I have a python datetime instance that was created using datetime.utcnow() and persisted in database.

For display, I would like to convert the datetime instance retrieved from the database to local datetime using the default local timezone (i.e., as if the datetime was created using datetime.now()).

How can I convert the UTC datetime to a local datetime using only python standard library (e.g., no pytz dependency)?

It seems one solution would be to use datetime.astimezone(tz), but how would you get the default local timezone?

  • In which format was the time persisted to the database? If it is a standards format it may be that you don't need to do any conversion.
    – Apalala
    Dec 31 '10 at 21:47
  • 2
    This answer shows a simple way of using pytz.
    – juan
    Sep 5 '13 at 22:27
  • Can not find an answer without recourse to pytz. Feel silly.
    – Kuo
    Aug 21 '20 at 8:09

13 Answers 13


In Python 3.3+:

from datetime import datetime, timezone

def utc_to_local(utc_dt):
    return utc_dt.replace(tzinfo=timezone.utc).astimezone(tz=None)

In Python 2/3:

import calendar
from datetime import datetime, timedelta

def utc_to_local(utc_dt):
    # get integer timestamp to avoid precision lost
    timestamp = calendar.timegm(utc_dt.timetuple())
    local_dt = datetime.fromtimestamp(timestamp)
    assert utc_dt.resolution >= timedelta(microseconds=1)
    return local_dt.replace(microsecond=utc_dt.microsecond)

Using pytz (both Python 2/3):

import pytz

local_tz = pytz.timezone('Europe/Moscow') # use your local timezone name here
# NOTE: pytz.reference.LocalTimezone() would produce wrong result here

## You could use `tzlocal` module to get local timezone on Unix and Win32
# from tzlocal import get_localzone # $ pip install tzlocal

# # get local timezone    
# local_tz = get_localzone()

def utc_to_local(utc_dt):
    local_dt = utc_dt.replace(tzinfo=pytz.utc).astimezone(local_tz)
    return local_tz.normalize(local_dt) # .normalize might be unnecessary


def aslocaltimestr(utc_dt):
    return utc_to_local(utc_dt).strftime('%Y-%m-%d %H:%M:%S.%f %Z%z')

print(aslocaltimestr(datetime(2010,  6, 6, 17, 29, 7, 730000)))
print(aslocaltimestr(datetime(2010, 12, 6, 17, 29, 7, 730000)))


Python 3.3
2010-06-06 21:29:07.730000 MSD+0400
2010-12-06 20:29:07.730000 MSK+0300
2012-11-08 14:19:50.093745 MSK+0400
Python 2
2010-06-06 21:29:07.730000 
2010-12-06 20:29:07.730000 
2012-11-08 14:19:50.093911 
2010-06-06 21:29:07.730000 MSD+0400
2010-12-06 20:29:07.730000 MSK+0300
2012-11-08 14:19:50.146917 MSK+0400

Note: it takes into account DST and the recent change of utc offset for MSK timezone.

I don't know whether non-pytz solutions work on Windows.

  • 2
    what does 'normalize' do?
    – avi
    Jun 17 '14 at 9:48
  • 4
    @avi: in general: pytz: Why is normalize needed when converting between timezones?. Note: It is not necessary with the current implementation of .normalize() because the source timezone for .astimezone() is UTC.
    – jfs
    Jun 17 '14 at 10:53
  • 2
    I get TypeError: replace() takes no keyword arguments when trying the pytz solution.
    – Craig
    Jun 29 '18 at 4:05
  • @Craig the code works as is, as the output in the answer demonstrates. Create complete minimal code example that leads to the TypeError, mention your Python, pytz versions that you use and post it as a separate Stack Overflow question.
    – jfs
    Jun 29 '18 at 4:14
  • 1
    Quick tip for the Python 3.3+ solution. To go the opposite direction (Native to UTC), this works: local_dt.replace(tzinfo=None).astimezone(tz=timezone.utc)
    – jasonrhaas
    May 9 '19 at 1:24

You can't do it with only the standard library as the standard library doesn't have any timezones. You need pytz or dateutil.

>>> from datetime import datetime
>>> now = datetime.utcnow()
>>> from dateutil import tz
>>> HERE = tz.tzlocal()
>>> UTC = tz.gettz('UTC')

The Conversion:
>>> gmt = now.replace(tzinfo=UTC)
>>> gmt.astimezone(HERE)
datetime.datetime(2010, 12, 30, 15, 51, 22, 114668, tzinfo=tzlocal())

Or well, you can do it without pytz or dateutil by implementing your own timezones. But that would be silly.

  • Thanks, I'll keep that at hand if I ever need a full solution. Does dateutil support Python 3.1 (says Python 2.3+ but it is suspicious)?
    – Nitro Zark
    Dec 30 '10 at 15:53
  • pytz indeed handles DST changeovers better. Oct 28 '12 at 21:30
  • 2
    Update: pytz and dateutil both support Python 3 nowadays. Oct 28 '12 at 21:31
  • 1
    @J.F.Sebastian: dateutil can not distinguish between the two 1:30 times that happen during a DST changeover. If you need to be able to distinguish between those two times, the workaround it to use pytz, which can handle it. Oct 29 '12 at 5:09

Python 3.9 adds the zoneinfo module so now it can be done as follows (stdlib only):

from zoneinfo import ZoneInfo
from datetime import datetime

utc_unaware = datetime(2020, 10, 31, 12)  # loaded from database
utc_aware = utc_unaware.replace(tzinfo=ZoneInfo('UTC'))  # make aware
local_aware = utc_aware.astimezone(ZoneInfo('localtime'))  # convert

Central Europe is 1 or 2 hours ahead of UTC, so local_aware is:

datetime.datetime(2020, 10, 31, 13, 0, tzinfo=backports.zoneinfo.ZoneInfo(key='localtime'))

as str:

2020-10-31 13:00:00+01:00

Windows has no system time zone database, so here an extra package is needed:

pip install tzdata  

There is a backport to allow use in Python 3.6 to 3.8:

sudo pip install backports.zoneinfo


from backports.zoneinfo import ZoneInfo
  • you don't even need zoneinfo here - see first part of jfs' answer (the Python3.3+ part) ;-)
    – MrFuppes
    Jul 6 '20 at 17:56
  • @MrFuppes I think ZoneInfo('localtime') is a lot clearer than tz=None (after all, one might expect tz=None to remove the timezone or return UTC rather than localtime).
    – xjcl
    Jul 12 '20 at 13:55
  • 1
    @MrFuppes Plus the question might involve OP having a website and wanting to show users timestamps in their local time. For that you would have to convert to the user's explicit timezone rather than localtime.
    – xjcl
    Jul 12 '20 at 13:55
  • Your note on Win10 might be true in the sense that Python 3.9 doesn't use it, but Win10 has include IANA ICU data since Windows 10 1703 (released in 2017), but it improved in 1903. According to Raymond Chen they recommend apps use it over Windows Registry TZ data now. devblogs.microsoft.com/oldnewthing/20210527-00/?p=105255
    – yzorg
    Sep 17 at 16:52

You can't do it with standard library. Using pytz module you can convert any naive/aware datetime object to any other time zone. Lets see some examples using Python 3.

Naive objects created through class method utcnow()

To convert a naive object to any other time zone, first you have to convert it into aware datetime object. You can use the replace method for converting a naive datetime object to an aware datetime object. Then to convert an aware datetime object to any other timezone you can use astimezone method.

The variable pytz.all_timezones gives you the list of all available time zones in pytz module.

import datetime,pytz

dtobj1=datetime.datetime.utcnow()   #utcnow class method

dtobj3=dtobj1.replace(tzinfo=pytz.UTC) #replace method

dtobj_hongkong=dtobj3.astimezone(pytz.timezone("Asia/Hong_Kong")) #astimezone method

Naive objects created through class method now()

Because now method returns current date and time, so you have to make the datetime object timezone aware first. The localize function converts a naive datetime object into a timezone-aware datetime object. Then you can use the astimezone method to convert it into another timezone.


mytimezone=pytz.timezone("Europe/Vienna") #my current timezone
dtobj4=mytimezone.localize(dtobj2)        #localize function

dtobj_hongkong=dtobj4.astimezone(pytz.timezone("Asia/Hong_Kong")) #astimezone method

Building on Alexei's comment. This should work for DST too.

import time
import datetime

def utc_to_local(dt):
    if time.localtime().tm_isdst:
        return dt - datetime.timedelta(seconds = time.altzone)
        return dt - datetime.timedelta(seconds = time.timezone)

I think I figured it out: computes number of seconds since epoch, then converts to a local timzeone using time.localtime, and then converts the time struct back into a datetime...

EPOCH_DATETIME = datetime.datetime(1970,1,1)
SECONDS_PER_DAY = 24*60*60

def utc_to_local_datetime( utc_datetime ):
    delta = utc_datetime - EPOCH_DATETIME
    utc_epoch = SECONDS_PER_DAY * delta.days + delta.seconds
    time_struct = time.localtime( utc_epoch )
    dt_args = time_struct[:6] + (delta.microseconds,)
    return datetime.datetime( *dt_args )

It applies the summer/winter DST correctly:

>>> utc_to_local_datetime( datetime.datetime(2010, 6, 6, 17, 29, 7, 730000) )
datetime.datetime(2010, 6, 6, 19, 29, 7, 730000)
>>> utc_to_local_datetime( datetime.datetime(2010, 12, 6, 17, 29, 7, 730000) )
datetime.datetime(2010, 12, 6, 18, 29, 7, 730000)
  • 1
    Ugh. But that should work on Unix, at least. For Windows it can be incorrect if your daylight saving rules have changed since the date converted. Why don't you want to use a library? Dec 30 '10 at 15:31
  • I only need utc/local conversion so dragging such a library seem to be overkill. Since I'm the only user of the application I can live with some limitations. It also avoid managing the dependency related issues (support Python 3?, Windows? quality...) which would be more costly than working on my small script.
    – Nitro Zark
    Dec 30 '10 at 15:47
  • 1
    Well. if you need Python3, then you are out of luck. But otherwise researching and making your own solution is overkill compared to using a library. Dec 30 '10 at 15:58
  • 1
    +1 (to offset the downvote: it might be valid requirement to seek stdlib-only solutions) with the caveat @Lennart mentioned. Given that dateutil might fail on both Unix and Windows. btw, you could extract utctotimestamp(utc_dt) -> (seconds, microseconds) from your code for clarity, see Python 2.6-3.x implementation
    – jfs
    Oct 28 '12 at 20:08
  • 1
    An pytz (and dateutil) works on Python 3 since some time now, so the Python3/Windows/Quality issues are not a problem anymore. Oct 28 '12 at 21:27

The standard Python library does not come with any tzinfo implementations at all. I've always considered this a surprising shortcoming of the datetime module.

The documentation for the tzinfo class does come with some useful examples. Look for the large code block at the end of the section.

  • 1
    My guess about the like of core implementation is because the timezone database needs to be updated regularly as some country don't have fixed rules to determine DST periods. If I'm not mistaken, the JVM for example needs to be updated to get the last timezone database...
    – Nitro Zark
    Dec 30 '10 at 19:36
  • @Nitro Zark, at least they should have had one for UTC. The os module could have provided one for local time based on operating system functions. Dec 30 '10 at 19:52
  • 2
    I was checking the list of new features in 3.2 and they added the UTC timezone in 3.2 (docs.python.org/dev/whatsnew/3.2.html#datetime). There does not seem to be a local timezone though...
    – Nitro Zark
    Dec 31 '10 at 9:53

Use time.timezone, it gives an integer in "seconds west of UTC".

For example:

from datetime import datetime, timedelta, timezone
import time

# make datetime from timestamp, thus no timezone info is attached
now = datetime.fromtimestamp(time.time())

# make local timezone with time.timezone
local_tz = timezone(timedelta(seconds=-time.timezone))

# attach different timezones as you wish
utc_time = now.astimezone(timezone.utc)
local_time = now.astimezone(local_tz)


On my PC (Python 3.7.3), it gives:


Pretty simple and uses only standard libraries~


A simple (but maybe flawed) way that works in Python 2 and 3:

import time
import datetime

def utc_to_local(dt):
    return dt - datetime.timedelta(seconds = time.timezone)

Its advantage is that it's trivial to write an inverse function

  • 2
    This gives the wrong result, as time.timezone doesn't take into consideration daylight savings.
    – Guy
    Aug 2 '16 at 7:19

The easiest way I have found is to get the time offset of where you are, then subtract that from the hour.

def format_time(ts,offset):
    if not ts.hour >= offset:
        ts = ts.replace(day=ts.day-1)
        ts = ts.replace(hour=ts.hour-offset)
        ts = ts.replace(hour=ts.hour-offset)
    return ts

This works for me, in Python 3.5.2.


Here is another way to change timezone in datetime format (I know I wasted my energy on this but I didn't see this page so I don't know how) without min. and sec. cause I don't need it for my project:

def change_time_zone(year, month, day, hour):
      hour = hour + 7 #<-- difference
      if hour >= 24:
        difference = hour - 24
        hour = difference
        day += 1
        long_months = [1, 3, 5, 7, 8, 10, 12]
        short_months = [4, 6, 9, 11]
        if month in short_months:
          if day >= 30:
            day = 1
            month += 1
            if month > 12:
              year += 1
        elif month in long_months:
          if day >= 31:
            day = 1
            month += 1
            if month > 12:
              year += 1
        elif month == 2:
          if not year%4==0:
            if day >= 29:
              day = 1
              month += 1
              if month > 12:
                year += 1
            if day >= 28:
              day = 1
              month += 1
              if month > 12:
                year += 1
      return datetime(int(year), int(month), int(day), int(hour), 00)
  • Use timedelta to switch between timezones. All you need is the offset in hours between timezones. Don't have to fiddle with boundaries for all 6 elements of a datetime object. timedelta handles leap years, leap centuries, etc., too, with ease. You must 'from datetime import timedelta'. Then if the offset is a variable in hours: timeout = timein + timedelta(hours = offset), where timein and timeout are datetime objects. e.g. timein + timedelta(hours = -8) converts from GMT to PST. Dec 16 '19 at 19:53

This is a terrible way to do it but it avoids creating a definition. It fulfills the requirement to stick with the basic Python3 library.

# Adjust from UST to Eastern Standard Time (dynamic)
# df.my_localtime should already be in datetime format, so just in case
df['my_localtime'] = pd.to_datetime.df['my_localtime']

df['my_localtime'] = df['my_localtime'].dt.tz_localize('UTC').dt.tz_convert('America/New_York').astype(str)
df['my_localtime'] = pd.to_datetime(df.my_localtime.str[:-6])

Use timedelta to switch between timezones. All you need is the offset in hours between timezones. Don't have to fiddle with boundaries for all 6 elements of a datetime object. timedelta handles leap years, leap centuries, etc., too, with ease. You must first

from datetime import datetime, timedelta

Then if offset is the timezone delta in hours:

timeout = timein + timedelta(hours = offset)

where timein and timeout are datetime objects. e.g.

timein + timedelta(hours = -8)

converts from GMT to PST.

So, how to determine offset? Here is a simple function provided you only have a few possibilities for conversion without using datetime objects that are timezone "aware" which some other answers nicely do. A bit manual, but sometimes clarity is best.

def change_timezone(timein, timezone, timezone_out):
    changes timezone between predefined timezone offsets to GMT
    timein - datetime object
    timezone - 'PST', 'PDT', 'GMT' (can add more as needed)
    timezone_out - 'PST', 'PDT', 'GMT' (can add more as needed)
    # simple table lookup        
    tz_offset =  {'PST': {'GMT': 8, 'PDT': 1, 'PST': 0}, \
                  'GMT': {'PST': -8, 'PDT': -7, 'GMT': 0}, \
                  'PDT': {'GMT': 7, 'PST': -1, 'PDT': 0}}
        offset = tz_offset[timezone][timezone_out]
        msg = 'Input timezone=' + timezone + ' OR output time zone=' + \
            timezone_out + ' not recognized'
        raise DateTimeError(msg)

    return timein + timedelta(hours = offset)

After looking at the numerous answers and playing around with the tightest code I can think of (for now) it seems best that all applications, where time is important and mixed timezones must be accounted for, should make a real effort to make all datetime objects "aware". Then it would seem the simplest answer is:

timeout = timein.astimezone(pytz.timezone("GMT"))

to convert to GMT for example. Of course, to convert to/from any other timezone you wish, local or otherwise, just use the appropriate timezone string that pytz understands (from pytz.all_timezones). Daylight savings time is then also taken into account.

  • 1
    This is /not/ a good idea. DST does not shift at the same date for the whole world. Use datetime functions to do this.
    – Gabe
    Apr 3 '20 at 12:18
  • @gabe - Understand that the table is not a good idea, although it may suit someone covering only US timezones. As I said at the end, the best way is to ALWAYS make datetime objects "aware" so that you can easily use the datetime functions. Apr 10 '20 at 18:06

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