When support for time zones is enabled, Django stores datetime information in UTC in the database, uses time-zone-aware datetime objects internally, and translates them to the end user’s time zone in templates and forms.
This is handy if your users live in more than one time zone and you want to display datetime information according to each user’s wall clock.
Even if your website is available in only one time zone, it’s still good practice to store data in UTC in your database. The main reason is Daylight Saving Time (DST). Many countries have a system of DST, where clocks are moved forward in spring and backward in autumn. If you’re working in local time, you’re likely to encounter errors twice a year, when the transitions happen. (The pytz documentation discusses these issues in greater detail.) This probably doesn’t matter for your blog, but it’s a problem if you over-bill or under-bill your customers by one hour, twice a year, every year. The solution to this problem is to use UTC in the code and use local time only when interacting with end users.
Time zone support is disabled by default. To enable it, set USE_TZ =
True
in your settings file. Time zone support uses pytz, which is
installed when you install Django.
Note
The default settings.py
file created by django-admin
startproject
includes USE_TZ = True
for convenience.
Note
There is also an independent but related USE_L10N
setting that
controls whether Django should activate format localization. See
Format localization for more details.
If you’re wrestling with a particular problem, start with the time zone FAQ.
Python’s datetime.datetime
objects have a tzinfo
attribute that
can be used to store time zone information, represented as an instance of a
subclass of datetime.tzinfo
. When this attribute is set and describes
an offset, a datetime object is aware. Otherwise, it’s naive.
You can use is_aware()
and
is_naive()
to determine whether datetimes are
aware or naive.
When time zone support is disabled, Django uses naive datetime objects in local time. This is simple and sufficient for many use cases. In this mode, to obtain the current time, you would write:
import datetime
now = datetime.datetime.now()
When time zone support is enabled (USE_TZ=True
), Django uses
time-zone-aware datetime objects. If your code creates datetime objects, they
should be aware too. In this mode, the example above becomes:
from django.utils import timezone
now = timezone.now()
Warning
Dealing with aware datetime objects isn’t always intuitive. For instance,
the tzinfo
argument of the standard datetime constructor doesn’t work
reliably for time zones with DST. Using UTC is generally safe; if you’re
using other time zones, you should review the pytz documentation
carefully.
Note
Python’s datetime.time
objects also feature a tzinfo
attribute, and PostgreSQL has a matching time with time zone
type.
However, as PostgreSQL’s docs put it, this type “exhibits properties which
lead to questionable usefulness”.
Django only supports naive time objects and will raise an exception if you attempt to save an aware time object, as a timezone for a time with no associated date does not make sense.
When USE_TZ
is True
, Django still accepts naive datetime
objects, in order to preserve backwards-compatibility. When the database layer
receives one, it attempts to make it aware by interpreting it in the
default time zone and raises a warning.
Unfortunately, during DST transitions, some datetimes don’t exist or are ambiguous. In such situations, pytz raises an exception. That’s why you should always create aware datetime objects when time zone support is enabled.
In practice, this is rarely an issue. Django gives you aware datetime objects
in the models and forms, and most often, new datetime objects are created from
existing ones through timedelta
arithmetic. The only
datetime that’s often created in application code is the current time, and
timezone.now()
automatically does the
right thing.
The default time zone is the time zone defined by the TIME_ZONE
setting.
The current time zone is the time zone that’s used for rendering.
You should set the current time zone to the end user’s actual time zone with
activate()
. Otherwise, the default time zone is
used.
Note
As explained in the documentation of TIME_ZONE
, Django sets
environment variables so that its process runs in the default time zone.
This happens regardless of the value of USE_TZ
and of the
current time zone.
When USE_TZ
is True
, this is useful to preserve
backwards-compatibility with applications that still rely on local time.
However, as explained above, this isn’t
entirely reliable, and you should always work with aware datetimes in UTC
in your own code. For instance, use fromtimestamp()
and set the tz
parameter to utc
.
The current time zone is the equivalent of the current locale for translations. However, there’s no equivalent of the
Accept-Language
HTTP header that Django could use to determine the user’s
time zone automatically. Instead, Django provides time zone selection
functions. Use them to build the time zone
selection logic that makes sense for you.
Most websites that care about time zones just ask users in which time zone they live and store this information in the user’s profile. For anonymous users, they use the time zone of their primary audience or UTC. pytz provides helpers, like a list of time zones per country, that you can use to pre-select the most likely choices.
Here’s an example that stores the current timezone in the session. (It skips error handling entirely for the sake of simplicity.)
Add the following middleware to MIDDLEWARE
:
import pytz
from django.utils import timezone
class TimezoneMiddleware:
def __init__(self, get_response):
self.get_response = get_response
def __call__(self, request):
tzname = request.session.get('django_timezone')
if tzname:
timezone.activate(pytz.timezone(tzname))
else:
timezone.deactivate()
return self.get_response(request)
Create a view that can set the current timezone:
from django.shortcuts import redirect, render
def set_timezone(request):
if request.method == 'POST':
request.session['django_timezone'] = request.POST['timezone']
return redirect('/')
else:
return render(request, 'template.html', {'timezones': pytz.common_timezones})
Include a form in template.html
that will POST
to this view:
{% load tz %}
{% get_current_timezone as TIME_ZONE %}
<form action="{% url 'set_timezone' %}" method="POST">
{% csrf_token %}
<label for="timezone">Time zone:</label>
<select name="timezone">
{% for tz in timezones %}
<option value="{{ tz }}"{% if tz == TIME_ZONE %} selected{% endif %}>{{ tz }}</option>
{% endfor %}
</select>
<input type="submit" value="Set">
</form>
When you enable time zone support, Django interprets datetimes entered in
forms in the current time zone and returns
aware datetime objects in cleaned_data
.
If the current time zone raises an exception for datetimes that don’t exist or are ambiguous because they fall in a DST transition (the timezones provided by pytz do this), such datetimes will be reported as invalid values.
When you enable time zone support, Django converts aware datetime objects to the current time zone when they’re rendered in templates. This behaves very much like format localization.
Warning
Django doesn’t convert naive datetime objects, because they could be ambiguous, and because your code should never produce naive datetimes when time zone support is enabled. However, you can force conversion with the template filters described below.
Conversion to local time isn’t always appropriate – you may be generating
output for computers rather than for humans. The following filters and tags,
provided by the tz
template tag library, allow you to control the time zone
conversions.
localtime
¶Enables or disables conversion of aware datetime objects to the current time zone in the contained block.
This tag has exactly the same effects as the USE_TZ
setting as far
as the template engine is concerned. It allows a more fine grained control of
conversion.
To activate or deactivate conversion for a template block, use:
{% load tz %}
{% localtime on %}
{{ value }}
{% endlocaltime %}
{% localtime off %}
{{ value }}
{% endlocaltime %}
Note
The value of USE_TZ
isn’t respected inside of a
{% localtime %}
block.
timezone
¶Sets or unsets the current time zone in the contained block. When the current time zone is unset, the default time zone applies.
{% load tz %}
{% timezone "Europe/Paris" %}
Paris time: {{ value }}
{% endtimezone %}
{% timezone None %}
Server time: {{ value }}
{% endtimezone %}
These filters accept both aware and naive datetimes. For conversion purposes, they assume that naive datetimes are in the default time zone. They always return aware datetimes.
localtime
¶Forces conversion of a single value to the current time zone.
For example:
{% load tz %}
{{ value|localtime }}
Here’s how to migrate a project that was started before Django supported time zones.
The PostgreSQL backend stores datetimes as timestamp with time zone
. In
practice, this means it converts datetimes from the connection’s time zone to
UTC on storage, and from UTC to the connection’s time zone on retrieval.
As a consequence, if you’re using PostgreSQL, you can switch between USE_TZ
= False
and USE_TZ = True
freely. The database connection’s time zone
will be set to TIME_ZONE
or UTC
respectively, so that Django
obtains correct datetimes in all cases. You don’t need to perform any data
conversions.
Other backends store datetimes without time zone information. If you switch
from USE_TZ = False
to USE_TZ = True
, you must convert your data from
local time to UTC – which isn’t deterministic if your local time has DST.
The first step is to add USE_TZ = True
to your settings
file. At this point, things should mostly work. If you create naive datetime
objects in your code, Django makes them aware when necessary.
However, these conversions may fail around DST transitions, which means you aren’t getting the full benefits of time zone support yet. Also, you’re likely to run into a few problems because it’s impossible to compare a naive datetime with an aware datetime. Since Django now gives you aware datetimes, you’ll get exceptions wherever you compare a datetime that comes from a model or a form with a naive datetime that you’ve created in your code.
So the second step is to refactor your code wherever you instantiate datetime
objects to make them aware. This can be done incrementally.
django.utils.timezone
defines some handy helpers for compatibility
code: now()
,
is_aware()
,
is_naive()
,
make_aware()
, and
make_naive()
.
Finally, in order to help you locate code that needs upgrading, Django raises a warning when you attempt to save a naive datetime to the database:
RuntimeWarning: DateTimeField ModelName.field_name received a naive
datetime (2012-01-01 00:00:00) while time zone support is active.
During development, you can turn such warnings into exceptions and get a traceback by adding the following to your settings file:
import warnings
warnings.filterwarnings(
'error', r"DateTimeField .* received a naive datetime",
RuntimeWarning, r'django\.db\.models\.fields',
)
When serializing an aware datetime, the UTC offset is included, like this:
"2011-09-01T13:20:30+03:00"
For a naive datetime, it obviously isn’t:
"2011-09-01T13:20:30"
For models with DateTimeField
s, this difference
makes it impossible to write a fixture that works both with and without time
zone support.
Fixtures generated with USE_TZ = False
, or before Django 1.4, use the
“naive” format. If your project contains such fixtures, after you enable time
zone support, you’ll see RuntimeWarning
s when you load them. To get
rid of the warnings, you must convert your fixtures to the “aware” format.
You can regenerate fixtures with loaddata
then dumpdata
.
Or, if they’re small enough, you can simply edit them to add the UTC offset
that matches your TIME_ZONE
to each serialized datetime.
I don’t need multiple time zones. Should I enable time zone support?
Yes. When time zone support is enabled, Django uses a more accurate model of local time. This shields you from subtle and unreproducible bugs around Daylight Saving Time (DST) transitions.
When you enable time zone support, you’ll encounter some errors because you’re using naive datetimes where Django expects aware datetimes. Such errors show up when running tests and they’re easy to fix. You’ll quickly learn how to avoid invalid operations.
On the other hand, bugs caused by the lack of time zone support are much harder to prevent, diagnose and fix. Anything that involves scheduled tasks or datetime arithmetic is a candidate for subtle bugs that will bite you only once or twice a year.
For these reasons, time zone support is enabled by default in new projects, and you should keep it unless you have a very good reason not to.
I’ve enabled time zone support. Am I safe?
Maybe. You’re better protected from DST-related bugs, but you can still shoot yourself in the foot by carelessly turning naive datetimes into aware datetimes, and vice-versa.
If your application connects to other systems – for instance, if it queries a Web service – make sure datetimes are properly specified. To transmit datetimes safely, their representation should include the UTC offset, or their values should be in UTC (or both!).
Finally, our calendar system contains interesting traps for computers:
>>> import datetime
>>> def one_year_before(value): # DON'T DO THAT!
... return value.replace(year=value.year - 1)
>>> one_year_before(datetime.datetime(2012, 3, 1, 10, 0))
datetime.datetime(2011, 3, 1, 10, 0)
>>> one_year_before(datetime.datetime(2012, 2, 29, 10, 0))
Traceback (most recent call last):
...
ValueError: day is out of range for month
(To implement this function, you must decide whether 2012-02-29 minus one year is 2011-02-28 or 2011-03-01, which depends on your business requirements.)
How do I interact with a database that stores datetimes in local time?
Set the TIME_ZONE
option to the appropriate
time zone for this database in the DATABASES
setting.
This is useful for connecting to a database that doesn’t support time zones
and that isn’t managed by Django when USE_TZ
is True
.
My application crashes with TypeError: can't compare offset-naive
and offset-aware datetimes
– what’s wrong?
Let’s reproduce this error by comparing a naive and an aware datetime:
>>> import datetime
>>> from django.utils import timezone
>>> naive = datetime.datetime.utcnow()
>>> aware = timezone.now()
>>> naive == aware
Traceback (most recent call last):
...
TypeError: can't compare offset-naive and offset-aware datetimes
If you encounter this error, most likely your code is comparing these two things:
Generally, the correct solution is to change your code to use an aware datetime instead.
If you’re writing a pluggable application that’s expected to work
independently of the value of USE_TZ
, you may find
django.utils.timezone.now()
useful. This function returns the current
date and time as a naive datetime when USE_TZ = False
and as an aware
datetime when USE_TZ = True
. You can add or subtract
datetime.timedelta
as needed.
I see lots of RuntimeWarning: DateTimeField received a naive
datetime
(YYYY-MM-DD HH:MM:SS)
while time zone support is active
– is that bad?
When time zone support is enabled, the database layer expects to receive only aware datetimes from your code. This warning occurs when it receives a naive datetime. This indicates that you haven’t finished porting your code for time zone support. Please refer to the migration guide for tips on this process.
In the meantime, for backwards compatibility, the datetime is considered to be in the default time zone, which is generally what you expect.
now.date()
is yesterday! (or tomorrow)
If you’ve always used naive datetimes, you probably believe that you can
convert a datetime to a date by calling its date()
method. You also consider that a date
is a lot like a
datetime
, except that it’s less accurate.
None of this is true in a time zone aware environment:
>>> import datetime
>>> import pytz
>>> paris_tz = pytz.timezone("Europe/Paris")
>>> new_york_tz = pytz.timezone("America/New_York")
>>> paris = paris_tz.localize(datetime.datetime(2012, 3, 3, 1, 30))
# This is the correct way to convert between time zones with pytz.
>>> new_york = new_york_tz.normalize(paris.astimezone(new_york_tz))
>>> paris == new_york, paris.date() == new_york.date()
(True, False)
>>> paris - new_york, paris.date() - new_york.date()
(datetime.timedelta(0), datetime.timedelta(1))
>>> paris
datetime.datetime(2012, 3, 3, 1, 30, tzinfo=<DstTzInfo 'Europe/Paris' CET+1:00:00 STD>)
>>> new_york
datetime.datetime(2012, 3, 2, 19, 30, tzinfo=<DstTzInfo 'America/New_York' EST-1 day, 19:00:00 STD>)
As this example shows, the same datetime has a different date, depending on the time zone in which it is represented. But the real problem is more fundamental.
A datetime represents a point in time. It’s absolute: it doesn’t depend on anything. On the contrary, a date is a calendaring concept. It’s a period of time whose bounds depend on the time zone in which the date is considered. As you can see, these two concepts are fundamentally different, and converting a datetime to a date isn’t a deterministic operation.
What does this mean in practice?
Generally, you should avoid converting a datetime
to
date
. For instance, you can use the date
template filter to only show the date part of a datetime. This filter will
convert the datetime into the current time zone before formatting it,
ensuring the results appear correctly.
If you really need to do the conversion yourself, you must ensure the datetime is converted to the appropriate time zone first. Usually, this will be the current timezone:
>>> from django.utils import timezone
>>> timezone.activate(pytz.timezone("Asia/Singapore"))
# For this example, we just set the time zone to Singapore, but here's how
# you would obtain the current time zone in the general case.
>>> current_tz = timezone.get_current_timezone()
# Again, this is the correct way to convert between time zones with pytz.
>>> local = current_tz.normalize(paris.astimezone(current_tz))
>>> local
datetime.datetime(2012, 3, 3, 8, 30, tzinfo=<DstTzInfo 'Asia/Singapore' SGT+8:00:00 STD>)
>>> local.date()
datetime.date(2012, 3, 3)
I get an error “Are time zone definitions for your database
installed?
”
If you are using MySQL, see the Time zone definitions section of the MySQL notes for instructions on loading time zone definitions.
I have a string "2012-02-21 10:28:45"
and I know it’s in the
"Europe/Helsinki"
time zone. How do I turn that into an aware
datetime?
This is exactly what pytz is for.
>>> from django.utils.dateparse import parse_datetime
>>> naive = parse_datetime("2012-02-21 10:28:45")
>>> import pytz
>>> pytz.timezone("Europe/Helsinki").localize(naive, is_dst=None)
datetime.datetime(2012, 2, 21, 10, 28, 45, tzinfo=<DstTzInfo 'Europe/Helsinki' EET+2:00:00 STD>)
Note that localize
is a pytz extension to the tzinfo
API. Also, you may want to catch pytz.InvalidTimeError
. The
documentation of pytz contains more examples. You should review it
before attempting to manipulate aware datetimes.
How can I obtain the local time in the current time zone?
Well, the first question is, do you really need to?
You should only use local time when you’re interacting with humans, and the template layer provides filters and tags to convert datetimes to the time zone of your choice.
Furthermore, Python knows how to compare aware datetimes, taking into
account UTC offsets when necessary. It’s much easier (and possibly faster)
to write all your model and view code in UTC. So, in most circumstances,
the datetime in UTC returned by django.utils.timezone.now()
will be
sufficient.
For the sake of completeness, though, if you really want the local time in the current time zone, here’s how you can obtain it:
>>> from django.utils import timezone
>>> timezone.localtime(timezone.now())
datetime.datetime(2012, 3, 3, 20, 10, 53, 873365, tzinfo=<DstTzInfo 'Europe/Paris' CET+1:00:00 STD>)
In this example, the current time zone is "Europe/Paris"
.
How can I see all available time zones?
pytz provides helpers, including a list of current time zones and a list of all available time zones – some of which are only of historical interest.
Nov 02, 2020