I am looking for an easy way in JavaScript to check if a number has a decimal place in it (in order to determine if it is an integer). For instance,
23 -> OK
5 -> OK
3.5 -> not OK
34.345 -> not OK
if(number is integer) {...}
I am looking for an easy way in JavaScript to check if a number has a decimal place in it (in order to determine if it is an integer). For instance,
23 -> OK
5 -> OK
3.5 -> not OK
34.345 -> not OK
if(number is integer) {...}
Using modulus will work:
num % 1 != 0
// 23 % 1 = 0
// 23.5 % 1 = 0.5
Note that this is based on the numerical value of the number, regardless of format. It treats numerical strings containing whole numbers with a fixed decimal point the same as integers:
'10.0' % 1; // returns 0
10 % 1; // returns 0
'10.5' % 1; // returns 0.5
10.5 % 1; // returns 0.5
20.0
has a decimal point programmatically, unless it is expressed as a string. Also, none of the other solutions got a down vote for not tackling that ;-)
– Andy E
Sep 1 '11 at 16:58
"10."
is a whole number and the result will be exactly the same as "10"
or 10
.
– Andy E
Dec 5 '14 at 16:56
Or you could just use to find out if it is NOT a decimal:
string.indexOf(".")==-1;
yournumber.toString.indexOf(".")
– Daniel Omine
Sep 21 '15 at 5:43
Number.isInteger(23); // true
Number.isInteger(1.5); // false
Number.isInteger("x"); // false:
Number.isInteger() is part of the ES6 standard and not supported in IE11.
It returns false for NaN
, Infinity
and non-numeric arguments while x % 1 != 0
returns true.
Number.isInteger(12.0)
returns true
.
– le_m
May 21 '18 at 19:59
The most common solution is to strip the integer portion of the number and compare it to zero like so:
function Test()
{
var startVal = 123.456
alert( (startVal - Math.floor(startVal)) != 0 )
}
Math.Floor
function takes a decimal value and the largest decimal value allowed in JavaScript is 2^53 - 1
or 9007199254740991
. Since 893144042145698745.3
is larger than this maximum, the function will fail.
– Thomas
May 26 '15 at 18:02
//How about byte-ing it?
Number.prototype.isInt= function(){
return this== this>> 0;
}
I always feel kind of bad for bit operators in javascript-
they hardly get any exercise.
>>
converts the value to a signed 32-bit integer.
– Matthew Crumley
Feb 21 '10 at 7:06
Simple, but effective!
Math.floor(number) == number;
var re=/^-?[0-9]+$/;
var num=10;
re.test(num);
number = 20.5
if (number == Math.floor(number)) {
alert("Integer")
} else {
alert("Decimal")
}
Pretty cool and works for things like XX.0 too! It works because Math.floor() chops off any decimal if it has one so if the floor is different from the original number we know it is a decimal! And no string conversions :)
function isDecimal(n){
if(n == "")
return false;
var strCheck = "0123456789";
var i;
for(i in n){
if(strCheck.indexOf(n[i]) == -1)
return false;
}
return true;
}
Number.isInteger()
is probably the most concise. It returns true if it is an integer, and false if it isn't.
parseInt(num) === num
when passed a number, parseInt()
just returns the number as int:
parseInt(3.3) === 3.3 // false because 3 !== 3.3
parseInt(3) === 3 // true
parseInt(3.0) === 3.0 // true
– zipzit
Feb 2 '15 at 23:24
Here's an excerpt from my guard library (inspired by Effective JavaScript by David Herman):
var guard = {
guard: function(x) {
if (!this.test(x)) {
throw new TypeError("expected " + this);
}
}
// ...
};
// ...
var number = Object.create(guard);
number.test = function(x) {
return typeof x === "number" || x instanceof Number;
};
number.toString = function() {
return "number";
};
var uint32 = Object.create(guard);
uint32.test = function(x) {
return typeof x === "number" && x === (x >>> 0);
};
uint32.toString = function() {
return "uint32";
};
var decimal = Object.create(guard);
decimal.test = function(x) {
return number.test(x) && !uint32.test(x);
};
decimal.toString = function() {
return "decimal";
};
uint32.guard(1234); // fine
uint32.guard(123.4); // TypeError: expected uint32
decimal.guard(1234); // TypeError: expected decimal
decimal.guard(123.4); // fine
You can multiply it by 10 and then do a "modulo" operation/divison with 10, and check if result of that two operations is zero. Result of that two operations will give you first digit after the decimal point. If result is equal to zero then the number is a whole number.
if ( (int)(number * 10.0) % 10 == 0 ){
// your code
}
Function for check number is Decimal or whole number
function IsDecimalExist(p_decimalNumber) {
var l_boolIsExist = true;
if (p_decimalNumber % 1 == 0)
l_boolIsExist = false;
return l_boolIsExist;
}
convert number string to array, split by decimal point. Then, if the array has only one value, that means no decimal in string.
if(!number.split(".")[1]){
//do stuff
}
This way you can also know what the integer and decimal actually are. a more advanced example would be.
number_to_array = string.split(".");
inte = number_to_array[0];
dece = number_to_array[1];
if(!dece){
//do stuff
}
You can use the bitwise operations that do not change the value (^ 0
or ~~
) to discard the decimal part, which can be used for rounding. After rounding the number, it is compared to the original value:
function isDecimal(num) {
return (num ^ 0) !== num;
}
console.log( isDecimal(1) ); // false
console.log( isDecimal(1.5) ); // true
console.log( isDecimal(-0.5) ); // true
You can use the following function to check if a number has decimal places:
function hasDecimal(num){
return !!(num % 1);
}
console.log(hasDecimal(2)); //true
console.log(hasDecimal(2.32423)); //false
So apparently some users want explanations. I'll break it into pieces: (num % 1)
Parenthesis mean perform those operations first. num - a variable passed in by the function. % - a modulus symbol which attempts to divide the left number by the right. If there is a remainder it returns it as a decimal. If it divides evenly it returns 0.
So, sum up what we have so far., (num % 1) will return:
0 when divided evenly OR #.##### if not
0 == false.
[ANY_NUMBER_NOT_ZERO] == true.
Examples: new Boolean(0) is false new Boolean(12312.1231) is true
Other alternatives: A user could have tried to return the value of (num % 1)., which would basically achieve the same thing. Since return (0) is false and return (1.213113) is true.
But I wanted to return a boolean value. So as a shortcut to force a value into a boolean I added a ! symbol before it.
As many as might know., ! means NOT. But it also forces a value into a boolean.
Since the ! symobol forces the value into a boolean and it inverses its value. I use !! to force the value into a boolean and invert its value back to its original boolean value.