I've been using this function but I'd like to know what's the most efficient and accurate way to get it.
function daysInMonth(iMonth, iYear) {
return 32 - new Date(iYear, iMonth, 32).getDate();
}
I've been using this function but I'd like to know what's the most efficient and accurate way to get it.
function daysInMonth(iMonth, iYear) {
return 32 - new Date(iYear, iMonth, 32).getDate();
}
function daysInMonth (month, year) { // Use 1 for January, 2 for February, etc.
return new Date(year, month, 0).getDate();
}
console.log(daysInMonth(2, 1999)); // February in a non-leap year.
console.log(daysInMonth(2, 2000)); // February in a leap year.
Day 0 is the last day in the previous month. Because the month constructor is 0-based, this works nicely. A bit of a hack, but that's basically what you're doing by subtracting 32.
return new Date(year, month + 1, 0).getDate();
– fguillen
Jul 24 '12 at 8:12
var d=new Date();d.setFullYear(year, month, date);
.
– RobG
Apr 30 '14 at 23:08
month
is 12? Shouldn't the Date
constructor take a value from 0 to 11?
– anddero
Aug 15 '18 at 14:35
If you call this function often, it may be useful to cache the value for better performance.
Here is caching version of FlySwat's answer:
var daysInMonth = (function() {
var cache = {};
return function(month, year) {
var entry = year + '-' + month;
if (cache[entry]) return cache[entry];
return cache[entry] = new Date(year, month, 0).getDate();
}
})();
Date
(so there isn't an universal answer to that question) and how often your code will call the dayInMonth
with the same values. So the only sensible answer is: profile your code and benchmark it!
– dolmen
May 3 '14 at 17:06
cache
, I use localStorage
.
– andrew
Oct 29 '14 at 11:57
Some answers (also on other questions) had leap-year problems or used the Date-object. Although javascript's Date object
covers approximately 285616 years (100,000,000 days) on either side of January 1 1970, I was fed up with all kinds of unexpected date inconsistencies across different browsers (most notably year 0 to 99). I was also curious how to calculate it.
So I wrote a simple and above all, small algorithm to calculate the correct (Proleptic Gregorian / Astronomical / ISO 8601:2004 (clause 4.3.2.1), so year 0
exists and is a leap year and negative years are supported) number of day's for a given month and year.
It uses the short-circuit bitmask-modulo leapYear algorithm (slightly modified for js) and common mod-8 month algorithm.
Note that in AD/BC
notation, year 0 AD/BC does not exist: instead year 1 BC
is the leap-year!
IF you need to account for BC notation then simply subtract one year of the (otherwise positive) year-value first!! (Or subtract the year from 1
for further year-calculations.)
function daysInMonth(m, y){
return m===2?y&3||!(y%25)&&y&15?28:29:30+(m+(m>>3)&1);
}
<!-- example for the snippet -->
<input type="text" value="enter year" onblur="
for( var r='', i=0, y=+this.value
; 12>i++
; r+= 'Month: ' + i + ' has ' + daysInMonth(i, y) + ' days<br>'
);
this.nextSibling.innerHTML=r;
" /><div></div>
Note, months must be 1-based!
Note, this is a different algorithm then the magic number lookup I used in my Javascript calculate the day of the year (1 - 366) answer, because here the extra branch for the leap-year is only needed for February.
With moment.js you can use daysInMonth() method:
moment().daysInMonth(); // number of days in the current month
moment("2012-02", "YYYY-MM").daysInMonth() // 29
moment("2012-01", "YYYY-MM").daysInMonth() // 31
To take away confusion I would probably make the month string based as it is currently 1 based.
function daysInMonth(month,year) {
monthNum = new Date(Date.parse(month +" 1,"+year)).getMonth()+1
return new Date(year, monthNum, 0).getDate();
}
daysInMonth('feb', 2015)
//28
daysInMonth('feb', 2008)
//29
One-liner direct computation (no Date object):
function daysInMonth(m, y) {//m is 1-based, feb = 2
return 31 - (--m ^ 1? m % 7 & 1: y & 3? 3: y % 25? 2: y & 15? 3: 2);
}
console.log(daysInMonth(2, 1999)); // February in a non-leap year
console.log(daysInMonth(2, 2000)); // February in a leap year
Variation with 0-based months:
function daysInMonth(m, y) {//m is 0-based, feb = 1
return 31 - (m ^ 1? m % 7 & 1: y & 3? 3: y % 25? 2: y & 15? 3: 2);
}
If you want the number of days in the current month of a Date object, consider the following method:
Date.prototype.getNumberOfDaysInMonth = function(monthOffset) {
if (monthOffset !== undefined) {
return new Date(this.getFullYear(), this.getMonth()+monthOffset, 0).getDate();
} else {
return new Date(this.getFullYear(), this.getMonth(), 0).getDate();
}
}
Then you can run it like this:
var myDate = new Date();
myDate.getNumberOfDaysInMonth(); // Returns 28, 29, 30, 31, etc. as necessary
myDate.getNumberOfDaysInMonth(); // BONUS: This also tells you the number of days in past/future months!
In a single line:
// month is 1-12
function getDaysInMonth(year, month){
return month == 2 ? 28 + (year % 4 == 0 ? (year % 100 == 0 ? (year % 400 == 0 ? 1 : 0) : 1):0) : 31 - (month - 1) % 7 % 2;
}
Here is goes
new Date(2019,2,0).getDate(); //28
new Date(2020,2,0).getDate(); //29
function numberOfDays(iMonth, iYear) {
var myDate = new Date(iYear, iMonth + 1, 1); //find the fist day of next month
var newDate = new Date(myDate - 1); //find the last day
return newDate.getDate(); //return # of days in this month
}
Considering leap years:
function (year, month) {
var isLeapYear = ((year % 4 === 0 && year % 100 !== 0) || year % 400 === 0);
return [31, (isLeapYear ? 29 : 28), 31, 30, 31, 30, 31, 31, 30, 31, 30, 31][month];
}
Perhaps not the most elegant solution, but easy to understand and maintain; and, it's battle-tested.
function daysInMonth(month, year) {
var days;
switch (month) {
case 1: // Feb, our problem child
var leapYear = ((year % 4 == 0) && (year % 100 != 0)) || (year % 400 == 0);
days = leapYear ? 29 : 28;
break;
case 3: case 5: case 8: case 10:
days = 30;
break;
default:
days = 31;
}
return days;
},