKeyConstraint map k1, BPMKeyConstraint map k2)
                => (v -> v -> v) -- ^ combine values that now overlap
                -> (k1 -> k2)
                -> map k1 v
                -> map k2 v
instance BiPolyMap Map.Map where
    type BPMKeyConstraint Map.Map key = Ord key
    mapKeysWith :: forall k1 k2 v.
(BPMKeyConstraint Map k1, BPMKeyConstraint Map k2) =>
(v -> v -> v) -> (k1 -> k2) -> Map k1 v -> Map k2 v
mapKeysWith = (v -> v -> v) -> (k1 -> k2) -> Map k1 v -> Map k2 v
forall k2 a k1.
Ord k2 =>
(a -> a -> a) -> (k1 -> k2) -> Map k1 a -> Map k2 a
Map.mapKeysWith
    {-# INLINE mapKeysWith #-}
instance BiPolyMap HashMap.HashMap where
    type BPMKeyConstraint HashMap.HashMap key = (Hashable key, Eq key)
    mapKeysWith :: forall k1 k2 v.
(BPMKeyConstraint HashMap k1, BPMKeyConstraint HashMap k2) =>
(v -> v -> v) -> (k1 -> k2) -> HashMap k1 v -> HashMap k2 v
mapKeysWith v -> v -> v
g k1 -> k2
f =
        [(k2, v)] -> HashMap k2 v
[(ContainerKey (HashMap k2 v), MapValue (HashMap k2 v))]
-> HashMap k2 v
forall map. IsMap map => [(ContainerKey map, MapValue map)] -> map
mapFromList ([(k2, v)] -> HashMap k2 v)
-> (HashMap k1 v -> [(k2, v)]) -> HashMap k1 v -> HashMap k2 v
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (MapValue [(k2, v)] -> MapValue [(k2, v)] -> MapValue [(k2, v)])
-> [[(k2, v)]] -> [(k2, v)]
forall map.
IsMap map =>
(MapValue map -> MapValue map -> MapValue map) -> [map] -> map
unionsWith v -> v -> v
MapValue [(k2, v)] -> MapValue [(k2, v)] -> MapValue [(k2, v)]
g ([[(k2, v)]] -> [(k2, v)])
-> (HashMap k1 v -> [[(k2, v)]]) -> HashMap k1 v -> [(k2, v)]
forall b c a. (b -> c) -> (a -> b) -> a -> c
. ((k1, v) -> [(k2, v)]) -> [(k1, v)] -> [[(k2, v)]]
forall a b. (a -> b) -> [a] -> [b]
map (k1, v) -> [(k2, v)]
go ([(k1, v)] -> [[(k2, v)]])
-> (HashMap k1 v -> [(k1, v)]) -> HashMap k1 v -> [[(k2, v)]]
forall b c a. (b -> c) -> (a -> b) -> a -> c
. HashMap k1 v -> [(k1, v)]
HashMap k1 v
-> [(ContainerKey (HashMap k1 v), MapValue (HashMap k1 v))]
forall map. IsMap map => map -> [(ContainerKey map, MapValue map)]
mapToList
      where
        go :: (k1, v) -> [(k2, v)]
go (k1
k, v
v) = [(k1 -> k2
f k1
k, v
v)]
    {-# INLINE mapKeysWith #-}

-- | Polymorphic typeclass for interacting with different map types
class (MonoTraversable map, SetContainer map) => IsMap map where
    -- | In some cases, 'MapValue' and 'Element' will be different, e.g., the
    -- 'IsMap' instance of associated lists.
    type MapValue map

    -- | Look up a value in a map with a specified key.
    lookup       :: ContainerKey map -> map -> Maybe (MapValue map)

    -- | Insert a key-value pair into a map.
    insertMap    :: ContainerKey map -> MapValue map -> map -> map

    -- | Delete a key-value pair of a map using a specified key.
    deleteMap    :: ContainerKey map -> map -> map

    -- | Create a map from a single key-value pair.
    singletonMap :: ContainerKey map -> MapValue map -> map

    -- | Convert a list of key-value pairs to a map
    mapFromList  :: [(ContainerKey map, MapValue map)] -> map

    -- | Convert a map to a list of key-value pairs.
    mapToList    :: map -> [(ContainerKey map, MapValue map)]

    -- | Like 'lookup', but uses a default value when the key does
    -- not exist in the map.
    findWithDefault :: MapValue map -> ContainerKey map -> map -> MapValue map
    findWithDefault MapValue map
def ContainerKey map
key = MapValue map -> Maybe (MapValue map) -> MapValue map
forall a. a -> Maybe a -> a
fromMaybe MapValue map
def (Maybe (MapValue map) -> MapValue map)
-> (map -> Maybe (MapValue map)) -> map -> MapValue map
forall b c a. (b -> c) -> (a -> b) -> a -> c
. ContainerKey map -> map -> Maybe (MapValue map)
forall map.
IsMap map =>
ContainerKey map -> map -> Maybe (MapValue map)
lookup ContainerKey map
key

    -- | Insert a key-value pair into a map.
    --
    -- Inserts the value directly if the key does not exist in the map. Otherwise,
    -- apply a supplied function that accepts the new value and the previous value
    -- and insert that result into the map.
    insertWith :: (MapValue map -> MapValue map -> MapValue map)
                  -- ^ function that accepts the new value and the
                  -- previous value and returns the value that will be
                  -- set in the map.
               -> ContainerKey map -- ^ key
               -> MapValue map     -- ^ new value to insert
               -> map              -- ^ input map
               -> map              -- ^ resulting map
    insertWith MapValue map -> MapValue map -> MapValue map
f ContainerKey map
k MapValue map
v map
m =
        MapValue map
v' MapValue map -> map -> map
forall a b. a -> b -> b
`seq` ContainerKey map -> MapValue map -> map -> map
forall map.
IsMap map =>
ContainerKey map -> MapValue map -> map -> map
insertMap ContainerKey map
k MapValue map
v' map
m
      where
        v' :: MapValue map
v' =
            case ContainerKey map -> map -> Maybe (MapValue map)
forall map.
IsMap map =>
ContainerKey map -> map -> Maybe (MapValue map)
lookup ContainerKey map
k map
m of
                Maybe (MapValue map)
Nothing -> MapValue map
v
                Just MapValue map
vold -> MapValue map -> MapValue map -> MapValue map
f MapValue map
v MapValue map
vold

    -- | Insert a key-value pair into a map.
    --
    -- Inserts the value directly if the key does not exist in the map. Otherwise,
    -- apply a supplied function that accepts the key, the new value, and the
    -- previous value and insert that result into the map.
    insertWithKey
        :: (ContainerKey map -> MapValue map -> MapValue map -> MapValue map)
           -- ^ function that accepts the key, the new value, and the
           -- previous value and returns the value that will be
           -- set in the map.
        -> ContainerKey map -- ^ key
        -> MapValue map     -- ^ new value to insert
        -> map              -- ^ input map
        -> map              -- ^ resulting map
    insertWithKey ContainerKey map -> MapValue map -> MapValue map -> MapValue map
f ContainerKey map
k MapValue map
v map
m =
        MapValue map
v' MapValue map -> map -> map
forall a b. a -> b -> b
`seq` ContainerKey map -> MapValue map -> map -> map
forall map.
IsMap map =>
ContainerKey map -> MapValue map -> map -> map
insertMap ContainerKey map
k MapValue map
v' map
m
      where
        v' :: MapValue map
v' =
            case ContainerKey map -> map -> Maybe (MapValue map)
forall map.
IsMap map =>
ContainerKey map -> map -> Maybe (MapValue map)
lookup ContainerKey map
k map
m of
                Maybe (MapValue map)
Nothing -> MapValue map
v
                Just MapValue map
vold -> ContainerKey map -> MapValue map -> MapValue map -> MapValue map
f ContainerKey map
k MapValue map
v MapValue map
vold

    -- | Insert a key-value pair into a map, return the previous key's value
    -- if it existed.
    --
    -- Inserts the value directly if the key does not exist in the map. Otherwise,
    -- apply a supplied function that accepts the key, the new value, and the
    -- previous value and insert that result into the map.
    insertLookupWithKey
        :: (ContainerKey map -> MapValue map -> MapValue map -> MapValue map)
           -- ^ function that accepts the key, the new value, and the
           -- previous value and returns the value that will be
           -- set in the map.
        -> ContainerKey map            -- ^ key
        -> MapValue map                -- ^ new value to insert
        -> map                         -- ^ input map
        -> (Maybe (MapValue map), map) -- ^ previous value and the resulting map
    insertLookupWithKey ContainerKey map -> MapValue map -> MapValue map -> MapValue map
f ContainerKey map
k MapValue map
v map
m =
        MapValue map
v' MapValue map
-> (Maybe (MapValue map), map) -> (Maybe (MapValue map), map)
forall a b. a -> b -> b
`seq` (Maybe (MapValue map)
mold, ContainerKey map -> MapValue map -> map -> map
forall map.
IsMap map =>
ContainerKey map -> MapValue map -> map -> map
insertMap ContainerKey map
k MapValue map
v' map
m)
      where
        (Maybe (MapValue map)
mold, MapValue map
v') =
            case ContainerKey map -> map -> Maybe (MapValue map)
forall map.
IsMap map =>
ContainerKey map -> map -> Maybe (MapValue map)
lookup ContainerKey map
k map
m of
                Maybe (MapValue map)
Nothing -> (Maybe (MapValue map)
forall a. Maybe a
Nothing, MapValue map
v)
                Just MapValue map
vold -> (MapValue map -> Maybe (MapValue map)
forall a. a -> Maybe a
Just MapValue map
vold, ContainerKey map -> MapValue map -> MapValue map -> MapValue map
f ContainerKey map
k MapValue map
v MapValue map
vold)

    -- | Apply a function to the value of a given key.
    --
    -- Returns the input map when the key-value pair does not exist.
    adjustMap
        :: (MapValue map -> MapValue map)
           -- ^ function to apply to the previous value
        -> ContainerKey map -- ^ key
        -> map              -- ^ input map
        -> map              -- ^ resulting map
    adjustMap MapValue map -> MapValue map
f ContainerKey map
k map
m =
        case ContainerKey map -> map -> Maybe (MapValue map)
forall map.
IsMap map =>
ContainerKey map -> map -> Maybe (MapValue map)
lookup ContainerKey map
k map
m of
            Maybe (MapValue map)
Nothing -> map
m
            Just MapValue map
v ->
                let v' :: MapValue map
v' = MapValue map -> MapValue map
f MapValue map
v
                 in MapValue map
v' MapValue map -> map -> map
forall a b. a -> b -> b
`seq` ContainerKey map -> MapValue map -> map -> map
forall map.
IsMap map =>
ContainerKey map -> MapValue map -> map -> map
insertMap ContainerKey map
k MapValue map
v' map
m

    -- | Equivalent to 'adjustMap', but the function accepts the key,
    -- as well as the previous value.
    adjustWithKey
        :: (ContainerKey map -> MapValue map -> MapValue map)
           -- ^ function that accepts the key and the previous value
           -- and returns the new value
        -> ContainerKey map -- ^ key
        -> map              -- ^ input map
        -> map              -- ^ resulting map
    adjustWithKey ContainerKey map -> MapValue map -> MapValue map
f ContainerKey map
k map
m =
        case ContainerKey map -> map -> Maybe (MapValue map)
forall map.
IsMap map =>
ContainerKey map -> map -> Maybe (MapValue map)
lookup ContainerKey map
k map
m of
            Maybe (MapValue map)
Nothing -> map
m
            Just MapValue map
v ->
                let v' :: MapValue map
v' = ContainerKey map -> MapValue map -> MapValue map
f ContainerKey map
k MapValue map
v
                 in MapValue map
v' MapValue map -> map -> map
forall a b. a -> b -> b
`seq` ContainerKey map -> MapValue map -> map -> map
forall map.
IsMap map =>
ContainerKey map -> MapValue map -> map -> map
insertMap ContainerKey map
k MapValue map
v' map
m

    -- | Apply a function to the value of a given key.
    --
    -- If the function returns 'Nothing', this deletes the key-value pair.
    --
    -- Returns the input map when the key-value pair does not exist.
    updateMap
        :: (MapValue map -> Maybe (MapValue map))
           -- ^ function that accepts the previous value
           -- and returns the new value or 'Nothing'
        -> ContainerKey map -- ^ key
        -> map              -- ^ input map
        -> map              -- ^ resulting map
    updateMap MapValue map -> Maybe (MapValue map)
f ContainerKey map
k map
m =
        case ContainerKey map -> map -> Maybe (MapValue map)
forall map.
IsMap map =>
ContainerKey map -> map -> Maybe (MapValue map)
lookup ContainerKey map
k map
m of
            Maybe (MapValue map)
Nothing -> map
m
            Just MapValue map
v ->
                case MapValue map -> Maybe (MapValue map)
f MapValue map
v of
                    Maybe (MapValue map)
Nothing -> ContainerKey map -> map -> map
forall map. IsMap map => ContainerKey map -> map -> map
deleteMap ContainerKey map
k map
m
                    Just MapValue map
v' -> MapValue map
v' MapValue map -> map -> map
forall a b. a -> b -> b
`seq` ContainerKey map -> MapValue map -> map -> map
forall map.
IsMap map =>
ContainerKey map -> MapValue map -> map -> map
insertMap ContainerKey map
k MapValue map
v' map
m

    -- | Equivalent to 'updateMap', but the function accepts the key,
    -- as well as the previous value.
    updateWithKey
        :: (ContainerKey map -> MapValue map -> Maybe (MapValue map))
           -- ^ function that accepts the key and the previous value
           -- and returns the new value or 'Nothing'
        -> ContainerKey map -- ^ key
        -> map              -- ^ input map
        -> map              -- ^ resulting map
    updateWithKey ContainerKey map -> MapValue map -> Maybe (MapValue map)
f ContainerKey map
k map
m =
        case ContainerKey map -> map -> Maybe (MapValue map)
forall map.
IsMap map =>
ContainerKey map -> map -> Maybe (MapValue map)
lookup ContainerKey map
k map
m of
            Maybe (MapValue map)
Nothing -> map
m
            Just MapValue map
v ->
                case ContainerKey map -> MapValue map -> Maybe (MapValue map)
f ContainerKey map
k MapValue map
v of
                    Maybe (MapValue map)
Nothing -> ContainerKey map -> map -> map
forall map. IsMap map => ContainerKey map -> map -> map
deleteMap ContainerKey map
k map
m
                    Just MapValue map
v' -> MapValue map
v' MapValue map -> map -> map
forall a b. a -> b -> b
`seq` ContainerKey map -> MapValue map -> map -> map
forall map.
IsMap map =>
ContainerKey map -> MapValue map -> map -> map
insertMap ContainerKey map
k MapValue map
v' map
m

    -- | Apply a function to the value of a given key.
    --
    -- If the map does not contain the key this returns 'Nothing'
    -- and the input map.
    --
    -- If the map does contain the key but the function returns 'Nothing',
    -- this returns the previous value and the map with the key-value pair removed.
    --
    -- If the map contains the key and the function returns a value,
    -- this returns the new value and the map with the key-value pair with the new value.
    updateLookupWithKey
        :: (ContainerKey map -> MapValue map -> Maybe (MapValue map))
           -- ^ function that accepts the key and the previous value
           -- and returns the new value or 'Nothing'
        -> ContainerKey map            -- ^ key
        -> map                         -- ^ input map
        -> (Maybe (MapValue map), map) -- ^ previous/new value and the resulting map
    updateLookupWithKey ContainerKey map -> MapValue map -> Maybe (MapValue map)
f ContainerKey map
k map
m =
        case ContainerKey map -> map -> Maybe (MapValue map)
forall map.
IsMap map =>
ContainerKey map -> map -> Maybe (MapValue map)
lookup ContainerKey map
k map
m of
            Maybe (MapValue map)
Nothing -> (Maybe (MapValue map)
forall a. Maybe a
Nothing, map
m)
            Just MapValue map
v ->
                case ContainerKey map -> MapValue map -> Maybe (MapValue map)
f ContainerKey map
k MapValue map
v of
                    Maybe (MapValue map)
Nothing -> (MapValue map -> Maybe (MapValue map)
forall a. a -> Maybe a
Just MapValue map
v, ContainerKey map -> map -> map
forall map. IsMap map => ContainerKey map -> map -> map
deleteMap ContainerKey map
k map
m)
                    Just MapValue map
v' -> MapValue map
v' MapValue map
-> (Maybe (MapValue map), map) -> (Maybe (MapValue map), map)
forall a b. a -> b -> b
`seq` (MapValue map -> Maybe (MapValue map)
forall a. a -> Maybe a
Just MapValue map
v', ContainerKey map -> MapValue map -> map -> map
forall map.
IsMap map =>
ContainerKey map -> MapValue map -> map -> map
insertMap ContainerKey map
k MapValue map
v' map
m)

    -- | Update/Delete the value of a given key.
    --
    -- Applies a function to previous value of a given key, if it results in 'Nothing'
    -- delete the key-value pair from the map, otherwise replace the previous value
    -- with the new value.
    alterMap
        :: (Maybe (MapValue map) -> Maybe (MapValue map))
           -- ^ function that accepts the previous value and
           -- returns the new value or 'Nothing'
        -> ContainerKey map -- ^ key
        -> map              -- ^ input map
        -> map              -- ^ resulting map
    alterMap Maybe (MapValue map) -> Maybe (MapValue map)
f ContainerKey map
k map
m =
        case Maybe (MapValue map) -> Maybe (MapValue map)
f Maybe (MapValue map)
mold of
            Maybe (MapValue map)
Nothing ->
                case Maybe (MapValue map)
mold of
                    Maybe (MapValue map)
Nothing -> map
m
                    Just MapValue map
_ -> ContainerKey map -> map -> map
forall map. IsMap map => ContainerKey map -> map -> map
deleteMap ContainerKey map
k map
m
            Just MapValue map
v -> ContainerKey map -> MapValue map -> map -> map
forall map.
IsMap map =>
ContainerKey map -> MapValue map -> map -> map
insertMap ContainerKey map
k MapValue map
v map
m
      where
        mold :: Maybe (MapValue map)
mold = ContainerKey map -> map -> Maybe (MapValue map)
forall map.
IsMap map =>
ContainerKey map -> map -> Maybe (MapValue map)
lookup ContainerKey map
k map
m

    -- | Combine two maps.
    --
    -- When a key exists in both maps, apply a function
    -- to both of the values and use the result of that as the value
    -- of the key in the resulting map.
    unionWith
        :: (MapValue map -> MapValue map -> MapValue map)
           -- ^ function that accepts the first map's value and the second map's value
           -- and returns the new value that will be used
        -> map -- ^ first map
        -> map -- ^ second map
        -> map -- ^ resulting map
    unionWith MapValue map -> MapValue map -> MapValue map
f map
x map
y =
        [(ContainerKey map, MapValue map)] -> map
forall map. IsMap map => [(ContainerKey map, MapValue map)] -> map
mapFromList ([(ContainerKey map, MapValue map)] -> map)
-> [(ContainerKey map, MapValue map)] -> map
forall a b. (a -> b) -> a -> b
$ [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
loop ([(ContainerKey map, MapValue map)]
 -> [(ContainerKey map, MapValue map)])
-> [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
forall a b. (a -> b) -> a -> b
$ map -> [(ContainerKey map, MapValue map)]
forall map. IsMap map => map -> [(ContainerKey map, MapValue map)]
mapToList map
x [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
forall a. [a] -> [a] -> [a]
++ map -> [(ContainerKey map, MapValue map)]
forall map. IsMap map => map -> [(ContainerKey map, MapValue map)]
mapToList map
y
      where
        loop :: [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
loop [] = []
        loop ((ContainerKey map
k, MapValue map
v):[(ContainerKey map, MapValue map)]
rest) =
            case ContainerKey map
-> [(ContainerKey map, MapValue map)] -> Maybe (MapValue map)
forall a b. Eq a => a -> [(a, b)] -> Maybe b
List.lookup ContainerKey map
k [(ContainerKey map, MapValue map)]
rest of
                Maybe (MapValue map)
Nothing -> (ContainerKey map
k, MapValue map
v) (ContainerKey map, MapValue map)
-> [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
forall a. a -> [a] -> [a]
: [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
loop [(ContainerKey map, MapValue map)]
rest
                Just MapValue map
v' -> (ContainerKey map
k, MapValue map -> MapValue map -> MapValue map
f MapValue map
v MapValue map
v') (ContainerKey map, MapValue map)
-> [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
forall a. a -> [a] -> [a]
: [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
loop (ContainerKey [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
forall map. IsMap map => ContainerKey map -> map -> map
deleteMap ContainerKey map
ContainerKey [(ContainerKey map, MapValue map)]
k [(ContainerKey map, MapValue map)]
rest)

    -- Equivalent to 'unionWith', but the function accepts the key,
    -- as well as both of the map's values.
    unionWithKey
        :: (ContainerKey map -> MapValue map -> MapValue map -> MapValue map)
           -- ^ function that accepts the key, the first map's value and the
           -- second map's value and returns the new value that will be used
        -> map -- ^ first map
        -> map -- ^ second map
        -> map -- ^ resulting map
    unionWithKey ContainerKey map -> MapValue map -> MapValue map -> MapValue map
f map
x map
y =
        [(ContainerKey map, MapValue map)] -> map
forall map. IsMap map => [(ContainerKey map, MapValue map)] -> map
mapFromList ([(ContainerKey map, MapValue map)] -> map)
-> [(ContainerKey map, MapValue map)] -> map
forall a b. (a -> b) -> a -> b
$ [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
loop ([(ContainerKey map, MapValue map)]
 -> [(ContainerKey map, MapValue map)])
-> [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
forall a b. (a -> b) -> a -> b
$ map -> [(ContainerKey map, MapValue map)]
forall map. IsMap map => map -> [(ContainerKey map, MapValue map)]
mapToList map
x [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
forall a. [a] -> [a] -> [a]
++ map -> [(ContainerKey map, MapValue map)]
forall map. IsMap map => map -> [(ContainerKey map, MapValue map)]
mapToList map
y
      where
        loop :: [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
loop [] = []
        loop ((ContainerKey map
k, MapValue map
v):[(ContainerKey map, MapValue map)]
rest) =
            case ContainerKey map
-> [(ContainerKey map, MapValue map)] -> Maybe (MapValue map)
forall a b. Eq a => a -> [(a, b)] -> Maybe b
List.lookup ContainerKey map
k [(ContainerKey map, MapValue map)]
rest of
                Maybe (MapValue map)
Nothing -> (ContainerKey map
k, MapValue map
v) (ContainerKey map, MapValue map)
-> [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
forall a. a -> [a] -> [a]
: [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
loop [(ContainerKey map, MapValue map)]
rest
                Just MapValue map
v' -> (ContainerKey map
k, ContainerKey map -> MapValue map -> MapValue map -> MapValue map
f ContainerKey map
k MapValue map
v MapValue map
v') (ContainerKey map, MapValue map)
-> [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
forall a. a -> [a] -> [a]
: [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
loop (ContainerKey [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
forall map. IsMap map => ContainerKey map -> map -> map
deleteMap ContainerKey map
ContainerKey [(ContainerKey map, MapValue map)]
k [(ContainerKey map, MapValue map)]
rest)

    -- | Combine a list of maps.
    --
    -- When a key exists in two different maps, apply a function
    -- to both of the values and use the result of that as the value
    -- of the key in the resulting map.
    unionsWith
        :: (MapValue map -> MapValue map -> MapValue map)
           -- ^ function that accepts the first map's value and the second map's value
           -- and returns the new value that will be used
        -> [map] -- ^ input list of maps
        -> map   -- ^ resulting map
    unionsWith MapValue map -> MapValue map -> MapValue map
_ [] = map
forall a. Monoid a => a
mempty
    unionsWith MapValue map -> MapValue map -> MapValue map
_ [map
x] = map
x
    unionsWith MapValue map -> MapValue map -> MapValue map
f (map
x:map
y:[map]
z) = (MapValue map -> MapValue map -> MapValue map) -> [map] -> map
forall map.
IsMap map =>
(MapValue map -> MapValue map -> MapValue map) -> [map] -> map
unionsWith MapValue map -> MapValue map -> MapValue map
f ((MapValue map -> MapValue map -> MapValue map) -> map -> map -> map
forall map.
IsMap map =>
(MapValue map -> MapValue map -> MapValue map) -> map -> map -> map
unionWith MapValue map -> MapValue map -> MapValue map
f map
x map
ymap -> [map] -> [map]
forall a. a -> [a] -> [a]
:[map]
z)

    -- | Apply a function over every key-value pair of a map.
    mapWithKey
        :: (ContainerKey map -> MapValue map -> MapValue map)
           -- ^ function that accepts the key and the previous value
           -- and returns the new value
        -> map -- ^ input map
        -> map -- ^ resulting map
    mapWithKey ContainerKey map -> MapValue map -> MapValue map
f =
        [(ContainerKey map, MapValue map)] -> map
forall map. IsMap map => [(ContainerKey map, MapValue map)] -> map
mapFromList ([(ContainerKey map, MapValue map)] -> map)
-> (map -> [(ContainerKey map, MapValue map)]) -> map -> map
forall b c a. (b -> c) -> (a -> b) -> a -> c
. ((ContainerKey map, MapValue map)
 -> (ContainerKey map, MapValue map))
-> [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
forall a b. (a -> b) -> [a] -> [b]
map (ContainerKey map, MapValue map)
-> (ContainerKey map, MapValue map)
go ([(ContainerKey map, MapValue map)]
 -> [(ContainerKey map, MapValue map)])
-> (map -> [(ContainerKey map, MapValue map)])
-> map
-> [(ContainerKey map, MapValue map)]
forall b c a. (b -> c) -> (a -> b) -> a -> c
. map -> [(ContainerKey map, MapValue map)]
forall map. IsMap map => map -> [(ContainerKey map, MapValue map)]
mapToList
      where
        go :: (ContainerKey map, MapValue map)
-> (ContainerKey map, MapValue map)
go (ContainerKey map
k, MapValue map
v) = (ContainerKey map
k, ContainerKey map -> MapValue map -> MapValue map
f ContainerKey map
k MapValue map
v)

    -- | Apply a function over every key of a pair and run
    -- 'unionsWith' over the results.
    omapKeysWith
        :: (MapValue map -> MapValue map -> MapValue map)
           -- ^ function that accepts the first map's value and the second map's value
           -- and returns the new value that will be used
        -> (ContainerKey map -> ContainerKey map)
           -- ^ function that accepts the previous key and
           -- returns the new key
        -> map -- ^ input map
        -> map -- ^ resulting map
    omapKeysWith MapValue map -> MapValue map -> MapValue map
g ContainerKey map -> ContainerKey map
f =
        [(ContainerKey map, MapValue map)] -> map
forall map. IsMap map => [(ContainerKey map, MapValue map)] -> map
mapFromList ([(ContainerKey map, MapValue map)] -> map)
-> (map -> [(ContainerKey map, MapValue map)]) -> map -> map
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (MapValue [(ContainerKey map, MapValue map)]
 -> MapValue [(ContainerKey map, MapValue map)]
 -> MapValue [(ContainerKey map, MapValue map)])
-> [[(ContainerKey map, MapValue map)]]
-> [(ContainerKey map, MapValue map)]
forall map.
IsMap map =>
(MapValue map -> MapValue map -> MapValue map) -> [map] -> map
unionsWith MapValue map -> MapValue map -> MapValue map
MapValue [(ContainerKey map, MapValue map)]
-> MapValue [(ContainerKey map, MapValue map)]
-> MapValue [(ContainerKey map, MapValue map)]
g ([[(ContainerKey map, MapValue map)]]
 -> [(ContainerKey map, MapValue map)])
-> (map -> [[(ContainerKey map, MapValue map)]])
-> map
-> [(ContainerKey map, MapValue map)]
forall b c a. (b -> c) -> (a -> b) -> a -> c
. ((ContainerKey map, MapValue map)
 -> [(ContainerKey map, MapValue map)])
-> [(ContainerKey map, MapValue map)]
-> [[(ContainerKey map, MapValue map)]]
forall a b. (a -> b) -> [a] -> [b]
map (ContainerKey map, MapValue map)
-> [(ContainerKey map, MapValue map)]
go ([(ContainerKey map, MapValue map)]
 -> [[(ContainerKey map, MapValue map)]])
-> (map -> [(ContainerKey map, MapValue map)])
-> map
-> [[(ContainerKey map, MapValue map)]]
forall b c a. (b -> c) -> (a -> b) -> a -> c
. map -> [(ContainerKey map, MapValue map)]
forall map. IsMap map => map -> [(ContainerKey map, MapValue map)]
mapToList
      where
        go :: (ContainerKey map, MapValue map)
-> [(ContainerKey map, MapValue map)]
go (ContainerKey map
k, MapValue map
v) = [(ContainerKey map -> ContainerKey map
f ContainerKey map
k, MapValue map
v)]

    -- | Filter values in a map.
    --
    -- @since 1.0.9.0
    filterMap :: IsMap map => (MapValue map -> Bool) -> map -> map
    filterMap MapValue map -> Bool
p = [(ContainerKey map, MapValue map)] -> map
forall map. IsMap map => [(ContainerKey map, MapValue map)] -> map
mapFromList ([(ContainerKey map, MapValue map)] -> map)
-> (map -> [(ContainerKey map, MapValue map)]) -> map -> map
forall b c a. (b -> c) -> (a -> b) -> a -> c
. ((ContainerKey map, MapValue map) -> Bool)
-> [(ContainerKey map, MapValue map)]
-> [(ContainerKey map, MapValue map)]
forall a. (a -> Bool) -> [a] -> [a]
filter (MapValue map -> Bool
p (MapValue map -> Bool)
-> ((ContainerKey map, MapValue map) -> MapValue map)
-> (ContainerKey map, MapValue map)
-> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (ContainerKey map, MapValue map) -> MapValue map
forall a b. (a, b) -> b
snd) ([(ContainerKey map, MapValue map)]
 -> [(ContainerKey map, MapValue map)])
-> (map -> [(ContainerKey map, MapValue map)])
-> map
-> [(ContainerKey map, MapValue map)]
forall b c a. (b -> c) -> (a -> b) -> a -> c
. map -> [(ContainerKey map, MapValue map)]
forall map. IsMap map => map -> [(ContainerKey map, MapValue map)]
mapToList

-- | This instance uses the functions from "Data.Map.Strict".
instance Ord key => IsMap (Map.Map key value) where
    type MapValue (Map.Map key value) = value
    lookup :: ContainerKey (Map key value)
-> Map key value -> Maybe (MapValue (Map key value))
lookup = key -> Map key value -> Maybe value
ContainerKey (Map key value)
-> Map key value -> Maybe (MapValue (Map key value))
forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup
    {-# INLINE lookup #-}
    insertMap :: ContainerKey (Map key value)
-> MapValue (Map key value) -> Map key value -> Map key value
insertMap = key -> value -> Map key value -> Map key value
ContainerKey (Map key value)
-> MapValue (Map key value) -> Map key value -> Map key value
forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert
    {-# INLINE insertMap #-}
    deleteMap :: ContainerKey (Map key value) -> Map key value -> Map key value
deleteMap = key -> Map key value -> Map key value
ContainerKey (Map key value) -> Map key value -> Map key value
forall k a. Ord k => k -> Map k a -> Map k a
Map.delete
    {-# INLINE deleteMap #-}
    singletonMap :: ContainerKey (Map key value)
-> MapValue (Map key value) -> Map key value
singletonMap = key -> value -> Map key value
ContainerKey (Map key value)
-> MapValue (Map key value) -> Map key value
forall k a. k -> a -> Map k a
Map.singleton
    {-# INLINE singletonMap #-}
    mapFromList :: [(ContainerKey (Map key value), MapValue (Map key value))]
-> Map key value
mapFromList = [(key, value)] -> Map key value
[(ContainerKey (Map key value), MapValue (Map key value))]
-> Map key value
forall k a. Ord k => [(k, a)] -> Map k a
Map.fromList
    {-# INLINE mapFromList #-}
    mapToList :: Map key value
-> [(ContainerKey (Map key value), MapValue (Map key value))]
mapToList = Map key value -> [(key, value)]
Map key value
-> [(ContainerKey (Map key value), MapValue (Map key value))]
forall k a. Map k a -> [(k, a)]
Map.toList
    {-# INLINE mapToList #-}

    findWithDefault :: MapValue (Map key value)
-> ContainerKey (Map key value)
-> Map key value
-> MapValue (Map key value)
findWithDefault = value -> key -> Map key value -> value
MapValue (Map key value)
-> ContainerKey (Map key value)
-> Map key value
-> MapValue (Map key value)
forall k a. Ord k => a -> k -> Map k a -> a
Map.findWithDefault
    {-# INLINE findWithDefault #-}
    insertWith :: (MapValue (Map key value)
 -> MapValue (Map key value) -> MapValue (Map key value))
-> ContainerKey (Map key value)
-> MapValue (Map key value)
-> Map key value
-> Map key value
insertWith = (value -> value -> value)
-> key -> value -> Map key value -> Map key value
(MapValue (Map key value)
 -> MapValue (Map key value) -> MapValue (Map key value))
-> ContainerKey (Map key value)
-> MapValue (Map key value)
-> Map key value
-> Map key value
forall k a. Ord k => (a -> a -> a) -> k -> a -> Map k a -> Map k a
Map.insertWith
    {-# INLINE insertWith #-}
    insertWithKey :: (ContainerKey (Map key value)
 -> MapValue (Map key value)
 -> MapValue (Map key value)
 -> MapValue (Map key value))
-> ContainerKey (Map key value)
-> MapValue (Map key value)
-> Map key value
-> Map key value
insertWithKey = (key -> value -> value -> value)
-> key -> value -> Map key value -> Map key value
(ContainerKey (Map key value)
 -> MapValue (Map key value)
 -> MapValue (Map key value)
 -> MapValue (Map key value))
-> ContainerKey (Map key value)
-> MapValue (Map key value)
-> Map key value
-> Map key value
forall k a.
Ord k =>
(k -> a -> a -> a) -> k -> a -> Map k a -> Map k a
Map.insertWithKey
    {-# INLINE insertWithKey #-}
    insertLookupWithKey :: (ContainerKey (Map key value)
 -> MapValue (Map key value)
 -> MapValue (Map key value)
 -> MapValue (Map key value))
-> ContainerKey (Map key value)
-> MapValue (Map key value)
-> Map key value
-> (Maybe (MapValue (Map key value)), Map key value)
insertLookupWithKey = (key -> value -> value -> value)
-> key -> value -> Map key value -> (Maybe value, Map key value)
(ContainerKey (Map key value)
 -> MapValue (Map key value)
 -> MapValue (Map key value)
 -> MapValue (Map key value))
-> ContainerKey (Map key value)
-> MapValue (Map key value)
-> Map key value
-> (Maybe (MapValue (Map key value)), Map key value)
forall k a.
Ord k =>
(k -> a -> a -> a) -> k -> a -> Map k a -> (Maybe a, Map k a)
Map.insertLookupWithKey
    {-# INLINE insertLookupWithKey #-}
    adjustMap :: (MapValue (Map key value) -> MapValue (Map key value))
-> ContainerKey (Map key value) -> Map key value -> Map key value
adjustMap = (value -> value) -> key -> Map key value -> Map key value
(MapValue (Map key value) -> MapValue (Map key value))
-> ContainerKey (Map key value) -> Map key value -> Map key value
forall k a. Ord k => (a -> a) -> k -> Map k a -> Map k a
Map.adjust
    {-# INLINE adjustMap #-}
    adjustWithKey :: (ContainerKey (Map key value)
 -> MapValue (Map key value) -> MapValue (Map key value))
-> ContainerKey (Map key value) -> Map key value -> Map key value
adjustWithKey = (key -> value -> value) -> key -> Map key value -> Map key value
(ContainerKey (Map key value)
 -> MapValue (Map key value) -> MapValue (Map key value))
-> ContainerKey (Map key value) -> Map key value -> Map key value
forall k a. Ord k => (k -> a -> a) -> k -> Map k a -> Map k a
Map.adjustWithKey
    {-# INLINE adjustWithKey #-}
    updateMap :: (MapValue (Map key value) -> Maybe (MapValue (Map key value)))
-> ContainerKey (Map key value) -> Map key value -> Map key value
updateMap = (value -> Maybe value) -> key -> Map key value -> Map key value
(MapValue (Map key value) -> Maybe (MapValue (Map key value)))
-> ContainerKey (Map key value) -> Map key value -> Map key value
forall k a. Ord k => (a -> Maybe a) -> k -> Map k a -> Map k a
Map.update
    {-# INLINE updateMap #-}
    updateWithKey :: (ContainerKey (Map key value)
 -> MapValue (Map key value) -> Maybe (MapValue (Map key value)))
-> ContainerKey (Map key value) -> Map key value -> Map key value
updateWithKey = (key -> value -> Maybe value)
-> key -> Map key value -> Map key value
(ContainerKey (Map key value)
 -> MapValue (Map key value) -> Maybe (MapValue (Map key value)))
-> ContainerKey (Map key value) -> Map key value -> Map key value
forall k a. Ord k => (k -> a -> Maybe a) -> k -> Map k a -> Map k a
Map.updateWithKey
    {-# INLINE updateWithKey #-}
    updateLookupWithKey :: (ContainerKey (Map key value)
 -> MapValue (Map key value) -> Maybe (MapValue (Map key value)))
-> ContainerKey (Map key value)
-> Map key value
-> (Maybe (MapValue (Map key value)), Map key value)
updateLookupWithKey = (key -> value -> Maybe value)
-> key -> Map key value -> (Maybe value, Map key value)
(ContainerKey (Map key value)
 -> MapValue (Map key value) -> Maybe (MapValue (Map key value)))
-> ContainerKey (Map key value)
-> Map key value
-> (Maybe (MapValue (Map key value)), Map key value)
forall k a.
Ord k =>
(k -> a -> Maybe a) -> k -> Map k a -> (Maybe a, Map k a)
Map.updateLookupWithKey
    {-# INLINE updateLookupWithKey #-}
    alterMap :: (Maybe (MapValue (Map key value))
 -> Maybe (MapValue (Map key value)))
-> ContainerKey (Map key value) -> Map key value -> Map key value
alterMap = (Maybe value -> Maybe value)
-> key -> Map key value -> Map key value
(Maybe (MapValue (Map key value))
 -> Maybe (MapValue (Map key value)))
-> ContainerKey (Map key value) -> Map key value -> Map key value
forall k a.
Ord k =>
(Maybe a -> Maybe a) -> k -> Map k a -> Map k a
Map.alter
    {-# INLINE alterMap #-}
    unionWith :: (MapValue (Map key value)
 -> MapValue (Map key value) -> MapValue (Map key value))
-> Map key value -> Map key value -> Map key value
unionWith = (value -> value -> value)
-> Map key value -> Map key value -> Map key value
(MapValue (Map key value)
 -> MapValue (Map key value) -> MapValue (Map key value))
-> Map key value -> Map key value -> Map key value
forall k a. Ord k => (a -> a -> a) -> Map k a -> Map k a -> Map k a
Map.unionWith
    {-# INLINE unionWith #-}
    unionWithKey :: (ContainerKey (Map key value)
 -> MapValue (Map key value)
 -> MapValue (Map key value)
 -> MapValue (Map key value))
-> Map key value -> Map key value -> Map key value
unionWithKey = (key -> value -> value -> value)
-> Map key value -> Map key value -> Map key value
(ContainerKey (Map key value)
 -> MapValue (Map key value)
 -> MapValue (Map key value)
 -> MapValue (Map key value))
-> Map key value -> Map key value -> Map key value
forall k a.
Ord k =>
(k -> a -> a -> a) -> Map k a -> Map k a -> Map k a
Map.unionWithKey
    {-# INLINE unionWithKey #-}
    unionsWith :: (MapValue (Map key value)
 -> MapValue (Map key value) -> MapValue (Map key value))
-> [Map key value] -> Map key value
unionsWith = (value -> value -> value) -> [Map key value] -> Map key value
(MapValue (Map key value)
 -> MapValue (Map key value) -> MapValue (Map key value))
-> [Map key value] -> Map key value
forall (f :: * -> *) k a.
(Foldable f, Ord k) =>
(a -> a -> a) -> f (Map k a) -> Map k a
Map.unionsWith
    {-# INLINE unionsWith #-}
    mapWithKey :: (ContainerKey (Map key value)
 -> MapValue (Map key value) -> MapValue (Map key value))
-> Map key value -> Map key value
mapWithKey = (key -> value -> value) -> Map key value -> Map key value
(ContainerKey (Map key value)
 -> MapValue (Map key value) -> MapValue (Map key value))
-> Map key value -> Map key value
forall k a b. (k -> a -> b) -> Map k a -> Map k b
Map.mapWithKey
    {-# INLINE mapWithKey #-}
    omapKeysWith :: (MapValue (Map key value)
 -> MapValue (Map key value) -> MapValue (Map key value))
-> (ContainerKey (Map key value) -> ContainerKey (Map key value))
-> Map key value
-> Map key value
omapKeysWith = (value -> value -> value)
-> (key -> key) -> Map key value -> Map key value
(MapValue (Map key value)
 -> MapValue (Map key value) -> MapValue (Map key value))
-> (ContainerKey (Map key value) -> ContainerKey (Map key value))
-> Map key value
-> Map key value
forall k2 a k1.
Ord k2 =>
(a -> a -> a) -> (k1 -> k2) -> Map k1 a -> Map k2 a
Map.mapKeysWith
    {-# INLINE omapKeysWith #-}
    filterMap :: IsMap (Map key value) =>
(MapValue (Map key value) -> Bool)
-> Map key value -> Map key value
filterMap = (value -> Bool) -> Map key value -> Map key value
(MapValue (Map key value) -> Bool)
-> Map key value -> Map key value
forall a k. (a -> Bool) -> Map k a -> Map k a
Map.filter
    {-# INLINE filterMap #-}

-- | This instance uses the functions from "Data.HashMap.Strict".
instance (Eq key, Hashable key) => IsMap (HashMap.HashMap key value) where
    type MapValue (HashMap.HashMap key value) = value
    lookup :: ContainerKey (HashMap key value)
-> HashMap key value -> Maybe (MapValue (HashMap key value))
lookup = key -> HashMap key value -> Maybe value
ContainerKey (HashMap key value)
-> HashMap key value -> Maybe (MapValue (HashMap key value))
forall k v. (Eq k, Hashable k) => k -> HashMap k v -> Maybe v
HashMap.lookup
    {-# INLINE lookup #-}
    insertMap :: ContainerKey (HashMap key value)
-> MapValue (HashMap key value)
-> HashMap key value
-> HashMap key value
insertMap = key -> value -> HashMap key value -> HashMap key value
ContainerKey (HashMap key value)
-> MapValue (HashMap key value)
-> HashMap key value
-> HashMap key value
forall k v.
(Eq k, Hashable k) =>
k -> v -> HashMap k v -> HashMap k v
HashMap.insert
    {-# INLINE insertMap #-}
    deleteMap :: ContainerKey (HashMap key value)
-> HashMap key value -> HashMap key value
deleteMap = key -> HashMap key value -> HashMap key value
ContainerKey (HashMap key value)
-> HashMap key value -> HashMap key value
forall k v. (Eq k, Hashable k) => k -> HashMap k v -> HashMap k v
HashMap.delete
    {-# INLINE deleteMap #-}
    singletonMap :: ContainerKey (HashMap key value)
-> MapValue (HashMap key value) -> HashMap key value
singletonMap = key -> value -> HashMap key value
ContainerKey (HashMap key value)
-> MapValue (HashMap key value) -> HashMap key value
forall k v. Hashable k => k -> v -> HashMap k v
HashMap.singleton
    {-# INLINE singletonMap #-}
    mapFromList :: [(ContainerKey (HashMap key value), MapValue (HashMap key value))]
-> HashMap key value
mapFromList = [(key, value)] -> HashMap key value
[(ContainerKey (HashMap key value), MapValue (HashMap key value))]
-> HashMap key value
forall k v. (Eq k, Hashable k) => [(k, v)] -> HashMap k v
HashMap.fromList
    {-# INLINE mapFromList #-}
    mapToList :: HashMap key value
-> [(ContainerKey (HashMap key value),
     MapValue (HashMap key value))]
mapToList = HashMap key value -> [(key, value)]
HashMap key value
-> [(ContainerKey (HashMap key value),
     MapValue (HashMap key value))]
forall k v. HashMap k v -> [(k, v)]
HashMap.toList
    {-# INLINE mapToList #-}

    --findWithDefault = HashMap.findWithDefault
    insertWith :: (MapValue (HashMap key value)
 -> MapValue (HashMap key value) -> MapValue (HashMap key value))
-> ContainerKey (HashMap key value)
-> MapValue (HashMap key value)
-> HashMap key value
-> HashMap key value
insertWith = (value -> value -> value)
-> key -> value -> HashMap key value -> HashMap key value
(MapValue (HashMap key value)
 -> MapValue (HashMap key value) -> MapValue (HashMap key value))
-> ContainerKey (HashMap key value)
-> MapValue (HashMap key value)
-> HashMap key value
-> HashMap key value
forall k v.
(Eq k, Hashable k) =>
(v -> v -> v) -> k -> v -> HashMap k v -> HashMap k v
HashMap.insertWith
    {-# INLINE insertWith #-}
    --insertWithKey = HashMap.insertWithKey
    --insertLookupWithKey = HashMap.insertLookupWithKey
    adjustMap :: (MapValue (HashMap key value) -> MapValue (HashMap key value))
-> ContainerKey (HashMap key value)
-> HashMap key value
-> HashMap key value
adjustMap = (value -> value) -> key -> HashMap key value -> HashMap key value
(MapValue (HashMap key value) -> MapValue (HashMap key value))
-> ContainerKey (HashMap key value)
-> HashMap key value
-> HashMap key value
forall k v.
(Eq k, Hashable k) =>
(v -> v) -> k -> HashMap k v -> HashMap k v
HashMap.adjust
    {-# INLINE adjustMap #-}
    --adjustWithKey = HashMap.adjustWithKey
    --updateMap = HashMap.update
    --updateWithKey = HashMap.updateWithKey
    --updateLookupWithKey = HashMap.updateLookupWithKey
    --alterMap = HashMap.alter
    unionWith :: (MapValue (HashMap key value)
 -> MapValue (HashMap key value) -> MapValue (HashMap key value))
-> HashMap key value -> HashMap key value -> HashMap key value
unionWith = (value -> value -> value)
-> HashMap key value -> HashMap key value -> HashMap key value
(MapValue (HashMap key value)
 -> MapValue (HashMap key value) -> MapValue (HashMap key value))
-> HashMap key value -> HashMap key value -> HashMap key value
forall k v.
(Eq k, Hashable k) =>
(v -> v -> v) -> HashMap k v -> HashMap k v -> HashMap k v
HashMap.unionWith
    {-# INLINE unionWith #-}
    --unionWithKey = HashMap.unionWithKey
    --unionsWith = HashMap.unionsWith
    --mapWithKey = HashMap.mapWithKey
    --mapKeysWith = HashMap.mapKeysWith
    filterMap :: IsMap (HashMap key value) =>
(MapValue (HashMap key value) -> Bool)
-> HashMap key value -> HashMap key value
filterMap = (value -> Bool) -> HashMap key value -> HashMap key value
(MapValue (HashMap key value) -> Bool)
-> HashMap key value -> HashMap key value
forall v k. (v -> Bool) -> HashMap k v -> HashMap k v
HashMap.filter
    {-# INLINE filterMap #-}

-- | This instance uses the functions from "Data.IntMap.Strict".
instance IsMap (IntMap.IntMap value) where
    type MapValue (IntMap.IntMap value) = value
    lookup :: ContainerKey (IntMap value)
-> IntMap value -> Maybe (MapValue (IntMap value))
lookup = Int -> IntMap value -> Maybe value
ContainerKey (IntMap value)
-> IntMap value -> Maybe (MapValue (IntMap value))
forall a. Int -> IntMap a -> Maybe a
IntMap.lookup
    {-# INLINE lookup #-}
    insertMap :: ContainerKey (IntMap value)
-> MapValue (IntMap value) -> IntMap value -> IntMap value
insertMap = Int -> value -> IntMap value -> IntMap value
ContainerKey (IntMap value)
-> MapValue (IntMap value) -> IntMap value -> IntMap value
forall a. Int -> a -> IntMap a -> IntMap a
IntMap.insert
    {-# INLINE insertMap #-}
    deleteMap :: ContainerKey (IntMap value) -> IntMap value -> IntMap value
deleteMap = Int -> IntMap value -> IntMap value
ContainerKey (IntMap value) -> IntMap value -> IntMap value
forall a. Int -> IntMap a -> IntMap a
IntMap.delete
    {-# INLINE deleteMap #-}
    singletonMap :: ContainerKey (IntMap value)
-> MapValue (IntMap value) -> IntMap value
singletonMap = Int -> value -> IntMap value
ContainerKey (IntMap value)
-> MapValue (IntMap value) -> IntMap value
forall a. Int -> a -> IntMap a
IntMap.singleton
    {-# INLINE singletonMap #-}
    mapFromList :: [(ContainerKey (IntMap value), MapValue (IntMap value))]
-> IntMap value
mapFromList = [(Int, value)] -> IntMap value
[(ContainerKey (IntMap value), MapValue (IntMap value))]
-> IntMap value
forall a. [(Int, a)] -> IntMap a
IntMap.fromList
    {-# INLINE mapFromList #-}
    mapToList :: IntMap value
-> [(ContainerKey (IntMap value), MapValue (IntMap value))]
mapToList = IntMap value -> [(Int, value)]
IntMap value
-> [(ContainerKey (IntMap value), MapValue (IntMap value))]
forall a. IntMap a -> [(Int, a)]
IntMap.toList
    {-# INLINE mapToList #-}

    findWithDefault :: MapValue (IntMap value)
-> ContainerKey (IntMap value)
-> IntMap value
-> MapValue (IntMap value)
findWithDefault = value -> Int -> IntMap value -> value
MapValue (IntMap value)
-> ContainerKey (IntMap value)
-> IntMap value
-> MapValue (IntMap value)
forall a. a -> Int -> IntMap a -> a
IntMap.findWithDefault
    {-# INLINE findWithDefault #-}
    insertWith :: (MapValue (IntMap value)
 -> MapValue (IntMap value) -> MapValue (IntMap value))
-> ContainerKey (IntMap value)
-> MapValue (IntMap value)
-> IntMap value
-> IntMap value
insertWith = (value -> value -> value)
-> Int -> value -> IntMap value -> IntMap value
(MapValue (IntMap value)
 -> MapValue (IntMap value) -> MapValue (IntMap value))
-> ContainerKey (IntMap value)
-> MapValue (IntMap value)
-> IntMap value
-> IntMap value
forall a. (a -> a -> a) -> Int -> a -> IntMap a -> IntMap a
IntMap.insertWith
    {-# INLINE insertWith #-}
    insertWithKey :: (ContainerKey (IntMap value)
 -> MapValue (IntMap value)
 -> MapValue (IntMap value)
 -> MapValue (IntMap value))
-> ContainerKey (IntMap value)
-> MapValue (IntMap value)
-> IntMap value
-> IntMap value
insertWithKey = (Int -> value -> value -> value)
-> Int -> value -> IntMap value -> IntMap value
(ContainerKey (IntMap value)
 -> MapValue (IntMap value)
 -> MapValue (IntMap value)
 -> MapValue (IntMap value))
-> ContainerKey (IntMap value)
-> MapValue (IntMap value)
-> IntMap value
-> IntMap value
forall a. (Int -> a -> a -> a) -> Int -> a -> IntMap a -> IntMap a
IntMap.insertWithKey
    {-# INLINE insertWithKey #-}
    insertLookupWithKey :: (ContainerKey (IntMap value)
 -> MapValue (IntMap value)
 -> MapValue (IntMap value)
 -> MapValue (IntMap value))
-> ContainerKey (IntMap value)
-> MapValue (IntMap value)
-> IntMap value
-> (Maybe (MapValue (IntMap value)), IntMap value)
insertLookupWithKey = (Int -> value -> value -> value)
-> Int -> value -> IntMap value -> (Maybe value, IntMap value)
(ContainerKey (IntMap value)
 -> MapValue (IntMap value)
 -> MapValue (IntMap value)
 -> MapValue (IntMap value))
-> ContainerKey (IntMap value)
-> MapValue (IntMap value)
-> IntMap value
-> (Maybe (MapValue (IntMap value)), IntMap value)
forall a.
(Int -> a -> a -> a) -> Int -> a -> IntMap a -> (Maybe a, IntMap a)
IntMap.insertLookupWithKey
    {-# INLINE insertLookupWithKey #-}
    adjustMap :: (MapValue (IntMap value) -> MapValue (IntMap value))
-> ContainerKey (IntMap value) -> IntMap value -> IntMap value
adjustMap = (value -> value) -> Int -> IntMap value -> IntMap value
(MapValue (IntMap value) -> MapValue (IntMap value))
-> ContainerKey (IntMap value) -> IntMap value -> IntMap value
forall a. (a -> a) -> Int -> IntMap a -> IntMap a
IntMap.adjust
    {-# INLINE adjustMap #-}
    adjustWithKey :: (ContainerKey (IntMap value)
 -> MapValue (IntMap value) -> MapValue (IntMap value))
-> ContainerKey (IntMap value) -> IntMap value -> IntMap value
adjustWithKey = (Int -> value -> value) -> Int -> IntMap value -> IntMap value
(ContainerKey (IntMap value)
 -> MapValue (IntMap value) -> MapValue (IntMap value))
-> ContainerKey (IntMap value) -> IntMap value -> IntMap value
forall a. (Int -> a -> a) -> Int -> IntMap a -> IntMap a
IntMap.adjustWithKey
    {-# INLINE adjustWithKey #-}
    updateMap :: (MapValue (IntMap value) -> Maybe (MapValue (IntMap value)))
-> ContainerKey (IntMap value) -> IntMap value -> IntMap value
updateMap = (value -> Maybe value) -> Int -> IntMap value -> IntMap value
(MapValue (IntMap value) -> Maybe (MapValue (IntMap value)))
-> ContainerKey (IntMap value) -> IntMap value -> IntMap value
forall a. (a -> Maybe a) -> Int -> IntMap a -> IntMap a
IntMap.update
    {-# INLINE updateMap #-}
    updateWithKey :: (ContainerKey (IntMap value)
 -> MapValue (IntMap value) -> Maybe (MapValue (IntMap value)))
-> ContainerKey (IntMap value) -> IntMap value -> IntMap value
updateWithKey = (Int -> value -> Maybe value)
-> Int -> IntMap value -> IntMap value
(ContainerKey (IntMap value)
 -> MapValue (IntMap value) -> Maybe (MapValue (IntMap value)))
-> ContainerKey (IntMap value) -> IntMap value -> IntMap value
forall a. (Int -> a -> Maybe a) -> Int -> IntMap a -> IntMap a
IntMap.updateWithKey
    {-# INLINE updateWithKey #-}
    --updateLookupWithKey = IntMap.updateLookupWithKey
    alterMap :: (Maybe (MapValue (IntMap value))
 -> Maybe (MapValue (IntMap value)))
-> ContainerKey (IntMap value) -> IntMap value -> IntMap value
alterMap = (Maybe value -> Maybe value) -> Int -> IntMap value -> IntMap value
(Maybe (MapValue (IntMap value))
 -> Maybe (MapValue (IntMap value)))
-> ContainerKey (IntMap value) -> IntMap value -> IntMap value
forall a. (Maybe a -> Maybe a) -> Int -> IntMap a -> IntMap a
IntMap.alter
    {-# INLINE alterMap #-}
    unionWith :: (MapValue (IntMap value)
 -> MapValue (IntMap value) -> MapValue (IntMap value))
-> IntMap value -> IntMap value -> IntMap value
unionWith = (value -> value -> value)
-> IntMap value -> IntMap value -> IntMap value
(MapValue (IntMap value)
 -> MapValue (IntMap value) -> MapValue (IntMap value))
-> IntMap value -> IntMap value -> IntMap value
forall a. (a -> a -> a) -> IntMap a -> IntMap a -> IntMap a
IntMap.unionWith
    {-# INLINE unionWith #-}
    unionWithKey :: (ContainerKey (IntMap value)
 -> MapValue (IntMap value)
 -> MapValue (IntMap value)
 -> MapValue (IntMap value))
-> IntMap value -> IntMap value -> IntMap value
unionWithKey = (Int -> value -> value -> value)
-> IntMap value -> IntMap value -> IntMap value
(ContainerKey (IntMap value)
 -> MapValue (IntMap value)
 -> MapValue (IntMap value)
 -> MapValue (IntMap value))
-> IntMap value -> IntMap value -> IntMap value
forall a. (Int -> a -> a -> a) -> IntMap a -> IntMap a -> IntMap a
IntMap.unionWithKey
    {-# INLINE unionWithKey #-}
    unionsWith :: (MapValue (IntMap value)
 -> MapValue (IntMap value) -> MapValue (IntMap value))
-> [IntMap value] -> IntMap value
unionsWith = (value -> value -> value) -> [IntMap value] -> IntMap value
(MapValue (IntMap value)
 -> MapValue (IntMap value) -> MapValue (IntMap value))
-> [IntMap value] -> IntMap value
forall (f :: * -> *) a.
Foldable f =>
(a -> a -> a) -> f (IntMap a) -> IntMap a
IntMap.unionsWith
    {-# INLINE unionsWith #-}
    mapWithKey :: (ContainerKey (IntMap value)
 -> MapValue (IntMap value) -> MapValue (IntMap value))
-> IntMap value -> IntMap value
mapWithKey = (Int -> value -> value) -> IntMap value -> IntMap value
(ContainerKey (IntMap value)
 -> MapValue (IntMap value) -> MapValue (IntMap value))
-> IntMap value -> IntMap value
forall a b. (Int -> a -> b) -> IntMap a -> IntMap b
IntMap.mapWithKey
    {-# INLINE mapWithKey #-}
    omapKeysWith :: (MapValue (IntMap value)
 -> MapValue (IntMap value) -> MapValue (IntMap value))
-> (ContainerKey (IntMap value) -> ContainerKey (IntMap value))
-> IntMap value
-> IntMap value
omapKeysWith = (value -> value -> value)
-> (Int -> Int) -> IntMap value -> IntMap value
(MapValue (IntMap value)
 -> MapValue (IntMap value) -> MapValue (IntMap value))
-> (ContainerKey (IntMap value) -> ContainerKey (IntMap value))
-> IntMap value
-> IntMap value
forall a. (a -> a -> a) -> (Int -> Int) -> IntMap a -> IntMap a
IntMap.mapKeysWith
    {-# INLINE omapKeysWith #-}
    filterMap :: IsMap (IntMap value) =>
(MapValue (IntMap value) -> Bool) -> IntMap value -> IntMap value
filterMap = (value -> Bool) -> IntMap value -> IntMap value
(MapValue (IntMap value) -> Bool) -> IntMap value -> IntMap value
forall a. (a -> Bool) -> IntMap a -> IntMap a
IntMap.filter
    {-# INLINE filterMap #-}

instance Eq key => IsMap [(key, value)] where
    type MapValue [(key, value)] = value
    lookup :: ContainerKey [(key, value)]
-> [(key, value)] -> Maybe (MapValue [(key, value)])
lookup = key -> [(key, value)] -> Maybe value
ContainerKey [(key, value)]
-> [(key, value)] -> Maybe (MapValue [(key, value)])
forall a b. Eq a => a -> [(a, b)] -> Maybe b
List.lookup
    {-# INLINE lookup #-}
    insertMap :: ContainerKey [(key, value)]
-> MapValue [(key, value)] -> [(key, value)] -> [(key, value)]
insertMap ContainerKey [(key, value)]
k MapValue [(key, value)]
v = ((key
ContainerKey [(key, value)]
k, value
MapValue [(key, value)]
v)(key, value) -> [(key, value)] -> [(key, value)]
forall a. a -> [a] -> [a]
:) ([(key, value)] -> [(key, value)])
-> ([(key, value)] -> [(key, value)])
-> [(key, value)]
-> [(key, value)]
forall b c a. (b -> c) -> (a -> b) -> a -> c
. ContainerKey [(key, value)] -> [(key, value)] -> [(key, value)]
forall map. IsMap map => ContainerKey map -> map -> map
deleteMap ContainerKey [(key, value)]
k
    {-# INLINE insertMap #-}
    deleteMap :: ContainerKey [(key, value)] -> [(key, value)] -> [(key, value)]
deleteMap ContainerKey [(key, value)]
k = ((key, value) -> Bool) -> [(key, value)] -> [(key, value)]
forall a. (a -> Bool) -> [a] -> [a]
List.filter ((ContainerKey [(key, value)] -> ContainerKey [(key, value)] -> Bool
forall a. Eq a => a -> a -> Bool
/= ContainerKey [(key, value)]
k) (key -> Bool) -> ((key, value) -> key) -> (key, value) -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (key, value) -> key
forall a b. (a, b) -> a
fst)
    {-# INLINE deleteMap #-}
    singletonMap :: ContainerKey [(key, value)]
-> MapValue [(key, value)] -> [(key, value)]
singletonMap ContainerKey [(key, value)]
k MapValue [(key, value)]
v = [(key
ContainerKey [(key, value)]
k, value
MapValue [(key, value)]
v)]
    {-# INLINE singletonMap #-}
    mapFromList :: [(ContainerKey [(key, value)], MapValue [(key, value)])]
-> [(key, value)]
mapFromList = [(key, value)] -> [(key, value)]
[(ContainerKey [(key, value)], MapValue [(key, value)])]
-> [(key, value)]
forall a. a -> a
id
    {-# INLINE mapFromList #-}
    mapToList :: [(key, value)]
-> [(ContainerKey [(key, value)], MapValue [(key, value)])]
mapToList = [(key, value)] -> [(key, value)]
[(key, value)]
-> [(ContainerKey [(key, value)], MapValue [(key, value)])]
forall a. a -> a
id
    {-# INLINE mapToList #-}

-- | Polymorphic typeclass for interacting with different set types
class (SetContainer set, Element set ~ ContainerKey set) => IsSet set where
    -- | Insert a value into a set.
    insertSet :: Element set -> set -> set

    -- | Delete a value from a set.
    deleteSet :: Element set -> set -> set

    -- | Create a set from a single element.
    singletonSet :: Element set -> set

    -- | Convert a list to a set.
    setFromList :: [Element set] -> set

    -- | Convert a set to a list.
    setToList :: set -> [Element set]

    -- | Filter values in a set.
    --
    -- @since 1.0.12.0
    filterSet :: (Element set -> Bool) -> set -> set
    filterSet Element set -> Bool
p = [Element set] -> set
[ContainerKey set] -> set
forall set. IsSet set => [Element set] -> set
setFromList ([ContainerKey set] -> set)
-> (set -> [ContainerKey set]) -> set -> set
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (ContainerKey set -> Bool)
-> [ContainerKey set] -> [ContainerKey set]
forall a. (a -> Bool) -> [a] -> [a]
filter Element set -> Bool
ContainerKey set -> Bool
p ([ContainerKey set] -> [ContainerKey set])
-> (set -> [ContainerKey set]) -> set -> [ContainerKey set]
forall b c a. (b -> c) -> (a -> b) -> a -> c
. set -> [Element set]
set -> [ContainerKey set]
forall set. IsSet set => set -> [Element set]
setToList

instance Ord element => IsSet (Set.Set element) where
    insertSet :: Element (Set element) -> Set element -> Set element
insertSet = element -> Set element -> Set element
Element (Set element) -> Set element -> Set element
forall a. Ord a => a -> Set a -> Set a
Set.insert
    {-# INLINE insertSet #-}
    deleteSet :: Element (Set element) -> Set element -> Set element
deleteSet = element -> Set element -> Set element
Element (Set element) -> Set element -> Set element
forall a. Ord a => a -> Set a -> Set a
Set.delete
    {-# INLINE deleteSet #-}
    singletonSet :: Element (Set element) -> Set element
singletonSet = element -> Set element
Element (Set element) -> Set element
forall a. a -> Set a
Set.singleton
    {-# INLINE singletonSet #-}
    setFromList :: [Element (Set element)] -> Set element
setFromList = [element] -> Set element
[Element (Set element)] -> Set element
forall a. Ord a => [a] -> Set a
Set.fromList
    {-# INLINE setFromList #-}
    setToList :: Set element -> [Element (Set element)]
setToList = Set element -> [element]
Set element -> [Element (Set element)]
forall a. Set a -> [a]
Set.toList
    {-# INLINE setToList #-}
    filterSet :: (Element (Set element) -> Bool) -> Set element -> Set element
filterSet = (element -> Bool) -> Set element -> Set element
(Element (Set element) -> Bool) -> Set element -> Set element
forall a. (a -> Bool) -> Set a -> Set a
Set.filter
    {-# INLINE filterSet #-}

instance (Eq element, Hashable element) => IsSet (HashSet.HashSet element) where
    insertSet :: Element (HashSet element) -> HashSet element -> HashSet element
insertSet = element -> HashSet element -> HashSet element
Element (HashSet element) -> HashSet element -> HashSet element
forall a. (Eq a, Hashable a) => a -> HashSet a -> HashSet a
HashSet.insert
    {-# INLINE insertSet #-}
    deleteSet :: Element (HashSet element) -> HashSet element -> HashSet element
deleteSet = element -> HashSet element -> HashSet element
Element (HashSet element) -> HashSet element -> HashSet element
forall a. (Eq a, Hashable a) => a -> HashSet a -> HashSet a
HashSet.delete
    {-# INLINE deleteSet #-}
    singletonSet :: Element (HashSet element) -> HashSet element
singletonSet = element -> HashSet element
Element (HashSet element) -> HashSet element
forall a. Hashable a => a -> HashSet a
HashSet.singleton
    {-# INLINE singletonSet #-}
    setFromList :: [Element (HashSet element)] -> HashSet element
setFromList = [element] -> HashSet element
[Element (HashSet element)] -> HashSet element
forall a. (Eq a, Hashable a) => [a] -> HashSet a
HashSet.fromList
    {-# INLINE setFromList #-}
    setToList :: HashSet element -> [Element (HashSet element)]
setToList = HashSet element -> [element]
HashSet element -> [Element (HashSet element)]
forall a. HashSet a -> [a]
HashSet.toList
    {-# INLINE setToList #-}
    filterSet :: (Element (HashSet element) -> Bool)
-> HashSet element -> HashSet element
filterSet = (element -> Bool) -> HashSet element -> HashSet element
(Element (HashSet element) -> Bool)
-> HashSet element -> HashSet element
forall a. (a -> Bool) -> HashSet a -> HashSet a
HashSet.filter
    {-# INLINE filterSet #-}

instance IsSet IntSet.IntSet where
    insertSet :: Element IntSet -> IntSet -> IntSet
insertSet = Int -> IntSet -> IntSet
Element IntSet -> IntSet -> IntSet
IntSet.insert
    {-# INLINE insertSet #-}
    deleteSet :: Element IntSet -> IntSet -> IntSet
deleteSet = Int -> IntSet -> IntSet
Element IntSet -> IntSet -> IntSet
IntSet.delete
    {-# INLINE deleteSet #-}
    singletonSet :: Element IntSet -> IntSet
singletonSet = Int -> IntSet
Element IntSet -> IntSet
IntSet.singleton
    {-# INLINE singletonSet #-}
    setFromList :: [Element IntSet] -> IntSet
setFromList = [Int] -> IntSet
[Element IntSet] -> IntSet
IntSet.fromList
    {-# INLINE setFromList #-}
    setToList :: IntSet -> [Element IntSet]
setToList = IntSet -> [Int]
IntSet -> [Element IntSet]
IntSet.toList
    {-# INLINE setToList #-}
    filterSet :: (Element IntSet -> Bool) -> IntSet -> IntSet
filterSet = (Int -> Bool) -> IntSet -> IntSet
(Element IntSet -> Bool) -> IntSet -> IntSet
IntSet.filter
    {-# INLINE filterSet #-}


-- | Zip operations on 'MonoFunctor's.
class MonoFunctor mono => MonoZip mono where
    -- | Combine each element of two 'MonoZip's using a supplied function.
    ozipWith :: (Element mono -> Element mono -> Element mono) -> mono -> mono -> mono

    -- | Take two 'MonoZip's and return a list of the pairs of their elements.
    ozip :: mono -> mono -> [(Element mono, Element mono)]

    -- | Take a list of pairs of elements and return a 'MonoZip' of the first
    -- components and a 'MonoZip' of the second components.
    ounzip :: [(Element mono, Element mono)] -> (mono, mono)


instance MonoZip ByteString.ByteString where
    ozip :: ByteString
-> ByteString -> [(Element ByteString, Element ByteString)]
ozip     = ByteString -> ByteString -> [(Word8, Word8)]
ByteString
-> ByteString -> [(Element ByteString, Element ByteString)]
ByteString.zip
    ounzip :: [(Element ByteString, Element ByteString)]
-> (ByteString, ByteString)
ounzip   = [(Word8, Word8)] -> (ByteString, ByteString)
[(Element ByteString, Element ByteString)]
-> (ByteString, ByteString)
ByteString.unzip
    ozipWith :: (Element ByteString -> Element ByteString -> Element ByteString)
-> ByteString -> ByteString -> ByteString
ozipWith Element ByteString -> Element ByteString -> Element ByteString
f ByteString
xs = [Word8] -> ByteString
ByteString.pack ([Word8] -> ByteString)
-> (ByteString -> [Word8]) -> ByteString -> ByteString
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (Word8 -> Word8 -> Word8) -> ByteString -> ByteString -> [Word8]
forall a. (Word8 -> Word8 -> a) -> ByteString -> ByteString -> [a]
ByteString.zipWith Word8 -> Word8 -> Word8
Element ByteString -> Element ByteString -> Element ByteString
f ByteString
xs
    {-# INLINE ozip #-}
    {-# INLINE ounzip #-}
    {-# INLINE ozipWith #-}
instance MonoZip LByteString.ByteString where
    ozip :: ByteString
-> ByteString -> [(Element ByteString, Element ByteString)]
ozip     = ByteString -> ByteString -> [(Word8, Word8)]
ByteString
-> ByteString -> [(Element ByteString, Element ByteString)]
LByteString.zip
    ounzip :: [(Element ByteString, Element ByteString)]
-> (ByteString, ByteString)
ounzip   = [(Word8, Word8)] -> (ByteString, ByteString)
[(Element ByteString, Element ByteString)]
-> (ByteString, ByteString)
LByteString.unzip
    ozipWith :: (Element ByteString -> Element ByteString -> Element ByteString)
-> ByteString -> ByteString -> ByteString
ozipWith Element ByteString -> Element ByteString -> Element ByteString
f ByteString
xs = [Word8] -> ByteString
LByteString.pack ([Word8] -> ByteString)
-> (ByteString -> [Word8]) -> ByteString -> ByteString
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (Word8 -> Word8 -> Word8) -> ByteString -> ByteString -> [Word8]
forall a. (Word8 -> Word8 -> a) -> ByteString -> ByteString -> [a]
LByteString.zipWith Word8 -> Word8 -> Word8
Element ByteString -> Element ByteString -> Element ByteString
f ByteString
xs
    {-# INLINE ozip #-}
    {-# INLINE ounzip #-}
    {-# INLINE ozipWith #-}
instance MonoZip Text.Text where
    ozip :: Text -> Text -> [(Element Text, Element Text)]
ozip     = Text -> Text -> [(Char, Char)]
Text -> Text -> [(Element Text, Element Text)]
Text.zip
    ounzip :: [(Element Text, Element Text)] -> (Text, Text)
ounzip   = ([Char] -> Text
Text.pack ([Char] -> Text)
-> ([Char] -> Text) -> ([Char], [Char]) -> (Text, Text)
forall b c b' c'. (b -> c) -> (b' -> c') -> (b, b') -> (c, c')
forall (a :: * -> * -> *) b c b' c'.
Arrow a =>
a b c -> a b' c' -> a (b, b') (c, c')
*** [Char] -> Text
Text.pack) (([Char], [Char]) -> (Text, Text))
-> ([(Char, Char)] -> ([Char], [Char]))
-> [(Char, Char)]
-> (Text, Text)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. [(Char, Char)] -> ([Char], [Char])
forall a b. [(a, b)] -> ([a], [b])
List.unzip
    ozipWith :: (Element Text -> Element Text -> Element Text)
-> Text -> Text -> Text
ozipWith = (Char -> Char -> Char) -> Text -> Text -> Text
(Element Text -> Element Text -> Element Text)
-> Text -> Text -> Text
Text.zipWith
    {-# INLINE ozip #-}
    {-# INLINE ounzip #-}
    {-# INLINE ozipWith #-}
instance MonoZip LText.Text where
    ozip :: Text -> Text -> [(Element Text, Element Text)]
ozip     = Text -> Text -> [(Char, Char)]
Text -> Text -> [(Element Text, Element Text)]
LText.zip
    ounzip :: [(Element Text, Element Text)] -> (Text, Text)
ounzip   = ([Char] -> Text
LText.pack ([Char] -> Text)
-> ([Char] -> Text) -> ([Char], [Char]) -> (Text, Text)
forall b c b' c'. (b -> c) -> (b' -> c') -> (b, b') -> (c, c')
forall (a :: * -> * -> *) b c b' c'.
Arrow a =>
a b c -> a b' c' -> a (b, b') (c, c')
*** [Char] -> Text
LText.pack) (([Char], [Char]) -> (Text, Text))
-> ([(Char, Char)] -> ([Char], [Char]))
-> [(Char, Char)]
-> (Text, Text)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. [(Char, Char)] -> ([Char], [Char])
forall a b. [(a, b)] -> ([a], [b])
List.unzip
    ozipWith :: (Element Text -> Element Text -> Element Text)
-> Text -> Text -> Text
ozipWith = (Char -> Char -> Char) -> Text -> Text -> Text
(Element Text -> Element Text -> Element Text)
-> Text -> Text -> Text
LText.zipWith
    {-# INLINE ozip #-}
    {-# INLINE ounzip #-}
    {-# INLINE ozipWith #-}

-- | Type class for maps whose keys can be converted into sets.
class SetContainer set => HasKeysSet set where
    -- | Type of the key set.
    type KeySet set

    -- | Convert a map into a set of its keys.
    keysSet :: set -> KeySet set

instance Ord k => HasKeysSet (Map.Map k v) where
    type KeySet (Map.Map k v) = Set.Set k
    keysSet :: Map k v -> KeySet (Map k v)
keysSet = Map k v -> Set k
Map k v -> KeySet (Map k v)
forall k a. Map k a -> Set k
Map.keysSet
instance HasKeysSet (IntMap.IntMap v) where
    type KeySet (IntMap.IntMap v) = IntSet.IntSet
    keysSet :: IntMap v -> KeySet (IntMap v)
keysSet = IntMap v -> IntSet
IntMap v -> KeySet (IntMap v)
forall a. IntMap a -> IntSet
IntMap.keysSet
instance (Hashable k, Eq k) => HasKeysSet (HashMap.HashMap k v) where
    type KeySet (HashMap.HashMap k v) = HashSet.HashSet k
    keysSet :: HashMap k v -> KeySet (HashMap k v)
keysSet = [k] -> HashSet k
[Element (HashSet k)] -> HashSet k
forall set. IsSet set => [Element set] -> set
setFromList ([k] -> HashSet k)
-> (HashMap k v -> [k]) -> HashMap k v -> HashSet k
forall b c a. (b -> c) -> (a -> b) -> a -> c
. HashMap k v -> [k]
forall k v. HashMap k v -> [k]
HashMap.keys