121

Regardless of functional differences, does using the new keywords 'let' and 'const' have any generalized or specific impact on performance relative to 'var'?

After running the program:

function timeit(f, N, S) {
    var start, timeTaken;
    var stats = {min: 1e50, max: 0, N: 0, sum: 0, sqsum: 0};
    var i;
    for (i = 0; i < S; ++i) {
        start = Date.now();
        f(N);
        timeTaken = Date.now() - start;

        stats.min = Math.min(timeTaken, stats.min);
        stats.max = Math.max(timeTaken, stats.max);
        stats.sum += timeTaken;
        stats.sqsum += timeTaken * timeTaken;
        stats.N++
    }

    var mean = stats.sum / stats.N;
    var sqmean = stats.sqsum / stats.N;

    return {min: stats.min, max: stats.max, mean: mean, spread: Math.sqrt(sqmean - mean * mean)};
}

var variable1 = 10;
var variable2 = 10;
var variable3 = 10;
var variable4 = 10;
var variable5 = 10;
var variable6 = 10;
var variable7 = 10;
var variable8 = 10;
var variable9 = 10;
var variable10 = 10;

function varAccess(N) {
    var i, sum;
    for (i = 0; i < N; ++i) {
        sum += variable1;
        sum += variable2;
        sum += variable3;
        sum += variable4;
        sum += variable5;
        sum += variable6;
        sum += variable7;
        sum += variable8;
        sum += variable9;
        sum += variable10;
    }
    return sum;
}

const constant1 = 10;
const constant2 = 10;
const constant3 = 10;
const constant4 = 10;
const constant5 = 10;
const constant6 = 10;
const constant7 = 10;
const constant8 = 10;
const constant9 = 10;
const constant10 = 10;

function constAccess(N) {
    var i, sum;
    for (i = 0; i < N; ++i) {
        sum += constant1;
        sum += constant2;
        sum += constant3;
        sum += constant4;
        sum += constant5;
        sum += constant6;
        sum += constant7;
        sum += constant8;
        sum += constant9;
        sum += constant10;
    }
    return sum;
}


function control(N) {
    var i, sum;
    for (i = 0; i < N; ++i) {
        sum += 10;
        sum += 10;
        sum += 10;
        sum += 10;
        sum += 10;
        sum += 10;
        sum += 10;
        sum += 10;
        sum += 10;
        sum += 10;
    }
    return sum;
}

console.log("ctl = " + JSON.stringify(timeit(control, 10000000, 50)));
console.log("con = " + JSON.stringify(timeit(constAccess, 10000000, 50)));
console.log("var = " + JSON.stringify(timeit(varAccess, 10000000, 50)));

.. My results were the following:

ctl = {"min":101,"max":117,"mean":108.34,"spread":4.145407097016924}
con = {"min":107,"max":572,"mean":435.7,"spread":169.4998820058587}
var = {"min":103,"max":608,"mean":439.82,"spread":176.44417700791374}

However discussion as noted here seems to indicate a real potential for performance differences under certain scenarios: https://esdiscuss.org/topic/performance-concern-with-let-const

6
  • 1
    If I may ask, why is that @adeneo?
    – sean2078
    Oct 16, 2016 at 13:14
  • 1
    You are over optimizing. Using let and const are a benefit to the developer, helping them understand the code and making it more reliable. Developer time costs a lot and is worth the expense of time until it actually becomes a problem.
    – synthet1c
    Oct 16, 2016 at 13:14
  • 1
    @sean2078 - if you need to declare a variable that only lives in a block scope, let would do that, and then be garbage collected, while var, which is function scoped, wouldn't neccessarely work the same way. Again I think, it's so specific to the usage, that both let and const can be more performant, but wouldn't always be.
    – adeneo
    Oct 16, 2016 at 13:17
  • 2
    I'm confused by how the quoted code is meant to demonstrate any difference between var and let: It never uses let at all. Oct 16, 2016 at 13:27
  • 1
    Currently is does not - only const vs. var .. Originally sourced from gist.github.com/srikumarks/1431640 ( credit to srikumarks ) however request was made to pull code into question
    – sean2078
    Oct 16, 2016 at 14:32

6 Answers 6

162

TL;DR

In theory, an unoptimized version of this loop:

for (let i = 0; i < 500; ++i) {
    doSomethingWith(i);
}

might be slower than an unoptimized version of the same loop with var:

for (var i = 0; i < 500; ++i) {
    doSomethingWith(i);
}

because a different i variable is created for each loop iteration with let, whereas there's only one i with var.

Arguing against that is the fact the var is hoisted so it's declared outside the loop whereas the let is only declared within the loop, which may offer an optimization advantage.

In practice, here in 2018, modern JavaScript engines do enough introspection of the loop to know when it can optimize that difference away. (Even before then, odds are your loop was doing enough work that the additional let-related overhead was washed out anyway. But now you don't even have to worry about it.)

Beware synthetic benchmarks as they are extremely easy to get wrong, and trigger JavaScript engine optimizers in ways that real code doesn't (both good and bad ways). However, if you want a synthetic benchmark, here's one:

const now = typeof performance === "object" && performance.now
    ? performance.now.bind(performance)
    : Date.now.bind(Date);

const btn = document.getElementById("btn");
btn.addEventListener("click", function() {
    btn.disabled = true;
    runTest();
});

const maxTests = 100;
const loopLimit = 50000000;
const expectedX = 1249999975000000;

function runTest(index = 1, results = {usingVar: 0, usingLet: 0}) {
    console.log(`Running Test #${index} of ${maxTests}`);
    setTimeout(() => {
        const varTime = usingVar();
        const letTime = usingLet();
        results.usingVar += varTime;
        results.usingLet += letTime;
        console.log(`Test ${index}: var = ${varTime}ms, let = ${letTime}ms`);
        ++index;
        if (index <= maxTests) {
            setTimeout(() => runTest(index, results), 0);
        } else {
            console.log(`Average time with var: ${(results.usingVar / maxTests).toFixed(2)}ms`);
            console.log(`Average time with let: ${(results.usingLet / maxTests).toFixed(2)}ms`);
            btn.disabled = false;
        }
    }, 0);
}

function usingVar() {
    const start = now();
    let x = 0;
    for (var i = 0; i < loopLimit; i++) {
        x += i;
    }
    if (x !== expectedX) {
        throw new Error("Error in test");
    }
    return now() - start;
}

function usingLet() {
    const start = now();
    let x = 0;
    for (let i = 0; i < loopLimit; i++) {
        x += i;
    }
    if (x !== expectedX) {
        throw new Error("Error in test");
    }
    return now() - start;
}
<input id="btn" type="button" value="Start">

It says that there's no significant difference in that synthetic test on either V8/Chrome or SpiderMonkey/Firefox. (Repeated tests in both browsers have one winning, or the other winning, and in both cases within a margin of error.) But again, it's a synthetic benchmark, not your code. Worry about the performance of your code when and if your code has a performance problem.

As a style matter, I prefer let for the scoping benefit and the closure-in-loops benefit if I use the loop variable in a closure.

Details

The important difference between var and let in a for loop is that a different i is created for each iteration; it addresses the classic "closures in loop" problem:

function usingVar() {
  for (var i = 0; i < 3; ++i) {
    setTimeout(function() {
      console.log("var's i: " + i);
    }, 0);
  }
}
function usingLet() {
  for (let i = 0; i < 3; ++i) {
    setTimeout(function() {
      console.log("let's i: " + i);
    }, 0);
  }
}
usingVar();
setTimeout(usingLet, 20);

Creating the new EnvironmentRecord for each loop body (spec link) is work, and work takes time, which is why in theory the let version is slower than the var version.

But the difference only matters if you create a function (closure) within the loop that uses i, as I did in that runnable snippet example above. Otherwise, the distinction can't be observed and can be optimized away.

Here in 2018, it looks like V8 (and SpiderMonkey in Firefox) is doing sufficient introspection that there's no performance cost in a loop that doesn't make use of let's variable-per-iteration semantics. See this test.


In some cases, const may well provide an opportunity for optimization that var wouldn't, especially for global variables.

The problem with a global variable is that it's, well, global; any code anywhere could access it. So if you declare a variable with var that you never intend to change (and never do change in your code), the engine can't assume it's never going to change as the result of code loaded later or similar.

With const, though, you're explicitly telling the engine that the value cannot change¹. So it's free to do any optimization it wants, including emitting a literal instead of a variable reference to code using it, knowing that the values cannot be changed.

¹ Remember that with objects, the value is a reference to the object, not the object itself. So with const o = {}, you could change the state of the object (o.answer = 42), but you can't make o point to a new object (because that would require changing the object reference it contains).


When using let or const in other var-like situations, they're not likely to have different performance. This function should have exactly the same performance whether you use var or let, for instance:

function foo() {
    var i = 0;
    while (Math.random() < 0.5) {
        ++i;
    }
    return i;
}

It's all, of course, unlikely to matter and something to worry about only if and when there's a real problem to solve.

26
  • Thanks for the answer - I agree, so for myself have standardized on using var for looping operations as noted in your 1st for loop example, and let / const for all other declarations assuming that the performance difference is essentially nonexistent as the performance test would seem to indicate for now. Perhaps later, optimizations on const will be added. That is, unless someone else can show a discernible difference via code example.
    – sean2078
    Oct 22, 2016 at 23:16
  • 1
    @sean2078: I use let in the loop example as well. The performance difference just isn't worth worrying about it in the 99.999% case. Oct 23, 2016 at 8:24
  • 3
    As of Mid-2018, the versions with let and var have the same speed in Chrome, so now there is no difference anymore.
    – Max
    May 10, 2018 at 23:37
  • 1
    @DanM.: Good news, optimization appears to have caught up, at least in V8 and SpiderMonkey. :-) May 11, 2018 at 7:26
  • 1
    Thanks. Fair enough.
    – hypers
    Oct 13, 2020 at 14:08
27

"LET" IS BETTER IN LOOP DECLARATIONS

With a simple test (5 times) in navigator like that:

// WITH VAR
console.time("var-time")
for(var i = 0; i < 500000; i++){}
console.timeEnd("var-time")

The mean time to execute is more than 2.5ms

// WITH LET
console.time("let-time")
for(let i = 0; i < 500000; i++){}
console.timeEnd("let-time")

The mean time to execute is more than 1.5ms

I found that loop time with let is better.

6
  • 10
    Running this in Firefox 65.0, I got mean speeds of var=138.8ms and let=4ms. That is not a typo, let is more than 30x times faster right now
    – Katamari
    Feb 7, 2019 at 21:56
  • 10
    I just trialed this in Node v12.5. I found the mean speeds are var=2.6ms and let=1.0ms. So let in Node is a bit more than twice as fast. Jul 21, 2019 at 0:37
  • 6
    Just to make the usual point that performance testing is hard in the presence of optimisers: I think the let loop is being optimised away entirely - let only exists inside the block and the loop has no side effect and V8 is smart enough to know it can just remove the block, then the loop. the var declaration is hoisted so it can't know that. Your loops as they are I get 1ms/0.4ms, however if for both I have a variable j (var or let) outside the loop which is also incremented, I then get 1ms/1.5ms. i.e. var loop no change, let loop now taking longer.
    – Euan Smith
    Sep 3, 2020 at 16:03
  • 1
    @KaneHooper - If you got a fivefold difference in Firefox, it'll have to have been the empty loop body that did it. Real loops don't have empty bodies. Oct 13, 2020 at 11:44
  • 8
    Beware synthetic benchmarks, and in particular ones with loops with empty bodies. If you actually do something in the loop, this synthetic benchmark (which, again, beware of! :-) ) suggests there's no significant difference. I've also added one to my answer so it's on-site (not like those jsPerf tests that kept disappearing on me. :-) ). Repeated runs show one winning, or the other winning. Certainly nothing conclusive. Oct 13, 2020 at 12:02
10

T.J. Crowder's answer is so excellent.

Here is an addition of: "When would I get the most bang for my buck on editing existing var declarations to const ?"

I've found that the most performance boost had to do with "exported" functions.

So if file A, B, R, and Z are calling on a "utility" function in file U that is commonly used through your app, then switching that utility function over to "const" and the parent file reference to a const can eak out some improved performance. It seemed for me that it wasn't measurably faster, but the overall memory consumption was reduced by about 1-3% for my grossly monolithic Frankenstein-ed app. Which if you're spending bags of cash on the cloud or your baremetal server, could be a good reason to spend 30 minutes to comb through and update some of those var declarations to const.

I realize that if you read into how const, var, and let work under the covers you probably already concluded the above... but in case you "glanced" over it :D.

From what I remember of the benchmarking on node v8.12.0 when I was making the update, my app went from idle consumption of ~240MB RAM to ~233MB RAM.

0
3

T.J. Crowder's answer is very good but :

  1. 'let' is made to make code more readable, not more powerful
  2. by theory let will be slower than var
  3. by practice the compiler can not solve completely (static analysis) an uncompleted program so sometime it will miss the optimization
  4. in any-case using 'let' will require more CPU for introspection, the bench must be started when google v8 starts to parse
  5. if introspection fails 'let' will push hard on the V8 garbage collector, it will require more iteration to free/reuse. it will also consume more RAM. the bench must take these points into account
  6. Google Closure will transform let in var...

The effect of the performance gape between var and let can be seen in real-life complete program and not on a single basic loop.

Anyway, to use let where you don't have to, makes your code less readable.

1
  • 1
    Out of interest- by what theory is let slower than var? Especially given the consensus in the comments on the above answer showing it's faster? Nov 28, 2020 at 17:27
1

Just did some more tests, Initially I concluded that there is a substantial difference in favor of var. My results initially showed that between Const / Let / Var there was a ratio from 4 / 4 / 1 to 3 / 3 / 1 in execution time.

After Edit in 29/01/2022 (according to jmrk's remark to remove global variables in let and const tests) now results seem similar 1 / 1 / 1. I give the code used below. Just let me mention that I started from the code of AMN and did lots of tweaking, and editing.

I did the tests both in w3schools_tryit editor and in Google_scripts

My Notes:

  • In GoogleScripts there seems that the 1st test ALWAYS takes longer, no-matter which one, especially for reps<5.000.000 and before separating them in individual functions
  • For Reps < 5.000.000 JS engine optimizations are all that matters, results go up and down without safe conclusions
  • GoogleScripts constantly does ~1.5x time longer, I think it is expected
  • There was a BIG difference when all tests where separated in individual functions, execution speed was at-least doubled and 1st test's delay almost vanished!

Please don't judge the code, I did try but don't pretend to be any expert in JS. I would be delighted to see your tests and opinions.

function mytests(){
var start = 0;
var tm1=" Const: ", tm2=" Let: ", tm3=" Var: ";
    
start = Date.now();
tstLet();
tm2 += Date.now() - start;

start = Date.now();
tstVar();
tm3 += Date.now() - start;

start = Date.now();
tstConst();
tm1 += (Date.now() - start);

var result = "TIMERS:" + tm1 + tm2 + tm3;
console.log(result);
return result;
}

// with VAR
function tstVar(){
var lmtUp = 50000000;
var i=0;
var item = 2;
var sum = 0;

for(i = 0; i < lmtUp; i++){sum += item;}
item = sum / 1000;
}

// with LET
function tstLet(){
let lmtUp = 50000000;
let j=0;
let item = 2;
let sum=0;

for( j = 0; j < lmtUp; j++){sum += item;}
item = sum/1000;
}

// with CONST
function tstConst(){
const lmtUp = 50000000;
var k=0;
const item = 2;
var sum=0;

for( k = 0; k < lmtUp; k++){sum += item;}
k = sum / 1000;
}
1
  • 2
    These results are bogus. In the let and const cases, you're assigning to a global property sum, whereas the var case creates a local variable var sum. Assigning to locals is faster than assigning to globals. Fix that, and all three cases will have the same performance. (Also, the whole psedoLoop stuff is totally unnecessary, as the functions create blocks anyway.)
    – jmrk
    Jan 28 at 12:43
-2

code with 'let' will be more optimized than 'var' as variables declared with var do not get cleared when the scope expires but variables declared with let does. so var uses more space as it makes different versions when used in a loop.

2
  • 2
    I'm not sure I follow what you mean by var uses more space as it makes different versions when used in a loop. Can you share an example? Jul 22, 2021 at 19:42
  • we have too much theory in the fantastic previous answers, time for testing here... Jan 26 at 13:07

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