# How to round up a number in Javascript?

I want to use Javascript to round up a number. Since the number is currency, I want it to round up like in these examples (2 decimal points):

• 192.168 => 192.20
• 192.11 => 192.20
• 192.21 => 192.30
• 192.26 => 192.30
• 192.20 => 192.20

How to achieve this using Javascript? The built-in Javascript function will round up the number based on standard logic (less and more than 5 to round up).

``````/**
* @param num The number to round
* @param precision The number of decimal places to preserve
*/
function roundUp(num, precision) {
precision = Math.pow(10, precision)
return Math.ceil(num * precision) / precision
}

roundUp(192.168, 1) //=> 192.2
``````
• @AndrewMarshall what is the purpose of multiplying, then dividing by 10? Jan 7 '13 at 18:23
• @codecowboy If you don't, then `ceil()` will give you `193`, so we must ensure that all the precision we want to keep is before the decimal point. Then we do the inverse operation in order to restore the “original” value. Jan 7 '13 at 23:22
• If you get some number like `192.19999999999997`, you can apply `.toFixed(1)` to the `num` Mar 8 '16 at 2:37
• And for those here wondering how to round up to the nearest WHOLE number, you just need Math.ceil(). The rest is just to deal with decimals. To save others the time it took my brain to get to that!
– user2493235
Apr 30 '16 at 10:59
• BEWARE THIS FUNCTION IS NOT COMPLETELY ACCURATE! roundUp(1.09, 2) returns 1.1 which is wrong! The expected answer is 1.09 still. May 12 '20 at 21:28

Little late but, can create a reusable javascript function for this purpose:

``````// Arguments: number to round, number of decimal places
function roundNumber(rnum, rlength) {
var newnumber = Math.round(rnum * Math.pow(10, rlength)) / Math.pow(10, rlength);
return newnumber;
}
``````

Call the function as

``````alert(roundNumber(192.168,2));
``````
• This works great, but the OP asked how to round up a number, so Math.ceil should be used here instead of Math.round. Apr 4 '16 at 14:02
• This answer is better than the accepted answer if you're looking to round up properly despite which decimal place you're aiming for. Ex: 1.054 --> 1.05 1.055 --> 1.06 HOWEVER here is an edge case: 1.005 --> 1 1.006 --> 1.01 AND 1.015 --> 1.01 1.016 --> 1.02 So be careful. Mar 1 '17 at 4:41

Normal rounding will work with a small tweak:

``````Math.round(price * 10)/10
``````

and if you want to keep a currency format, you can use the Number method `.toFixed()`

``````(Math.round(price * 10)/10).toFixed(2)
``````

Though this will make it a String =)

• Math.round(192.11 * 100)/100 -> 192.11 Mar 4 '11 at 7:57
• The second one needs no rounding, it's more like `price.toFixed(2)` Mar 4 '11 at 7:58
• @Krtek ooops, Thanks for catching that. I mis-read the question. Answer updated.
Mar 4 '11 at 7:59
• The OP asked how to round up a number, so Math.ceil should be used here instead of Math.round. Apr 4 '16 at 13:38

Very near to TheEye answer, but I change a little thing to make it work:

``````var num = 192.16;

console.log(    Math.ceil(num * 10) / 10    );``````

The OP expects two things:
A. to round up to the higher tenths, and
B. to show a zero in the hundredths place (a typical need with currency).

Meeting both requirement would seem to necessitate a separate method for each of the above. Here's an approach that builds on suryakiran's suggested answer:

``````//Arguments: number to round, number of decimal places.

function roundPrice(rnum, rlength) {
var newnumber = Math.ceil(rnum * Math.pow(10, rlength-1)) / Math.pow(10, rlength-1);
var toTenths = newnumber.toFixed(rlength);
}

``````

Important note: this solution produces a very different result with negative and exponential numbers.

For the sake of comparison between this answer and two that are very similar, see the following 2 approaches. The first simply rounds to the nearest hundredth per usual, and the second simply rounds up to the nearest hundredth (larger).

``````function roundNumber(rnum, rlength) {
var newnumber = Math.round(rnum * Math.pow(10, rlength)) / Math.pow(10, rlength);
return newnumber;
}

function ceilNumber(rnum, rlength) {
var newnumber = Math.ceil(rnum * Math.pow(10, rlength)) / Math.pow(10, rlength);
return newnumber;
}

``````

ok, this has been answered, but I thought you might like to see my answer that calls the `math.pow()` function once. I guess I like keeping things DRY.

``````function roundIt(num, precision) {
var rounder = Math.pow(10, precision);
return (Math.round(num * rounder) / rounder).toFixed(precision)
};
``````

It kind of puts it all together. Replace `Math.round()` with `Math.ceil()` to round-up instead of rounding-off, which is what the OP wanted.

this function limit decimal without round number

``````function limitDecimal(num,decimal){
return num.toString().substring(0, num.toString().indexOf('.')) + (num.toString().substr(num.toString().indexOf('.'), decimal+1));
}
``````
• As shorter alternative: return ( '' + num ).split('.').shift() Nov 27 '15 at 20:49
• thanks Roberto this code work, but remove all decimal Nov 29 '15 at 7:31

I've been using @AndrewMarshall answer for a long time, but found some edge cases. The following tests doesn't pass:

``````equals(roundUp(9.69545, 4), 9.6955);
equals(roundUp(37.760000000000005, 4), 37.76);
equals(roundUp(5.83333333, 4), 5.8333);
``````

Here is what I now use to have round up behave correctly:

``````// Closure
(function() {
/**
* Decimal adjustment of a number.
*
* @param {String}  type  The type of adjustment.
* @param {Number}  value The number.
* @param {Integer} exp   The exponent (the 10 logarithm of the adjustment base).
* @returns {Number} The adjusted value.
*/
// If the exp is undefined or zero...
if (typeof exp === 'undefined' || +exp === 0) {
return Math[type](value);
}
value = +value;
exp = +exp;
// If the value is not a number or the exp is not an integer...
if (isNaN(value) || !(typeof exp === 'number' && exp % 1 === 0)) {
return NaN;
}
// If the value is negative...
if (value < 0) {
}
// Shift
value = value.toString().split('e');
value = Math[type](+(value[0] + 'e' + (value[1] ? (+value[1] - exp) : -exp)));
// Shift back
value = value.toString().split('e');
return +(value[0] + 'e' + (value[1] ? (+value[1] + exp) : exp));
}

// Decimal round
if (!Math.round10) {
Math.round10 = function(value, exp) {
};
}
// Decimal floor
if (!Math.floor10) {
Math.floor10 = function(value, exp) {
};
}
// Decimal ceil
if (!Math.ceil10) {
Math.ceil10 = function(value, exp) {
};
}
})();

// Round
Math.round10(55.55, -1);   // 55.6
Math.round10(55.549, -1);  // 55.5
Math.round10(55, 1);       // 60
Math.round10(54.9, 1);     // 50
Math.round10(-55.55, -1);  // -55.5
Math.round10(-55.551, -1); // -55.6
Math.round10(-55, 1);      // -50
Math.round10(-55.1, 1);    // -60
Math.round10(1.005, -2);   // 1.01 -- compare this with Math.round(1.005*100)/100 above
Math.round10(-1.005, -2);  // -1.01
// Floor
Math.floor10(55.59, -1);   // 55.5
Math.floor10(59, 1);       // 50
Math.floor10(-55.51, -1);  // -55.6
Math.floor10(-51, 1);      // -60
// Ceil
Math.ceil10(55.51, -1);    // 55.6
Math.ceil10(51, 1);        // 60
Math.ceil10(-55.59, -1);   // -55.5
Math.ceil10(-59, 1);       // -50
``````
• Your test cases seem incorrect. `roundUp(37.760000000000005, 4)` should be `37.7601`, and `roundUp(5.83333333, 4)` should be `5.8334`. These two (and your first) all hold true for the fn I provided. Dec 10 '17 at 22:07
• @AndrewMarshall have reason, your expected values are wrong for case 2 and 3.
– Amn
Jan 22 '20 at 13:58

parseInt always rounds down soo.....

``console.log(parseInt(5.8)+1);``

do parseInt()+1