# python how to convert datetime dates to decimal years

I am looking for a way to convert datetime objects to decimal year. Below is an example

``````>>> obj = SomeObjet()
>>> obj.DATE_OBS
datetime.datetime(2007, 4, 14, 11, 42, 50)
``````

How do i convert datetime.datetime(2007, 4, 14, 11, 42, 50) to decimal years? From this format dd/mm/yyyy to this kind of format yyyy.yyyy

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Can you give some example? What do you mean by "decimal years"? – Kiril Kirov Jun 23 '11 at 9:05
From this format dd/mm/yyyy to this kind of format yyyy.yyyy – user739807 Jun 23 '11 at 9:07
You mean, to convert it to some floating point number? Like - convert day/month/hour/etc to a number? If so, then you need to calculate it by yourself. – Kiril Kirov Jun 23 '11 at 9:12
Something like - month is 1/12 years; day is 1/365(366, depending on the year - leap or not), etc. – Kiril Kirov Jun 23 '11 at 9:12
Give us a real example - with numbers – Artsiom Rudzenka Jun 23 '11 at 9:13

``````from datetime import datetime as dt
import time

def toYearFraction(date):
def sinceEpoch(date): # returns seconds since epoch
return time.mktime(date.timetuple())
s = sinceEpoch

year = date.year
startOfThisYear = dt(year=year, month=1, day=1)
startOfNextYear = dt(year=year+1, month=1, day=1)

yearElapsed = s(date) - s(startOfThisYear)
yearDuration = s(startOfNextYear) - s(startOfThisYear)
fraction = yearElapsed/yearDuration

return date.year + fraction
``````

Demo:

``````>>> toYearFraction(dt.today())
2011.47447514
``````

This method is probably accurate to within the second (or the hour if daylight savings or other strange regional things are in effect). It also works correctly during leapyears. If you need drastic resolution (such as due to changes in the Earth's rotation) you are better off querying a net service.

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My answer is much more simple and gives an equally comparable float. Neither of our solutions are exact, but there is no generally acceptable standard way of converting a certain moment in time in to a decimal representation of a year, is there? – Kimvais Jun 23 '11 at 9:27
@Kimvais yes, there is; it is a well-defined quantity. This accurate to within an hour, more if the libraries take care of daylight savings (which I don't think they do). – ninjagecko Jun 23 '11 at 9:31
Sorry, meant 'generally accepted standard' not 'generally acceptable...' – Kimvais Jun 23 '11 at 9:31
@Kimvais: yes, the following is well defined and accepted by every mathematician in existance (but not the physicists, who may say relativity means this question is not well-defined). The start of the year is at time t0. The end of the year is at time t1. If you take any time between those two, you have a fraction. – ninjagecko Jun 23 '11 at 9:36
if your solution is expected to be correct within an hour then you should not use more than 4 digits after the decimal point here. 8 digits in your answer misleadingly suggest that you are taking into account even leap seconds that you don't. Though if the input `date` is known only within a day then you don't need more than 3 digits anyway (and `time.mktime()` is an overkill in this case). btw, there are different definitions of the year that are not connected with relativity in any way e.g., sidereal year. – J.F. Sebastian Apr 24 '15 at 19:41

I'm assuming that you are using this to compare datetime values. To do that, please use the the timedelta objects instead of reiniventing the wheel.

Example:

``````>>> from datetime import timedelta
>>> from datetime import datetime as dt
>>> d = dt.now()
>>> year = timedelta(days=365)
>>> tomorrow = d + timedelta(days=1)
>>> tomorrow + year > d + year
True
``````

If for some reason you truly need decimal years, `datetime` objects method `strftime()` can give you an integer representation of day of the year if asked for `%j` - if this is what you are looking for, see below for a simple sample (only on 1 day resolution):

``````>>> from datetime import datetime
>>> d = datetime(2007, 4, 14, 11, 42, 50)
>>> (float(d.strftime("%j"))-1) / 366 + float(d.strftime("%Y"))
2007.2814207650274
``````
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This method is inaccurate by approximately 1-2 days depending on the year and doesn't work for leap years. I am also confused why you are assuming 367 days per year. – ninjagecko Jun 23 '11 at 9:29
367 so that the leap year's last day does not become exactly the next year. – Kimvais Jun 23 '11 at 9:35
that is not the right thing to do. Furthermore you have another bug: you always skip `2010.0` and `2011.0` and all those other numbers, because datetime(year=2011,month=1,day=1).strftime("%j") is 1 not 0. The fix is to subtract 1, but that still is inaccurate by a day during leapyears. – ninjagecko Jun 23 '11 at 9:39
Fixed the sample now. – Kimvais Jun 23 '11 at 10:15