I'd like to round at most 2 decimal places, but only if necessary.
Input:
10
1.7777777
9.1
Output:
10
1.78
9.1
How can I do this in JavaScript
?
I'd like to round at most 2 decimal places, but only if necessary.
Input:
10
1.7777777
9.1
Output:
10
1.78
9.1
How can I do this in JavaScript
?
Use Math.round(num * 100) / 100
Math.round((num + 0.00001) * 100) / 100
. Try Math.round((1.005 + 0.00001) * 100) / 100
and Math.round((1.0049 + 0.00001) * 100) / 100
– mrkschan
Oct 9 '13 at 7:01
If the value is a text type:
parseFloat("123.456").toFixed(2);
If the value is a number:
var numb = 123.23454;
numb = numb.toFixed(2);
There is a downside that values like 1.5 will give "1.50" as the output. A fix suggested by @minitech:
var numb = 1.5;
numb = +numb.toFixed(2);
// Note the plus sign that drops any "extra" zeroes at the end.
// It changes the result (which is a string) into a number again (think "0 + foo"),
// which means that it uses only as many digits as necessary.
It seems like Math.round
is a better solution. But it is not! In some cases it will NOT round correctly:
Math.round(1.005 * 1000)/1000 // Returns 1 instead of expected 1.01!
toFixed() also will NOT round correctly in some cases (tested in Chrome v.55.0.2883.87)!
Examples:
parseFloat("1.555").toFixed(2); // Returns 1.55 instead of 1.56.
parseFloat("1.5550").toFixed(2); // Returns 1.55 instead of 1.56.
// However, it will return correct result if you round 1.5551.
parseFloat("1.5551").toFixed(2); // Returns 1.56 as expected.
1.3555.toFixed(3) // Returns 1.355 instead of expected 1.356.
// However, it will return correct result if you round 1.35551.
1.35551.toFixed(2); // Returns 1.36 as expected.
I guess, this is because 1.555 is actually something like float 1.55499994 behind the scenes.
Solution 1 is to use a script with required rounding algorithm, for example:
function roundNumber(num, scale) {
if(!("" + num).includes("e")) {
return +(Math.round(num + "e+" + scale) + "e-" + scale);
} else {
var arr = ("" + num).split("e");
var sig = ""
if(+arr[1] + scale > 0) {
sig = "+";
}
return +(Math.round(+arr[0] + "e" + sig + (+arr[1] + scale)) + "e-" + scale);
}
}
https://plnkr.co/edit/uau8BlS1cqbvWPCHJeOy?p=preview
Solution 2 is to avoid front end calculations and pull rounded values from the backend server.
parseFloat(number.toFixed(decimalPlaces));
@PerLundberg
– Onur Yıldırım
Dec 30 '13 at 2:23
parseFloat("55.555").toFixed(2)
returns "55.55"
in the Chrome dev console.
– Levi Botelho
Apr 6 '14 at 16:02
You can use
function roundToTwo(num) {
return +(Math.round(num + "e+2") + "e-2");
}
I found this over on MDN. Their way avoids the problem with 1.005 that was mentioned.
roundToTwo(1.005)
1.01
roundToTwo(10)
10
roundToTwo(1.7777777)
1.78
roundToTwo(9.1)
9.1
roundToTwo(1234.5678)
1234.57
+(val)
is the coercion equivalent of using Number(val)
. Concatenating "e-2" to an number resulted in a string that needed to be converted back to a number.
– Jack
Feb 28 '14 at 19:11
roundToTwo(1.0049999999999999)
comes out as 1.01 (inevitably, since 1.0049999999999999 == 1.005
). It seems to me that the float you get if you type num = 1.005
'obviously' 'should' round to 1.00, because the exact value of num is less than 1.005. Of course, it also seems to me that the string '1.005' 'obviously' 'should' be rounded to 1.01. The fact that different people seem to have different intuitions about what the actual correct behaviour is here is part of why it's complicated.
– Mark Amery
Aug 14 '14 at 21:56
1.0049999999999999
and 1.005
, so by definition, they are the same number. This is called a dedekind cut.
– Azmisov
Feb 18 '15 at 0:48
1.00499 < 1.005
is true
, 1.0049999999999999 < 1.005
evaluates to false
.
– falconepl
Sep 23 '15 at 10:55
MarkG's answer is the correct one. Here's a generic extension for any number of decimal places.
Number.prototype.round = function(places) {
return +(Math.round(this + "e+" + places) + "e-" + places);
}
Usage:
var n = 1.7777;
n.round(2); // 1.78
Unit test:
it.only('should round floats to 2 places', function() {
var cases = [
{ n: 10, e: 10, p:2 },
{ n: 1.7777, e: 1.78, p:2 },
{ n: 1.005, e: 1.01, p:2 },
{ n: 1.005, e: 1, p:0 },
{ n: 1.77777, e: 1.8, p:1 }
]
cases.forEach(function(testCase) {
var r = testCase.n.round(testCase.p);
assert.equal(r, testCase.e, 'didn\'t get right number');
});
})
function round(number, decimals) { return +(Math.round(number + "e+" + decimals) + "e-" + decimals); }
– Philipp Tsipman
Nov 8 '14 at 17:28
Math.roundPlaces(num, places)
, so that it will work on strings as well (just in case).
– bradlis7
Dec 19 '14 at 15:59
(-1.005).round(2) === -1
– Aleksej Komarov
Feb 14 '18 at 10:51
One can use .toFixed(NumberOfDecimalPlaces)
.
var str = 10.234.toFixed(2); // => '10.23'
var number = Number(str); // => 10.23
+(1.005).toFixed(2)
which returns 1
instead of 1.01
.
– Emile Bergeron
Nov 1 '16 at 19:34
Number(9).toFixed(2).replace(/0+$/, '')
=> "9."
– Jacob van Lingen
May 18 '17 at 9:41
A precise rounding method. Source: Mozilla
(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.
*/
function decimalAdjust(type, value, exp) {
// 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;
}
// 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) {
return decimalAdjust('round', value, exp);
};
}
// Decimal floor
if (!Math.floor10) {
Math.floor10 = function(value, exp) {
return decimalAdjust('floor', value, exp);
};
}
// Decimal ceil
if (!Math.ceil10) {
Math.ceil10 = function(value, exp) {
return decimalAdjust('ceil', value, exp);
};
}
})();
Examples:
// 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
// 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
3544.5249
to 2 decimal places is 3544.52
(error = 0.0049). If it was 3544.53
, the error would be 0.0051. You are doing successive rounding i.e. Math.round10( Math.round10 (3544.5249, -3), -2) which gives a larger rounding error and hence not desirable.
– user
Sep 21 '16 at 17:33
number += 0.00011
– Bozidar Sikanjic
Nov 16 '16 at 15:03
This question is complicated.
Suppose we have a function, roundTo2DP(num)
, that takes a float as an argument and returns a value rounded to 2 decimal places. What should each of these expressions evaluate to?
roundTo2DP(0.014999999999999999)
roundTo2DP(0.0150000000000000001)
roundTo2DP(0.015)
The 'obvious' answer is that the first example should round to 0.01 (because it's closer to 0.01 than to 0.02) while the other two should round to 0.02 (because 0.0150000000000000001 is closer to 0.02 than to 0.01, and because 0.015 is exactly halfway between them and there is a mathematical convention that such numbers get rounded up).
The catch, which you may have guessed, is that roundTo2DP
cannot possibly be implemented to give those obvious answers, because all three numbers passed to it are the same number. IEEE 754 binary floating point numbers (the kind used by JavaScript) can't exactly represent most non-integer numbers, and so all three numeric literals above get rounded to a nearby valid floating point number. This number, as it happens, is exactly
0.01499999999999999944488848768742172978818416595458984375
which is closer to 0.01 than to 0.02.
You can see that all three numbers are the same at your browser console, Node shell, or other JavaScript interpreter. Just compare them:
> 0.014999999999999999 === 0.0150000000000000001
true
So when I write m = 0.0150000000000000001
, the exact value of m
that I end up with is closer to 0.01
than it is to 0.02
. And yet, if I convert m
to a String...
> var m = 0.0150000000000000001;
> console.log(String(m));
0.015
> var m = 0.014999999999999999;
> console.log(String(m));
0.015
... I get 0.015, which should round to 0.02, and which is noticeably not the 56-decimal-place number I earlier said that all of these numbers were exactly equal to. So what dark magic is this?
The answer can be found in the ECMAScript specification, in section 7.1.12.1: ToString applied to the Number type. Here the rules for converting some Number m to a String are laid down. The key part is point 5, in which an integer s is generated whose digits will be used in the String representation of m:
let n, k, and s be integers such that k ≥ 1, 10^{k-1} ≤ s < 10^{k}, the Number value for s × 10^{n-k} is m, and k is as small as possible. Note that k is the number of digits in the decimal representation of s, that s is not divisible by 10, and that the least significant digit of s is not necessarily uniquely determined by these criteria.
The key part here is the requirement that "k is as small as possible". What that requirement amounts to is a requirement that, given a Number m
, the value of String(m)
must have the least possible number of digits while still satisfying the requirement that Number(String(m)) === m
. Since we already know that 0.015 === 0.0150000000000000001
, it's now clear why String(0.0150000000000000001) === '0.015'
must be true.
Of course, none of this discussion has directly answered what roundTo2DP(m)
should return. If m
's exact value is 0.01499999999999999944488848768742172978818416595458984375, but its String representation is '0.015', then what is the correct answer - mathematically, practically, philosophically, or whatever - when we round it to two decimal places?
There is no single correct answer to this. It depends upon your use case. You probably want to respect the String representation and round upwards when:
On the other hand, you probably want to respect the binary floating point value and round downwards when your value is from an inherently continuous scale - for instance, if it's a reading from a sensor.
These two approaches require different code. To respect the String representation of the Number, we can (with quite a bit of reasonably subtle code) implement our own rounding that acts directly on the String representation, digit by digit, using the same algorithm you would've used in school when you were taught how to round numbers. Below is an example which respects the OP's requirement of representing the number to 2 decimal places "only when necessary" by stripping trailing zeroes after the decimal point; you may, of course, need to tweak it to your precise needs.
/**
* Converts num to a decimal string (if it isn't one already) and then rounds it
* to at most dp decimal places.
*
* For explanation of why you'd want to perform rounding operations on a String
* rather than a Number, see http://stackoverflow.com/a/38676273/1709587
*
* @param {(number|string)} num
* @param {number} dp
* @return {string}
*/
function roundStringNumberWithoutTrailingZeroes (num, dp) {
if (arguments.length != 2) throw new Error("2 arguments required");
num = String(num);
if (num.indexOf('e+') != -1) {
// Can't round numbers this large because their string representation
// contains an exponent, like 9.99e+37
throw new Error("num too large");
}
if (num.indexOf('.') == -1) {
// Nothing to do
return num;
}
var parts = num.split('.'),
beforePoint = parts[0],
afterPoint = parts[1],
shouldRoundUp = afterPoint[dp] >= 5,
finalNumber;
afterPoint = afterPoint.slice(0, dp);
if (!shouldRoundUp) {
finalNumber = beforePoint + '.' + afterPoint;
} else if (/^9+$/.test(afterPoint)) {
// If we need to round up a number like 1.9999, increment the integer
// before the decimal point and discard the fractional part.
finalNumber = Number(beforePoint)+1;
} else {
// Starting from the last digit, increment digits until we find one
// that is not 9, then stop
var i = dp-1;
while (true) {
if (afterPoint[i] == '9') {
afterPoint = afterPoint.substr(0, i) +
'0' +
afterPoint.substr(i+1);
i--;
} else {
afterPoint = afterPoint.substr(0, i) +
(Number(afterPoint[i]) + 1) +
afterPoint.substr(i+1);
break;
}
}
finalNumber = beforePoint + '.' + afterPoint;
}
// Remove trailing zeroes from fractional part before returning
return finalNumber.replace(/0+$/, '')
}
Example usage:
> roundStringNumberWithoutTrailingZeroes(1.6, 2)
'1.6'
> roundStringNumberWithoutTrailingZeroes(10000, 2)
'10000'
> roundStringNumberWithoutTrailingZeroes(0.015, 2)
'0.02'
> roundStringNumberWithoutTrailingZeroes('0.015000', 2)
'0.02'
> roundStringNumberWithoutTrailingZeroes(1, 1)
'1'
> roundStringNumberWithoutTrailingZeroes('0.015', 2)
'0.02'
> roundStringNumberWithoutTrailingZeroes(0.01499999999999999944488848768742172978818416595458984375, 2)
'0.02'
> roundStringNumberWithoutTrailingZeroes('0.01499999999999999944488848768742172978818416595458984375', 2)
'0.01'
The function above is probably what you want to use to avoid users ever witnessing numbers that they have entered being rounded wrongly.
(As an alternative, you could also try the round10 library which provides a similarly-behaving function with a wildly different implementation.)
But what if you have the second kind of Number - a value taken from a continuous scale, where there's no reason to think that approximate decimal representations with fewer decimal places are more accurate than those with more? In that case, we don't want to respect the String representation, because that representation (as explained in the spec) is already sort-of-rounded; we don't want to make the mistake of saying "0.014999999...375 rounds up to 0.015, which rounds up to 0.02, so 0.014999999...375 rounds up to 0.02".
Here we can simply use the built-in toFixed
method. Note that by calling Number()
on the String returned by toFixed
, we get a Number whose String representation has no trailing zeroes (thanks to the way JavaScript computes the String representation of a Number, discussed earlier in this answer).
/**
* Takes a float and rounds it to at most dp decimal places. For example
*
* roundFloatNumberWithoutTrailingZeroes(1.2345, 3)
*
* returns 1.234
*
* Note that since this treats the value passed to it as a floating point
* number, it will have counterintuitive results in some cases. For instance,
*
* roundFloatNumberWithoutTrailingZeroes(0.015, 2)
*
* gives 0.01 where 0.02 might be expected. For an explanation of why, see
* http://stackoverflow.com/a/38676273/1709587. You may want to consider using the
* roundStringNumberWithoutTrailingZeroes function there instead.
*
* @param {number} num
* @param {number} dp
* @return {number}
*/
function roundFloatNumberWithoutTrailingZeroes (num, dp) {
var numToFixedDp = Number(num).toFixed(dp);
return Number(numToFixedDp);
}
roundStringNumberWithoutTrailingZeroes(362.42499999999995, 2)
. Expected result (as in PHP echo round(362.42499999999995, 2)
): 362.43
. Actual result: 362.42
– Dr. Gianluigi Zane Zanettini
Dec 6 '17 at 14:11
round
gives 362.43. That seems intuitively wrong, since 362.42499999999995 is less than 362.425 (in math and in code - 362.42499999999995 < 362.425
is true in both JS and PHP). Nor does PHP's answer minimise the distance between the original and rounded floating point numbers, since 362.43 - 362.42499999999995 > 362.42499999999995 - 362.42
. According to php.net/manual/en/function.round.php, PHP's round
follows the C99 standard; I'll have to venture into the land of C to understand what's going on.
– Mark Amery
Dec 6 '17 at 14:39
None of the answers found here is correct. @stinkycheeseman asked to round up, you all rounded the number.
To round up, use this:
Math.ceil(num * 100)/100;
Math.ceil(1.1 * 100)/100;
-it returns 1.11
, because 1.1*100 is 110.00000000000001
according to brand new modern browsers Firefox, Chrome, Safari and Opera... IE, in old fashion, still thinks 1.1*100=1100
.
– skobaljic
Oct 21 '13 at 11:57
Math.ceil((1.1).toFixed(4) * 100) / 100
will also return 1.11
in Firefox, the modern browsers problem/bug is with multiplication and people should know about it (I worked on a lottery game that time for example).
– skobaljic
Jan 9 '14 at 9:43
Consider .toFixed()
and .toPrecision()
:
You should use:
Math.round( num * 100 + Number.EPSILON ) / 100
No one seems to be aware of Number.EPSILON
.
Also it's worth noting that this is not a JavaScript weirdness like some people stated.
That is simply the way floating point numbers works in a computer. Like 99% of programming languages, JavaScript doesn't have home made floating point numbers; it relies on the CPU/FPU for that. A computer uses binary, and in binary, there isn't any numbers like 0.1
, but a mere binary approximation for that. Why? For the same reason than 1/3 cannot be written in decimal: its value is 0.33333333... with an infinity of threes.
Here come Number.EPSILON
. That number is the difference between 1 and the next number existing in the double precision floating point numbers. That's it: There is no number between 1
and 1 + Number.EPSILON
.
EDIT:
As asked in the comments, let's clarify one thing: adding Number.EPSILON
is relevant only when the value to round is the result of an arithmetic operation, as it can swallow some floating point error delta.
It's not useful when the value comes from a direct source (e.g.: literal, user input or sensor).
Math.round( (num + Number.EPSILON) * 100) / 100
. I agree also this is the right method for rounding correctly (although it's not exactly what was asked in this question).
– maganap
Nov 5 '17 at 15:30
Number.EPSILON
a useful or relevant value? Frankly, this answer is just wrong and nonsensical; in most cases, adding Number.EPSILON
won't change the result, but in the only case I can construct where it does have an effect, where num
is 0.004999999999999999, it makes the result straightforwardly wrong, causing num
to be rounded to 0.01 when it would otherwise have been correctly rounded to 0.
– Mark Amery
Dec 6 '17 at 22:01
Here is a simple way to do it:
Math.round(value * 100) / 100
You might want to go ahead and make a separate function to do it for you though:
function roundToTwo(value) {
return(Math.round(value * 100) / 100);
}
Then you would simply pass in the value.
You could enhance it to round to any arbitrary number of decimals by adding a second parameter.
function myRound(value, places) {
var multiplier = Math.pow(10, places);
return (Math.round(value * multiplier) / multiplier);
}
+(10).toFixed(2); // = 10
+(10.12345).toFixed(2); // = 10.12
(10).toFixed(2); // = 10.00
(10.12345).toFixed(2); // = 10.12
+(0.015).toFixed(2) == 0.01
.
– Mark Amery
Jul 30 '16 at 17:17
2017
Just use native code .toFixed()
number = 1.2345;
number.toFixed(2) // "1.23"
If you need to be strict and add digits just if needed it can use replace
number = 1; // "1"
number.toFixed(5).replace(/\.?0*$/g,'');
toFixed
suggested by multiple answers years before yours, but it fails to satisfy the "only if necessary" condition in the question; (1).toFixed(2)
gives "1.00"
where the asker desired "1"
.
– Mark Amery
Dec 7 '17 at 0:02
For me Math.round() was not giving correct answer. I found toFixed(2) works better. Below are examples of both:
console.log(Math.round(43000 / 80000) * 100); // wrong answer
console.log(((43000 / 80000) * 100).toFixed(2)); // correct answer
1.005
. (1.005).toFixed(2)
still results to 1.00
.
– DPac
Oct 26 '18 at 15:46
Try this light weight solution:
function round(x, digits){
return parseFloat(x.toFixed(digits))
}
round(1.222, 2) ;
// 1.22
round(1.222, 10) ;
// 1.222
return Number(x.toFixed(digits))
?
– user993683
Sep 12 '15 at 5:16
.toFixed()
allows only for numbers anyways .
– petermeissner
Sep 12 '15 at 10:16
round(1.005, 2)
and see a result of 1
instead of 1.01
.
– MilConDoin
Aug 5 '16 at 6:54
round(0.995, 2) => 0.99
; round(1.006, 2) => 1.01
; round(1.005, 2) => 1
– petermeissner
Feb 7 '18 at 5:35
There are a couple of ways to do that. For people like me, the Lodash's variant
function round(number, precision) {
var pair = (number + 'e').split('e')
var value = Math.round(pair[0] + 'e' + (+pair[1] + precision))
pair = (value + 'e').split('e')
return +(pair[0] + 'e' + (+pair[1] - precision))
}
Usage:
round(0.015, 2) // 0.02
round(1.005, 2) // 1.01
If your project uses jQuery or lodash, you can also find proper round
method in the libraries.
I removed the variant n.toFixed(2)
, because it is not correct. Thank you @avalanche1
Number.toFixed()
will return a string but with a plus symbol before it, JS interpreter will convert the string to a number. This is a syntax sugar.
– stanleyxu2005
Jul 5 '16 at 14:04
alert(+1234.toFixed(2))
throws SyntaxError: identifier starts immediately after numeric literal
. I stick with the 1st option.
– Marcos Lima
Jul 5 '16 at 15:19
MarkG and Lavamantis offered a much better solution than the one that has been accepted. It's a shame they don't get more upvotes!
Here is the function I use to solve the floating point decimals issues also based on MDN. It is even more generic (but less concise) than Lavamantis's solution:
function round(value, exp) {
if (typeof exp === 'undefined' || +exp === 0)
return Math.round(value);
value = +value;
exp = +exp;
if (isNaN(value) || !(typeof exp === 'number' && exp % 1 === 0))
return NaN;
// Shift
value = value.toString().split('e');
value = Math.round(+(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));
}
Use it with:
round(10.8034, 2); // Returns 10.8
round(1.275, 2); // Returns 1.28
round(1.27499, 2); // Returns 1.27
round(1.2345678e+2, 2); // Returns 123.46
Compared to Lavamantis's solution, we can do...
round(1234.5678, -2); // Returns 1200
round("123.45"); // Returns 123
Use this function Number(x).toFixed(2);
Number
again, if you don't want it returned as a string: Number(Number(x).toFixed(2));
– user993683
Sep 12 '15 at 5:17
If you are using lodash library, you can use the round method of lodash like following.
_.round(number, precision)
Eg:
_.round(1.7777777, 2) = 1.78
var roundUpto = function(number, upto){
return Number(number.toFixed(upto));
}
roundUpto(0.1464676, 2);
toFixed(2)
here 2 is number of digits upto which we want to round this num.
This may help you:
var result = (Math.round(input*100)/100);
for more information, you can have a look at this link
Math.round(num) vs num.toFixed(0) and browser inconsistencies
Use something like this "parseFloat(parseFloat(value).toFixed(2))"
parseFloat(parseFloat("1.7777777").toFixed(2))-->1.78
parseFloat(parseFloat("10").toFixed(2))-->10
parseFloat(parseFloat("9.1").toFixed(2))-->9.1
Easiest way:
+num.toFixed(2)
It converts it to a string, and then back into an integer / float.
toFixed()
to 3. So it would be +num.toFixed(3)
. That's working the way it's supposed to, 1.005 is rounded to 1.00, which is equal to 1
– Edmund
May 4 '15 at 16:13
Here is a prototype method:
Number.prototype.round = function(places){
places = Math.pow(10, places);
return Math.round(this * places)/places;
}
var yournum = 10.55555;
yournum = yournum.round(2);
In general, rounding is done by scaling: round(num / p) * p
Using the exponential notation handles rounding of +ve numbers, correctly. However, this method fails to round -ve edge cases correctly.
function round(num, precision = 2) {
var scaled = Math.round(num + "e" + precision);
return Number(scaled + "e" + -precision);
}
// testing some edge cases
console.log( round(1.005, 2) ); // 1.01 correct
console.log( round(2.175, 2) ); // 2.18 correct
console.log( round(5.015, 2) ); // 5.02 correct
console.log( round(-1.005, 2) ); // -1 wrong
console.log( round(-2.175, 2) ); // -2.17 wrong
console.log( round(-5.015, 2) ); // -5.01 wrong
Here, also is one function I wrote to do arithmetic rounding correctly. You can test it yourself.
/**
* MidpointRounding away from zero ('arithmetic' rounding)
* Uses a half-epsilon for correction. (This offsets IEEE-754
* half-to-even rounding that was applied at the edge cases).
*/
function RoundCorrect(num, precision = 2) {
// half epsilon to correct edge cases.
var c = 0.5 * Number.EPSILON * num;
// var p = Math.pow(10, precision); //slow
var p = 1; while (precision--> 0) p *= 10;
if (num < 0)
p *= -1;
return Math.round((num + c) * p) / p;
}
// testing some edge cases
console.log(RoundCorrect(1.005, 2)); // 1.01 correct
console.log(RoundCorrect(2.175, 2)); // 2.18 correct
console.log(RoundCorrect(5.015, 2)); // 5.02 correct
console.log(RoundCorrect(-1.005, 2)); // -1.01 correct
console.log(RoundCorrect(-2.175, 2)); // -2.18 correct
console.log(RoundCorrect(-5.015, 2)); // -5.02 correct
It may work for you,
Math.round(num * 100)/100;
to know the difference between toFixed and round. You can have a look at Math.round(num) vs num.toFixed(0) and browser inconsistencies.
If you happen to already be using the d3 library, they have a powerful number formatting library: https://github.com/mbostock/d3/wiki/Formatting
Rounding specifically is here: https://github.com/mbostock/d3/wiki/Formatting#d3_round
In your case, the answer is:
> d3.round(1.777777, 2)
1.78
> d3.round(1.7, 2)
1.7
> d3.round(1, 2)
1
num * Math.pow(n)
instead of num * 100
(but it's definitely a neat one-liner ;-)
– svvac
Jun 18 '14 at 14:23
One way to achieve such a rounding only if necessary is to use Number.prototype.toLocaleString():
myNumber.toLocaleString('en', {maximumFractionDigits:2, useGrouping:false})
This will provide exactly the output you expect, but as strings. You can still convert those back to numbers if that's not the data type you expect.
toLocaleString
yet.
– Mark Amery
Jul 30 '16 at 23:12
This is the simplest, more elegant solution (and I am the best of the world;):
function roundToX(num, X) {
return +(Math.round(num + "e+"+X) + "e-"+X);
}
//roundToX(66.66666666,2) => 66.67
//roundToX(10,2) => 10
//roundToX(10.904,2) => 10.9
E
notation.
– AxelH
Nov 25 '16 at 8:48
roundToX(362.42499999999995, 2)
. Expected result (as in PHP echo round(362.42499999999995, 2)
): 362.43
. Actual result: 362.42
– Dr. Gianluigi Zane Zanettini
Dec 6 '17 at 13:27
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Number.EPSILON
. UseMath.round( num * 100 + Number.EPSILON ) / 100
. – cronvel Jan 18 '17 at 9:59Number.EPSILON
here? – Bruce Sun Oct 19 '18 at 3:10