Maybe I should use Map/Set, but I can not work it out...

let items = [
  {type: 'a', name: 'a1', color: 'yellow'},
  {type: 'b', name: 'b1', color: 'orange'}
const excludes = [
  {k: 'color', value: 'yellow'},
  {k: 'name', value: 'x'}

excludes.forEach((exclude) => {
  items = items.filter((item) => item[exclude.k] !== exclude.value)


  • Please define in your question what n is to designate. And check the spelling in the title.
    – greybeard
    Commented Aug 11, 2023 at 8:15

2 Answers 2


O(n) means linear complexity. Here is an example code that does it in a linear complexity and checks all the keys of items.

You can use a Set to index excludes for each key to reduce filtering complexity to O(1). Below is an example code for O(n) + O(m) =~ O(n)

const items = [
  { type: "a", name: "a1", color: "yellow" },
  { type: "b", name: "b1", color: "orange" },
const excludes = [
  { k: "color", value: "yellow" },
  { k: "name", value: "x" },

const excludeIndex = { type: new Set(), name: new Set(), color: new Set() };

// Populate Exclude Index: O(m)
excludes.forEach((exclude) => excludeIndex[exclude.k].add(exclude.value));

// Filter Items: O(n)
const result = items.filter(
  (item) => !excludeIndex.type.has(item.type) && !excludeIndex.name.has(item.name) && !excludeIndex.color.has(item.color),


Normally, we should use a variable for storing index keys and iterate them to make the code more flexible. However, iterating index keys may confuse reviewers about the complexity. The number of keys is constant (or negligible) and does not affect complexity.

  • excellent! properties is limited in the real-world Commented Aug 17, 2023 at 11:50

You cannot avoid to read the input at least. That already costs O(n). So you need to check if an element needs to be excluded in O(1).

The data structure that comes in mind that could do that (at least in most cases) is a Hash-Map/-Set.

I'm not 100% sure what Alexandre Fenyo wants to point out in his comments, but I agree that a Hash-Map/-Set cannot guarantee O(1) for lookup and insert because of possible collisions.
To minimize collisions the Hash-Map/-Set needs to be of adequate size (or have a relative cheap way to grow its internal structure) and the hash-function used must not create too many collisions because of its design. For further details wikipedia hash-table .
For good implementations you get O(1) in most cases, that is what I mean with "in most cases" in my answer above.

  • If n is the number of items and m the number of excluded items, the check is O(m) Commented Aug 11, 2023 at 7:32
  • @Alexandre Fenyo: For each of the n items the check with a hashset takes O(1) (on average) which leads to O(n)*O(1)=O(n).
    – MrSmith42
    Commented Aug 11, 2023 at 7:44
  • my AI answer also like that. hha Commented Aug 11, 2023 at 7:44
  • @MrSmith42 : I disagree, a hash function may encounter collisions. We are on a computer, therefore both the start and end sets are finite. Some collisions will occur in the case the end set is smaller than the start set. Even without collisions, we do not know which hash function would be used. Since the end set is finite, you can not prove that it is better than O(m). Because there exists hash functions that are O(m): any constant function (it has m collisions). What do you mean with "on average"? If you do not agree with me, may you please tell me which principle the proof is based on? Commented Aug 11, 2023 at 9:47
  • 1
    The only constant you can assume in the example is the number of "attributes" of items ("type", "name", "color"). As @Alexandre Fenyo stated, other variables cannot be assumed constant because the soul of the question is based on variable length excludes used to filter variable length items. I added an answer for linear complexity. Could you please review it and share your thoughts?
    – özüm
    Commented Aug 11, 2023 at 12:07

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