What time complexity (in big-O notation) is provided by the ES6 specification for the Keyed Collections (Set, Map, WeakSet, and WeakMap)?

My expectation, and I expect that of most developers, is that the specifications and implementations would use widely accepted performant algorithms, in which case Set.prototype.has, add and delete to all be O(1) in the average case. The same for the Map and Weak– equivalents.

It is not entirely apparent to me whether the time complexity of the implementations was mandated e.g. in ECMAScript 2015 Language Specification - 6th Edition — 23.2 Set Objects.

Unless I misunderstand it (and it's certainly very possible I do), it looks the ECMA spec mandates that the implementations (e.g. Set.prototype.has) are to use a linear time (O(n)) algorithm. It would strike me as exceedingly surprising that more performant algorithms would not be mandated or even permitted by the spec, and I would be very interested in an explanation for why this is the case.

  • 2
    All O(1) algorithms are O(n) as well, so letting in spec less performant implementations does not make any harm. Probably the less performant implementations may be of some interest in systems with constrained resources, as most likely they require much less code / space. Jun 27, 2015 at 18:16
  • 2
    @arturgrzesiak The O(1) performance of the keyed collections is generally achieved with an O(1) hash plus a O(n) collision bucket. The O(n) worst-case is for most practical purposes astronomically rare. The space complexity of these techniques is generally O(n). Jun 27, 2015 at 18:35
  • 2
    "Set objects must be implemented using either hash tables or other mechanisms that, on average, provide access times that are sublinear on the number of elements in the collection. " -- from that very page.
    – georg
    Jun 27, 2015 at 18:37

3 Answers 3


Right from that very paragraph your linked to:

Set objects must be implemented using [mechanisms] that, on average, provide access times that are sublinear on the number of elements in the collection.

You will find the same sentence for Maps, WeakMaps and WeakSets.

It looks the ECMA spec mandates that the implementations (e.g. Set.prototype.has) are to use a linear time (O(n)) algorithm.


The data structures used in this Set objects specification is only intended to describe the required observable semantics of Set objects. It is not intended to be a viable implementation model.

The observable semantics are mostly related to the predictable iteration order (which still can be implemented efficient and fast). It is indeed expected by the specification that an implementation uses a hash table or something similar with constant access, though trees (with logarithmic access complexity) are allowed as well.

  • 8
    Thanks for picking that out. My eyes must've glazed over by the time I got to that paragraph. :) So algorithms that are either O(log(n)) or O(1), but not otherwise mandated (provided they are under O(n))? Jun 27, 2015 at 18:37
  • 3
    @BrianM.Hunt: Correct.
    – Bergi
    Jun 27, 2015 at 18:38
  • WTH? Aren't they O(log(n))?????? Are they really O(n) on average time? Is O(n) just the worst case?
    – canbax
    Feb 24 at 9:05
  • 2
    @canbax Please see the first quote in my answer again. It does not permit linear average time complexity.
    – Bergi
    Feb 24 at 9:40

For anyone who is curious, I did a very quick benchmark:

I'm running node 18.16.0.

This has been edited to include data on strings and deletion as users have pointed out there is a performance difference. However, object is still faster in everything I ran.

const benchmarkMap = size => {
    var map = new Map();
    for (var i = 0; i < size; i++) map.set(i, i);
    for (var i = 0; i < size; i++) var x = map.get(i);

const benchmarkObj = size => {
    var obj = {};
    for (var i = 0; i < size; i++) obj[i] = i;
    for (var i = 0; i < size; i++) var x = obj[i];

const benchmarkMapStr = size => {
    var map = new Map();
    for (var i = 0; i < size; i++) map.set(i.toString(), i);
    for (var i = 0; i < size; i++) var x = map.get(i.toString());

const benchmarkObjStr = size => {
    var obj = {};
    for (var i = 0; i < size; i++) obj[i.toString()] = i;
    for (var i = 0; i < size; i++) var x = obj[i.toString()];

const benchmarkMapDel = size => {
    var map = new Map();
    for (var i = 0; i < size; i++) map.set(i, i);
    for (var i = 0; i < size; i++) {
        var x = map.get(i);

const benchmarkObjDel = size => {
    var obj = {};
    for (var i = 0; i < size; i++) obj[i] = i;
    for (var i = 0; i < size; i++) {
        var x = obj[i];
        delete obj[i];

var size = 1000000;


This will yield the following results:

benchmarkMap: 189.425ms
benchmarkObj: 41.519ms
benchmarkMapStr: 263.951ms
benchmarkObjStr: 102.959ms
benchmarkMapDel: 271.904ms
benchmarkObjDel: 102.373ms
  • 3
    @domdambrogia if you separate out setting from getting I get: Map Set = 124, Map Get = 40, Object Set = 26, Object Get = 1 (these are ratios not ms)
    – AJP
    Aug 7, 2019 at 8:22
  • 1
    @AJP I didn't think about, breaking it down with those stats as well. Thanks for your input, that's a good contribution. I'll see if i can add that into my answer when I have a second. Thanks! Aug 7, 2019 at 15:12
  • 1
    It would be interesting to separate the assignment from the reading to also learn which one of both is faster for reading. Dec 8, 2019 at 19:53
  • 26
    "2017 MacBook Pro, 2.5 GHz i7 w/ 16G RAM" - uh, that's cool and all, but which javascript engine did you benchmark?
    – Bergi
    Jun 12, 2020 at 20:12
  • 4
    Interestingly enough, when adding delete operations and operations are intermixed, Map performs much better. jsfiddle.net/23hrp0eq
    – Jorjon
    Aug 30, 2020 at 20:08

The question Is the Set.has() method O(1) and Array.indexOf O(n)? is listed as a duplicate of this one, which it isn't exactly (I've voted to re-open). I'll add these benchmarks here anyway, as the benchmarks on the replies to that question fail to show the full range of differences in performance between Set#has and Array#indexOf.

The following is all true for Chrome 93:

You find that for smaller datasets, Array#indexOf actually outperforms Set#has or Map#has; however, for larger datasets, Set#has and Map#has are multiple orders of magnitude faster. Which is pretty consistent with what you'd expect for O(n) vs O(1) operations.

Interestingly, despite both being O(n), Array#includes is way slower than Array#indexOf for a small dataset, but performs very similarly for large datasets. Presumably, Array#indexOf takes advantage of some optimization that Array#includes doesn't.

Meanwhile, Object#hasOwnProperty slightly outperforms Set#has and Map#has in all cases (at least in Chrome 93).

Benchmarking code

const [small, medium, large] = [1e3, 1e5, 1e7]

const configs = [
    { size: small, iterations: large },
    { size: medium, iterations: medium },
    { size: large, iterations: small },

for (const { size, iterations } of configs) {
    const arr = Array.from({ length: size }, (_, i) => String(i))
    const obj = Object.fromEntries(arr.map(k => [k, true]))
    const set = new Set(arr)
    const map = new Map(Object.entries(obj))

    const valsToTest = Array.from(
        { length: iterations },
        (_, i) => String(Math.floor(Math.random() * size)),

    const title = `dataset size: ${size.toLocaleString()}; iterations: ${iterations.toLocaleString()}`

    console.log(`\n-> ${title}`)

    for (const [target, method] of [
        [arr, 'indexOf'],
        [arr, 'includes'],
        [set, 'has'],
        [map, 'has'],
        [obj, 'hasOwnProperty'],
    ]) {
        const subtitle = `${target.constructor.name}#${method}`


        for (const val of valsToTest) {


My results (Chrome 93)

-> dataset size: 1,000; iterations: 10,000,000
Array#indexOf: 185.100ms
Array#includes: 11302.700ms
Set#has: 367.400ms
Map#has: 375.000ms
Object#hasOwnProperty: 252.800ms

-> dataset size: 100,000; iterations: 100,000
Array#indexOf: 10794.100ms
Array#includes: 10476.800ms
Set#has: 6.600ms
Map#has: 6.800ms
Object#hasOwnProperty: 1.900ms

-> dataset size: 10,000,000; iterations: 1,000
Array#indexOf: 12798.900ms
Array#includes: 12435.400ms
Set#has: 0.800ms
Map#has: 0.800ms
Object#hasOwnProperty: 0.300ms
  • The question you linked does ask "Is Set.has() really O(1)?", which definitely is a duplicate of the canonical.
    – Bergi
    Sep 11, 2021 at 14:50
  • 2
    @Bergi It asks for a comparison between Set#has and Array#indexOf, whereas this question doesn't. If I Google set.has vs array.indexof time complexity, that question is the first result. My answer here is a benchmark-based (as opposed to spec-based) answer to that question, with a few other comparisons thrown in for good measure. Regardless of whether the question is considered a duplicate or not, hopefully someone finds this answer useful. Sep 11, 2021 at 15:09
  • what about Set#delete ?
    – canbax
    Feb 24 at 8:59

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