| Safe Haskell | None |
|---|---|
| Language | Haskell2010 |
Data.IntMap.Optics
Description
IntMap is an instance of At and provides
at as a lens on values at keys:
>>>IntMap.fromList [(1, "world")] ^. at 1Just "world"
>>>IntMap.empty & at 1 .~ Just "world"fromList [(1,"world")]
>>>IntMap.empty & at 0 .~ Just "hello"fromList [(0,"hello")]
We can traverse, fold over, and map over key-value pairs in an IntMap,
thanks to indexed traversals, folds and setters.
>>>iover imapped const $ IntMap.fromList [(1, "Venus")]fromList [(1,1)]
>>>ifoldMapOf ifolded (\i _ -> Sum i) $ IntMap.fromList [(2, "Earth"), (3, "Mars")]Sum {getSum = 5}
>>>itraverseOf_ ifolded (curry print) $ IntMap.fromList [(4, "Jupiter")](4,"Jupiter")
>>>itoListOf ifolded $ IntMap.fromList [(5, "Saturn")][(5,"Saturn")]
A related class, Ixed, allows us to use ix to
traverse a value at a particular key.
>>>IntMap.fromList [(2, "Earth")] & ix 2 %~ ("New " ++)fromList [(2,"New Earth")]
>>>preview (ix 8) IntMap.emptyNothing
Documentation
toMapOf :: (Is k A_Fold, is `HasSingleIndex` Int) => Optic' k is s a -> s -> IntMap a Source #
Construct a map from an IxFold.
The construction is left-biased (see union), i.e. the first occurrences of
keys in the fold or traversal order are preferred.
>>>toMapOf ifolded ["hello", "world"]fromList [(0,"hello"),(1,"world")]
>>>toMapOf (folded % ifolded) [(1,"alpha"),(2, "beta")]fromList [(1,"alpha"),(2,"beta")]
>>>toMapOf (icompose (\a b -> 10*a+b) $ ifolded % ifolded) ["foo", "bar"]fromList [(0,'f'),(1,'o'),(2,'o'),(10,'b'),(11,'a'),(12,'r')]
>>>toMapOf (folded % ifolded) [(1, "hello"), (2, "world"), (1, "dummy")]fromList [(1,"hello"),(2,"world")]
lt :: Int -> IxAffineTraversal' Int (IntMap v) v Source #
Focus on the largest key smaller than the given one and its corresponding value.
>>>IntMap.fromList [(1, "hi"), (2, "there")] & over (lt 2) (++ "!")fromList [(1,"hi!"),(2,"there")]
>>>ipreview (lt 1) $ IntMap.fromList [(1, 'x'), (2, 'y')]Nothing
gt :: Int -> IxAffineTraversal' Int (IntMap v) v Source #
Focus on the smallest key greater than the given one and its corresponding value.
>>>IntMap.fromList [(1, "hi"), (2, "there")] & over (gt 2) (++ "!")fromList [(1,"hi"),(2,"there")]
>>>ipreview (gt 1) $ IntMap.fromList [(1, 'x'), (2, 'y')]Just (2,'y')
le :: Int -> IxAffineTraversal' Int (IntMap v) v Source #
Focus on the largest key smaller or equal than the given one and its corresponding value.
>>>IntMap.fromList [(1, "hi"), (2, "there")] & over (le 2) (++ "!")fromList [(1,"hi"),(2,"there!")]
>>>ipreview (le 1) $ IntMap.fromList [(1, 'x'), (2, 'y')]Just (1,'x')
ge :: Int -> IxAffineTraversal' Int (IntMap v) v Source #
Focus on the smallest key greater or equal than the given one and its corresponding value.
>>>IntMap.fromList [(1, "hi"), (3, "there")] & over (ge 2) (++ "!")fromList [(1,"hi"),(3,"there!")]
>>>ipreview (ge 2) $ IntMap.fromList [(1, 'x'), (3, 'y')]Just (3,'y')