# JavaScript % (modulo) gives a negative result for negative numbers

According to Google Calculator `(-13) % 64` is `51`.

According to JavaScript, it is `-13`.

``console.log(-13 % 64);``

How do I fix this?

• This may just be a precedence issue. Do you mean `(-13) % 64` or `-(13 % 64)`? Personally, I'd put in the parens either way, just for extra clarity. Commented Dec 17, 2010 at 3:59
• essentially a duplicate of How does java do modulus calculations with negative numbers? even though this is a javascript question. Commented Dec 18, 2010 at 0:22
• The fundamental problem is in JS `%` is not the modulo operator. It's the remainder operator. There is no modulo operator in JavaScript. So the accepted answer is the way to go.
– Redu
Commented May 4, 2017 at 20:59
• Which one did you mean to fix, Google or JS? Commented Apr 15, 2019 at 19:22
• Why do nearly no languages implement modulo, given how useful it is? Commented Jan 14, 2021 at 8:39

``````Number.prototype.mod = function (n) {
"use strict";
return ((this % n) + n) % n;
};
``````

• I don't know that I would call it a "bug". The modulo operation is not very well defined over negative numbers, and different computing environments handle it differently. Wikipedia's article on the modulo operation covers it pretty well. Commented Dec 17, 2010 at 4:08
• It may seems dumb since it is often called 'modulo', suggesting it would behave the same as its mathematics definition (see ℤ/nℤ algebra), which it does not. Commented Apr 25, 2013 at 16:41
• Why take the modulo before adding n? Why not just add n and then take the modulo? Commented Nov 26, 2013 at 22:34
• @starwed if you didn't use this%n it would fail for `x < -n` - e.g. `(-7 + 5) % 5 === -2` but `((-7 % 5) + 5) % 5 == 3`. Commented Feb 6, 2014 at 21:58
• I recommend to add to the answer that to access this function one should use the format (-13).mod(10) instead of -13 % 10. It would be more clear.
– Jp_
Commented Dec 1, 2016 at 10:58

Using `Number.prototype` is SLOW, because each time you use the prototype method your number is wrapped in an `Object`. Instead of this:

``````Number.prototype.mod = function(n) {
return ((this % n) + n) % n;
}
``````

Use:

``````function mod(n, m) {
return ((n % m) + m) % m;
}
``````

~97% faster than using prototype. If performance is of importance to you of course..

• Great tip. I took your jsperf and compared with the rest of the solutions in this question (but it seems this is the best anyway): jsperf.com/negative-modulo/3 Commented Oct 12, 2013 at 14:16
• Micro-optimisation. You'd have to be doing a massive amount of mod calculations for this to make any difference whatsoever. Code what's clearest and most maintainable, then optimise following performance analysis. Commented Nov 8, 2014 at 12:13
• I think you've got your `n`s and `m`s around the wrong way in your second example @StuR . It should be `return ((n % m) + m) % m;`. Commented Mar 16, 2015 at 0:44
• The motivation stated in this answer is a micro-optimization, yes, but modifying the prototype is problematic. Prefer the approach with the fewest side-effects, which is this one.
– Keen
Commented May 8, 2018 at 1:47
• @JeneralJames The main problem with altering the prototype is namespace collisions. At the end of the day it's just a mutation of global data. Mutating globals is bad practice outside of small throwaway code. Export a function as a trackable dependency. Polyfills as an exception to the rule are irrelevant here. This isn't a polyfill. Real polyfills follow standards which make collisions safe. If you want to argue this in principle, there's a separate question for it. stackoverflow.com/questions/6223449/…
– Keen
Commented May 20, 2021 at 0:06

The `%` operator in JavaScript is the remainder operator, not the modulo operator (the main difference being in how negative numbers are treated):

`-1 % 8 // -1, not 7`

• It should be called the remainder operator but it is called modulus operator: developer.mozilla.org/en-US/docs/Web/JavaScript/Guide/… Commented Oct 21, 2013 at 22:54
• @DaveKennedy: MDN is not an official language reference, it's a community-edited site which sometimes gets it wrong. The spec does not call it a modulo operator, and as far as I can tell it never has (I went back to ES3). It explicitly says the operator yields the remainder of an implied division, and just calls it "the % operator." Commented Jul 22, 2017 at 14:07
• If it is called `remainder`, it must be larger than 0 by definition. Can't you remember the division theorem from high school?! So maybe you can have a look here: en.wikipedia.org/wiki/Euclidean_division Commented Jan 17, 2020 at 17:17
• @Ahmad—it's now called a multiplicative operator.
– RobG
Commented Dec 14, 2020 at 0:11
• "mod" should have been implemented into every language form the start. After 30 years of programming, I --never-- needed a % b when a is negative: every single time, what I needed instead was mod(a,b). Commented Jan 14, 2021 at 8:37

A "mod" function to return a positive result.

``````var mod = function (n, m) {
var remain = n % m;
return Math.floor(remain >= 0 ? remain : remain + m);
};
mod(5,22)   // 5
mod(25,22)  // 3
mod(-1,22)  // 21
mod(-2,22)  // 20
mod(0,22)   // 0
mod(-1,22)  // 21
mod(-21,22) // 1
``````

And of course

``````mod(-13,64) // 51
``````
• Oops, the link you specified actually references `#sec-applying-the-mod-operator` right there in the url :) Anyway, thanks for the note, I took the fluff out of my answer, it's not really important anyway. Commented Jul 25, 2017 at 0:31
• @ Shanimal: LOL! It does. An error by the HTML editor. The spec text does not. Commented Jul 25, 2017 at 6:34

The accepted answer makes me a little nervous because it re-uses the % operator. What if Javascript changes the behavior in the future?

Here is a workaround that does not re-use %:

``````function mod(a, n) {
return a - (n * Math.floor(a/n));
}

mod(1,64); // 1
mod(63,64); // 63
mod(64,64); // 0
mod(65,64); // 1
mod(0,64); // 0
mod(-1,64); // 63
mod(-13,64); // 51
mod(-63,64); // 1
mod(-64,64); // 0
mod(-65,64); // 63
``````
• If javascript changed the modulo operator to match the mathematical definition, the accepted answer would still work. Commented Nov 26, 2013 at 22:33
• "What if Javascript changes the behavior in the future?" - Why would it? Changing the behaviour of such a fundamental operator is not likely. Commented Apr 18, 2014 at 23:33
• +1 for sharing this concern-of & alternative-to the featured answer #answer-4467559 &for 4 reasons: (1) Why it states,& yes“Changing the behaviour of such a fundamental op is not likely” but still prudent to consider even to find it's not needed. (2) defining a working op in terms of a broken one, while impressive, is worrysome at least on 1st look, at is should be til shown not (3) tho I hvnt well-verified this alternative, I find easer to follow on quick look. (4)tiny: it uses 1 div+1 mul instead of 2 (mod) divs& I've heard on MUCH earlier hardware w/o a good FPU,multiplication was faster. Commented May 7, 2015 at 23:33
• @DestinyArchitect it's not prudent, it's pointless. If they were to change the behaviour of the remainder operator, it would break a good range of programs using it. That's never going to happen. Commented Feb 2, 2016 at 23:16
• What if the behavior of `-`, `*`, `/`, `;`, `.`, `(`, `)`, `,`, `Math.floor`, `function` or `return` changes? Then your code is horribly broken. Commented Feb 6, 2018 at 22:19

## Fix negative modulo (reminder operator `%`)

Simplified using ES6 Arrow function, and without dangerously extending the Number prototype

``````const mod = (n, m) => (n % m + m) % m;

console.log(mod(-90, 360));    //  270  (Instead of -90)``````

If `x` is an integer and `n` is a power of 2, you can use `x & (n - 1)` instead of `x % n`.

``````> -13 & (64 - 1)
51
``````

Though it isn't behaving as you expected, it doesn't mean that JavaScript is not 'behaving'. It is a choice JavaScript made for its modulo calculation. Because, by definition either answer makes sense.

See this from Wikipedia. You can see on the right how different languages chose the result's sign.

This is not a bug, there's 3 functions to calculate modulo, you can use the one which fit your needs (I would recommend to use Euclidean function)

## Truncating the decimal part function

``````console.log(  41 %  7 ); //  6
console.log( -41 %  7 ); // -6
console.log( -41 % -7 ); // -6
console.log(  41 % -7 ); //  6
``````

## Integer part function

``````Number.prototype.mod = function(n) {
return ((this%n)+n)%n;
};

console.log( parseInt( 41).mod( 7) ); //  6
console.log( parseInt(-41).mod( 7) ); //  1
console.log( parseInt(-41).mod(-7) ); // -6
console.log( parseInt( 41).mod(-7) ); // -1
``````

## Euclidean function

``````Number.prototype.mod = function(n) {
var m = ((this%n)+n)%n;
return m < 0 ? m + Math.abs(n) : m;
};

console.log( parseInt( 41).mod( 7) ); // 6
console.log( parseInt(-41).mod( 7) ); // 1
console.log( parseInt(-41).mod(-7) ); // 1
console.log( parseInt( 41).mod(-7) ); // 6
``````
• In euclidian function checking m < 0 is useless because ((this%n)+n)%n is always positive Commented May 5, 2016 at 9:07
• @bormat Yes it is, but in Javascript `%` can return negative results (an this is the purpose of these functions, to fix it) Commented May 6, 2016 at 12:21
• you wrote this [code] Number.prototype.mod = function(n) { var m = ((this%n)+n)%n; return m < 0 ? m + Math.abs(n) : m; }; [/code] give me one value of n where m is négative. they are no value of n where m is négative because you add n after the first % . Commented May 7, 2016 at 14:47
• Without this check, `parseInt(-41).mod(-7)` would return `-6` instead of `1` (and this is exactly the purpose of the Integer part function I wrote) Commented May 7, 2016 at 19:30
• You can simplify your function by removing the second modulo Number.prototype.mod = function(n) { var m = this%n; return (m < 0) ? m + Math.abs(n) : m; }; Commented May 7, 2016 at 20:07

So it seems that if you're trying to mod around degrees (so that if you have -50 degrees - 200 degrees), you'd want to use something like:

``````function modrad(m) {
return ((((180+m) % 360) + 360) % 360)-180;
}
``````

I deal with négative a and negative n too

`````` //best perf, hard to read
function modul3(a,n){
r = a/n | 0 ;
if(a < 0){
r += n < 0 ? 1 : -1
}
return a - n * r
}
// shorter code
function modul(a,n){
return  a%n + (a < 0 && Math.abs(n));
}

//beetween perf and small code
function modul(a,n){
return a - n * Math[n > 0 ? 'floor' : 'ceil'](a/n);
}
``````

There is a NPM package that will do the work for you. You can install it with the following command.

`npm install just-modulo --save`

``````import modulo from 'just-modulo';

modulo(7, 5); // 2
modulo(17, 23); // 17
modulo(16.2, 3.8); // 17
modulo(5.8, 3.4); //2.4
modulo(4, 0); // 4
modulo(-7, 5); // 3
modulo(-2, 15); // 13
modulo(-5.8, 3.4); // 1
modulo(12, -1); // NaN
modulo(-3, -8); // NaN
modulo(12, 'apple'); // NaN
modulo('bee', 9); // NaN
modulo(null, undefined); // NaN
``````

GitHub repository can be found via the following link:

https://github.com/angus-c/just/tree/master/packages/number-modulo

For fun, here's a "wrap" function that works sorta like a modulo, except you can also specify the minimum value of the range (instead of it being 0):

``````const wrap = (value = 0, min = 0, max = 10) =>
((((value - min) % (max - min)) + (max - min)) % (max - min)) + min;
``````

Basically just takes the true modulo formula, offsets it such that `min` ends up at 0, then adds `min` back in after.

Useful if you have a value that you want to keep between two values.