I was stunned by the reults described in this answer and supported by this benchmark that compares that solution (native JavaScript) with the one I proposed (Lodash).

I've also compared the proposed solution:

const obj = {
  name: undefined,
  age: 15,
  school: 'Some school'

const hasOnly = (obj,props) => {
    var objProps = Object.keys(obj)
    return objProps.length == props.length && props.every(p => objProps.includes(p))

console.log(hasOnly(obj,['name','age'])) //return false
console.log(hasOnly(obj,['name','age','city'])) //return false
console.log(hasOnly(obj,['name','age','school'])) //return true

with one where I truly simply switch from every native function to the corresponing function in Lodash,

hasOnly = (obj,props) => {
    const objProps = _.keys(obj)
    return _.size(objProps) == _.size(props) && _.every(_.includes(objProps), props);

and the result is still disappointly in favour of the native solution.

Now, the one above might be a silly example, but still... > 90% slower? Then what am I using Lodash for? I mean, in different scenarios it can improve readability, expecially when funtions have to be partially applied and passed around, where Lodash saves you from a lot of x => x. (classic example arrayOfarrays.map(_.map(fOnTheElements)) instead of arrayOfarrays.map(arr => arr.map(fOnTheElements))), but if the peformance is so low, then it's a bit hard to make the expressivity enough to choose Lodash over native code.

I'm new to JavaScript and Lodash (just not totally new to functional programming), so I don't even know the reliability of the benchmark tool that was used in the linked answer, but I can't believe it makes such a bad job that reverses the result.

  • What's wrong with question? :|
    – Enlico
    Jan 31, 2022 at 15:58
  • 1
    Why do you expect a library that uses native stuff to be faster than that native stuff? o.O
    – Andreas
    Jan 31, 2022 at 15:58
  • medium.com/techspiration/… Jan 31, 2022 at 15:58
  • "so I don't even know the reliability of the benchmark tool that was used in the linked answer" - Then why, based on that, are you making any assumptions?
    – Andreas
    Jan 31, 2022 at 16:00
  • @Andreas, I'm new to interpreted languages. I'm a C++ programmer, and the STL is fast. I mean, in general if y uses native x, y it's not necessarily slower than native x, I belive. It might be, just like it might not.
    – Enlico
    Jan 31, 2022 at 16:01

1 Answer 1


Lodash is just javascript. There's no magic that can make it faster than the native code it is written in.

In short, every method call has an overhead. So if I do

const len = myArr.length

and you do

const len = _.size(myArr);

and we assume the implementation of _.size is

function size(arr){
    return arr.length

(It does more than that, but stay with me here!) Then at very least you have an extra method call that the native solution does not.

In actual fact _.size does even more than just check the length

Gets the size of collection by returning its length for array-like values or the number of own enumerable string keyed properties for objects.

So on top of an extra method call you have the code for checking the "number of enumerable string keyed properties" - is it really any wonder that a native solution is quicker?

So why use a library like lodash? Because as their documentation headlines:

Lodash makes JavaScript easier by taking the hassle out of working with arrays, numbers, objects, strings, etc.

So, you sacrifice a bit of speed for readability and ease of use.

  • Then at very least you have an extra method call. Wow, I would have never thought that the interpreter could not do any simplification/optimization on the code. I've implemented all the functions in my example as you've done for _.size, and I still get a run ~30% slower than native. It's impressive :|
    – Enlico
    Jan 31, 2022 at 20:09
  • I don't think it's fair that you have the declaration of the functions as part of the test code. If you define the helper functions in Setup, you don't see any difference between the two: jsbench.me/k1kz8a82l3/1 Feb 4, 2022 at 10:41
  • @user3297291 You're absolutely right, that was a massive oversight. However you've somewhat changed the benchmark there by making the logash versions not call _.size (and the ther lodash functions in the original). If I keep the intention of testing lodash vs native but move the function setups outside the benchmarks you still do in fact get the same result. jsbench.me/r9kz2mwr9c/2
    – Jamiec
    Feb 4, 2022 at 11:02
  • Was mostly commenting on the 30% slower claim by @Enlico 🙂 Good to see your updated version with the actual lodash reference though! Feb 4, 2022 at 11:57

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.