I was suprised to learn that Array and List were two different types in Elm:

In my case, I have a List Int of length 2,000,000 and I need about 10,000 of them but I don't know in advance which ten thousand. That will be provided by another list. In pseudo-code:

x = [ 1,1,0,30,...,255,0,1 ]
y = [ 1,4,7,18,36,..., 1334823 , ... 1899876 ]
z = [ y[x[0]], y[x[1]], ... ]

I am using pseudocode because clearly this isn't Elm syntax (it might be legal JavaScript).

Can these array selections be done in List or Array or both?

  • List is a linked-list structure, so the expression y[x[i]] is an O(n) lookup for the ith in x plus another O(n) lookup for the element in y. In other words, for 10000 lookups among 2mil elements this will be prohibitively slow. Use Array. Jun 8 '16 at 16:09
  • Unless y is guaranteed to be sorted, then a different algorithm will work Jun 8 '16 at 16:13
  • Just out of curiosity: what's the broader problem your solving by picking 10.000 elements out of a 2.000.000 element list? Jun 8 '16 at 18:00
  • the 2 million elements are pixels from an image. I am given 10000 points and I need to find their RGB color. I can ask a new question if you like Jun 8 '16 at 19:45

List is a linked list which provides O(n) lookup time based on index. Getting an element by index requires traversing the list over n nodes. An index lookup function for List isn't available in the core library but you can use the elm-community/list-extra package which provides two functions for lookup (varying by parameter order): !! and getAt.

Array allows for O(log n) index lookup. Index lookups on Array can be done using Array.get. Arrays are represented as Relaxed Radix Balanced Trees.

Both are immutable (all values in Elm are immutable), so you have trade-offs depending on your situation. List is great when you make a lot of changes because you are merely updating linked list pointers, whereas Array is great for speedy lookup but has somewhat poorer performance for modifications, which you'll want to consider if you're making a lot of changes.

  • 2
    I didn't check, but I'd have thought Array was some form of red-black tree with O(lg n) lookup? Jun 8 '16 at 17:58
  • @SørenDebois you are absolutely right, the lookup is O(lg n) in Elm's Array
    – halfzebra
    Jun 8 '16 at 18:30
  • 1
    Looks like Array is using Relaxed Radix Balanced Trees under the hood. I've updated my answer. Jun 8 '16 at 18:31
  • For folding or mapping over, what is better, Array or List?
    – fiatjaf
    Oct 6 '16 at 2:54
  • In general terms, List will have better performance for folding and mapping because it's "one step" to the next item. Arrays will be better for indexed lookups but perform slightly worse for folding and mapping because they have a few more steps to get to the next element. Oct 6 '16 at 2:59

Something like this should work:

import Array
import Debug

fromJust : Maybe a -> a
fromJust x = case x of
    Just y -> y
    Nothing -> Debug.crash "error: fromJust Nothing"

selectFromList : List a -> List Int -> List a
selectFromList els idxs = 
  let arr = Array.fromList els
   in List.map (\i -> fromJust (Array.get i arr)) idxs

It converts the input list to an array for fast indexing, then maps the list of indices to their corresponding values in the array. I took the fromJust function from this StackOverflow question.


Only use Array if you need to use Array.get.

In most cases you should use List because usually you can do everything you need with foldl, map, etc. without having to get items from an index, and List has better performance with these functions.

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