How to new Date() with localTime? [duplicate] - javascript

I have date time in a particular timezone as a string and I want to convert this to the local time. But, I don't know how to set the timezone in the Date object.
For example, I have Feb 28 2013 7:00 PM ET, then I can
var mydate = new Date();
mydate.setFullYear(2013);
mydate.setMonth(02);
mydate.setDate(28);
mydate.setHours(7);
mydate.setMinutes(00);
As far as I know, I can either set the UTC time or local time. But, how do I set time in another timezone?
I tried to use the add/subtract the offset from UTC but I don't know how to counter daylight savings. Am not sure if I am heading the right direction.
How can I go about converting time from a different timezone to local time in javascript?

Background
JavaScript's Date object tracks time in UTC internally, but typically accepts input and produces output in the local time of the computer it's running on. It has very few facilities for working with time in other time zones.
The internal representation of a Date object is a single number, representing the number of milliseconds that have elapsed since 1970-01-01 00:00:00 UTC, without regard to leap seconds.
There is no time zone or string format stored in the Date object itself.
When various functions of the Date object are used, the computer's local time zone is applied to the internal representation. If the function produces a string, then the computer's locale information may be taken into consideration to determine how to produce that string. The details vary per function, and some are implementation-specific.
The only operations the Date object can do with non-local time zones are:
It can parse a string containing a numeric UTC offset from any time zone. It uses this to adjust the value being parsed, and stores the UTC equivalent. The original local time and offset are not retained in the resulting Date object. For example:
var d = new Date("2020-04-13T00:00:00.000+08:00");
d.toISOString() //=> "2020-04-12T16:00:00.000Z"
d.valueOf() //=> 1586707200000 (this is what is actually stored in the object)
In environments that have implemented the ECMASCript Internationalization API (aka "Intl"), a Date object can produce a locale-specific string adjusted to a given time zone identifier. This is accomplished via the timeZone option to toLocaleString and its variations. Most implementations will support IANA time zone identifiers, such as 'America/New_York'. For example:
var d = new Date("2020-04-13T00:00:00.000+08:00");
d.toLocaleString('en-US', { timeZone: 'America/New_York' })
//=> "4/12/2020, 12:00:00 PM"
// (midnight in China on Apring 13th is noon in New York on April 12th)
Most modern environments support the full set of IANA time zone identifiers (see the compatibility table here). However, keep in mind that the only identifier required to be supported by Intl is 'UTC', thus you should check carefully if you need to support older browsers or atypical environments (for example, lightweight IoT devices).
Libraries
There are several libraries that can be used to work with time zones. Though they still cannot make the Date object behave any differently, they typically implement the standard IANA timezone database and provide functions for using it in JavaScript. Modern libraries use the time zone data supplied by the Intl API, but older libraries typically have overhead, especially if you are running in a web browser, as the database can get a bit large. Some of these libraries also allow you to selectively reduce the data set, either by which time zones are supported and/or by the range of dates you can work with.
Here are the libraries to consider:
Intl-based Libraries
New development should choose from one of these implementations, which rely on the Intl API for their time zone data:
Luxon (successor of Moment.js)
date-fns-tz (extension for date-fns)
Day.js (when using its Timezone plugin)
Non-Intl Libraries
These libraries are maintained, but carry the burden of packaging their own time zone data, which can be quite large.
js-joda/timezone (extension for js-joda)
moment-timezone* (extension for Moment.js)
date-fns-timezone (extension for older 1.x of date-fns)
BigEasy/TimeZone
tz.js
* While Moment and Moment-Timezone were previously recommended, the Moment team now prefers users chose Luxon for new development.
Discontinued Libraries
These libraries have been officially discontinued and should no longer be used.
WallTime-js
TimeZoneJS
Future Proposals
The TC39 Temporal Proposal aims to provide a new set of standard objects for working with dates and times in the JavaScript language itself. This will include support for a time zone aware object.
Common Errors
There are several approaches that are often tried, which are in error and should usually be avoided.
Re-Parsing
new Date(new Date().toLocaleString('en', {timeZone: 'America/New_York'}))
The above approach correctly uses the Intl API to create a string in a specific time zone, but then it incorrectly passes that string back into the Date constructor. In this case, parsing will be implementation-specific, and may fail entirely. If successful, it is likely that the resulting Date object now represents the wrong instant in time, as the computer's local time zone would be applied during parsing.
Epoch Shifting
var d = new Date();
d.setTime(d.getTime() + someOffset * 60000);
The above approach attempts to manipulate the Date object's time zone by shifting the Unix timestamp by some other time zone offset. However, since the Date object only tracks time in UTC, it actually just makes the Date object represent a different point in time.
The same approach is sometimes used directly on the constructor, and is also invalid.
Epoch Shifting is sometimes used internally in date libraries as a shortcut to avoid writing calendar arithmetic. When doing so, any access to non-UTC properties must be avoided. For example, once shifted, a call to getUTCHours would be acceptable, but a call to getHours would be invalid because it uses the local time zone.
It is called "epoch shifting", because when used correctly, the Unix Epoch (1970-01-01T00:00:00.000Z) is now no longer correlated to a timestamp of 0 but has shifted to a different timestamp by the amount of the offset.
If you're not authoring a date library, you should not be epoch shifting.
For more details about epoch shifting, watch this video clip from Greg Miller at CppCon 2015. The video is about time_t in C++, but the explanation and problems are identical. (For JavaScript folks, every time you hear Greg mention time_t, just think "Date object".)
Trying to make a "UTC Date"
var d = new Date();
var utcDate = new Date(Date.UTC(d.getUTCFullYear(), d.getUTCMonth(), d.getUTCDate(), d.getUTCHours(), d.getUTCMinutes(), d.getUTCSeconds(), d.getUTCMilliseconds()));
In this example, both d and utcDate are identical. The work to construct utcDate was redundant, because d is already in terms of UTC. Examining the output of toISOString, getTime, or valueOf functions will show identical values for both variables.
A similar approach seen is:
var d = new Date();
var utcDate = new Date(d.getUTCFullYear(), d.getUTCMonth(), d.getUTCDate(), d.getUTCHours(), d.getUTCMinutes(), d.getUTCSeconds(), d.getUTCMilliseconds());
This is approach passes UTC values into the Date constructor where local time values are expected. The resulting Date object now represents a completely different point in time. It is essentially the same result as epoch shifting described earlier, and thus should be avoided.
The correct way to get a UTC-based Date object is simply new Date(). If you need a string representation that is in UTC, then use new Date().toISOString().

As Matt Johnson said
If you can limit your usage to modern web browsers, you can now do the
following without any special libraries:
new Date().toLocaleString("en-US", {timeZone: "America/New_York"})
This isn't a comprehensive solution, but it works for many scenarios
that require only output conversion (from UTC or local time to a
specific time zone, but not the other direction).
So although the browser can not read IANA timezones when creating a date, or has any methods to change the timezones on an existing Date object, there seems to be a hack around it:
function changeTimezone(date, ianatz) {
// suppose the date is 12:00 UTC
var invdate = new Date(date.toLocaleString('en-US', {
timeZone: ianatz
}));
// then invdate will be 07:00 in Toronto
// and the diff is 5 hours
var diff = date.getTime() - invdate.getTime();
// so 12:00 in Toronto is 17:00 UTC
return new Date(date.getTime() - diff); // needs to substract
}
// E.g.
var here = new Date();
var there = changeTimezone(here, "America/Toronto");
console.log(`Here: ${here.toString()}\nToronto: ${there.toString()}`);

This should solve your problem, please feel free to offer fixes. This method will account also for daylight saving time for the given date.
dateWithTimeZone = (timeZone, year, month, day, hour, minute, second) => {
let date = new Date(Date.UTC(year, month, day, hour, minute, second));
let utcDate = new Date(date.toLocaleString('en-US', { timeZone: "UTC" }));
let tzDate = new Date(date.toLocaleString('en-US', { timeZone: timeZone }));
let offset = utcDate.getTime() - tzDate.getTime();
date.setTime( date.getTime() + offset );
return date;
};
How to use with timezone and local time:
dateWithTimeZone("America/Los_Angeles",2019,8,8,0,0,0)

You can specify a time zone offset on new Date(), for example:
new Date('Feb 28 2013 19:00:00 EST')
or
new Date('Feb 28 2013 19:00:00 GMT-0500')
Since Date store UTC time ( i.e. getTime returns in UTC ), javascript will them convert the time into UTC, and when you call things like toString javascript will convert the UTC time into browser's local timezone and return the string in local timezone, i.e. If I'm using UTC+8:
> new Date('Feb 28 2013 19:00:00 GMT-0500').toString()
< "Fri Mar 01 2013 08:00:00 GMT+0800 (CST)"
Also you can use normal getHours/Minute/Second method:
> new Date('Feb 28 2013 19:00:00 GMT-0500').getHours()
< 8
( This 8 means after the time is converted into my local time - UTC+8, the hours number is 8. )

I found the most supported way to do this, without worrying about a third party library, was by using getTimezoneOffset to calculate the appropriate timestamp, or update the time then use the normal methods to get the necessary date and time.
var mydate = new Date();
mydate.setFullYear(2013);
mydate.setMonth(02);
mydate.setDate(28);
mydate.setHours(7);
mydate.setMinutes(00);
// ET timezone offset in hours.
var timezone = -5;
// Timezone offset in minutes + the desired offset in minutes, converted to ms.
// This offset should be the same for ALL date calculations, so you should only need to calculate it once.
var offset = (mydate.getTimezoneOffset() + (timezone * 60)) * 60 * 1000;
// Use the timestamp and offset as necessary to calculate min/sec etc, i.e. for countdowns.
var timestamp = mydate.getTime() + offset,
seconds = Math.floor(timestamp / 1000) % 60,
minutes = Math.floor(timestamp / 1000 / 60) % 60,
hours = Math.floor(timestamp / 1000 / 60 / 60);
// Or update the timestamp to reflect the timezone offset.
mydate.setTime(mydate.getTime() + offset);
// Then Output dates and times using the normal methods.
var date = mydate.getDate(),
hour = mydate.getHours();
EDIT
I was previously using UTC methods when performing the date transformations, which was incorrect. With adding the offset to the time, using the local get functions will return the desired results.

For Ionic users, I had hell with this because .toISOString() has to be used with the html template.
This will grab the current date, but of course can be added to previous answers for a selected date.
I got it fixed using this:
date = new Date();
public currentDate: any = new Date(this.date.getTime() - this.date.getTimezoneOffset()*60000).toISOString();
The *60000 is indicating the UTC -6 which is CST so whatever TimeZone is needed, the number and difference can be changed.

I ran into a similar problem with unit tests (specifically in jest when the unit tests run locally to create the snapshots and then the CI server runs in (potentially) a different timezone causing the snapshot comparison to fail). I mocked our Date and some of the supporting methods like so:
describe('...', () => {
let originalDate;
beforeEach(() => {
originalDate = Date;
Date = jest.fn(
(d) => {
let newD;
if (d) {
newD = (new originalDate(d));
} else {
newD = (new originalDate('2017-05-29T10:00:00z'));
}
newD.toLocaleString = () => {
return (new originalDate(newD.valueOf())).toLocaleString("en-US", {timeZone: "America/New_York"});
};
newD.toLocaleDateString = () => {
return (new originalDate(newD.valueOf())).toLocaleDateString("en-US", {timeZone: "America/New_York"});
};
newD.toLocaleTimeString = () => {
return (new originalDate(newD.valueOf())).toLocaleTimeString("en-US", {timeZone: "America/New_York"});
};
return newD;
}
);
Date.now = () => { return (Date()); };
});
afterEach(() => {
Date = originalDate;
});
});

I had the same problem but we can use the time zone we want
we use .toLocaleDateString()
eg:
var day=new Date();
const options= {day:'numeric', month:'long', year:"numeric", timeZone:"Asia/Kolkata"};
const today=day.toLocaleDateString("en-IN", options);
console.log(today);

I ran into this issue running a GCP Cloud Function. Of course it works on a local machine, but running in the cloud makes the OS default (local) for new Date() irrelevant. In my case, an api call from the cloud required Eastern Standard Time, in ISO format (without the "Z") with offset as "-0500" or "-0400" depending on DST, for example:
2021-12-01T00:00:00.000-0500
Again, this is not a browser formatting issue, so I am forced into this format for the api call to work correctly.
Using #chickens code as a start, this is what worked:
var date = new Date();
var now_utc = Date.UTC(date.getUTCFullYear(), date.getUTCMonth(), date.getUTCDate(),
date.getUTCHours(), date.getUTCMinutes(), date.getUTCSeconds());
var dt = new Date(now_utc);
let utcDate = new Date(dt.toLocaleString('en-US', { timeZone: "UTC" }));
let tzDate = new Date(dt.toLocaleString('en-US', { timeZone: "America/New_York" }));
let offset1 = utcDate.getTime() - tzDate.getTime();
let offset2 = offset1/60000;
let o1 = Math.abs(offset2);
console.log(offset2)
var offsetValue1 = (offset2 < 0 ? "+" : "-") + ("00" + Math.floor(o1 / 60)).slice(-2) + ("00" + (o1 % 60)).slice(-2);
console.log(offsetValue1)
dt.setTime(dt.getTime() - offset1);
console.log(dt.toISOString());
console.log(dt.toISOString().slice(0,-1)+offsetValue1);

Try using ctoc from npm.
https://www.npmjs.com/package/ctoc_timezone
It has got simple functionality to change timezones (most timezones around 400) and all custom formats u want it to display.

Building on the answers above, I am using this native one liner to convert the long timezone string to the three letter string:
var longTz = 'America/Los_Angeles';
var shortTz = new Date().
toLocaleString("en", {timeZoneName: "short", timeZone: longTz}).
split(' ').
pop();
This will give PDT or PST depending on the date provided. In my particular use case, developing on Salesforce (Aura/Lightning), we are able to get the user timezone in the long format from the backend.

Thanks to #commonpike answer, I wrote a function which takes an ISO String date such as 2020-10-10T08:00:00.000 as input and send an object which contains 2 main properties.
The first one is fromUtc is a Date corresponding to the timeZone entered as parameter.
The second one is toUtc which lets you to format a Date stemming from fromUtc.
const timeZoneTransformer = (stringDate, timeZone = "Europe/Paris") => {
const now = new Date();
const serverDate = new Date(stringDate);
const utcDate = new Date(
Date.UTC(
serverDate.getFullYear(),
serverDate.getMonth(),
serverDate.getDate(),
serverDate.getHours(),
serverDate.getMinutes(),
serverDate.getSeconds()
)
);
const invdate = new Date(
serverDate.toLocaleString("en-US", {
timeZone,
})
);
const diff = now.getTime() - invdate.getTime();
const adjustedDate = new Date(now.getTime() - diff);
return {
toUtc: utcDate,
fromUtc: adjustedDate,
};
};
const fromUtc = timeZoneTransformer("2020-10-10T08:00:00.000").fromUtc;
console.log(fromUtc);
const toUtc = timeZoneTransformer(fromUtc).toUtc;
console.log(toUtc);

Try: date-from-timezone, it resolves expected date with help of natively available Intl.DateTimeFormat.
I used that method in one of my projects for few years already, but it's now I decided to publish it as small OS project :)

Try something like this,
public static getTimezoneOffset(timeZone: string, date = new Date()): number {
const localDate = date.toLocaleString('fr', { timeZone, timeZoneName: 'long' });
const tz = localDate.split(' ');
const TZ = localDate.replace(tz[0], '').replace(tz[1], '').replace(' ', '');
const dateString = date.toString();
const offset = (Date.parse(`${dateString} UTC`) - Date.parse(`${dateString}${TZ}`)) / (3600 * 1000);
return offset;
}

I'm not sure why all these answers are so complicated. Just use YYYY-MM-DD ZZZ when creating a date-only date in the local / desired time zone.
Create a local date:
var myDate = new Date('2022-11-29 CST')
The date will be stored in storage as UTC, great.
Get the date out of storage and display it as local:
myDate.toLocaleDateString()
11/29/2022

I know its 3 years too late, but maybe it can help someone else because I haven't found anything like that except for the moment-timezone library, which is not exactly the same as what he's asking for here.
I've done something similar for german timezone,
this is a little complex because of daylight saving time and leap years where you have 366 days.
it might need a little work with the "isDaylightSavingTimeInGermany" function while different timezones change on different times the daylight saving time.
anyway, check out this page:
https://github.com/zerkotin/german-timezone-converter/wiki
the main methods are:
convertLocalDateToGermanTimezone
convertGermanDateToLocalTimezone
I've put an effort into documenting it, so it won't be so confusing.

There are several working answers here, but somehow a lot of them seemed to get you to the string, but not back to a date object you started with, so here's my simple non-function take on how to change timezone on JS date:
var TZ='Australia/Brisbane'; //Target timezone from server
var date = new Date(); //Init this to a time if you don't want current time
date=new Date(Date.parse(date.toLocaleString("en-US", {timeZone: TZ})));
//Just a clarification on what happens
// 1) First new Date() gives you a Date object at current time in the clients browser local timezone
// 2) .toLocaleString takes that time, and returns a string if time in the target timezone
// 3) Date.parse converts that new string to a Unix epoch number
// 4) new Date() converts the Unix epoch into a Date object in the new TimeZone.
// Now I can use my usual getHours and other Date functions as required.
Hope that helps others (if you get to this bottom answer!)

Simple with Node.JS support
Pass in the amount of hours your timezone is offset from UTC
function initDateInTimezone(offsetHours) {
const timezoneOffsetInMS = offsetHours * 60 * 60000;
let d = new Date().getTimezoneOffset() * 60000 + timezoneOffsetInMS;
const date = new Date(new Date().getTime() - d);
return date
}

//For Mumbai time difference is 5.5 hrs so
city_time_diff=5.5; //change according to your city
let time_now = Date.now();
time_now = time_now + (3600000 * city_time_diff); //Add our city time (in msec);
let new_date = new Date(time_now);
console.log("My city time is: ", new_date);

Was facing the same issue, used this one
Console.log(Date.parse("Jun 13, 2018 10:50:39 GMT+1"));
It will return milliseconds to which u can check have +100 timzone intialize British time
Hope it helps!!

Related

Jquery countdown in UTC [duplicate]

Suppose a user of your website enters a date range.
2009-1-1 to 2009-1-3
You need to send this date to a server for some processing, but the server expects all dates and times to be in UTC.
Now suppose the user is in Alaska. Since they are in a timezone quite different from UTC, the date range needs to be converted to something like this:
2009-1-1T8:00:00 to 2009-1-4T7:59:59
Using the JavaScript Date object, how would you convert the first "localized" date range into something the server will understand?
Simple and stupid
var date = new Date();
var now_utc = Date.UTC(date.getUTCFullYear(), date.getUTCMonth(),
date.getUTCDate(), date.getUTCHours(),
date.getUTCMinutes(), date.getUTCSeconds());
console.log(new Date(now_utc));
console.log(date.toISOString());
The toISOString() method returns a string in simplified extended ISO
format (ISO 8601), which is always 24 or 27 characters long
(YYYY-MM-DDTHH:mm:ss.sssZ or ±YYYYYY-MM-DDTHH:mm:ss.sssZ,
respectively). The timezone is always zero UTC offset, as denoted by
the suffix "Z".
Source: MDN web docs
The format you need is created with the .toISOString() method. For older browsers (ie8 and under), which don't natively support this method, the shim can be found here:
This will give you the ability to do what you need:
var isoDateString = new Date().toISOString();
console.log(isoDateString);
For Timezone work, moment.js and moment.js timezone are really invaluable tools...especially for navigating timezones between client and server javascript.
Here's my method:
var now = new Date();
var utc = new Date(now.getTime() + now.getTimezoneOffset() * 60000);
The resulting utc object isn't really a UTC date, but a local date shifted to match the UTC time (see comments). However, in practice it does the job.
Update: This answer is a quick-and-dirty way to get the UTC date when calling utc.toString(), utc.toLocaleString(), etc. Though, there are better solutions, in particular nowadays with modern browsers, and I should work on an improved answer. Basically, now.toISOString() (IE 9+) is what you want to use.
Convert to ISO without changing date/time
var now = new Date(); // Fri Feb 20 2015 19:29:31 GMT+0530 (India Standard Time)
var isoDate = new Date(now.getTime() - now.getTimezoneOffset() * 60000).toISOString();
//OUTPUT : 2015-02-20T19:29:31.238Z
Convert to ISO with change in date/time(date/time will be changed)
isoDate = new Date(now).toISOString();
//OUTPUT : 2015-02-20T13:59:31.238Z
Fiddle link
Date.prototype.toUTCArray= function(){
var D= this;
return [D.getUTCFullYear(), D.getUTCMonth(), D.getUTCDate(), D.getUTCHours(),
D.getUTCMinutes(), D.getUTCSeconds()];
}
Date.prototype.toISO= function(){
var tem, A= this.toUTCArray(), i= 0;
A[1]+= 1;
while(i++<7){
tem= A[i];
if(tem<10) A[i]= '0'+tem;
}
return A.splice(0, 3).join('-')+'T'+A.join(':');
}
Another solution to convert to UTC and keep it as a date object:
(It works by removing the ' GMT' part from the end of the formatted string, then putting it back into the Date constructor)
const now = new Date();
const now_utc = new Date(now.toUTCString().slice(0, -4));
console.log(now_utc.toString()); // ignore the timezone
I needed to do this to interface with a datetime picker library. But in general it's a bad idea to work with dates this way.
Users generally want to work with datetimes in their local time, so you either update the server side code to parse datetime strings with offsets correctly, then convert to UTC (best option) or you convert to a UTC string client-side before sending to the server (like in Will Stern's answer)
Browsers may differ, and you should also remember to not trust any info generated by the client, that being said, the below statement works for me (Google Chrome v24 on Mac OS X 10.8.2)
var utcDate = new Date(new Date().getTime());
edit: "How is this different than just new Date()?" see here: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Date
If no arguments are provided, the constructor creates a JavaScript Date object for the current date and time according to system settings.
Note: Where Date is called as a constructor with more than one argument, the specifed arguments represent local time. If UTC is desired, use new Date(Date.UTC(...)) with the same arguments. (note: Date.UTC() returns the number of millisecond since 1970-01-01 00:00:00 UTC)
Adding the 60000 * Date.getTimezoneOffset() as previous answers have stated is incorrect. First, you must think of all Dates/Times as already being UTC with a timezone modifier for display purposes.
Again, browsers may differ, however, Date.getTime() returns the number of milliseconds since 1970-01-01 UTC/GMT. If you create a new Date using this number as I do above, it will be UTC/GMT. However, if you display it by calling .toString() it will appear to be in your local timezone because .toString() uses your local timezone, not the timezone of the Date object it is called on.
I have also found that if you call .getTimezoneOffset() on a date, it will return your local timezone, not the timezone of the date object you called it on (I can't verify this to be standard however).
In my browser, adding 60000 * Date.getTimezoneOffset() creates a DateTime that is not UTC. However when displayed within my browser (ex: .toString() ), it displays a DateTime in my local timezone that would be correct UTC time if timezone info is ignored.
My solution keeps the date the same no matter what timezone is set on the client-side. Maybe someone will find it useful.
My use case:
I'm creating a todo app, where you set date of your task. This date should remain constant no matter what timezone you're in.
Example. You want to call your friend at 8 am on June 25th.
You create this task 5 days before (June 20th) while you're in China.
Then, on the same day, you fly to New York for a few days.
Then on June 25th, while you're still in New York, you wake up at 7:30 am (which means you should receive task notification in 30 mins (even tho it's 1:30 pm already in China where you were when creating the task)
So the task is ignoring the timezone. It means 'I want to do it at 8 am in whatever timezone I'll be in'.
What I do is let's say 'I assume you're always in London Timezone - UTC'.
What it means is - when the user picks some date in her/his Timezone - I convert this date to the same date in UTC. ie. You pick 8 am in China, but I convert it to 8 am in UTC.
Then - next time you open the app - I read the date saved in UTC and convert it to the same date in your current timezone - eg. I convert 8 am in UTC to 8 am in the New York timezone.
This solution means that the date can mean something else depending on where you are when setting it and where you're reading it, but it remains constant in a way that it 'feels' like you're always in the same timezone.
Let's write some code:
First - we have 2 main functions for converting from/to UTC ignoring timezone:
export function convertLocalDateToUTCIgnoringTimezone(date: Date) {
const timestamp = Date.UTC(
date.getFullYear(),
date.getMonth(),
date.getDate(),
date.getHours(),
date.getMinutes(),
date.getSeconds(),
date.getMilliseconds(),
);
return new Date(timestamp);
}
export function convertUTCToLocalDateIgnoringTimezone(utcDate: Date) {
return new Date(
utcDate.getUTCFullYear(),
utcDate.getUTCMonth(),
utcDate.getUTCDate(),
utcDate.getUTCHours(),
utcDate.getUTCMinutes(),
utcDate.getUTCSeconds(),
utcDate.getUTCMilliseconds(),
);
}
Then, I save/read this date like:
function saveTaskDate(localDate: Date) {
// I convert your local calendar date so it looks like you've picked it being in UTC somewhere around London
const utcDate = convertLocalDateToUTCIgnoringTimezone(localDate);
api.saveTaskDate(utcDate);
}
function readTaskDate(taskUtcDate: Date) {
// I convert this UTC date to 'look in your local timezone' as if you were now in UTC somewhere around london
const localDateWithSameDayAsUTC = convertUTCToLocalDateIgnoringTimezone(taskUtcDate);
// this date will have the same calendar day as the one you've picked previously
// no matter where you were saving it and where you are now
}
var myDate = new Date(); // Set this to your date in whichever timezone.
var utcDate = myDate.toUTCString();
Are you trying to convert the date into a string like that?
I'd make a function to do that, and, though it's slightly controversial, add it to the Date prototype. If you're not comfortable with doing that, then you can put it as a standalone function, passing the date as a parameter.
Date.prototype.getISOString = function() {
var zone = '', temp = -this.getTimezoneOffset() / 60 * 100;
if (temp >= 0) zone += "+";
zone += (Math.abs(temp) < 100 ? "00" : (Math.abs(temp) < 1000 ? "0" : "")) + temp;
// "2009-6-4T14:7:32+10:00"
return this.getFullYear() // 2009
+ "-"
+ (this.getMonth() + 1) // 6
+ "-"
+ this.getDate() // 4
+ "T"
+ this.getHours() // 14
+ ":"
+ this.getMinutes() // 7
+ ":"
+ this.getSeconds() // 32
+ zone.substr(0, 3) // +10
+ ":"
+ String(temp).substr(-2) // 00
;
};
If you needed it in UTC time, just replace all the get* functions with getUTC*, eg: getUTCFullYear, getUTCMonth, getUTCHours... and then just add "+00:00" at the end instead of the user's timezone offset.
date = '2012-07-28'; stringdate = new Date(date).toISOString();
ought to work in most newer browsers. it returns 2012-07-28T00:00:00.000Z on Firefox 6.0
My recommendation when working with dates is to parse the date into individual fields from user input. You can use it as a full string, but you are playing with fire.
JavaScript can treat two equal dates in different formats differently.
https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Date/parse
Never do anything like:
new Date('date as text');
Once you have your date parsed into its individual fields from user input, create a date object. Once the date object is created convert it to UTC by adding the time zone offset. I can't stress how important it is to use the offset from the date object due to DST (that's another discussion however to show why).
var year = getFullYear('date as text');
var month = getMonth('date as text');
var dayOfMonth = getDate('date as text');
var date = new Date(year, month, dayOfMonth);
var offsetInMs = ((date.getTimezoneOffset() * 60) // Seconds
* 1000); // Milliseconds
var utcDate = new Date(date.getTime + offsetInMs);
Now you can pass the date to the server in UTC time. Again I would highly recommend against using any date strings. Either pass it to the server broken down to the lowest granularity you need e.g. year, month, day, minute or as a value like milliseconds from the unix epoch.
If you are dealing with dates a lot, it's worth using moment.js (http://momentjs.com). The method to convert to UTC would be:
moment(yourTime).utc()
You can use format to change your date to any format you want:
moment(yourTime).utc().format("YYYY-MM-DD")
There is offset options in moment as well but there is an additional complementary library for dealing with timezone (http://momentjs.com/timezone/). The time conversion would be as simple as this:
moment.tz(yourUTCTime, "America/New_York")
I've found the jQuery Globalization Plugin date parsing to work best. Other methods had cross-browser issues and stuff like date.js had not been updated in quite a while.
You also don't need a datePicker on the page. You can just call something similar to the example given in the docs:
$.parseDate('yy-mm-dd', '2007-01-26');
I just discovered that the 1.2.3 version of Steven Levithan's date.format.js does just what I want. It allows you to supply a format string for a JavaScript date and will convert from local time to UTC. Here's the code I'm using now:
// JavaScript dates don't like hyphens!
var rectifiedDateText = dateText.replace(/-/g, "/");
var d = new Date(rectifiedDateText);
// Using a predefined mask from date.format.js.
var convertedDate = dateFormat(d, 'isoUtcDateTime');
Using moment.js UTC method;
const moment = require('moment');
const utc = moment.utc(new Date(string));
This function works beautifully for me.
function ParseDateForSave(dateValue) {
// create a new date object
var newDate = new Date(parseInt(dateValue.substr(6)));
// return the UTC version of the date
return newDate.toISOString();
}
This method will give you : 2017-08-04T11:15:00.000+04:30 and you can ignore zone variable to simply get 2017-08-04T11:15:00.000.
function getLocalIsoDateTime(dtString) {
if(dtString == "")
return "";
var offset = new Date().getTimezoneOffset();
var localISOTime = (new Date(new Date(dtString) - offset * 60000 /*offset in milliseconds*/)).toISOString().slice(0,-1);
//Next two lines can be removed if zone isn't needed.
var absO = Math.abs(offset);
var zone = (offset < 0 ? "+" : "-") + ("00" + Math.floor(absO / 60)).slice(-2) + ":" + ("00" + (absO % 60)).slice(-2);
return localISOTime + zone;
}
If you need Date Object
Passing only date string Date assumes time to be 00:00 shifted by time zone:
new Date('2019-03-11')
Sun Mar 10 2019 18:00:00 GMT-0600 (Central Standard Time)
If you add current hours and minutes you get proper date:
new Date('2019-03-11 ' + new Date().getHours() + ':' + new Date().getMinutes())
Mon Mar 11 2019 04:36:00 GMT-0600 (Central Standard Time)
The getTimezoneOffset() method returns the time zone difference, in
minutes, from current locale (host system settings) to UTC.
Source: MDN web docs
This means that the offset is positive if the local timezone is behind UTC, and negative if it is ahead. For example, for time zone UTC+02:00, -120 will be returned.
let d = new Date();
console.log(d);
d.setTime(d.getTime() + (d.getTimezoneOffset() * 60000));
console.log(d);
NOTE: This will shift the date object time to UTC±00:00 and not convert its timezone so the date object timezone will still the same but the value will be in UTC±00:00.
This is what I have done in the past:
var utcDateString = new Date(new Date().toUTCString()).toISOString();
For other people whos goal is to get it as a "Date Object" and not as a string, and you only want to display the date/time without the TZ (probably hardcoded), what you can do is:
const now = new Date();
const year = now.getUTCFullYear();
const month = now.getUTCMonth();
const day = now.getUTCDate();
const hour = now.getUTCHours();
const tomorrowUTC= new Date();
tomorrowUTC.setDate(day + 1); // +1 because my logic is to get "tomorrow"
tomorrowUTC.setYear(year);
tomorrowUTC.setMonth(month);
tomorrowUTC.Hours(hour);
// then use the tomorrowUTC for to display/format it
// tomorrowUTC is a "Date" and not a string.
You can then do stuff like:
We will delete your account at ${format(tomorrowUTC, 'EEEE do MMMM hh:mmaaa')} UTC
(format is a date-fns function, you can use other lib if you want);
This is kinda "hacky" as this is still using your local timezone, but if you just wanna display the date and not the timezone, then this works.
If your date has the timezone on it you can use date-fns-tz:
import { zonedTimeToUtc } from 'date-fns-tz';
const dateBrazil = new Date() // I'm in Brazil, you should have or get the user timezone.
const dateUtc = zonedTimeToUtc(dateBrazil, 'America/Sao_Paulo')
Looking at your question its clear that you just want to send the date range to your backend for further post processing.
I am assuming you are conforming to the standard data guidelines which expect the data to be in a particular format. For example, I use ODATA which is a RESTfull API which expects date time objects to be in the format:-
YYYY-MM-DDT00:00:00.
That can be easily achieved via the snippet posted below(Please change the format as per your requirement).
var mydate;//assuming this is my date object which I want to expose
var UTCDateStr = mydate.getUTCFullYear() + "-" + mydate.getUTCMonth() + "-" + mydate.getUTCDate() + "T00:00:00";
If on the other hand, you are in my situation wherein you have received a date from your backend, and the browser converts that to your local date. You on the other hand are interested in the UTC date then you can perform the following:-
var mydate;//assuming this is my date object which I want to expose
var UTCDate = new Date(mydate);/*create a copy of your date object. Only needed if you for some reason need the original local date*/
UTCDate.setTime(UTCDate.getTime() + UTCDate.getTimezoneOffset() * 60 * 1000);
The code snippet above basically adds/subtracts the time added/subtracted by the browser based on the timezone.
For example if I am in EST(GMT-5) and my Service returns a date time object = Wed Aug 17 2016 00:00:00 GMT-0500
my browser automatically subtracts the timezone offset(5hrs) to get my local time. So if I try to fetch the time I get Wed Aug 16 2016 19:00:00 GMT-0500. This causes a lot of problems. There are a lot of libraries out there which will definitely make this easier but I wanted to share the pure JS approach.
For more info please have a look at: http://praveenlobo.com/blog/how-to-convert-javascript-local-date-to-utc-and-utc-to-local-date/ where in I got my inspiration.
Hope this helps!
var userdate = new Date("2009-1-1T8:00:00Z");
var timezone = userdate.getTimezoneOffset();
var serverdate = new Date(userdate.setMinutes(userdate.getMinutes()+parseInt(timezone)));
This will give you the proper UTC Date and Time.
It's because the getTimezoneOffset() will give you the timezone difference in minutes.
I recommend you that not to use toISOString() because the output will be in the string Hence in future you will not able to manipulate the date
Using moment package, you can easily convert a date string of UTC to a new Date object:
const moment = require('moment');
let b = new Date(moment.utc('2014-02-20 00:00:00.000000'));
let utc = b.toUTCString();
b.getTime();
This specially helps when your server do not support timezone and you want to store UTC date always in server and get it back as a new Date object. Above code worked for my requirement of similar issue that this thread is for. Sharing here so that it can help others. I do not see exactly above solution in any answer. Thanks.
I know this question is old, but was looking at this same issue, and one option would be to send date.valueOf() to the server instead. the valueOf() function of the javascript Date sends the number of milliseconds since midnight January 1, 1970 UTC.
valueOf()
You can use the following method to convert any js date to UTC:
let date = new Date(YOUR_DATE).toISOString()
// It would give the date in format "2020-06-16T12:30:00.000Z" where Part before T is date in YYYY-MM-DD format, part after T is time in format HH:MM:SS and Z stands for UTC - Zero hour offset
By far the best way I found to get the GMT time is first get your local date time. Then convert in to GMT String. Then use the string to build new time by removing the timezone.
let dtLocal = new Date()
let dt = new Date(dtLocal.toISOString().split('Z')[0])
Note: - it will create the new datetime in GMT. But it will be local date time as timezone will be attached to it.
Extension function:
if (!Date.prototype.toUTC){
Date.prototype.toUTC = function(){
var utcOffset = new Date().getTimezoneOffset();
var utcNow = new Date().addMinutes(utcOffset);
return utcNow;
};
}
Usage:
new Date().toUTC();

Get current timestamp from specific date using UTC/GMT+0 as epoch ignoring local time zone epoch

I've tried a lot from this community but it seems like there's no hyper specific scenario for my case.
So basically I have a string in the format of yyyy-mm-dd. I use date methods to adjust it and add time on the date to make it more specific. I want to convert it to timestamp while ignoring the client computer's current timezone (or using UTC timezone).
I have this code:
function getTimestampRange(sparams, eparams){
sparams = "2018-11-12", eparams = "2018-11-13"; //sample param values
const start = sparams.split("-");
const end = eparams.split("-");
const startDate = new Date(start[0], start[1] - 1, start[2]);
const endDate = new Date(end[0], end[1] - 1, end[2]);
endDate.setHours(23);
endDate.setMinutes(59);
endDate.setSeconds(59);
//startDate is 2018-11-12 00:00:00 and endDate is 2018-11-13 23:59:59
const startTS = startDate.getTime() / 1000;
const endTS = endDate.getTime() / 1000;
return [startTS, endTS]
}
This is all fine and dandy but the problem is, I'm getting the timestamp relative to my computer's timezone. (GMT+9). So my epoch is the 9th hour of 1970-01-01. Which is not what I need. I need the GMT+0 UTC timestamp.
In this scenario, I'd get 1541948400 and 1542121199, start and end respectively; where I should be getting 1541980800 and 1542153599.
Tasukete kudasai
You have two options here...
Use Date.UTC to construct timestamps in UTC
const startDate = Date.UTC(start[0], start[1] - 1, start[2]) // a timestamp
const endDate = Date.UTC(end[0], end[1] - 1, end[2], 23, 59, 59) // a timestamp
Note: Date.UTC() produces a timestamp in milliseconds, not a Date instance. Since you're able to set the hours, minutes and seconds as above, you no longer need to manipulate those.
Use your existing date strings which adhere to the ISO 8601 standard as the sole argument to the Date constructor.
This benefits from this particular nuance...
Support for ISO 8601 formats differs in that date-only strings (e.g. "1970-01-01") are treated as UTC, not local.
const startDate = new Date(sparams)
const endDate = new Date(eparams)
Parsing ISO 8601 is supposedly supported in all decent browsers and IE from v9. Since this relies on a particular "feature" that may or may not be implemented in a client, there is an element of risk to this method.
For your end date, if parsing you can easily append a time and zone portion to the date string rather than manipulate the date object with hour, minute and second values. For example
const endDate = new Date(`${eparams}T23:59:59Z`)
alternatively, use Date.prototype.setUTCHours()...
const endDate = new Date(eparams)
endDate.setUTCHours(23, 59, 59)

Automatical timezone [duplicate]

I have date time in a particular timezone as a string and I want to convert this to the local time. But, I don't know how to set the timezone in the Date object.
For example, I have Feb 28 2013 7:00 PM ET, then I can
var mydate = new Date();
mydate.setFullYear(2013);
mydate.setMonth(02);
mydate.setDate(28);
mydate.setHours(7);
mydate.setMinutes(00);
As far as I know, I can either set the UTC time or local time. But, how do I set time in another timezone?
I tried to use the add/subtract the offset from UTC but I don't know how to counter daylight savings. Am not sure if I am heading the right direction.
How can I go about converting time from a different timezone to local time in javascript?
Background
JavaScript's Date object tracks time in UTC internally, but typically accepts input and produces output in the local time of the computer it's running on. It has very few facilities for working with time in other time zones.
The internal representation of a Date object is a single number, representing the number of milliseconds that have elapsed since 1970-01-01 00:00:00 UTC, without regard to leap seconds.
There is no time zone or string format stored in the Date object itself.
When various functions of the Date object are used, the computer's local time zone is applied to the internal representation. If the function produces a string, then the computer's locale information may be taken into consideration to determine how to produce that string. The details vary per function, and some are implementation-specific.
The only operations the Date object can do with non-local time zones are:
It can parse a string containing a numeric UTC offset from any time zone. It uses this to adjust the value being parsed, and stores the UTC equivalent. The original local time and offset are not retained in the resulting Date object. For example:
var d = new Date("2020-04-13T00:00:00.000+08:00");
d.toISOString() //=> "2020-04-12T16:00:00.000Z"
d.valueOf() //=> 1586707200000 (this is what is actually stored in the object)
In environments that have implemented the ECMASCript Internationalization API (aka "Intl"), a Date object can produce a locale-specific string adjusted to a given time zone identifier. This is accomplished via the timeZone option to toLocaleString and its variations. Most implementations will support IANA time zone identifiers, such as 'America/New_York'. For example:
var d = new Date("2020-04-13T00:00:00.000+08:00");
d.toLocaleString('en-US', { timeZone: 'America/New_York' })
//=> "4/12/2020, 12:00:00 PM"
// (midnight in China on Apring 13th is noon in New York on April 12th)
Most modern environments support the full set of IANA time zone identifiers (see the compatibility table here). However, keep in mind that the only identifier required to be supported by Intl is 'UTC', thus you should check carefully if you need to support older browsers or atypical environments (for example, lightweight IoT devices).
Libraries
There are several libraries that can be used to work with time zones. Though they still cannot make the Date object behave any differently, they typically implement the standard IANA timezone database and provide functions for using it in JavaScript. Modern libraries use the time zone data supplied by the Intl API, but older libraries typically have overhead, especially if you are running in a web browser, as the database can get a bit large. Some of these libraries also allow you to selectively reduce the data set, either by which time zones are supported and/or by the range of dates you can work with.
Here are the libraries to consider:
Intl-based Libraries
New development should choose from one of these implementations, which rely on the Intl API for their time zone data:
Luxon (successor of Moment.js)
date-fns-tz (extension for date-fns)
Day.js (when using its Timezone plugin)
Non-Intl Libraries
These libraries are maintained, but carry the burden of packaging their own time zone data, which can be quite large.
js-joda/timezone (extension for js-joda)
moment-timezone* (extension for Moment.js)
date-fns-timezone (extension for older 1.x of date-fns)
BigEasy/TimeZone
tz.js
* While Moment and Moment-Timezone were previously recommended, the Moment team now prefers users chose Luxon for new development.
Discontinued Libraries
These libraries have been officially discontinued and should no longer be used.
WallTime-js
TimeZoneJS
Future Proposals
The TC39 Temporal Proposal aims to provide a new set of standard objects for working with dates and times in the JavaScript language itself. This will include support for a time zone aware object.
Common Errors
There are several approaches that are often tried, which are in error and should usually be avoided.
Re-Parsing
new Date(new Date().toLocaleString('en', {timeZone: 'America/New_York'}))
The above approach correctly uses the Intl API to create a string in a specific time zone, but then it incorrectly passes that string back into the Date constructor. In this case, parsing will be implementation-specific, and may fail entirely. If successful, it is likely that the resulting Date object now represents the wrong instant in time, as the computer's local time zone would be applied during parsing.
Epoch Shifting
var d = new Date();
d.setTime(d.getTime() + someOffset * 60000);
The above approach attempts to manipulate the Date object's time zone by shifting the Unix timestamp by some other time zone offset. However, since the Date object only tracks time in UTC, it actually just makes the Date object represent a different point in time.
The same approach is sometimes used directly on the constructor, and is also invalid.
Epoch Shifting is sometimes used internally in date libraries as a shortcut to avoid writing calendar arithmetic. When doing so, any access to non-UTC properties must be avoided. For example, once shifted, a call to getUTCHours would be acceptable, but a call to getHours would be invalid because it uses the local time zone.
It is called "epoch shifting", because when used correctly, the Unix Epoch (1970-01-01T00:00:00.000Z) is now no longer correlated to a timestamp of 0 but has shifted to a different timestamp by the amount of the offset.
If you're not authoring a date library, you should not be epoch shifting.
For more details about epoch shifting, watch this video clip from Greg Miller at CppCon 2015. The video is about time_t in C++, but the explanation and problems are identical. (For JavaScript folks, every time you hear Greg mention time_t, just think "Date object".)
Trying to make a "UTC Date"
var d = new Date();
var utcDate = new Date(Date.UTC(d.getUTCFullYear(), d.getUTCMonth(), d.getUTCDate(), d.getUTCHours(), d.getUTCMinutes(), d.getUTCSeconds(), d.getUTCMilliseconds()));
In this example, both d and utcDate are identical. The work to construct utcDate was redundant, because d is already in terms of UTC. Examining the output of toISOString, getTime, or valueOf functions will show identical values for both variables.
A similar approach seen is:
var d = new Date();
var utcDate = new Date(d.getUTCFullYear(), d.getUTCMonth(), d.getUTCDate(), d.getUTCHours(), d.getUTCMinutes(), d.getUTCSeconds(), d.getUTCMilliseconds());
This is approach passes UTC values into the Date constructor where local time values are expected. The resulting Date object now represents a completely different point in time. It is essentially the same result as epoch shifting described earlier, and thus should be avoided.
The correct way to get a UTC-based Date object is simply new Date(). If you need a string representation that is in UTC, then use new Date().toISOString().
As Matt Johnson said
If you can limit your usage to modern web browsers, you can now do the
following without any special libraries:
new Date().toLocaleString("en-US", {timeZone: "America/New_York"})
This isn't a comprehensive solution, but it works for many scenarios
that require only output conversion (from UTC or local time to a
specific time zone, but not the other direction).
So although the browser can not read IANA timezones when creating a date, or has any methods to change the timezones on an existing Date object, there seems to be a hack around it:
function changeTimezone(date, ianatz) {
// suppose the date is 12:00 UTC
var invdate = new Date(date.toLocaleString('en-US', {
timeZone: ianatz
}));
// then invdate will be 07:00 in Toronto
// and the diff is 5 hours
var diff = date.getTime() - invdate.getTime();
// so 12:00 in Toronto is 17:00 UTC
return new Date(date.getTime() - diff); // needs to substract
}
// E.g.
var here = new Date();
var there = changeTimezone(here, "America/Toronto");
console.log(`Here: ${here.toString()}\nToronto: ${there.toString()}`);
This should solve your problem, please feel free to offer fixes. This method will account also for daylight saving time for the given date.
dateWithTimeZone = (timeZone, year, month, day, hour, minute, second) => {
let date = new Date(Date.UTC(year, month, day, hour, minute, second));
let utcDate = new Date(date.toLocaleString('en-US', { timeZone: "UTC" }));
let tzDate = new Date(date.toLocaleString('en-US', { timeZone: timeZone }));
let offset = utcDate.getTime() - tzDate.getTime();
date.setTime( date.getTime() + offset );
return date;
};
How to use with timezone and local time:
dateWithTimeZone("America/Los_Angeles",2019,8,8,0,0,0)
You can specify a time zone offset on new Date(), for example:
new Date('Feb 28 2013 19:00:00 EST')
or
new Date('Feb 28 2013 19:00:00 GMT-0500')
Since Date store UTC time ( i.e. getTime returns in UTC ), javascript will them convert the time into UTC, and when you call things like toString javascript will convert the UTC time into browser's local timezone and return the string in local timezone, i.e. If I'm using UTC+8:
> new Date('Feb 28 2013 19:00:00 GMT-0500').toString()
< "Fri Mar 01 2013 08:00:00 GMT+0800 (CST)"
Also you can use normal getHours/Minute/Second method:
> new Date('Feb 28 2013 19:00:00 GMT-0500').getHours()
< 8
( This 8 means after the time is converted into my local time - UTC+8, the hours number is 8. )
I found the most supported way to do this, without worrying about a third party library, was by using getTimezoneOffset to calculate the appropriate timestamp, or update the time then use the normal methods to get the necessary date and time.
var mydate = new Date();
mydate.setFullYear(2013);
mydate.setMonth(02);
mydate.setDate(28);
mydate.setHours(7);
mydate.setMinutes(00);
// ET timezone offset in hours.
var timezone = -5;
// Timezone offset in minutes + the desired offset in minutes, converted to ms.
// This offset should be the same for ALL date calculations, so you should only need to calculate it once.
var offset = (mydate.getTimezoneOffset() + (timezone * 60)) * 60 * 1000;
// Use the timestamp and offset as necessary to calculate min/sec etc, i.e. for countdowns.
var timestamp = mydate.getTime() + offset,
seconds = Math.floor(timestamp / 1000) % 60,
minutes = Math.floor(timestamp / 1000 / 60) % 60,
hours = Math.floor(timestamp / 1000 / 60 / 60);
// Or update the timestamp to reflect the timezone offset.
mydate.setTime(mydate.getTime() + offset);
// Then Output dates and times using the normal methods.
var date = mydate.getDate(),
hour = mydate.getHours();
EDIT
I was previously using UTC methods when performing the date transformations, which was incorrect. With adding the offset to the time, using the local get functions will return the desired results.
For Ionic users, I had hell with this because .toISOString() has to be used with the html template.
This will grab the current date, but of course can be added to previous answers for a selected date.
I got it fixed using this:
date = new Date();
public currentDate: any = new Date(this.date.getTime() - this.date.getTimezoneOffset()*60000).toISOString();
The *60000 is indicating the UTC -6 which is CST so whatever TimeZone is needed, the number and difference can be changed.
I ran into this issue running a GCP Cloud Function. Of course it works on a local machine, but running in the cloud makes the OS default (local) for new Date() irrelevant. In my case, an api call from the cloud required Eastern Standard Time, in ISO format (without the "Z") with offset as "-0500" or "-0400" depending on DST, for example:
2021-12-01T00:00:00.000-0500
Again, this is not a browser formatting issue, so I am forced into this format for the api call to work correctly.
Using #chickens code as a start, this is what worked:
var date = new Date();
var now_utc = Date.UTC(date.getUTCFullYear(), date.getUTCMonth(), date.getUTCDate(),
date.getUTCHours(), date.getUTCMinutes(), date.getUTCSeconds());
var dt = new Date(now_utc);
let utcDate = new Date(dt.toLocaleString('en-US', { timeZone: "UTC" }));
let tzDate = new Date(dt.toLocaleString('en-US', { timeZone: "America/New_York" }));
let offset1 = utcDate.getTime() - tzDate.getTime();
let offset2 = offset1/60000;
let o1 = Math.abs(offset2);
console.log(offset2)
var offsetValue1 = (offset2 < 0 ? "+" : "-") + ("00" + Math.floor(o1 / 60)).slice(-2) + ("00" + (o1 % 60)).slice(-2);
console.log(offsetValue1)
dt.setTime(dt.getTime() - offset1);
console.log(dt.toISOString());
console.log(dt.toISOString().slice(0,-1)+offsetValue1);
I ran into a similar problem with unit tests (specifically in jest when the unit tests run locally to create the snapshots and then the CI server runs in (potentially) a different timezone causing the snapshot comparison to fail). I mocked our Date and some of the supporting methods like so:
describe('...', () => {
let originalDate;
beforeEach(() => {
originalDate = Date;
Date = jest.fn(
(d) => {
let newD;
if (d) {
newD = (new originalDate(d));
} else {
newD = (new originalDate('2017-05-29T10:00:00z'));
}
newD.toLocaleString = () => {
return (new originalDate(newD.valueOf())).toLocaleString("en-US", {timeZone: "America/New_York"});
};
newD.toLocaleDateString = () => {
return (new originalDate(newD.valueOf())).toLocaleDateString("en-US", {timeZone: "America/New_York"});
};
newD.toLocaleTimeString = () => {
return (new originalDate(newD.valueOf())).toLocaleTimeString("en-US", {timeZone: "America/New_York"});
};
return newD;
}
);
Date.now = () => { return (Date()); };
});
afterEach(() => {
Date = originalDate;
});
});
I had the same problem but we can use the time zone we want
we use .toLocaleDateString()
eg:
var day=new Date();
const options= {day:'numeric', month:'long', year:"numeric", timeZone:"Asia/Kolkata"};
const today=day.toLocaleDateString("en-IN", options);
console.log(today);
Try using ctoc from npm.
https://www.npmjs.com/package/ctoc_timezone
It has got simple functionality to change timezones (most timezones around 400) and all custom formats u want it to display.
Building on the answers above, I am using this native one liner to convert the long timezone string to the three letter string:
var longTz = 'America/Los_Angeles';
var shortTz = new Date().
toLocaleString("en", {timeZoneName: "short", timeZone: longTz}).
split(' ').
pop();
This will give PDT or PST depending on the date provided. In my particular use case, developing on Salesforce (Aura/Lightning), we are able to get the user timezone in the long format from the backend.
Thanks to #commonpike answer, I wrote a function which takes an ISO String date such as 2020-10-10T08:00:00.000 as input and send an object which contains 2 main properties.
The first one is fromUtc is a Date corresponding to the timeZone entered as parameter.
The second one is toUtc which lets you to format a Date stemming from fromUtc.
const timeZoneTransformer = (stringDate, timeZone = "Europe/Paris") => {
const now = new Date();
const serverDate = new Date(stringDate);
const utcDate = new Date(
Date.UTC(
serverDate.getFullYear(),
serverDate.getMonth(),
serverDate.getDate(),
serverDate.getHours(),
serverDate.getMinutes(),
serverDate.getSeconds()
)
);
const invdate = new Date(
serverDate.toLocaleString("en-US", {
timeZone,
})
);
const diff = now.getTime() - invdate.getTime();
const adjustedDate = new Date(now.getTime() - diff);
return {
toUtc: utcDate,
fromUtc: adjustedDate,
};
};
const fromUtc = timeZoneTransformer("2020-10-10T08:00:00.000").fromUtc;
console.log(fromUtc);
const toUtc = timeZoneTransformer(fromUtc).toUtc;
console.log(toUtc);
Try: date-from-timezone, it resolves expected date with help of natively available Intl.DateTimeFormat.
I used that method in one of my projects for few years already, but it's now I decided to publish it as small OS project :)
Try something like this,
public static getTimezoneOffset(timeZone: string, date = new Date()): number {
const localDate = date.toLocaleString('fr', { timeZone, timeZoneName: 'long' });
const tz = localDate.split(' ');
const TZ = localDate.replace(tz[0], '').replace(tz[1], '').replace(' ', '');
const dateString = date.toString();
const offset = (Date.parse(`${dateString} UTC`) - Date.parse(`${dateString}${TZ}`)) / (3600 * 1000);
return offset;
}
I'm not sure why all these answers are so complicated. Just use YYYY-MM-DD ZZZ when creating a date-only date in the local / desired time zone.
Create a local date:
var myDate = new Date('2022-11-29 CST')
The date will be stored in storage as UTC, great.
Get the date out of storage and display it as local:
myDate.toLocaleDateString()
11/29/2022
I know its 3 years too late, but maybe it can help someone else because I haven't found anything like that except for the moment-timezone library, which is not exactly the same as what he's asking for here.
I've done something similar for german timezone,
this is a little complex because of daylight saving time and leap years where you have 366 days.
it might need a little work with the "isDaylightSavingTimeInGermany" function while different timezones change on different times the daylight saving time.
anyway, check out this page:
https://github.com/zerkotin/german-timezone-converter/wiki
the main methods are:
convertLocalDateToGermanTimezone
convertGermanDateToLocalTimezone
I've put an effort into documenting it, so it won't be so confusing.
There are several working answers here, but somehow a lot of them seemed to get you to the string, but not back to a date object you started with, so here's my simple non-function take on how to change timezone on JS date:
var TZ='Australia/Brisbane'; //Target timezone from server
var date = new Date(); //Init this to a time if you don't want current time
date=new Date(Date.parse(date.toLocaleString("en-US", {timeZone: TZ})));
//Just a clarification on what happens
// 1) First new Date() gives you a Date object at current time in the clients browser local timezone
// 2) .toLocaleString takes that time, and returns a string if time in the target timezone
// 3) Date.parse converts that new string to a Unix epoch number
// 4) new Date() converts the Unix epoch into a Date object in the new TimeZone.
// Now I can use my usual getHours and other Date functions as required.
Hope that helps others (if you get to this bottom answer!)
Simple with Node.JS support
Pass in the amount of hours your timezone is offset from UTC
function initDateInTimezone(offsetHours) {
const timezoneOffsetInMS = offsetHours * 60 * 60000;
let d = new Date().getTimezoneOffset() * 60000 + timezoneOffsetInMS;
const date = new Date(new Date().getTime() - d);
return date
}
//For Mumbai time difference is 5.5 hrs so
city_time_diff=5.5; //change according to your city
let time_now = Date.now();
time_now = time_now + (3600000 * city_time_diff); //Add our city time (in msec);
let new_date = new Date(time_now);
console.log("My city time is: ", new_date);
Was facing the same issue, used this one
Console.log(Date.parse("Jun 13, 2018 10:50:39 GMT+1"));
It will return milliseconds to which u can check have +100 timzone intialize British time
Hope it helps!!

TimeZone specific timestamp conversion using plain JavaScript in Safari [duplicate]

I have date time in a particular timezone as a string and I want to convert this to the local time. But, I don't know how to set the timezone in the Date object.
For example, I have Feb 28 2013 7:00 PM ET, then I can
var mydate = new Date();
mydate.setFullYear(2013);
mydate.setMonth(02);
mydate.setDate(28);
mydate.setHours(7);
mydate.setMinutes(00);
As far as I know, I can either set the UTC time or local time. But, how do I set time in another timezone?
I tried to use the add/subtract the offset from UTC but I don't know how to counter daylight savings. Am not sure if I am heading the right direction.
How can I go about converting time from a different timezone to local time in javascript?
Background
JavaScript's Date object tracks time in UTC internally, but typically accepts input and produces output in the local time of the computer it's running on. It has very few facilities for working with time in other time zones.
The internal representation of a Date object is a single number, representing the number of milliseconds that have elapsed since 1970-01-01 00:00:00 UTC, without regard to leap seconds.
There is no time zone or string format stored in the Date object itself.
When various functions of the Date object are used, the computer's local time zone is applied to the internal representation. If the function produces a string, then the computer's locale information may be taken into consideration to determine how to produce that string. The details vary per function, and some are implementation-specific.
The only operations the Date object can do with non-local time zones are:
It can parse a string containing a numeric UTC offset from any time zone. It uses this to adjust the value being parsed, and stores the UTC equivalent. The original local time and offset are not retained in the resulting Date object. For example:
var d = new Date("2020-04-13T00:00:00.000+08:00");
d.toISOString() //=> "2020-04-12T16:00:00.000Z"
d.valueOf() //=> 1586707200000 (this is what is actually stored in the object)
In environments that have implemented the ECMASCript Internationalization API (aka "Intl"), a Date object can produce a locale-specific string adjusted to a given time zone identifier. This is accomplished via the timeZone option to toLocaleString and its variations. Most implementations will support IANA time zone identifiers, such as 'America/New_York'. For example:
var d = new Date("2020-04-13T00:00:00.000+08:00");
d.toLocaleString('en-US', { timeZone: 'America/New_York' })
//=> "4/12/2020, 12:00:00 PM"
// (midnight in China on Apring 13th is noon in New York on April 12th)
Most modern environments support the full set of IANA time zone identifiers (see the compatibility table here). However, keep in mind that the only identifier required to be supported by Intl is 'UTC', thus you should check carefully if you need to support older browsers or atypical environments (for example, lightweight IoT devices).
Libraries
There are several libraries that can be used to work with time zones. Though they still cannot make the Date object behave any differently, they typically implement the standard IANA timezone database and provide functions for using it in JavaScript. Modern libraries use the time zone data supplied by the Intl API, but older libraries typically have overhead, especially if you are running in a web browser, as the database can get a bit large. Some of these libraries also allow you to selectively reduce the data set, either by which time zones are supported and/or by the range of dates you can work with.
Here are the libraries to consider:
Intl-based Libraries
New development should choose from one of these implementations, which rely on the Intl API for their time zone data:
Luxon (successor of Moment.js)
date-fns-tz (extension for date-fns)
Day.js (when using its Timezone plugin)
Non-Intl Libraries
These libraries are maintained, but carry the burden of packaging their own time zone data, which can be quite large.
js-joda/timezone (extension for js-joda)
moment-timezone* (extension for Moment.js)
date-fns-timezone (extension for older 1.x of date-fns)
BigEasy/TimeZone
tz.js
* While Moment and Moment-Timezone were previously recommended, the Moment team now prefers users chose Luxon for new development.
Discontinued Libraries
These libraries have been officially discontinued and should no longer be used.
WallTime-js
TimeZoneJS
Future Proposals
The TC39 Temporal Proposal aims to provide a new set of standard objects for working with dates and times in the JavaScript language itself. This will include support for a time zone aware object.
Common Errors
There are several approaches that are often tried, which are in error and should usually be avoided.
Re-Parsing
new Date(new Date().toLocaleString('en', {timeZone: 'America/New_York'}))
The above approach correctly uses the Intl API to create a string in a specific time zone, but then it incorrectly passes that string back into the Date constructor. In this case, parsing will be implementation-specific, and may fail entirely. If successful, it is likely that the resulting Date object now represents the wrong instant in time, as the computer's local time zone would be applied during parsing.
Epoch Shifting
var d = new Date();
d.setTime(d.getTime() + someOffset * 60000);
The above approach attempts to manipulate the Date object's time zone by shifting the Unix timestamp by some other time zone offset. However, since the Date object only tracks time in UTC, it actually just makes the Date object represent a different point in time.
The same approach is sometimes used directly on the constructor, and is also invalid.
Epoch Shifting is sometimes used internally in date libraries as a shortcut to avoid writing calendar arithmetic. When doing so, any access to non-UTC properties must be avoided. For example, once shifted, a call to getUTCHours would be acceptable, but a call to getHours would be invalid because it uses the local time zone.
It is called "epoch shifting", because when used correctly, the Unix Epoch (1970-01-01T00:00:00.000Z) is now no longer correlated to a timestamp of 0 but has shifted to a different timestamp by the amount of the offset.
If you're not authoring a date library, you should not be epoch shifting.
For more details about epoch shifting, watch this video clip from Greg Miller at CppCon 2015. The video is about time_t in C++, but the explanation and problems are identical. (For JavaScript folks, every time you hear Greg mention time_t, just think "Date object".)
Trying to make a "UTC Date"
var d = new Date();
var utcDate = new Date(Date.UTC(d.getUTCFullYear(), d.getUTCMonth(), d.getUTCDate(), d.getUTCHours(), d.getUTCMinutes(), d.getUTCSeconds(), d.getUTCMilliseconds()));
In this example, both d and utcDate are identical. The work to construct utcDate was redundant, because d is already in terms of UTC. Examining the output of toISOString, getTime, or valueOf functions will show identical values for both variables.
A similar approach seen is:
var d = new Date();
var utcDate = new Date(d.getUTCFullYear(), d.getUTCMonth(), d.getUTCDate(), d.getUTCHours(), d.getUTCMinutes(), d.getUTCSeconds(), d.getUTCMilliseconds());
This is approach passes UTC values into the Date constructor where local time values are expected. The resulting Date object now represents a completely different point in time. It is essentially the same result as epoch shifting described earlier, and thus should be avoided.
The correct way to get a UTC-based Date object is simply new Date(). If you need a string representation that is in UTC, then use new Date().toISOString().
As Matt Johnson said
If you can limit your usage to modern web browsers, you can now do the
following without any special libraries:
new Date().toLocaleString("en-US", {timeZone: "America/New_York"})
This isn't a comprehensive solution, but it works for many scenarios
that require only output conversion (from UTC or local time to a
specific time zone, but not the other direction).
So although the browser can not read IANA timezones when creating a date, or has any methods to change the timezones on an existing Date object, there seems to be a hack around it:
function changeTimezone(date, ianatz) {
// suppose the date is 12:00 UTC
var invdate = new Date(date.toLocaleString('en-US', {
timeZone: ianatz
}));
// then invdate will be 07:00 in Toronto
// and the diff is 5 hours
var diff = date.getTime() - invdate.getTime();
// so 12:00 in Toronto is 17:00 UTC
return new Date(date.getTime() - diff); // needs to substract
}
// E.g.
var here = new Date();
var there = changeTimezone(here, "America/Toronto");
console.log(`Here: ${here.toString()}\nToronto: ${there.toString()}`);
This should solve your problem, please feel free to offer fixes. This method will account also for daylight saving time for the given date.
dateWithTimeZone = (timeZone, year, month, day, hour, minute, second) => {
let date = new Date(Date.UTC(year, month, day, hour, minute, second));
let utcDate = new Date(date.toLocaleString('en-US', { timeZone: "UTC" }));
let tzDate = new Date(date.toLocaleString('en-US', { timeZone: timeZone }));
let offset = utcDate.getTime() - tzDate.getTime();
date.setTime( date.getTime() + offset );
return date;
};
How to use with timezone and local time:
dateWithTimeZone("America/Los_Angeles",2019,8,8,0,0,0)
You can specify a time zone offset on new Date(), for example:
new Date('Feb 28 2013 19:00:00 EST')
or
new Date('Feb 28 2013 19:00:00 GMT-0500')
Since Date store UTC time ( i.e. getTime returns in UTC ), javascript will them convert the time into UTC, and when you call things like toString javascript will convert the UTC time into browser's local timezone and return the string in local timezone, i.e. If I'm using UTC+8:
> new Date('Feb 28 2013 19:00:00 GMT-0500').toString()
< "Fri Mar 01 2013 08:00:00 GMT+0800 (CST)"
Also you can use normal getHours/Minute/Second method:
> new Date('Feb 28 2013 19:00:00 GMT-0500').getHours()
< 8
( This 8 means after the time is converted into my local time - UTC+8, the hours number is 8. )
I found the most supported way to do this, without worrying about a third party library, was by using getTimezoneOffset to calculate the appropriate timestamp, or update the time then use the normal methods to get the necessary date and time.
var mydate = new Date();
mydate.setFullYear(2013);
mydate.setMonth(02);
mydate.setDate(28);
mydate.setHours(7);
mydate.setMinutes(00);
// ET timezone offset in hours.
var timezone = -5;
// Timezone offset in minutes + the desired offset in minutes, converted to ms.
// This offset should be the same for ALL date calculations, so you should only need to calculate it once.
var offset = (mydate.getTimezoneOffset() + (timezone * 60)) * 60 * 1000;
// Use the timestamp and offset as necessary to calculate min/sec etc, i.e. for countdowns.
var timestamp = mydate.getTime() + offset,
seconds = Math.floor(timestamp / 1000) % 60,
minutes = Math.floor(timestamp / 1000 / 60) % 60,
hours = Math.floor(timestamp / 1000 / 60 / 60);
// Or update the timestamp to reflect the timezone offset.
mydate.setTime(mydate.getTime() + offset);
// Then Output dates and times using the normal methods.
var date = mydate.getDate(),
hour = mydate.getHours();
EDIT
I was previously using UTC methods when performing the date transformations, which was incorrect. With adding the offset to the time, using the local get functions will return the desired results.
For Ionic users, I had hell with this because .toISOString() has to be used with the html template.
This will grab the current date, but of course can be added to previous answers for a selected date.
I got it fixed using this:
date = new Date();
public currentDate: any = new Date(this.date.getTime() - this.date.getTimezoneOffset()*60000).toISOString();
The *60000 is indicating the UTC -6 which is CST so whatever TimeZone is needed, the number and difference can be changed.
I ran into this issue running a GCP Cloud Function. Of course it works on a local machine, but running in the cloud makes the OS default (local) for new Date() irrelevant. In my case, an api call from the cloud required Eastern Standard Time, in ISO format (without the "Z") with offset as "-0500" or "-0400" depending on DST, for example:
2021-12-01T00:00:00.000-0500
Again, this is not a browser formatting issue, so I am forced into this format for the api call to work correctly.
Using #chickens code as a start, this is what worked:
var date = new Date();
var now_utc = Date.UTC(date.getUTCFullYear(), date.getUTCMonth(), date.getUTCDate(),
date.getUTCHours(), date.getUTCMinutes(), date.getUTCSeconds());
var dt = new Date(now_utc);
let utcDate = new Date(dt.toLocaleString('en-US', { timeZone: "UTC" }));
let tzDate = new Date(dt.toLocaleString('en-US', { timeZone: "America/New_York" }));
let offset1 = utcDate.getTime() - tzDate.getTime();
let offset2 = offset1/60000;
let o1 = Math.abs(offset2);
console.log(offset2)
var offsetValue1 = (offset2 < 0 ? "+" : "-") + ("00" + Math.floor(o1 / 60)).slice(-2) + ("00" + (o1 % 60)).slice(-2);
console.log(offsetValue1)
dt.setTime(dt.getTime() - offset1);
console.log(dt.toISOString());
console.log(dt.toISOString().slice(0,-1)+offsetValue1);
I ran into a similar problem with unit tests (specifically in jest when the unit tests run locally to create the snapshots and then the CI server runs in (potentially) a different timezone causing the snapshot comparison to fail). I mocked our Date and some of the supporting methods like so:
describe('...', () => {
let originalDate;
beforeEach(() => {
originalDate = Date;
Date = jest.fn(
(d) => {
let newD;
if (d) {
newD = (new originalDate(d));
} else {
newD = (new originalDate('2017-05-29T10:00:00z'));
}
newD.toLocaleString = () => {
return (new originalDate(newD.valueOf())).toLocaleString("en-US", {timeZone: "America/New_York"});
};
newD.toLocaleDateString = () => {
return (new originalDate(newD.valueOf())).toLocaleDateString("en-US", {timeZone: "America/New_York"});
};
newD.toLocaleTimeString = () => {
return (new originalDate(newD.valueOf())).toLocaleTimeString("en-US", {timeZone: "America/New_York"});
};
return newD;
}
);
Date.now = () => { return (Date()); };
});
afterEach(() => {
Date = originalDate;
});
});
I had the same problem but we can use the time zone we want
we use .toLocaleDateString()
eg:
var day=new Date();
const options= {day:'numeric', month:'long', year:"numeric", timeZone:"Asia/Kolkata"};
const today=day.toLocaleDateString("en-IN", options);
console.log(today);
Try using ctoc from npm.
https://www.npmjs.com/package/ctoc_timezone
It has got simple functionality to change timezones (most timezones around 400) and all custom formats u want it to display.
Building on the answers above, I am using this native one liner to convert the long timezone string to the three letter string:
var longTz = 'America/Los_Angeles';
var shortTz = new Date().
toLocaleString("en", {timeZoneName: "short", timeZone: longTz}).
split(' ').
pop();
This will give PDT or PST depending on the date provided. In my particular use case, developing on Salesforce (Aura/Lightning), we are able to get the user timezone in the long format from the backend.
Thanks to #commonpike answer, I wrote a function which takes an ISO String date such as 2020-10-10T08:00:00.000 as input and send an object which contains 2 main properties.
The first one is fromUtc is a Date corresponding to the timeZone entered as parameter.
The second one is toUtc which lets you to format a Date stemming from fromUtc.
const timeZoneTransformer = (stringDate, timeZone = "Europe/Paris") => {
const now = new Date();
const serverDate = new Date(stringDate);
const utcDate = new Date(
Date.UTC(
serverDate.getFullYear(),
serverDate.getMonth(),
serverDate.getDate(),
serverDate.getHours(),
serverDate.getMinutes(),
serverDate.getSeconds()
)
);
const invdate = new Date(
serverDate.toLocaleString("en-US", {
timeZone,
})
);
const diff = now.getTime() - invdate.getTime();
const adjustedDate = new Date(now.getTime() - diff);
return {
toUtc: utcDate,
fromUtc: adjustedDate,
};
};
const fromUtc = timeZoneTransformer("2020-10-10T08:00:00.000").fromUtc;
console.log(fromUtc);
const toUtc = timeZoneTransformer(fromUtc).toUtc;
console.log(toUtc);
Try: date-from-timezone, it resolves expected date with help of natively available Intl.DateTimeFormat.
I used that method in one of my projects for few years already, but it's now I decided to publish it as small OS project :)
Try something like this,
public static getTimezoneOffset(timeZone: string, date = new Date()): number {
const localDate = date.toLocaleString('fr', { timeZone, timeZoneName: 'long' });
const tz = localDate.split(' ');
const TZ = localDate.replace(tz[0], '').replace(tz[1], '').replace(' ', '');
const dateString = date.toString();
const offset = (Date.parse(`${dateString} UTC`) - Date.parse(`${dateString}${TZ}`)) / (3600 * 1000);
return offset;
}
I'm not sure why all these answers are so complicated. Just use YYYY-MM-DD ZZZ when creating a date-only date in the local / desired time zone.
Create a local date:
var myDate = new Date('2022-11-29 CST')
The date will be stored in storage as UTC, great.
Get the date out of storage and display it as local:
myDate.toLocaleDateString()
11/29/2022
I know its 3 years too late, but maybe it can help someone else because I haven't found anything like that except for the moment-timezone library, which is not exactly the same as what he's asking for here.
I've done something similar for german timezone,
this is a little complex because of daylight saving time and leap years where you have 366 days.
it might need a little work with the "isDaylightSavingTimeInGermany" function while different timezones change on different times the daylight saving time.
anyway, check out this page:
https://github.com/zerkotin/german-timezone-converter/wiki
the main methods are:
convertLocalDateToGermanTimezone
convertGermanDateToLocalTimezone
I've put an effort into documenting it, so it won't be so confusing.
There are several working answers here, but somehow a lot of them seemed to get you to the string, but not back to a date object you started with, so here's my simple non-function take on how to change timezone on JS date:
var TZ='Australia/Brisbane'; //Target timezone from server
var date = new Date(); //Init this to a time if you don't want current time
date=new Date(Date.parse(date.toLocaleString("en-US", {timeZone: TZ})));
//Just a clarification on what happens
// 1) First new Date() gives you a Date object at current time in the clients browser local timezone
// 2) .toLocaleString takes that time, and returns a string if time in the target timezone
// 3) Date.parse converts that new string to a Unix epoch number
// 4) new Date() converts the Unix epoch into a Date object in the new TimeZone.
// Now I can use my usual getHours and other Date functions as required.
Hope that helps others (if you get to this bottom answer!)
Simple with Node.JS support
Pass in the amount of hours your timezone is offset from UTC
function initDateInTimezone(offsetHours) {
const timezoneOffsetInMS = offsetHours * 60 * 60000;
let d = new Date().getTimezoneOffset() * 60000 + timezoneOffsetInMS;
const date = new Date(new Date().getTime() - d);
return date
}
//For Mumbai time difference is 5.5 hrs so
city_time_diff=5.5; //change according to your city
let time_now = Date.now();
time_now = time_now + (3600000 * city_time_diff); //Add our city time (in msec);
let new_date = new Date(time_now);
console.log("My city time is: ", new_date);
Was facing the same issue, used this one
Console.log(Date.parse("Jun 13, 2018 10:50:39 GMT+1"));
It will return milliseconds to which u can check have +100 timzone intialize British time
Hope it helps!!

How Do I calculate the difference of 2 time zones in JavaScript?

For example, the difference in Eastern and Central is 1. My solution below feels hacky. Is there a easier / better way?
var diff = (parseInt(moment().tz("America/New_York").format("ZZ")) - parseInt(moment().tz("America/Chicago").format("ZZ"))) / 100;
My example is using the Momentjs library.
It's impossible to calculate the difference between two arbitrary time zones. You can only calculate a difference for a specific moment in time.
It's currently 4 hours difference between London and New York (writing this on Mar 25, 2015).
But it was 5 hours difference a few weeks ago, and it will be 5 a few weeks from now.
Each time zone switches offsets for daylight saving time at a different point in time.
This is true in the general case between two time zones. However some time zones either switch exactly at the same time, or don't switch at all.
There is always one hour between London and Paris, because they switch at the same moment in time.
There are always 3 hours between Arizona and Hawaii, because neither have DST.
Keep in mind that in the United States, each time zone that uses DST actually switches at a different moment in time. They all switch at 2:00 AM in their local time, but not at the same universal moment in time.
So between Chicago and New York, there is usually 1 hour apart
But for two brief periods each year they are either 2 hours apart, or have the same exact time.
See also "Time Zone != Offset" in the timezone tag wiki.
Now with regard to moment-timezone, you said in comments:
The web server is in the Eastern time zone; we're in Central. I need the difference in the user's timezone and the server.
The time zone of the web server is irrelevant. You should be able to host from anywhere in the world without affecting your application. If you can't, then you're doing it wrong.
You can get the current time difference between your time zone (US Central time) and the user's. You don't even need to know the user's exact time zone for this, if the code is running in the browser:
var now = moment();
var localOffset = now.utcOffset();
now.tz("America/Chicago"); // your time zone, not necessarily the server's
var centralOffset = now.utcOffset();
var diffInMinutes = localOffset - centralOffset;
If instead the code was running on the server (in a node.js app), then you would need to know the user's time zone. Just change the first line like this:
var now = moment.tz("America/New_York"); // their time zone
Updated answer:
This can be done without Moment, in environments that support the ECMAScript Internationalization API and have fully implemented IANA time zone support. This is most browsers these days.
function getTimeZoneOffset(date, timeZone) {
// Abuse the Intl API to get a local ISO 8601 string for a given time zone.
let iso = date.toLocaleString('en-CA', { timeZone, hour12: false }).replace(', ', 'T');
// Include the milliseconds from the original timestamp
iso += '.' + date.getMilliseconds().toString().padStart(3, '0');
// Lie to the Date object constructor that it's a UTC time.
const lie = new Date(iso + 'Z');
// Return the difference in timestamps, as minutes
// Positive values are West of GMT, opposite of ISO 8601
// this matches the output of `Date.getTimeZoneOffset`
return -(lie - date) / 60 / 1000;
}
Example usage:
getTimeZoneOffset(new Date(2020, 3, 13), 'America/New_York') //=> 240
getTimeZoneOffset(new Date(2020, 3, 13), 'Asia/Shanghai') //=> -480
If you want the difference between them, you can simply subtract the results.
Node.js
The above function works in Node.js where the full-icu internationalization support is installed (which is the default for Node 13 and newer). If you have an older version with either system-icu or small-icu, you can use this modified function. It will work in browsers and full-icu environments also, but is a bit larger. (I have tested this on Node 8.17.0 on Linux, and Node 12.13.1 on Windows.)
function getTimeZoneOffset(date, timeZone) {
// Abuse the Intl API to get a local ISO 8601 string for a given time zone.
const options = {timeZone, calendar: 'iso8601', year: 'numeric', month: '2-digit', day: '2-digit', hour: '2-digit', minute: '2-digit', second: '2-digit', hour12: false};
const dateTimeFormat = new Intl.DateTimeFormat(undefined, options);
const parts = dateTimeFormat.formatToParts(date);
const map = new Map(parts.map(x => [x.type, x.value]));
const year = map.get('year');
const month = map.get('month');
const day = map.get('day');
const hour = `${map.get('hour') % 24}`.padStart(2, "0"); // Sometimes hour value comes as 24
const minute = map.get('minute');
const second = map.get('second');
const ms = date.getMilliseconds().toString().padStart(3, '0');
const iso = `${year}-${month}-${day}T${hour}:${minute}:${second}.${ms}`;
// Lie to the Date object constructor that it's a UTC time.
const lie = new Date(iso + 'Z');
// Return the difference in timestamps, as minutes
// Positive values are West of GMT, opposite of ISO 8601
// this matches the output of `Date.getTimeZoneOffset`
return -(lie - date) / 60 / 1000;
}
Note that either way, we must go through Intl to have the time zone applied properly.
The difference between two timezones can only be measured w.r.t particular time because of things like Daylight saving time (dst).
But, for a particular date, below code should work.
function getOffsetBetweenTimezonesForDate(date, timezone1, timezone2) {
const timezone1Date = convertDateToAnotherTimeZone(date, timezone1);
const timezone2Date = convertDateToAnotherTimeZone(date, timezone2);
return timezone1Date.getTime() - timezone2Date.getTime();
}
function convertDateToAnotherTimeZone(date, timezone) {
const dateString = date.toLocaleString('en-US', {
timeZone: timezone
});
return new Date(dateString);
}
The offset/difference is in milli sec
Then all you have to do is:
const offset = getOffsetBetweenTimezonesForDate(date, 'America/New_York', 'America/Chicago');
An easy way using toLocalString to get the difference with GMT of the timezones. Then you only need to substract.
var d = new Date();
var a = d.toLocaleString("en-US", { timeZone: 'Asia/Tokyo', timeZoneName: "short" }).split(/GMT/g)[1];
var b = d.toLocaleString("en-US", { timeZone: 'America/Montreal', timeZoneName: "short" }).split(/GMT/g)[1];
var diff = a - b;

Categories

Resources