A Map that remembers the original ordering of keys

This is primarily used so that formatting preserves field order

This is done primarily to avoid a dependency on insert-ordered-containers and also to improve performance

Create a Map from a single key-value pair

>>> singleton "A" 1
fromList [("A",1)]

Create a Map from a list of key-value pairs

fromList empty = mempty

fromList (x <|> y) = fromList x <> fromList y

>>> fromList [("B",1),("A",2)]  -- The map preserves order
fromList [("B",1),("A",2)]
>>> fromList [("A",1),("A",2)]  -- For duplicates, later values take precedence
fromList [("A",2)]

Sort the keys of a Map, forgetting the original ordering

sort (sort x) = sort x

>>> sort (fromList [("B",1),("A",2)])
fromList [("A",2),("B",1)]

Check if the keys of a Map are already sorted

isSorted (sort m) = True

>>> isSorted (fromList [("B",1),("A",2)])  -- Sortedness is based only on keys
False
>>> isSorted (fromList [("A",2),("B",1)])
True

Insert a key-value pair into a Map, overriding any previous value stored underneath the same key, if present

insert = insertWith (\v _ -> v)

>>> insert "C" 1 (fromList [("B",2),("A",3)])  -- Values are inserted on left
fromList [("C",1),("B",2),("A",3)]
>>> insert "C" 1 (fromList [("C",2),("A",3)])  -- New value takes precedence
fromList [("C",1),("A",3)]

Insert a key-value pair into a Map, using the supplied function to combine the new value with any old value underneath the same key, if present

>>> insertWith (+) "C" 1 (fromList [("B",2),("A",3)])  -- No collision
fromList [("C",1),("B",2),("A",3)]
>>> insertWith (+) "C" 1 (fromList [("C",2),("A",3)])  -- Collision
fromList [("C",3),("A",3)]

Delete a key from a Map if present, otherwise return the original Map

>>> delete "B" (fromList [("C",1),("B",2),("A",3)])
fromList [("C",1),("A",3)]
>>> delete "D" (fromList [("C",1),("B",2),("A",3)])
fromList [("C",1),("B",2),("A",3)]

Keep all values that satisfy the given predicate

>>> filter even (fromList [("C",3),("B",2),("A",1)])
fromList [("B",2)]
>>> filter odd (fromList [("C",3),("B",2),("A",1)])
fromList [("C",3),("A",1)]

Transform all values in a Map using the supplied function, deleting the key if the function returns Nothing

>>> mapMaybe Data.Maybe.listToMaybe (fromList [("C",[1]),("B",[]),("A",[3])])
fromList [("C",1),("A",3)]

Retrieve a key from a Map

lookup k mempty = empty

lookup k (x <> y) = lookup k y <|> lookup k x

>>> lookup "A" (fromList [("B",1),("A",2)])
Just 2
>>> lookup "C" (fromList [("B",1),("A",2)])
Nothing

Check if a key belongs to a Map

member k mempty = False

member k (x <> y) = member k x || member k y

>>> member "A" (fromList [("B",1),("A",2)])
True
>>> member "C" (fromList [("B",1),("A",2)])
False

Retrieve the first key, value of the Map, if present, and also returning the rest of the Map.

uncons mempty = empty

uncons (singleton k v) = (k, v, mempty)

>>> uncons (fromList [("C",1),("B",2),("A",3)])
Just ("C",1,fromList [("B",2),("A",3)])
>>> uncons (fromList [])
Nothing

Combine two Maps, preferring keys from the first Map

union = unionWith (\v _ -> v)

>>> union (fromList [("D",1),("C",2)]) (fromList [("B",3),("A",4)])
fromList [("D",1),("C",2),("B",3),("A",4)]
>>> union (fromList [("D",1),("C",2)]) (fromList [("C",3),("A",4)])
fromList [("D",1),("C",2),("A",4)]

Combine two Maps using a combining function for colliding keys

>>> unionWith (+) (fromList [("D",1),("C",2)]) (fromList [("B",3),("A",4)])
fromList [("D",1),("C",2),("B",3),("A",4)]
>>> unionWith (+) (fromList [("D",1),("C",2)]) (fromList [("C",3),("A",4)])
fromList [("D",1),("C",5),("A",4)]

Combine two Map on their shared keys, keeping the value from the first Map

intersection = intersectionWith (\v _ -> v)

>>> intersection (fromList [("C",1),("B",2)]) (fromList [("B",3),("A",4)])
fromList [("B",2)]

Combine two Maps on their shared keys, using the supplied function to combine values from the first and second Map

>>> intersectionWith (+) (fromList [("C",1),("B",2)]) (fromList [("B",3),("A",4)])
fromList [("B",5)]

Compute the difference of two Maps by subtracting all keys from the second Map from the first Map

>>> difference (fromList [("C",1),("B",2)]) (fromList [("B",3),("A",4)])
fromList [("C",1)]

Transform the values of a Map using their corresponding key

mapWithKey (pure id) = id

mapWithKey (liftA2 (.) f g) = mapWithKey f . mapWithKey g

mapWithKey f mempty = mempty

mapWithKey f (x <> y) = mapWithKey f x <> mapWithKey f y

>>> mapWithKey (,) (fromList [("B",1),("A",2)])
fromList [("B",("B",1)),("A",("A",2))]

Traverse all of the key-value pairs in a Map, in their original order

>>> traverseWithKey (,) (fromList [("B",1),("A",2)])
("BA",fromList [("B",1),("A",2)])

Traverse all of the key-value pairs in a Map, in their original order where the result of the computation can be forgotten.

>>> traverseWithKey_ (\k v -> print (k, v)) (fromList [("B",1),("A",2)])
("B",1)
("A",2)

Travese all of the key-value pairs in a Map, not preserving their original order, where the result of the computation can be forgotten.

Note that this is an optimisation over traverseWithKey_ since we do not care in what order we traverse the pairs.

Fold all of the key-value pairs in a Map, in their original order

>>> foldMapWithKey (,) (fromList [("B",[1]),("A",[2])])
("BA",[1,2])

Convert a Map to a list of key-value pairs in the original order of keys

>>> toList (fromList [("B",1),("A",2)])
[("B",1),("A",2)]

Convert a Dhall.Map.Map to a Data.Map.Map

>>> toMap (fromList [("B",1),("A",2)]) -- Order is lost upon conversion
fromList [("A",2),("B",1)]

Return the keys from a Map in their original order

>>> keys (fromList [("B",1),("A",2)])
["B","A"]