I have read a lot about this topic and I saw many different algorithms. I have stumbled across another solution which Im having a hard time to understand its efficiency compared to other algorithms, since its using a simple temporary object to hold the existing elements of the array. Is that a valid solution compared to the "old school" method using a sophisticated sorting method and comparison?

 function removeDup(arr){
        var element,
                existObj= {},
                finalArr = [];

        for(var i=0;i<arr.length;i++){
            element = arr[i];
                existObj[element] = true;
        return finalArr;

A friend told me that the efficiency here cannot be clearly determined because i dont really know how was the temp object implemented.

  • 2
    Think of existObj as a hash map - with near O(1) performance for assigning and accessing. – Bergi Sep 29 '14 at 9:58
  • It's easier using Array.filter – Prateek Sep 29 '14 at 10:00
  • 1
    @Bergi : you're right, and since O(1)+constant === 0(1), we have not a 'near' O(1) for the lookup, but exactly O(1). So this algorithm is O(n). Now, as shown in my answer, we can get a 6-10X improvement on the 'k' of this O(n) by using the best-fit native object. – GameAlchemist Sep 29 '14 at 16:34
  • 1
    @GameAlchemist: I'm not talking about constants. Assigning and accessing elements in a hashmaps will always depend on (k) size of the key (e.g. length of the property string), (v) size of the stored values, and (n) number of items in the map - just with a very good complexity. (disclaimer: v is constant for booleans like here, or object pointers; k can be reduced by a lazy hashing function that doesn't visit all bytes; and n could be limited if the key space is finite) – Bergi Sep 29 '14 at 16:46
  • 1
    @Bergi : i wanted to check for real that O(1) is good enough, so i did a plot (see my answer). Indeed O(1) is a good approximation, even if the spread raises with n. – GameAlchemist Sep 30 '14 at 10:23

You'll get the best performances by using most appropriate data structure. In a JIT/interpreted language like js, the gains of using a native functionality are tremendous.

Here it's a Set you should use in the first place : this way you don't even have to do anything to remove dups, they will just be ignored when added.
I just did a simple test, and performances are around six to ten times (!!) faster with a Set.


result example :

"overhead is : 0.015700000221841037"
"Built unic numbers with a lookup object in : 6.237600000167731"
"Built unic numbers with a Set in : 0.7921500000520609"

Here are the curves for n = 0 to 50.000 for both algorithm.
We see that indeed the hashmap behaves quite like O(1), but with a higher spread when n raises.
Set is almost perfectly linear.

enter image description here

drawing jsbin (be patient ! ) : http://jsbin.com/jofofeyixaco/2/

Code :

// noprotect
// build a test set
var numbers = [];
var cnt = 10000; 
for (var i=0; i<cnt; i++ ) numbers.push(Math.floor(Math.random*1000));

// build unic values using lookup object
function buildWithObject() {
  var existing= {};
  var unicNumbers = [];
  for (var i=0; i<cnt; i++) {
    var num = numbers[i];
    if (!existing[num]) {

// build unic values using a Set
function buildWithSet() {
    var unicNumbersSet = new Set();
    for (var i=0; i<cnt; i++) {
         var num = numbers[i];

function iterate() {
    for (var i=0; i<cnt; i++) {
         var num = numbers[i];

// warming up functions
for (var i=0; i<30; i++) { buildWithObject(); buildWithSet() ;  iterate(); }

// --------  Measures  --------------------
var measureRepeat = 20;
var m;

var s,e;
// ----------------------------
while (m--) iterate();

console.log('overhead is : ' + (e-s)/measureRepeat);

// ----------------------------
while (m--) buildWithObject();

console.log('Built unic numbers with a lookup object in : ' + (e-s)/measureRepeat);

// ----------------------------
while (m--) buildWithSet();
console.log('Built unic numbers with a Set in : ' + (e-s)/measureRepeat);

(don't forget, Set is EcmaScript 6, so use, in the js tag, type="application/javascript;version=1.7"

If you're concerned about compatibility : http://kangax.github.io/compat-table/es6/#Set
All 'modern' platforms ok : Ch, FF, IE11, OS8
All others not ok. )

  • Uh, yes, I would be concerned about compatibility of Set. – Bergi Sep 29 '14 at 16:52
  • @Bergi : yes, this might be a concern depending on your target. I updated to summarize the compatibility table. ( yet within a few month all should be ok since Harmony is (somehow) welcome by everyone ). – GameAlchemist Sep 29 '14 at 17:03
  • Thanks for the great answer. So to sum all up, is it correct to assume that using an object as a lookup map is fine and the complexity is O(N). But, it is much faster to use a Set, but the complexity is still O(N)? – undroid Sep 30 '14 at 7:19
  • 1
    Yes, as you know O(N) means k*n+ctte, and the k constant for a Set is around 10 times smaller. – GameAlchemist Sep 30 '14 at 9:29
  • 1
    See my edit, i added a plot. – GameAlchemist Sep 30 '14 at 10:24

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