I am having trouble converting a python datetime64 object into a string. For example:

t = numpy.datetime64('2012-06-30T20:00:00.000000000-0400')


'2012.07.01' as a  string. (note time difference)

I have already tried to convert the datetime64 object to a datetime long then to a string, but I seem to get this error:

dt = t.astype(datetime.datetime) #1341100800000000000L
ValueError: unconvertible time

Solution was:

import pandas as pd 
ts = pd.to_datetime(str(date)) 
d = ts.strftime('%Y.%m.%d')
  • This doesn't work for some reason. numpy.datetime64' object has no attribute 'strftime' – chemeng Oct 17 '18 at 14:53
  • 1
    @chemeng you need to run pd.to_datetime on the numpy.datetime64 object before doing .strftime – RK1 Oct 30 '18 at 12:55

If you don't want to do that conversion gobbledygook and are ok with just one date format, this was the best solution for me

Out[11]: '2012-07-01'

As noted this works for pandas too

df['d'].dt.strftime('%Y-%m-%d') # equivalent
  • 2
    That is madness! What a creative solution! – four43 May 31 '18 at 13:18
  • 1
    This works on a pandas.Timestamp object as well, which is good for keeping nanosecond, or smaller, precision, as strftime does not support this level of precision. – Adrian Torrie Sep 5 '18 at 6:29

You can use Numpy's datetime_as_string function. The unit='D' argument specifies the precision, in this case days.

 >>> t = numpy.datetime64('2012-06-30T20:00:00.000000000-0400')
 >>> numpy.datetime_as_string(t, unit='D')
  • numpy instead of numpyp. Or with import numpy as np just np.datetime.... – TravelTrader Dec 7 '19 at 10:34
  • Thanks! Fixed it. – Julie Dec 7 '19 at 19:35

I wanted an ISO 8601 formatted string without needing any extra dependencies. My numpy_array has a single element as a datetime64. With help from @Wirawan-Purwanto, I added just a bit:

from datetime import datetime   

ts = numpy_array.values.astype(datetime)/1000000000
return datetime.utcfromtimestamp(ts).isoformat() # "2018-05-24T19:54:48"

There is a route without using pandas; but see caveat below.

Well, the t variable has a resolution of nanoseconds, which can be shown by inspection in python:

>>> numpy.dtype(t)

This means that the integral value of this value is 10^9 times the UNIX timestamp. The value printed in your question gives that hint. Your best bet is to divide the integral value of t by 1 billion then you can use time.strftime:

>>> import time
>>> time.strftime("%Y.%m.%d", time.gmtime(t.astype(int)/1000000000))

In using this, be conscious of two assumptions:

1) the datetime64 resolution is nanosecond

2) the time stored in datetime64 is in UTC

Side note 1: Interestingly, the numpy developers decided [1] that datetime64 object that has a resolution greater than microsecond will be cast to a long type, which explains why t.astype(datetime.datetime) yields 1341100800000000000L. The reason is that datetime.datetime object can't accurately represent a nanosecond or finer timescale, because the resolution supported by datetime.datetime is only microsecond.

Side note 2: Beware the different conventions between numpy 1.10 and earlier vs 1.11 and later:

  • in numpy <= 1.10, datetime64 is stored internally as UTC, and printed as local time. Parsing is assuming local time if no TZ is specified, otherwise the timezone offset is accounted for.

  • in numpy >= 1.11, datetime64 is stored internally as timezone-agnostic value (seconds since 1970-01-01 00:00 in unspecified timezone), and printed as such. Time parsing does not assume the timezone, although +NNNN style timezone shift is still permitted and that the value is converted to UTC.

[1]: https://github.com/numpy/numpy/blob/master/numpy/core/src/multiarray/datetime.c see routine convert_datetime_to_pyobject.

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