Changing the nth element
A common operation in many languages is to assign to an indexed position in an array. In python you might:
>>> a = [1,2,3,4,5]
>>> a[3] = 9
>>> a
[1, 2, 3, 9, 5]
The
lens package gives this functionality with the (.~)
operator. Though unlike in python the original list is not mutated, rather a new list is returned.
> let a = [1,2,3,4,5]
> a & element 3 .~ 9
[1,2,3,9,5]
> a
[1,2,3,4,5]
element 3 .~ 9
is just a function and the (&)
operator, part of the
lens package, is just reverse function application. Here it is with more common function application.
> (element 3 .~ 9) [1,2,3,4,5]
[1,2,3,9,5]
Assignment again works perfectly fine with arbitrary nesting of Traversable
s.
> [[1,2,3],[4,5,6]] & element 0 . element 1 .~ 9
[[1,9,3],[4,5,6]]
or
> set (element 3) 9 [1,2,3,4,5,6,7]
Or if you want to effect multiple elements you can use:
> over (elements (>3)) (const 99) [1,2,3,4,5,6,7]
> [1,2,3,4,99,99,99]
Working with types other than lists
This is not just limited to lists however, it will work with any datatype that is an instance of the Traversable typeclass.
Take for example the same technique works on trees form the standard
containers package.
> import Data.Tree
> :{
let
tree = Node 1 [
Node 2 [Node 4[], Node 5 []]
, Node 3 [Node 6 [], Node 7 []]
]
:}
> putStrLn . drawTree . fmap show $ tree
1
|
+- 2
| |
| +- 4
| |
| `- 5
|
`- 3
|
+- 6
|
`- 7
> putStrLn . drawTree . fmap show $ tree & element 1 .~ 99
1
|
+- 99
| |
| +- 4
| |
| `- 5
|
`- 3
|
+- 6
|
`- 7
> putStrLn . drawTree . fmap show $ tree & element 3 .~ 99
1
|
+- 2
| |
| +- 4
| |
| `- 99
|
`- 3
|
+- 6
|
`- 7
> putStrLn . drawTree . fmap show $ over (elements (>3)) (const 99) tree
1
|
+- 2
| |
| +- 4
| |
| `- 5
|
`- 99
|
+- 99
|
`- 99