I have the results of a division and I wish to discard the decimal portion of the resultant number.
How can I do this?
You could use...
Math.trunc()
(truncate fractional part, also see below)Math.floor()
(round down)Math.ceil()
(round up) Math.round()
(round to nearest integer)...dependent on how you wanted to remove the decimal.
Math.trunc()
isn't supported on all platforms yet (namely IE), but you could easily use a polyfill in the meantime.
Another method of truncating the fractional portion with excellent platform support is by using a bitwise operator (.e.g |0
). The side-effect of using a bitwise operator on a number is it will treat its operand as a signed 32bit integer, therefore removing the fractional component. Keep in mind this will also mangle numbers larger than 32 bits.
You may also be talking about the inaccuracy of decimal rounding with floating point arithmetic.
Required Reading - What Every Computer Scientist Should Know About Floating-Point Arithmetic.
Math.floor()
will increase numerical value when number is negative. Thus Math.floor(-1.2) -> -2
whilst Math.floor(1.2) -> 1
. parseInt(-1.2) -> -1
(as mentioned by @FloydPink) will discard decimal part as expected for both positive and negative numbers.
Commented
Nov 6, 2014 at 9:53
> (2.305*100)|0 > 230 > (2.3*100)|0 > 229
2.3*100
in javascript is 229.99999999999997
, so it seems the bitwise operator is doing its job correctly in your example.
Commented
Apr 1, 2016 at 0:28
You can also use bitwise operators to truncate the decimal.
e.g.
let x = 9 / 2;
console.log(x); // 4.5
x = ~~x;
console.log(x); // 4
x = -3.7
console.log(~~x) // -3
console.log(x | 0) // -3
console.log(x << 0) // -3
Bitwise operations are considerably more efficient than the Math functions. The double not bitwise operator also seems to slightly outperform the x | 0
and x << 0
bitwise operations by a negligible amount.
// 952 milliseconds
for (var i = 0; i < 1000000; i++) {
(i * 0.5) | 0;
}
// 1150 milliseconds
for (var i = 0; i < 1000000; i++) {
(i * 0.5) << 0;
}
// 1284 milliseconds
for (var i = 0; i < 1000000; i++) {
Math.trunc(i * 0.5);
}
// 939 milliseconds
for (var i = 0; i < 1000000; i++) {
~~(i * 0.5);
}
Also worth noting is that the bitwise not operator takes precedence over arithmetic operations, so you may need to surround calculations with parentheses to have the intended result:
const x = -3.7
console.log(~~x * 2) // -6
console.log(x * 2 | 0) // -7
console.log(x * 2 << 0) // -7
console.log(~~(x * 2)) // -7
console.log(x * 2 | 0) // -7
console.log(x * 2 << 0) // -7
More info about the double bitwise not operator can be found at Double bitwise NOT (~~)
You also should ensure that your integer will not need more than 32-bits to represent:
const a = 0x100000000 + 0.1; // 4294967296.1
console.log(Math.trunc(a)); // 4294967296
console.log(~~a); // 0
~~(x)
in a function will cause a similar slowdown, and then you may as well just call the Math
methods.
Commented
May 25, 2023 at 13:54
You could also do
parseInt(a/b)
parseInt
won't work reliably for large numbers, because it works by first converting its argument to a string, and for large numbers the result will use exponential notation. For example: var n = 22222222222222222222222; parseInt(n);
will return 2
, because n.toString()
returns 2.2222222222222223e+22
.
parseInt()
for its purpose, which is to take a number in a string and return a Number
.
You can also show a certain number of digit after decimal point (here 2 digits) using toFixed
, which will return a string representation:
var num = (15.46974).toFixed(2)
console.log(num) // 15.47
console.log(typeof num) // string
console.log(typeof num) // string
Ummm, I think this is the JS equivalent of an oxymoron.
toFixed
would never be introduced to JavaScript today. It was added to the language back in a time when there was hardly a difference between a string and a number, today, types matter, as they should. Use Math.trunc() if you care about good code, unless u need a specific amount of decimal place (which your probably in a CS class if that is the case) use Number(x.toFixed(digits))
, or have a very specific need for converting a number to a string at a certain amount of decimal places, which probably isn't all that rare, but for algorithmic scripting, don't use toFixed, use Math.trunc
.
Use Math.round()
function.
Math.round(65.98) // will return 66
Math.round(65.28) // will return 65
Math.round
doesn't actually answer the question though. The question was how to disregard the decimal portion of the number. In the example shown by the answer here, the OP would want to return 65 in both instances. Math.round
will return 66 or 65 (as stated above).
Commented
Sep 27, 2020 at 18:32
With ES2015, Math.trunc() is available.
Math.trunc(2.3) // 2
Math.trunc(-2.3) // -2
Math.trunc(22222222222222222222222.3) // 2.2222222222222223e+22
Math.trunc("2.3") // 2
Math.trunc("two") // NaN
Math.trunc(NaN) // NaN
It's not supported in IE11 or below, but does work in Edge and every other modern browser.
Math.trunc(value * Math.pow(10,x)) / Math.pow(10,x)
would work?
Commented
Apr 21, 2016 at 15:19
value = 2.3
and x = 2
will return 2.29
. I don't have a better suggestion.
Commented
Apr 23, 2016 at 19:42
Here is the compressive in detailed explanation with the help of previous posts:
1. Math.trunc() : It is used to remove those digits which are followed by dot. It converts implicitly. But, not supported in IE.
Example:
Math.trunc(10.5) // 10
Math.trunc(-10.5) // -10
Other Alternative way: Use of bitwise not operator:
Example:
x= 5.5
~~x // 5
2. Math.floor() : It is used to give the minimum integer value posiible. It is supported in all browsers.
Example:
Math.floor(10.5) // 10
Math.floor(-10.5) // -11
3. Math.ceil() : It is used to give the highest integer value possible. It is supported in all browsers.
Example:
Math.ceil(10.5) // 11
Math.ceil(-10.5) // -10
4. Math.round() : It is rounded to the nearest integer. It is supported in all browsers.
Example:
Math.round(10.5) // 11
Math.round(-10.5)// -10
Math.round(10.49) // 10
Math.round(-10.51) // -11
You can use .toFixed(0) to remove complete decimal part or provide the number in arguments upto which you want decimal to be truncated.
Note: toFixed will convert the number to string.
toFixed will behave like round.
For a floor like behavior use %:
var num = 3.834234;
var floored_num = num - (num % 1); // floored_num will be 3
If you don't care about rouding, just convert the number to a string, then remove everything after the period including the period. This works whether there is a decimal or not.
const sEpoch = ((+new Date()) / 1000).toString();
const formattedEpoch = sEpoch.split('.')[0];
This is for those who want to prevent users to enter decimal numbers
<input id="myInput" onkeyup="doSomething()" type="number" />
<script>
function doSomething() {
var intNum = $('#myInput').val();
if (!Number.isInteger(intNum)) {
intNum = Math.round(intNum);
}
console.log(intNum);
}
</script>
For an ES6 implementation, use something like the following:
const millisToMinutesAndSeconds = (millis) => {
const minutes = Math.floor(millis / 60000);
const seconds = ((millis % 60000) / 1000).toFixed(0);
return `${minutes}:${seconds < 10 ? '0' : ''}${seconds}`;
}
toFixed(0)
, which has been around a long time.
Commented
May 25, 2023 at 13:13
In this examples I use Number.toFixed
and Math.trunc
methods:
const num = 1.234
Number(num.toFixed(0)); // Returns 1
Number(num.toFixed(2)); // Returns 1.23
Math.trunc(num); // Returns 1
The toFixed()
method formats a number using fixed-point notation.
The Math.trunc()
static method returns the integer part of a number by removing any fractional digits.
Number(x.toFixed(0))
is not the same as Math.trunc(x)
.
Commented
May 25, 2023 at 13:17