# Dealing with float precision in Javascript [duplicate]

I have a large amount of numeric values `y` in javascript. I want to group them by rounding them down to the nearest multiple of `x` and convert the result to a string.

How do I get around the annoying floating point precision?

For example:

``````0.2 + 0.4 = 0.6000000000000001
``````

Two things I have tried:

``````>>> y = 1.23456789
>>> x = 0.2
>>> parseInt(Math.round(Math.floor(y/x))) * x;
1.2000000000000002
``````

and:

``````>>> y = 1.23456789
>>> x = 0.2
>>> y - (y % x)
1.2000000000000002
``````
• This is actually normal behavior for `double` you just don't see it in print statements in most languages. Have you tried rounding your numbers? Jul 27, 2012 at 21:10
• You can't really "get around" it, as it's an intrinsic aspect of binary floating-point math systems. That's true for both your "x" and your "y" values, apparently; if "x" is 0.3 that can't be represented exactly. "Rounding" to arbitrary fractions is going to result in imprecision. Jul 27, 2012 at 21:10
• So what would be an alternative way of converting `y` to `"1.2"`. Jul 27, 2012 at 21:13
• @Jeroen I'm sure you've got it already, but just for the record, `Math.floor(y)`. Aug 5, 2014 at 12:11
• @pilau that would result in 1, not 1.2 Feb 29, 2016 at 17:36

You have a few options:

• Use a special datatype for decimals, like decimal.js
• Format your result to some fixed number of significant digits, like this: `(Math.floor(y/x) * x).toFixed(2)`
• Convert all your numbers to integers
• "Convert all your numbers to integers", I've wondered about this. As we know, JavaScript has one number type `Number`, an IEEE 754 float. If that's the case, then why does converting a float to an integer work, (and it does)? Does JavaScript actually have an integer data type that simply isn't accessible via a reserved word?
– Karl
Dec 23, 2014 at 15:31
• IEEE 754 can exactly represent integers up to something like 2^50. So, if you're working within a known range, you can scale your values to take advantage of the 50 bits (or whatever) of precision, instead of wasting the precision normally reserved for large numbers. Dec 8, 2015 at 5:12
• @richremer a floating point has the property that the accuracy (for normal values) does not depend on the size. - So whether you convert it to integers (by say multiplying the values with some constant) the accuracy is equal. Dec 8, 2017 at 2:58
• The number of "significant digits" is the number of digits using the scientific notation (no leading or trailing zeros) and it's a choice based on circumstances. - toPrecision's argument seems to be a number of significant digits. - toFixed is for a number of trailing digits. Jul 15, 2020 at 15:36
• toFixed() will convert the number to a string. Dec 3, 2020 at 17:48

You could do something like this:

``````> +(Math.floor(y/x)*x).toFixed(15);
1.2
``````

Edit: It would be better to use big.js.

# big.js

A small, fast, easy-to-use library for arbitrary-precision decimal arithmetic.

``````>> bigX = new Big(x)
>> bigY = new Big(y)
>> bigY.div(bigX).round().times(bigX).toNumber() // => 1.2
``````
• Doesn't work for all combinations `y` and `x`. Jul 27, 2012 at 21:25
• toFixed returns a string Aug 29, 2018 at 19:48
• replace floor by round, `+` by parseFloat and 15 by a lower number if you can (toFixed argument could be calculated based on x) Jul 15, 2020 at 15:53
• Check also decimal.js or dinero.js for \$ Jan 19 at 12:55
``````> var x = 0.1
> var y = 0.2
> var cf = 10
> x * y
0.020000000000000004
> (x * cf) * (y * cf) / (cf * cf)
0.02
``````

Quick solution:

``````var _cf = (function() {
function _shift(x) {
var parts = x.toString().split('.');
return (parts.length < 2) ? 1 : Math.pow(10, parts[1].length);
}
return function() {
return Array.prototype.reduce.call(arguments, function (prev, next) { return prev === undefined || next === undefined ? undefined : Math.max(prev, _shift (next)); }, -Infinity);
};
})();

Math.a = function () {
var f = _cf.apply(null, arguments); if(f === undefined) return undefined;
function cb(x, y, i, o) { return x + f * y; }
return Array.prototype.reduce.call(arguments, cb, 0) / f;
};

Math.s = function (l,r) { var f = _cf(l,r); return (l * f - r * f) / f; };

Math.m = function () {
var f = _cf.apply(null, arguments);
function cb(x, y, i, o) { return (x*f) * (y*f) / (f * f); }
return Array.prototype.reduce.call(arguments, cb, 1);
};

Math.d = function (l,r) { var f = _cf(l,r); return (l * f) / (r * f); };

> Math.m(0.1, 0.2)
0.02
``````

You can check the full explanation here.

• Math.m(0.07, 100) => 7.000000000000002 Apr 25, 2019 at 13:19
• This is not working! Dec 29, 2020 at 18:39

Check out this link.. It helped me a lot.

http://www.w3schools.com/jsref/jsref_toprecision.asp

The `toPrecision(no_of_digits_required)` function returns a `string` so don't forget to use the `parseFloat()` function to convert to decimal point of required precision.

• If you happened to be someone who downvoted me for this answer, could you please explain why ? (the solution provided seems to work ) Mar 7, 2018 at 10:30
• Basically the problem is this, you have js numbers y and x and you want the nearest (from y) multiple of x. The toPrecision method doesn't help i.e. `parseFloat((150).toPrecision(1)) === 200` Jul 15, 2020 at 16:00
• doing string/float-parsing conversion for a rounding problem isn't exactlxy what I would call performing at scale :D (better: implement/use a toPrecision function that operates/returns solely on numbers!) Jan 25, 2022 at 2:29

Tackling this task, I'd first find the number of decimal places in `x`, then round `y` accordingly. I'd use:

``````y.toFixed(x.toString().split(".")[1].length);
``````

It should convert `x` to a string, split it over the decimal point, find the length of the right part, and then `y.toFixed(length)` should round `y` based on that length.

• This gets a bit problematic of `x` is an integer. Jul 27, 2012 at 21:26
• Modern (>ES2020) version that works on floats and integers: `Number(x.toFixed(String(y).split('.')[1]?.length ?? 0)` Nov 21, 2022 at 11:27