I have measurements taken from 1st January 1993. They were recorded in second elapsed from that date. I would like to have them in date time.
I know in MatLab the function would be
time = datenum(1993,01,01,00,00, time)
However, I struggle to find an equivalent function in Python.
I have tried:
datetime.fromordinal(time) doesn't work because 'module object has no attribute fromordinal'?
datetime.datetime(time) doesn't work (I have a matrix because there are many scans done)
https://docs.python.org/3/library/datetime.html
You will first have to create a datetime object for Jan 1st 1993 and then add the number of seconds to that date. The code below should help you get started.
from datetime import datetime, timedelta
original_date = datetime.strptime('01-01-1993', '%d-%m-%Y')
original_date + timedelta(seconds= 10000)
output: datetime.datetime(1993, 1, 1, 2, 46, 40)
Let us say you have list of timevalues in seconds starting from 1993-01-01 00:00.
Easiest would be:
datevec=[datetime.datetime(1993,1,1,0)+datetime.timedelta(seconds=val) for val in timevector]
It is like UNIX time, but with a different start.
You can compute the offset once:
>>> import datetime as dt
>>> dt.datetime(1993,1,1).timestamp()
725842800.0
and use it in your program:
OFFSET = 725842800.0
mydate = dt.datetime.fromtimestamp(OFFSET + seconds_from_1993)
Does time.time() in the Python time module return the system's time or the time in UTC?
The time.time() function returns the number of seconds since the epoch, as a float. Note that "the epoch" is defined as the start of January 1st, 1970 in UTC. So the epoch is defined in terms of UTC and establishes a global moment in time. No matter where on Earth you are, "seconds past epoch" (time.time()) returns the same value at the same moment.
Here is some sample output I ran on my computer, converting it to a string as well.
>>> import time
>>> ts = time.time()
>>> ts
1355563265.81
>>> import datetime
>>> datetime.datetime.fromtimestamp(ts).strftime('%Y-%m-%d %H:%M:%S')
'2012-12-15 01:21:05'
>>>
The ts variable is the time returned in seconds. I then converted it to a human-readable string using the datetime library.
This is for the text form of a timestamp that can be used in your text files. (The title of the question was different in the past, so the introduction to this answer was changed to clarify how it could be interpreted as the time. [updated 2016-01-14])
You can get the timestamp as a string using the .now() or .utcnow() of the datetime.datetime:
>>> import datetime
>>> print datetime.datetime.utcnow()
2012-12-15 10:14:51.898000
The now differs from utcnow as expected -- otherwise they work the same way:
>>> print datetime.datetime.now()
2012-12-15 11:15:09.205000
You can render the timestamp to the string explicitly:
>>> str(datetime.datetime.now())
'2012-12-15 11:15:24.984000'
Or you can be even more explicit to format the timestamp the way you like:
>>> datetime.datetime.now().strftime("%A, %d. %B %Y %I:%M%p")
'Saturday, 15. December 2012 11:19AM'
If you want the ISO format, use the .isoformat() method of the object:
>>> datetime.datetime.now().isoformat()
'2013-11-18T08:18:31.809000'
You can use these in variables for calculations and printing without conversions.
>>> ts = datetime.datetime.now()
>>> tf = datetime.datetime.now()
>>> te = tf - ts
>>> print ts
2015-04-21 12:02:19.209915
>>> print tf
2015-04-21 12:02:30.449895
>>> print te
0:00:11.239980
Based on the answer from #squiguy, to get a true timestamp I would type cast it from float.
>>> import time
>>> ts = int(time.time())
>>> print(ts)
1389177318
At least that's the concept.
The answer could be neither or both.
neither: time.time() returns approximately the number of seconds elapsed since the Epoch. The result doesn't depend on timezone so it is neither UTC nor local time. Here's POSIX defintion for "Seconds Since the Epoch".
both: time.time() doesn't require your system's clock to be synchronized so it reflects its value (though it has nothing to do with local timezone). Different computers may get different results at the same time. On the other hand if your computer time is synchronized then it is easy to get UTC time from the timestamp (if we ignore leap seconds):
from datetime import datetime
utc_dt = datetime.utcfromtimestamp(timestamp)
On how to get timestamps from UTC time in various Python versions, see How can I get a date converted to seconds since epoch according to UTC?
To get a local timestamp using datetime library, Python 3.x
#wanted format: year-month-day hour:minute:seconds
from datetime import datetime
# get time now
dt = datetime.now()
# format it to a string
timeStamp = dt.strftime('%Y-%m-%d %H:%M:%S')
# print it to screen
print(timeStamp)
I eventually settled for:
>>> import time
>>> time.mktime(time.gmtime())
1509467455.0
There is no such thing as an "epoch" in a specific timezone. The epoch is well-defined as a specific moment in time, so if you change the timezone, the time itself changes as well. Specifically, this time is Jan 1 1970 00:00:00 UTC. So time.time() returns the number of seconds since the epoch.
timestamp is always time in utc, but when you call datetime.datetime.fromtimestamp it returns you time in your local timezone corresponding to this timestamp, so result depend of your locale.
>>> import time, datetime
>>> time.time()
1564494136.0434234
>>> datetime.datetime.now()
datetime.datetime(2019, 7, 30, 16, 42, 3, 899179)
>>> datetime.datetime.fromtimestamp(time.time())
datetime.datetime(2019, 7, 30, 16, 43, 12, 4610)
There exist nice library arrow with different behaviour. In same case it returns you time object with UTC timezone.
>>> import arrow
>>> arrow.now()
<Arrow [2019-07-30T16:43:27.868760+03:00]>
>>> arrow.get(time.time())
<Arrow [2019-07-30T13:43:56.565342+00:00]>
time.time() return the unix timestamp.
you could use datetime library to get local time or UTC time.
import datetime
local_time = datetime.datetime.now()
print(local_time.strftime('%Y%m%d %H%M%S'))
utc_time = datetime.datetime.utcnow()
print(utc_time.strftime('%Y%m%d %H%M%S'))
I have strings in YMD hms format that had the timezone stripped. But I know they are in Eastern time with daylight savings time.
I am trying to convert them into epoch timestamps for UTC time.
I wrote the following function:
def ymdhms_timezone_dst_to_epoch(input_str, tz="US/Eastern"):
print(input_str)
dt = datetime.datetime.fromtimestamp(time.mktime(time.strptime(input_str,'%Y-%m-%d %H:%M:%S')))
local_dt = pytz.timezone(tz).localize(dt)
print(local_dt.strftime('%Y-%m-%d %H:%M:%S %Z%z'))
utc_dt = local_dt.astimezone(pytz.utc)
print(utc_dt.strftime('%Y-%m-%d %H:%M:%S %Z%z'))
e = int(utc_dt.strftime("%s"))
print(e)
return e
Given string `2015-04-20 21:12:07` this prints:
2015-04-20 21:12:07
2015-04-20 21:12:07 EDT-0400 #<- so far so good?
2015-04-21 01:12:07 UTC+0000 #<- so far so good?
1429596727
which looks ok up to the epoch timestamp. But http://www.epochconverter.com/epoch/timezones.php?epoch=1429596727 says it should mao to
Greenwich Mean Time Apr 21 2015 06:12:07 UTC.
What is wrong?
I have strings in YMD hms format that had the timezone stripped. But I know they are in Eastern time with daylight savings time.
A portable way is to use pytz:
#!/usr/bin/env python
from datetime import datetime
import pytz # $ pip install pytz
naive_dt = datetime.strptime('2015-04-20 21:12:07', '%Y-%m-%d %H:%M:%S')
tz = pytz.timezone('US/Eastern')
eastern_dt = tz.normalize(tz.localize(naive_dt))
print(eastern_dt)
# -> 2015-04-20 21:12:07-04:00
I am trying to convert them into epoch timestamps for UTC time.
timestamp = (eastern_dt - datetime(1970, 1, 1, tzinfo=pytz.utc)).total_seconds()
# -> 1429578727.0
See Converting datetime.date to UTC timestamp in Python.
There are multiple issues in your code:
time.mktime() may return a wrong result for ambiguous input time (50% chance) e.g., during "fall back" DST transition in the Fall
time.mktime() and datetime.fromtimestamp() may fail for past/future dates if they have no access to a historical timezone database on a system (notably, Windows)
localize(dt) may return a wrong result for ambiguous or non-existent time i.e., during DST transitions. If you know that the time corresponds to the summer time then use is_dst=True. tz.normalize() is necessary here, to adjust possible non-existing times in the input
utc_dt.strftime("%s") is not portable and it does not respect tzinfo object. It interprets input as a local time i.e., it returns a wrong result unless your local timezone is UTC.
Can I just always set is_dst=True?
You can, if you don't mind getting imprecise results for ambiguous or non-existent times e.g., there is DST transition in the Fall in America/New_York time zone:
>>> from datetime import datetime
>>> import pytz # $ pip install pytz
>>> tz = pytz.timezone('America/New_York')
>>> ambiguous_time = datetime(2015, 11, 1, 1, 30)
>>> time_fmt = '%Y-%m-%d %H:%M:%S%z (%Z)'
>>> tz.localize(ambiguous_time).strftime(time_fmt)
'2015-11-01 01:30:00-0500 (EST)'
>>> tz.localize(ambiguous_time, is_dst=False).strftime(time_fmt) # same
'2015-11-01 01:30:00-0500 (EST)'
>>> tz.localize(ambiguous_time, is_dst=True).strftime(time_fmt) # different
'2015-11-01 01:30:00-0400 (EDT)'
>>> tz.localize(ambiguous_time, is_dst=None).strftime(time_fmt)
Traceback (most recent call last):
...
pytz.exceptions.AmbiguousTimeError: 2015-11-01 01:30:00
The clocks are turned back at 2a.m. on the first Sunday in November:
is_dst disambiguation flag may have three values:
False -- default, assume the winter time
True -- assume the summer time
None -- raise an exception for ambiguous/non-existent times.
is_dst value is ignored for existing unique local times.
Here's a plot from PEP 0495 -- Local Time Disambiguation that illustrates the DST transition:
The local time repeats itself twice in the fold (summer time -- before the fold, winter time -- after).
To be able to disambiguate the local time automatically, you need some additional info e.g., if you read a series of local times then it may help if you know that they are sorted: Parsing of Ordered Timestamps in Local Time (to UTC) While Observing Daylight Saving Time.
First of all '%s' is not supported on all platforms , its actually working for you because your platform C library’s strftime() function (that is called by Python) supports it. This function is what is causing the issue most probably, I am guessing its not timezone aware , hence when taking difference from epoch time it is using your local timezone, which is most probably EST(?)
Instead of relying on '%s' , which only works in few platforms (linux, I believe) , you should manually subtract the datetime you got from epoch (1970/1/1 00:00:00) to get the actual seconds since epoch . Example -
e = (utc_dt - datetime.datetime(1970,1,1,0,0,0,tzinfo=pytz.utc)).total_seconds()
Demo -
>>> (utc_dt - datetime.datetime(1970,1,1,0,0,0,tzinfo=pytz.utc)).total_seconds()
1429578727.0
This correctly corresponds to the date-time you get.
I don't exactly know why but you have to remove the timezone info from your utc_dt before using %s to print it.
e = int(utc_dt.replace(tzinfo=None).strftime("%s"))
print(e)
return e
I want to get the default timezone (PST) of my system from Python. What's the best way to do that? I'd like to avoid forking another process.
This should work:
import time
time.tzname
time.tzname returns a tuple of two strings: The first is the name of the local non-DST timezone, the second is the name of the local DST timezone.
Example return: ('MST', 'MDT')
Gives a UTC offset like in ThomasH's answer, but takes daylight savings into account.
>>> import time
>>> offset = time.timezone if (time.localtime().tm_isdst == 0) else time.altzone
>>> offset / 60 / 60 * -1
-9
The value of time.timezone or time.altzone is in seconds West of UTC (with areas East of UTC getting a negative value). This is the opposite to how we'd actually like it, hence the * -1.
time.localtime().tm_isdst will be zero if daylight savings is currently not in effect (although this may not be correct if an area has recently changed their daylight savings law).
EDIT: marr75 is correct, I've edited the answer accordingly.
I found this to work well:
import datetime
tz_string = datetime.datetime.now(datetime.timezone.utc).astimezone().tzname()
For me this was able to differentiate between daylight savings and not.
From Python 3.6 you can do:
tz_string = datetime.datetime.now().astimezone().tzname()
Or
tz_string = datetime.datetime.now().astimezone().tzinfo
Reference with more detail: https://stackoverflow.com/a/39079819/4549682
Check out the Python Time Module.
from time import gmtime, strftime
print(strftime("%z", gmtime()))
Pacific Standard Time
The code snippets for calculating offset are incorrect, see http://bugs.python.org/issue7229.
The correct way to handle this is:
def local_time_offset(t=None):
"""Return offset of local zone from GMT, either at present or at time t."""
# python2.3 localtime() can't take None
if t is None:
t = time.time()
if time.localtime(t).tm_isdst and time.daylight:
return -time.altzone
else:
return -time.timezone
This is in all likelihood, not the exact question that the OP asked, but there are two incorrect snippets on the page and time bugs suck to track down and fix.
For Python 3.6+ this can be easily achieved by following code:
import datetime
local_timezone = datetime.datetime.utcnow().astimezone().tzinfo
print(local_timezone)
But with Python < 3.6 calling astimezone() on naive datetime doesn't work. So we've to do it in a slightly different way.
So for Python 3.x,
import datetime
local_timezone = datetime.datetime.now(datetime.timezone.utc).astimezone().tzinfo
print(local_timezone)
Sample Output:
On Netherlands Server(Python 3.6.9):
CEST
On Bangladesh Server(Python 3.8.2):
+06
More details can be found on this thread.
To obtain timezone information in the form of a datetime.tzinfo object, use dateutil.tz.tzlocal():
from dateutil import tz
myTimeZone = tz.tzlocal()
This object can be used in the tz parameter of datetime.datetime.now():
from datetime import datetime
from dateutil import tz
localisedDatetime = datetime.now(tz = tz.tzlocal())
or the tz parameter of datetime object via datetime.datetime.astimezone():
from datetime import datetime
from dateutil import tz
unlocalisedDatetime = datetime.now()
localisedDatetime = unlocalisedDatetime.astimezone(tz = tz.tzlocal())
Getting offset from UTC as timedelta:
from datetime import datetime, timezone
now = datetime.now()
now.replace(tzinfo=timezone.utc) - now.astimezone(timezone.utc)
Or like this (more obscure but also works):
datetime.now(timezone.utc).astimezone().tzinfo.utcoffset(None)
Both solutions give the same result. For example: datetime.timedelta(seconds=7200)
import tzlocal
tz_info = tzlocal.get_localzone() # 'US/Central' or 'Asia/Calcutta'
dt = datetime.now() # 2023-01-15 15:17:24.412430
print(tz_info.localize(dt) # 2023-01-15 15:17:24.412430-06:00
with tzlocal we will be able to get the local timezone.
How do I get the current time?
Use datetime:
>>> import datetime
>>> now = datetime.datetime.now()
>>> now
datetime.datetime(2009, 1, 6, 15, 8, 24, 78915)
>>> print(now)
2009-01-06 15:08:24.789150
For just the clock time without the date:
>>> now.time()
datetime.time(15, 8, 24, 78915)
>>> print(now.time())
15:08:24.789150
To save typing, you can import the datetime object from the datetime module:
>>> from datetime import datetime
Then remove the prefix datetime. from all of the above.
Use time.strftime():
>>> from time import gmtime, strftime
>>> strftime("%Y-%m-%d %H:%M:%S", gmtime())
'2009-01-05 22:14:39'
from datetime import datetime
datetime.now().strftime('%Y-%m-%d %H:%M:%S')
Example output: '2013-09-18 11:16:32'
See list of strftime directives.
Similar to Harley's answer, but use the str() function for a quick-n-dirty, slightly more human readable format:
>>> from datetime import datetime
>>> str(datetime.now())
'2011-05-03 17:45:35.177000'
How do I get the current time in Python?
The time module
The time module provides functions that tell us the time in "seconds since the epoch" as well as other utilities.
import time
Unix Epoch Time
This is the format you should get timestamps in for saving in databases. It is a simple floating-point number that can be converted to an integer. It is also good for arithmetic in seconds, as it represents the number of seconds since Jan 1, 1970, 00:00:00, and it is memory light relative to the other representations of time we'll be looking at next:
>>> time.time()
1424233311.771502
This timestamp does not account for leap-seconds, so it's not linear - leap seconds are ignored. So while it is not equivalent to the international UTC standard, it is close, and therefore quite good for most cases of record-keeping.
This is not ideal for human scheduling, however. If you have a future event you wish to take place at a certain point in time, you'll want to store that time with a string that can be parsed into a datetime object or a serialized datetime object (these will be described later).
time.ctime
You can also represent the current time in the way preferred by your operating system (which means it can change when you change your system preferences, so don't rely on this to be standard across all systems, as I've seen others expect). This is typically user friendly, but doesn't typically result in strings one can sort chronologically:
>>> time.ctime()
'Tue Feb 17 23:21:56 2015'
You can hydrate timestamps into human readable form with ctime as well:
>>> time.ctime(1424233311.771502)
'Tue Feb 17 23:21:51 2015'
This conversion is also not good for record-keeping (except in text that will only be parsed by humans - and with improved Optical Character Recognition and Artificial Intelligence, I think the number of these cases will diminish).
datetime module
The datetime module is also quite useful here:
>>> import datetime
datetime.datetime.now
The datetime.now is a class method that returns the current time. It uses the time.localtime without the timezone info (if not given, otherwise see timezone aware below). It has a representation (which would allow you to recreate an equivalent object) echoed on the shell, but when printed (or coerced to a str), it is in human readable (and nearly ISO) format, and the lexicographic sort is equivalent to the chronological sort:
>>> datetime.datetime.now()
datetime.datetime(2015, 2, 17, 23, 43, 49, 94252)
>>> print(datetime.datetime.now())
2015-02-17 23:43:51.782461
datetime's utcnow
You can get a datetime object in UTC time, a global standard, by doing this:
>>> datetime.datetime.utcnow()
datetime.datetime(2015, 2, 18, 4, 53, 28, 394163)
>>> print(datetime.datetime.utcnow())
2015-02-18 04:53:31.783988
UTC is a time standard that is nearly equivalent to the GMT timezone. (While GMT and UTC do not change for Daylight Savings Time, their users may switch to other timezones, like British Summer Time, during the Summer.)
datetime timezone aware
However, none of the datetime objects we've created so far can be easily converted to various timezones. We can solve that problem with the pytz module:
>>> import pytz
>>> then = datetime.datetime.now(pytz.utc)
>>> then
datetime.datetime(2015, 2, 18, 4, 55, 58, 753949, tzinfo=<UTC>)
Equivalently, in Python 3 we have the timezone class with a utc timezone instance attached, which also makes the object timezone aware (but to convert to another timezone without the handy pytz module is left as an exercise to the reader):
>>> datetime.datetime.now(datetime.timezone.utc)
datetime.datetime(2015, 2, 18, 22, 31, 56, 564191, tzinfo=datetime.timezone.utc)
And we see we can easily convert to timezones from the original UTC object.
>>> print(then)
2015-02-18 04:55:58.753949+00:00
>>> print(then.astimezone(pytz.timezone('US/Eastern')))
2015-02-17 23:55:58.753949-05:00
You can also make a naive datetime object aware with the pytz timezone localize method, or by replacing the tzinfo attribute (with replace, this is done blindly), but these are more last resorts than best practices:
>>> pytz.utc.localize(datetime.datetime.utcnow())
datetime.datetime(2015, 2, 18, 6, 6, 29, 32285, tzinfo=<UTC>)
>>> datetime.datetime.utcnow().replace(tzinfo=pytz.utc)
datetime.datetime(2015, 2, 18, 6, 9, 30, 728550, tzinfo=<UTC>)
The pytz module allows us to make our datetime objects timezone aware and convert the times to the hundreds of timezones available in the pytz module.
One could ostensibly serialize this object for UTC time and store that in a database, but it would require far more memory and be more prone to error than simply storing the Unix Epoch time, which I demonstrated first.
The other ways of viewing times are much more error-prone, especially when dealing with data that may come from different time zones. You want there to be no confusion as to which timezone a string or serialized datetime object was intended for.
If you're displaying the time with Python for the user, ctime works nicely, not in a table (it doesn't typically sort well), but perhaps in a clock. However, I personally recommend, when dealing with time in Python, either using Unix time, or a timezone aware UTC datetime object.
Do
from time import time
t = time()
t - float number, good for time interval measurement.
There is some difference for Unix and Windows platforms.
>>> from time import gmtime, strftime
>>> strftime("%a, %d %b %Y %X +0000", gmtime())
'Tue, 06 Jan 2009 04:54:56 +0000'
That outputs the current GMT in the specified format. There is also a localtime() method.
This page has more details.
The previous answers are all good suggestions, but I find it easiest to use ctime():
In [2]: from time import ctime
In [3]: ctime()
Out[3]: 'Thu Oct 31 11:40:53 2013'
This gives a nicely formatted string representation of the current local time.
The quickest way is:
>>> import time
>>> time.strftime("%Y%m%d")
'20130924'
If you need current time as a time object:
>>> import datetime
>>> now = datetime.datetime.now()
>>> datetime.time(now.hour, now.minute, now.second)
datetime.time(11, 23, 44)
You can use the time module:
>>> import time
>>> print(time.strftime("%d/%m/%Y"))
06/02/2015
The use of the capital Y gives the full year, and using y would give 06/02/15.
You could also use the following code to give a more lengthy time:
>>> time.strftime("%a, %d %b %Y %H:%M:%S")
'Fri, 06 Feb 2015 17:45:09'
.isoformat() is in the documentation, but not yet here
(this is mighty similar to #Ray Vega's answer):
>>> import datetime
>>> datetime.datetime.now().isoformat()
'2013-06-24T20:35:55.982000'
Why not ask the U.S. Naval Observatory, the official timekeeper of the United States Navy?
import requests
from lxml import html
page = requests.get('http://tycho.usno.navy.mil/cgi-bin/timer.pl')
tree = html.fromstring(page.content)
print(tree.xpath('//html//body//h3//pre/text()')[1])
If you live in the D.C. area (like me) the latency might not be too bad...
Using pandas to get the current time, kind of overkilling the problem at hand:
import pandas as pd
print(pd.datetime.now())
print(pd.datetime.now().date())
print(pd.datetime.now().year)
print(pd.datetime.now().month)
print(pd.datetime.now().day)
print(pd.datetime.now().hour)
print(pd.datetime.now().minute)
print(pd.datetime.now().second)
print(pd.datetime.now().microsecond)
Output:
2017-09-22 12:44:56.092642
2017-09-22
2017
9
22
12
44
56
92693
if you are using numpy already then directly you can use numpy.datetime64()
function.
import numpy as np
str(np.datetime64('now'))
for only date:
str(np.datetime64('today'))
or, if you are using pandas already then you can use pandas.to_datetime() function
import pandas as pd
str(pd.to_datetime('now'))
or,
str(pd.to_datetime('today'))
This is what I ended up going with:
>>>from time import strftime
>>>strftime("%m/%d/%Y %H:%M")
01/09/2015 13:11
Also, this table is a necessary reference for choosing the appropriate format codes to get the date formatted just the way you want it (from Python "datetime" documentation here).
datetime.now() returns the current time as a naive datetime object that represents time in the local timezone. That value may be ambiguous e.g., during DST transitions ("fall back"). To avoid ambiguity either UTC timezone should be used:
from datetime import datetime
utc_time = datetime.utcnow()
print(utc_time) # -> 2014-12-22 22:48:59.916417
Or a timezone-aware object that has the corresponding timezone info attached (Python 3.2+):
from datetime import datetime, timezone
now = datetime.now(timezone.utc).astimezone()
print(now) # -> 2014-12-23 01:49:25.837541+03:00
import datetime
date_time = datetime.datetime.now()
date = date_time.date() # Gives the date
time = date_time.time() # Gives the time
print date.year, date.month, date.day
print time.hour, time.minute, time.second, time.microsecond
Do dir(date) or any variables including the package. You can get all the attributes and methods associated with the variable.
>>> import datetime, time
>>> time = time.strftime("%H:%M:%S:%MS", time.localtime())
>>> print time
'00:21:38:20S'
This question doesn't need a new answer just for the sake of it ... a shiny new-ish toy/module, however, is enough justification. That being the Pendulum library, which appears to do the sort of things which arrow attempted, except without the inherent flaws and bugs which beset arrow.
For instance, the answer to the original question:
>>> import pendulum
>>> print(pendulum.now())
2018-08-14T05:29:28.315802+10:00
>>> print(pendulum.now('utc'))
2018-08-13T19:29:35.051023+00:00
There's a lot of standards which need addressing, including multiple RFCs and ISOs, to worry about. Ever get them mixed up; not to worry, take a little look into dir(pendulum.constants) There's a bit more than RFC and ISO formats there, though.
When we say local, though what do we mean? Well I mean:
>>> print(pendulum.now().timezone_name)
Australia/Melbourne
>>>
Presumably most of the rest of you mean somewhere else.
And on it goes. Long story short: Pendulum attempts to do for date and time what requests did for HTTP. It's worth consideration, particularly for both its ease of use and extensive documentation.
By default, now() function returns output in the YYYY-MM-DD HH:MM:SS:MS format. Use the below sample script to get the current date and time in a Python script and print results on the screen. Create file getDateTime1.py with the below content.
import datetime
currentDT = datetime.datetime.now()
print (str(currentDT))
The output looks like below:
2018-03-01 17:03:46.759624
Try the arrow module from http://crsmithdev.com/arrow/:
import arrow
arrow.now()
Or the UTC version:
arrow.utcnow()
To change its output, add .format():
arrow.utcnow().format('YYYY-MM-DD HH:mm:ss ZZ')
For a specific timezone:
arrow.now('US/Pacific')
An hour ago:
arrow.utcnow().replace(hours=-1)
Or if you want the gist.
arrow.get('2013-05-11T21:23:58.970460+00:00').humanize()
>>> '2 years ago'
Current time of a timezone
from datetime import datetime
import pytz
tz_NY = pytz.timezone('America/New_York')
datetime_NY = datetime.now(tz_NY)
print("NY time:", datetime_NY.strftime("%H:%M:%S"))
tz_London = pytz.timezone('Europe/London')
datetime_London = datetime.now(tz_London)
print("London time:", datetime_London.strftime("%H:%M:%S"))
tz_India = pytz.timezone('Asia/India')
datetime_India = datetime.now(tz_India)
print("India time:", datetime_India.strftime("%H:%M:%S"))
#list timezones
pytz.all_timezones
To get exactly 3 decimal points for milliseconds 11:34:23.751 run this:
def get_time_str(decimal_points=3):
return time.strftime("%H:%M:%S", time.localtime()) + '.%d' % (time.time() % 1 * 10**decimal_points)
More context:
I want to get the time with milliseconds. A simple way to get them:
import time, datetime
print(datetime.datetime.now().time()) # 11:20:08.272239
# Or in a more complicated way
print(datetime.datetime.now().time().isoformat()) # 11:20:08.272239
print(datetime.datetime.now().time().strftime('%H:%M:%S.%f')) # 11:20:08.272239
# But do not use this:
print(time.strftime("%H:%M:%S.%f", time.localtime()), str) # 11:20:08.%f
But I want only milliseconds, right? The shortest way to get them:
import time
time.strftime("%H:%M:%S", time.localtime()) + '.%d' % (time.time() % 1 * 1000)
# 11:34:23.751
Add or remove zeroes from the last multiplication to adjust number of decimal points, or just:
def get_time_str(decimal_points=3):
return time.strftime("%H:%M:%S", time.localtime()) + '.%d' % (time.time() % 1 * 10**decimal_points)
If you just want the current timestamp in ms (for example, to measure execution time), you can also use the "timeit" module:
import timeit
start_time = timeit.default_timer()
do_stuff_you_want_to_measure()
end_time = timeit.default_timer()
print("Elapsed time: {}".format(end_time - start_time))
You can use this function to get the time (unfortunately it doesn't say AM or PM):
def gettime():
from datetime import datetime
return ((str(datetime.now())).split(' ')[1]).split('.')[0]
To get the hours, minutes, seconds and milliseconds to merge later, you can use these functions:
Hour:
def gethour():
from datetime import datetime
return (((str(datetime.now())).split(' ')[1]).split('.')[0]).split(':')[0]
Minute:
def getminute():
from datetime import datetime
return (((str(datetime.now())).split(' ')[1]).split('.')[0]).split(':')[1]
Second:
def getsecond():
from datetime import datetime
return (((str(datetime.now())).split(' ')[1]).split('.')[0]).split(':')[2]
Millisecond:
def getmillisecond():
from datetime import datetime
return (str(datetime.now())).split('.')[1]
You can try the following
import datetime
now = datetime.datetime.now()
print(now)
or
import datetime
now = datetime.datetime.now()
print(now.strftime("%Y-%b-%d, %A %I:%M:%S"))
Because no one has mentioned it yet, and this is something I ran into recently... a pytz timezone's fromutc() method combined with datetime's utcnow() is the best way I've found to get a useful current time (and date) in any timezone.
from datetime import datetime
import pytz
JST = pytz.timezone("Asia/Tokyo")
local_time = JST.fromutc(datetime.utcnow())
If all you want is the time, you can then get that with local_time.time().
import datetime
todays_date = datetime.date.today()
print(todays_date)
>>> 2019-10-12
# adding strftime will remove the seconds
current_time = datetime.datetime.now().strftime('%H:%M')
print(current_time)
>>> 23:38
Method1: Getting Current Date and Time from system datetime
The datetime module supplies classes for manipulating dates and times.
Code
from datetime import datetime,date
print("Date: "+str(date.today().year)+"-"+str(date.today().month)+"-"+str(date.today().day))
print("Year: "+str(date.today().year))
print("Month: "+str(date.today().month))
print("Day: "+str(date.today().day)+"\n")
print("Time: "+str(datetime.today().hour)+":"+str(datetime.today().minute)+":"+str(datetime.today().second))
print("Hour: "+str(datetime.today().hour))
print("Minute: "+str(datetime.today().minute))
print("Second: "+str(datetime.today().second))
print("MilliSecond: "+str(datetime.today().microsecond))
Output will be like
Date: 2020-4-18
Year: 2020
Month: 4
Day: 18
Time: 19:30:5
Hour: 19
Minute: 30
Second: 5
MilliSecond: 836071
Method2: Getting Current Date and Time if Network is available
urllib package helps us to handle the url's that means webpages. Here we collects data from the webpage http://just-the-time.appspot.com/ and parses dateime from the webpage using the package dateparser.
Code
from urllib.request import urlopen
import dateparser
time_url = urlopen(u'http://just-the-time.appspot.com/')
datetime = time_url.read().decode("utf-8", errors="ignore").split(' ')[:-1]
date = datetime[0]
time = datetime[1]
print("Date: "+str(date))
print("Year: "+str(date.split('-')[0]))
print("Month: "+str(date.split('-')[1]))
print("Day: "+str(date.split('-')[2])+'\n')
print("Time: "+str(time))
print("Hour: "+str(time.split(':')[0]))
print("Minute: "+str(time.split(':')[1]))
print("Second: "+str(time.split(':')[2]))
Output will be like
Date: 2020-04-18
Year: 2020
Month: 04
Day: 18
Time: 14:17:10
Hour: 14
Minute: 17
Second: 10
Method3: Getting Current Date and Time from Local Time of the Machine
Python's time module provides a function for getting local time from the number of seconds elapsed since the epoch called localtime(). ctime() function takes seconds passed since epoch as an argument and returns a string representing local time.
Code
from time import time, ctime
datetime = ctime(time()).split(' ')
print("Date: "+str(datetime[4])+"-"+str(datetime[1])+"-"+str(datetime[2]))
print("Year: "+str(datetime[4]))
print("Month: "+str(datetime[1]))
print("Day: "+str(datetime[2]))
print("Week Day: "+str(datetime[0])+'\n')
print("Time: "+str(datetime[3]))
print("Hour: "+str(datetime[3]).split(':')[0])
print("Minute: "+str(datetime[3]).split(':')[1])
print("Second: "+str(datetime[3]).split(':')[2])
Output will be like
Date: 2020-Apr-18
Year: 2020
Month: Apr
Day: 18
Week Day: Sat
Time: 19:30:20
Hour: 19
Minute: 30
Second: 20