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Using JavaScript, how can I check if Daylight Saving Time (DST) is in use at the moment, and if it is for how many hours?

This is a bit of my js code for which this is needed:

var secDiff=Math.abs(Math.round((utc_date-this.premiere_date)/1000));

I want to get the datetime in ago, but if the DST is in use then the dates are wrong for 1 hour, and that's my problem. I don't know how to check if the DST is in use or not.

How to get when daylight saving starts and ends? <--- I think that this could help me. Just can't find it.

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4 Answers 4

up vote 98 down vote accepted

The code given by this article will tell you whether Daylight Savings Time is in effect. It uses the fact that getTimezoneOffset returns a different value during DST and standard time, and compares the difference between the two. (for example New York returns -5 normally and -4 during DST)

Note that I have no idea as to the intricacies of international time zones, and have only tested that it returns correct results for my time zone.. but the code seems solid.

var today = new Date();
if (today.dst()) { alert ("Daylight savings time!"); }

Date.prototype.stdTimezoneOffset = function() {
    var jan = new Date(this.getFullYear(), 0, 1);
    var jul = new Date(this.getFullYear(), 6, 1);
    return Math.max(jan.getTimezoneOffset(), jul.getTimezoneOffset());

Date.prototype.dst = function() {
    return this.getTimezoneOffset() < this.stdTimezoneOffset();
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I can verify that this works internationally. There are currently no time zones that use any form of DST where both Jan 1st and July 1st are either both in or both out of the DST period. Also, in all time zones in the TZDB (with one trivial exception) the larger of the two offsets is the DST offset. Since JavaScript's getTimezoneOffset returns the inverse value, then Math.max is indeed returning the standard offset. The code is correct. –  Matt Johnson Apr 8 '13 at 21:39
However, if any time zone ever changes its definition such that both Jan 1st and Jul 1st are either both in DST, or both not in DST (and DST still applies), then this code would not work in that zone. –  Matt Johnson Apr 8 '13 at 21:40
This works great. It's really nice to be able to set an internal constant like: TIMEZONE_OFFSET = ((new Date()).dst()) ? '-04:00' : '-05:00' –  nessur Jun 20 '13 at 18:57

Create two dates: one in June, one in January. Compare their getTimezoneOffset() values.

  • if January offset > June offset, client is in northern hemisphere
  • if January offset < June offset, client is in southern hemisphere
  • if no difference, client timezone does not observe DST

Now check getTimezoneOffset() of the current date.

  • if equal to June, northern hemisphere, then current timezone is DST (+1 hour)
  • if equal to January, southern hemisphere, then current timezone is DST (+1 hour)
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Why do you need the hemispheres? would it not be enough to say that if getTimezoneOffset() for the current date equals to the smaller of the two getTimezoneOffset() then its DST? [ and the offset is the difference between the two ?] –  epeleg Nov 6 '14 at 8:53
You don't need the hemispheres as the accepted answer clearly demonstrates :) –  Jon Nylander Nov 6 '14 at 11:32

I was faced with this same problem today but since our daylight saving starts and stops at differing times from the USA (at least from my understanding), I used a slightly different route..

var arr = [];
for (var i = 0; i < 365; i++) {
 var d = new Date();
 newoffset = d.getTimezoneOffset();
DST = Math.min.apply(null, arr);
nonDST = Math.max.apply(null, arr);

Then you simply compare the current timezone offset with DST and nonDST to see which one matches.

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This is how we do it as well. That is, figure out the times of the year the DST changes in your target time zone, and compute offsets for the current day and the most recent change date. They will either differ by an hour or be equal (assuming the time zone in question is an hour offset). –  Heather Nov 13 '12 at 17:55
There is no need to create 365 values, a binary search approach that stops as soon as a change in offset is determined should be very much more efficient, even where daylight saving is not observed. All these approaches assume that places observe daylight saving every year, which is not necessarily true. Places adopt and abandon daylight saving from time to time (though ECMAScript assumes the current rules, whatever they area, applied always). –  RobG Oct 16 '14 at 2:09
Rob - how can you do this via a binary search if you don't know where to search (i.e. is the place you are looking for is above or below you r test point?) –  epeleg Nov 6 '14 at 8:46

Based on Matt Johanson's comment on the solution provided by Sheldon Griffin I created the following code:

    Date.prototype.stdTimezoneOffset = function() {
        var fy=this.getFullYear();
        if (!Date.prototype.stdTimezoneOffset.cache.hasOwnProperty(fy)) {

            var maxOffset = new Date(fy, 0, 1).getTimezoneOffset();
            var monthsTestOrder=[6,7,5,8,4,9,3,10,2,11,1];

            for(var mi=0;mi<12;mi++) {
                var offset=new Date(fy, monthsTestOrder[mi], 1).getTimezoneOffset();
                if (offset!=maxOffset) { 
        return Date.prototype.stdTimezoneOffset.cache[fy];


    Date.prototype.isDST = function() {
        return this.getTimezoneOffset() < this.stdTimezoneOffset(); 

It tries to get the best of all worlds taking into account all the comments and previously suggested answers and specifically it:

1) Caches the result for per year stdTimezoneOffset so that you don't need to recalculate it when testing multiple dates in the same year.

2) It does not assume that DST (if it exists at all) is necessarily in July, and will work even if it will at some point and some place be any month. However Performance-wise it will work faster if indeed July (or near by months) are indeed DST.

3) Worse case it will compare the getTimezoneOffset of the first of each month. [and do that Once per tested year].

The assumption it does still makes is that the if there is DST period is larger then a single month.

If someone wants to remove that assumption he can change loop into something more like whats in the solutin provided by Aaron Cole - but I would still jump half a year ahead and break out of the loop when two different offsets are found]

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