I've never had to convert time to and from UTC. Recently had a request to have my app be timezone aware, and I've been running myself in circles. Lots of information on converting local time to UTC, which I found fairly elementary (maybe I'm doing that wrong as well), but I can not find any information on easily converting the UTC time to the end-users timezone.

In a nutshell, and android app sends me (appengine app) data and within that data is a timestamp. To store that timestamp to utc time I am using:

datetime.utcfromtimestamp(timestamp)

That seems to be working. When my app stores the data, it is being store as 5 hours ahead (I am EST -5)

The data is being stored on appengine's BigTable, and when retrieved it comes out as a string like so:

"2011-01-21 02:37:21"

How do I convert this string to a DateTime in the users correct time zone?

Also, what is the recommended storage for a users timezone information? (How do you typically store tz info ie: "-5:00" or "EST" etc etc ?) I'm sure the answer to my first question might contain a parameter the answers the second.

11 Answers 11

up vote 292 down vote accepted

If you don't want to provide your own tzinfo objects, check out the python-dateutil library. It provides tzinfo implementations on top of a zoneinfo (Olson) database such that you can refer to time zone rules by a somewhat canonical name.

from datetime import datetime
from dateutil import tz

# METHOD 1: Hardcode zones:
from_zone = tz.gettz('UTC')
to_zone = tz.gettz('America/New_York')

# METHOD 2: Auto-detect zones:
from_zone = tz.tzutc()
to_zone = tz.tzlocal()

# utc = datetime.utcnow()
utc = datetime.strptime('2011-01-21 02:37:21', '%Y-%m-%d %H:%M:%S')

# Tell the datetime object that it's in UTC time zone since 
# datetime objects are 'naive' by default
utc = utc.replace(tzinfo=from_zone)

# Convert time zone
central = utc.astimezone(to_zone)

Edit Expanded example to show strptime usage

Edit 2 Fixed API usage to show better entry point method

Edit 3 Included auto-detect methods for timezones (Yarin)

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  • 1
    On my previous comment, I was able to import dateutil.tz and use tz.tzutc() and tz.tzlocal() as time zone objects I was looking for. It looks like the time zone database on my system is good (I checked in /usr/share/zoneinfo). Not sure what was up. – Ben Kreeger Jun 3 '11 at 14:18
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    @Benjamin You are on the right track. The tz module is the correct entry point to be using for this library. I've updated my answer to reflect this. The dateutil.zoneinfo module I was showing previously is used internally by the tz module as a fall back if it can't locate the system's zoneinfo DB. If you look inside the library you'll see that there's a zoneinfo DB tarball in the package that it uses if it can't find your system's DB. My old example was trying to hit that DB directly and I'm guessing you were having issues loading that private DB (isn't on the python path somehow?) – Joe Holloway Jun 3 '11 at 15:01
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    @MattoTodd: utc -> local conversion is broken in dateutil, use pytz instead. – jfs Oct 2 '15 at 9:58
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    @briankip It depends on how sophisticated your application needs to be, but in general applications, yes, it's a problem. First of all depending on what time of year it is, the number of hours to add/subtract might change as some time zones honor DST and other don't. Secondly, time zone rules are arbitrarily changed over time so if you're working with a past date/time you need to apply the rules that were valid at that point in time, not present time. That's why it's best to use an API that leverages the Olson TZ database behind the scenes. – Joe Holloway Apr 22 '16 at 17:10

Here's a resilient method that doesn't depend on any external libraries:

from datetime import datetime
import time

def datetime_from_utc_to_local(utc_datetime):
    now_timestamp = time.time()
    offset = datetime.fromtimestamp(now_timestamp) - datetime.utcfromtimestamp(now_timestamp)
    return utc_datetime + offset

This avoids the timing issues in DelboyJay's example. And the lesser timing issues in Erik van Oosten's amendment.

As an interesting footnote, the timezone offset computed above can differ from the following seemingly equivalent expression, probably due to daylight savings rule changes:

offset = datetime.fromtimestamp(0) - datetime.utcfromtimestamp(0) # NO!

Update: This snippet has the weakness of using the UTC offset of the present time, which may differ from the UTC offset of the input datetime. See comments on this answer for another solution.

To get around the different times, grab the epoch time from the time passed in. Here's what I do:

def utc2local (utc):
    epoch = time.mktime(utc.timetuple())
    offset = datetime.fromtimestamp (epoch) - datetime.utcfromtimestamp (epoch)
    return utc + offset
  • This works well and requires nothing other than time and datetime. – Mike_K Nov 4 '13 at 23:45
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    @Mike_K: but it is incorrect. It doesn't support DST or timezones that had different utc offset in the past for other reasons. Full support without pytz-like db is impossible, see PEP-431. Though you can write stdlib-only solution that works in such cases on systems that already have historical timezone db e.g., Linux, OS X, see my answer. – jfs Dec 14 '13 at 20:17
  • @J.F.Sebastian: You say this code doesn't work in general but also say it works on OS X and Linux. Do you mean this code doesn't work on Windows? – David Foster Dec 15 '13 at 21:37
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    @DavidFoster: your code may fail on Linux and OS X too. The difference between yours and mine stdlib-only solutions is that yours uses current offset that might be different from utc offset at utc_datetime time. – jfs Dec 15 '13 at 22:25
  • Good call. That's a very subtle difference. The UTC offset can change over time too. sigh – David Foster Dec 18 '13 at 5:36

See the datetime documentation on tzinfo objects. You have to implement the timezones you want to support yourself. The are examples at the bottom of the documentation.

Here's a simple example:

from datetime import datetime,tzinfo,timedelta

class Zone(tzinfo):
    def __init__(self,offset,isdst,name):
        self.offset = offset
        self.isdst = isdst
        self.name = name
    def utcoffset(self, dt):
        return timedelta(hours=self.offset) + self.dst(dt)
    def dst(self, dt):
            return timedelta(hours=1) if self.isdst else timedelta(0)
    def tzname(self,dt):
         return self.name

GMT = Zone(0,False,'GMT')
EST = Zone(-5,False,'EST')

print datetime.utcnow().strftime('%m/%d/%Y %H:%M:%S %Z')
print datetime.now(GMT).strftime('%m/%d/%Y %H:%M:%S %Z')
print datetime.now(EST).strftime('%m/%d/%Y %H:%M:%S %Z')

t = datetime.strptime('2011-01-21 02:37:21','%Y-%m-%d %H:%M:%S')
t = t.replace(tzinfo=GMT)
print t
print t.astimezone(EST)

Output

01/22/2011 21:52:09 
01/22/2011 21:52:09 GMT
01/22/2011 16:52:09 EST
2011-01-21 02:37:21+00:00
2011-01-20 21:37:21-05:00a
  • Thanks for the accept! I updated it slightly to translate your specific example time. Parsing the time creates what the docs call a "naive" time. Use replace to set the timezone to GMT and make it timezone "aware", then use astimezone to convert to another timezone. – Mark Tolonen Jan 22 '11 at 21:54
  • I noticed the edit. Thanks for taking the time!! – MattoTodd Jan 22 '11 at 22:02
  • Sorry for swapping for Joe's answer. Technically your answer explains exactly how to do it with raw python (which is good to know), but the library he suggested gets me to a solution much quicker. – MattoTodd Jan 23 '11 at 4:03
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    Doesn't look like it automatically handles daylight savings time. – Gringo Suave Mar 22 '12 at 18:19
  • @GringoSuave: it wasn't meant to. The rules for that are complicated and change often. – Mark Tolonen Mar 22 '12 at 21:41

If you want to get the correct result even for the time that corresponds to an ambiguous local time (e.g., during a DST transition) and/or the local utc offset is different at different times in your local time zone then use pytz timezones:

#!/usr/bin/env python
from datetime import datetime
import pytz    # $ pip install pytz
import tzlocal # $ pip install tzlocal

local_timezone = tzlocal.get_localzone() # get pytz tzinfo
utc_time = datetime.strptime("2011-01-21 02:37:21", "%Y-%m-%d %H:%M:%S")
local_time = utc_time.replace(tzinfo=pytz.utc).astimezone(local_timezone)

If using django, you can use the timezone.localtime method (see https://docs.djangoproject.com/en/dev/topics/i18n/timezones/).

from django.utils import timezone
date 
# datetime.datetime(2014, 8, 1, 20, 15, 0, 513000, tzinfo=<UTC>)

timezone.localtime(date)
# datetime.datetime(2014, 8, 1, 16, 15, 0, 513000, tzinfo=<DstTzInfo 'America/New_York' EDT-1 day, 20:00:00 DST>)

This answer should be helpful if you don't want to use any other modules besides datetime.

datetime.utcfromtimestamp(timestamp) returns a naive datetime object (not an aware one). Aware ones are timezone aware, and naive are not. You want an aware one if you want to convert between timezones (e.g. between UTC and local time).

If you aren't the one instantiating the date to start with, but you can still create a naive datetime object in UTC time, you might want to try this Python 3.x code to convert it:

import datetime

d=datetime.datetime.strptime("2011-01-21 02:37:21", "%Y-%m-%d %H:%M:%S") #Get your naive datetime object
d=d.replace(tzinfo=datetime.timezone.utc) #Convert it to an aware datetime object in UTC time.
d=d.astimezone() #Convert it to your local timezone (still aware)
print(d.strftime("%d %b %Y (%I:%M:%S:%f %p) %Z")) #Print it with a directive of choice

Be careful not to mistakenly assume that if your timezone is currently MDT that daylight savings doesn't work with the above code since it prints MST. You'll note that if you change the month to August, it'll print MDT.

Another easy way to get an aware datetime object (also in Python 3.x) is to create it with a timezone specified to start with. Here's an example, using UTC:

import datetime, sys

aware_utc_dt_obj=datetime.datetime.now(datetime.timezone.utc) #create an aware datetime object
dt_obj_local=aware_utc_dt_obj.astimezone() #convert it to local time

#The following section is just code for a directive I made that I liked.
if sys.platform=="win32":
    directive="%#d %b %Y (%#I:%M:%S:%f %p) %Z"
else:
    directive="%-d %b %Y (%-I:%M:%S:%f %p) %Z"

print(dt_obj_local.strftime(directive))

If you use Python 2.x, you'll probably have to subclass datetime.tzinfo and use that to help you create an aware datetime object, since datetime.timezone doesn't exist in Python 2.x.

I traditionally defer this to the frontend -- send times from the backend as timestamps or some other datetime format in UTC, then let the client figure out the timezone offset and render this data in the proper timezone.

For a webapp, this is pretty easy to do in javascript -- you can figure out the browser's timezone offset pretty easily using builtin methods and then render the data from the backend properly.

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    This works well in a lot of cases where you're simply localizing for display. Occasionally, however, you'll need to perform some business logic based on the user's time zone and you'll want to be able to do the conversion the application server tier. – Joe Holloway Jan 23 '11 at 1:32

Here is a quick and dirty version that uses the local systems settings to work out the time difference. NOTE: This will not work if you need to convert to a timezone that your current system is not running in. I have tested this with UK settings under BST timezone

from datetime import datetime
def ConvertP4DateTimeToLocal(timestampValue):
   assert isinstance(timestampValue, int)

   # get the UTC time from the timestamp integer value.
   d = datetime.utcfromtimestamp( timestampValue )

   # calculate time difference from utcnow and the local system time reported by OS
   offset = datetime.now() - datetime.utcnow()

   # Add offset to UTC time and return it
   return d + offset
  • it should be datetime.fromtimestamp(ts): posix timestamp (float seconds) -> datetime object in local time (it works well if OS remembers past utc offsets for local timezone i.e., on Unix but not on Windows for dates in the past)). Otherwise pytz could be used. – jfs Jun 3 '13 at 14:33
  • May I suggest to do the following: offset = datetime.utcnow().replace(minute=0, second=0, microsecond=0) - datetime.now().replace(minute=0, second=0, microsecond=0) I got weird microsecond differences without it. – Erik van Oosten Sep 26 '13 at 9:21
  • @ErikvanOosten: have you tried datetime.fromtimestamp(ts) instead of the answer? – jfs Dec 14 '13 at 20:22

You can use calendar.timegm to convert your time to seconds since Unix epoch and time.localtime to convert back:

import calendar
import time

time_tuple = time.strptime("2011-01-21 02:37:21", "%Y-%m-%d %H:%M:%S")
t = calendar.timegm(time_tuple)

print time.ctime(t)

Gives Fri Jan 21 05:37:21 2011 (because I'm in UTC+03:00 timezone).

import datetime

def utc_str_to_local_str(utc_str: str, utc_format: str, local_format: str):
    """
    :param utc_str: UTC time string
    :param utc_format: format of UTC time string
    :param local_format: format of local time string
    :return: local time string
    """
    temp1 = datetime.datetime.strptime(utc_str, utc_format)
    temp2 = temp1.replace(tzinfo=datetime.timezone.utc)
    local_time = temp2.astimezone()
    return local_time.strftime(local_format)

utc = '2018-10-17T00:00:00.111Z'
utc_fmt = '%Y-%m-%dT%H:%M:%S.%fZ'
local_fmt = '%Y-%m-%dT%H:%M:%S+08:00'
local_string = utc_str_to_local_str(utc, utc_fmt, local_fmt)
print(local_string)   # 2018-10-17T08:00:00+08:00

for example, my timezone is '+08:00'. input utc = 2018-10-17T00:00:00.111Z, then I will get output = 2018-10-17T08:00:00+08:00

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  • 1
    You should give a better description of your problem in plain text, where you explain the rest of users what are you trying to achieve and which is your problem – m33n Oct 17 at 10:59

You can use arrow

from datetime import datetime
import arrow

now = datetime.utcnow()

print(arrow.get(now).to('local').format())
# '2018-04-04 15:59:24+02:00'

you can feed arrow.get() with anything. timestamp, iso string etc

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