312

I'm having trouble formatting a datetime.timedelta object.

Here's what I'm trying to do: I have a list of objects and one of the members of the class of the object is a timedelta object that shows the duration of an event. I would like to display that duration in the format of hours:minutes.

I have tried a variety of methods for doing this and I'm having difficulty. My current approach is to add methods to the class for my objects that return hours and minutes. I can get the hours by dividing the timedelta.seconds by 3600 and rounding it. I'm having trouble with getting the remainder seconds and converting that to minutes.

By the way, I'm using Google AppEngine with Django Templates for presentation.

  • 61
    Would be nice if timedelta had an equivalent of the strftime() method. – JS. Aug 22 '12 at 22:14
  • @JS. Well, you somewhat can if you use datetime.utcfromtimestamp(). See my answer below. – sjngm Jan 30 '15 at 18:26
  • @JS. - 100% agree. Then, __str__ of timedelta is quite decent, as opposed to __repr__ (that is - for humans!). For example: datetime.timedelta(minutes=6, seconds=41) * 2618 / 48 gives datetime.timedelta(seconds=21871, microseconds=208333), but str(datetime.timedelta(minutes=6, seconds=41) * 2618 / 48) gives '6:04:31.208333' which is fairly OK to read. – Tomasz Gandor Jan 14 '20 at 13:34
  • @JS. in python3 the datetime module is implemented in pure python in file /usr/lib/python3.7/datetime.py. At the end of this file an import from _datetime overrides the pure python implementation with a compiled one. But if you comment out the import the module works and you can add a datetime.timedelta.__format__ method either directly in said file or by monkey patching. – NameOfTheRose Dec 10 '20 at 10:05
  • 1
    Ofcourse commenting out the import, as I myself suggested, has implications: performance suffers ( strptime is 2x slower) , incompatibilities arise( timezone module crashes). – NameOfTheRose Dec 13 '20 at 9:48

30 Answers 30

233

You can just convert the timedelta to a string with str(). Here's an example:

import datetime
start = datetime.datetime(2009,2,10,14,00)
end   = datetime.datetime(2009,2,10,16,00)
delta = end-start
print(str(delta))
# prints 2:00:00
  • 13
    More like calling the str() method with timedelta as its argument. – joeforker Feb 12 '09 at 18:23
  • 12
    You don't need the str call there, it will be done automatically by print. – Zitrax Feb 14 '14 at 7:49
  • 5
    @Zitrax but it is necessary if you are going to concatenate the delta with another string. For instance print 'some thing ' + str(delta) – Plinio.Santos Feb 6 '15 at 13:33
  • 13
    And necessary when the data type is defined as 'datetime.timedelta' and you are using it like this ConvertDuration=datetime.timedelta(milliseconds=int(254459)) then you just use split to get the microseconds out of play. From 0:03:43.765000 I can get 0:03:43 by simply running TotalDuration=str(ConvertDuration).split('.', 2)[0] – DarkXDroid Feb 8 '15 at 11:51
  • 22
    This might print the delta as a string, but it doesn't format it as the OP requested. – Dannid Feb 18 '15 at 22:16
203

As you know, you can get the total_seconds from a timedelta object by accessing the .seconds attribute.

Python provides the builtin function divmod() which allows for:

s = 13420
hours, remainder = divmod(s, 3600)
minutes, seconds = divmod(remainder, 60)
print '{:02}:{:02}:{:02}'.format(int(hours), int(minutes), int(seconds))
# result: 03:43:40

or you can convert to hours and remainder by using a combination of modulo and subtraction:

# arbitrary number of seconds
s = 13420
# hours
hours = s // 3600 
# remaining seconds
s = s - (hours * 3600)
# minutes
minutes = s // 60
# remaining seconds
seconds = s - (minutes * 60)
# total time
print '{:02}:{:02}:{:02}'.format(int(hours), int(minutes), int(seconds))
# result: 03:43:40
  • 6
    For negative timedeltas you should do evaluate the sign first and then do abs(s). – mbarkhau May 4 '11 at 10:45
  • 27
    Note that you may actually want to use '%d:%02d:%02d' to have leading zeros in the output string. – ShinNoNoir Mar 20 '14 at 12:35
  • 12
    for python 2.7 and greater use .total_seconds() method – sk8asd123 Apr 22 '14 at 21:46
  • 31
    Don't use .seconds if the difference can be negative or longer than 24 hours (.seconds attribute ignores .days). Use .total_seconds() or its analog instead. – jfs Jan 30 '15 at 20:33
  • For positive differences I'm re-implementing this from time to time. Thanks for just having to search this time :) – Wolf Apr 25 '18 at 10:12
68
>>> str(datetime.timedelta(hours=10.56))
10:33:36

>>> td = datetime.timedelta(hours=10.505) # any timedelta object
>>> ':'.join(str(td).split(':')[:2])
10:30

Passing the timedelta object to the str() function calls the same formatting code used if we simply type print td. Since you don't want the seconds, we can split the string by colons (3 parts) and put it back together with only the first 2 parts.

  • Thanks for your answer joeforker, but I'm not sure I understand your response. I am getting a time delta by way of datetime - datetime. I don't know the hours. Plus, it looks like your example includes seconds, how would I remove that? – mawcs Feb 11 '09 at 20:46
  • 1
    Doesn't matter where you get the timedelta object, it will format the same. – joeforker Feb 11 '09 at 20:48
  • 9
    If it's longer than a day, it will format as e.g. "4 days, 8:00" after the split/join processing. – joeforker Feb 11 '09 at 20:52
  • 5
    str(my_timedelta) works poorly for negative numbers – Catskul May 17 '14 at 23:14
  • 2
    Shows days too when >24 hours, e.g. '4 days, 18:48:22.330000'. Many methods advised here do not. – Alexei Martianov May 17 '18 at 12:53
49
def td_format(td_object):
    seconds = int(td_object.total_seconds())
    periods = [
        ('year',        60*60*24*365),
        ('month',       60*60*24*30),
        ('day',         60*60*24),
        ('hour',        60*60),
        ('minute',      60),
        ('second',      1)
    ]

    strings=[]
    for period_name, period_seconds in periods:
        if seconds > period_seconds:
            period_value , seconds = divmod(seconds, period_seconds)
            has_s = 's' if period_value > 1 else ''
            strings.append("%s %s%s" % (period_value, period_name, has_s))

    return ", ".join(strings)
  • 5
    Really nice, I would suggest changing if seconds > period_seconds: to if seconds >= period_seconds: however. – CBenni Jun 19 '15 at 19:04
  • 1
    This returns empty strings for negative timedeltas, not sure if this is intended? – Dirk Aug 22 '17 at 10:34
  • I have tried 5473 days and I got: "14 years, 12 months, 3 days". Why not "15 years and 3 days" instead? Furthermore, according to google, 5473 is "14.99452 calendar years" and "0.99451999988374 calendar years is 11.93422692000003593 months", and "0.93422692000003593193 months is 28.416099957565091216 days. Therefore, isn't the correct answer supposed to be: "14 years, 11 months, 28 days"? – Bruno Ambrozio Dec 15 '20 at 23:50
39

I personally use the humanize library for this:

>>> import datetime
>>> humanize.naturalday(datetime.datetime.now())
'today'
>>> humanize.naturalday(datetime.datetime.now() - datetime.timedelta(days=1))
'yesterday'
>>> humanize.naturalday(datetime.date(2007, 6, 5))
'Jun 05'
>>> humanize.naturaldate(datetime.date(2007, 6, 5))
'Jun 05 2007'
>>> humanize.naturaltime(datetime.datetime.now() - datetime.timedelta(seconds=1))
'a second ago'
>>> humanize.naturaltime(datetime.datetime.now() - datetime.timedelta(seconds=3600))
'an hour ago'

Of course, it doesn't give you exactly the answer you were looking for (which is, indeed, str(timeA - timeB), but I have found that once you go beyond a few hours, the display becomes quickly unreadable. humanize has support for much larger values that are human-readable, and is also well localized.

It's inspired by Django's contrib.humanize module, apparently, so since you are using Django, you should probably use that.

  • 2
    Nice,+1 Though: humanize.naturaldelta(pd.Timedelta('-10sec')) --> '10 seconds' :S... – ntg Dec 13 '16 at 10:49
  • 3
    well it is a 10 second delta. :) it you want the time, naturaltime is what you want to use. – anarcat Dec 14 '16 at 19:58
29

He already has a timedelta object so why not use its built-in method total_seconds() to convert it to seconds, then use divmod() to get hours and minutes?

hours, remainder = divmod(myTimeDelta.total_seconds(), 3600)
minutes, seconds = divmod(remainder, 60)

# Formatted only for hours and minutes as requested
print '%s:%s' % (hours, minutes)

This works regardless if the time delta has even days or years.

27

Here is a general purpose function for converting either a timedelta object or a regular number (in the form of seconds or minutes, etc.) to a nicely formatted string. I took mpounsett's fantastic answer on a duplicate question, made it a bit more flexible, improved readibility, and added documentation.

You will find that it is the most flexible answer here so far since it allows you to:

  1. Customize the string format on the fly instead of it being hard-coded.
  2. Leave out certain time intervals without a problem (see examples below).

Function:

from string import Formatter
from datetime import timedelta

def strfdelta(tdelta, fmt='{D:02}d {H:02}h {M:02}m {S:02}s', inputtype='timedelta'):
    """Convert a datetime.timedelta object or a regular number to a custom-
    formatted string, just like the stftime() method does for datetime.datetime
    objects.

    The fmt argument allows custom formatting to be specified.  Fields can 
    include seconds, minutes, hours, days, and weeks.  Each field is optional.

    Some examples:
        '{D:02}d {H:02}h {M:02}m {S:02}s' --> '05d 08h 04m 02s' (default)
        '{W}w {D}d {H}:{M:02}:{S:02}'     --> '4w 5d 8:04:02'
        '{D:2}d {H:2}:{M:02}:{S:02}'      --> ' 5d  8:04:02'
        '{H}h {S}s'                       --> '72h 800s'

    The inputtype argument allows tdelta to be a regular number instead of the  
    default, which is a datetime.timedelta object.  Valid inputtype strings: 
        's', 'seconds', 
        'm', 'minutes', 
        'h', 'hours', 
        'd', 'days', 
        'w', 'weeks'
    """

    # Convert tdelta to integer seconds.
    if inputtype == 'timedelta':
        remainder = int(tdelta.total_seconds())
    elif inputtype in ['s', 'seconds']:
        remainder = int(tdelta)
    elif inputtype in ['m', 'minutes']:
        remainder = int(tdelta)*60
    elif inputtype in ['h', 'hours']:
        remainder = int(tdelta)*3600
    elif inputtype in ['d', 'days']:
        remainder = int(tdelta)*86400
    elif inputtype in ['w', 'weeks']:
        remainder = int(tdelta)*604800

    f = Formatter()
    desired_fields = [field_tuple[1] for field_tuple in f.parse(fmt)]
    possible_fields = ('W', 'D', 'H', 'M', 'S')
    constants = {'W': 604800, 'D': 86400, 'H': 3600, 'M': 60, 'S': 1}
    values = {}
    for field in possible_fields:
        if field in desired_fields and field in constants:
            values[field], remainder = divmod(remainder, constants[field])
    return f.format(fmt, **values)

Demo:

>>> td = timedelta(days=2, hours=3, minutes=5, seconds=8, microseconds=340)

>>> print strfdelta(td)
02d 03h 05m 08s

>>> print strfdelta(td, '{D}d {H}:{M:02}:{S:02}')
2d 3:05:08

>>> print strfdelta(td, '{D:2}d {H:2}:{M:02}:{S:02}')
 2d  3:05:08

>>> print strfdelta(td, '{H}h {S}s')
51h 308s

>>> print strfdelta(12304, inputtype='s')
00d 03h 25m 04s

>>> print strfdelta(620, '{H}:{M:02}', 'm')
10:20

>>> print strfdelta(49, '{D}d {H}h', 'h')
2d 1h
  • Very nice, clean code! I wonder how this code can be expanded to handle the last fractional remainder seconds in the formatter... – kfmfe04 Feb 22 '20 at 7:06
  • @kfmfe04 I modified this solution to include the fraction of a second stackoverflow.com/a/63198084/11998874 – tomatoeshift Jul 31 '20 at 19:34
18

I know that this is an old answered question, but I use datetime.utcfromtimestamp() for this. It takes the number of seconds and returns a datetime that can be formatted like any other datetime.

duration = datetime.utcfromtimestamp(end - begin)
print duration.strftime('%H:%M')

As long as you stay in the legal ranges for the time parts this should work, i.e. it doesn't return 1234:35 as hours are <= 23.

  • 2
    you should use print timedelta(seconds=end - begin) instead. – jfs Jan 30 '15 at 20:37
  • @J.F.Sebastian Then you'd have to pad the hours manually with leading zeroes. – sjngm Jan 30 '15 at 20:45
  • I see nothing about padding in the question. Use .zfill(8) if you need it. – jfs Jan 30 '15 at 21:34
  • 2
    Needs a .total_seconds() call: >>> datetime.utcfromtimestamp((t2-t1).total_seconds()).strftime("%H:%M:%S") <<<>>> '00:00:05' – cagney May 3 '17 at 0:45
  • 2
    I much prefer this solution, it allows you to control the formatting. Note you can also use the str formatter directly like this: "{0:%H}:{0:%M}".format(duration) – toes Jul 26 '17 at 15:26
15

Questioner wants a nicer format than the typical:

  >>> import datetime
  >>> datetime.timedelta(seconds=41000)
  datetime.timedelta(0, 41000)
  >>> str(datetime.timedelta(seconds=41000))
  '11:23:20'
  >>> str(datetime.timedelta(seconds=4102.33))
  '1:08:22.330000'
  >>> str(datetime.timedelta(seconds=413302.33))
  '4 days, 18:48:22.330000'

So, really there's two formats, one where days are 0 and it's left out, and another where there's text "n days, h:m:s". But, the seconds may have fractions, and there's no leading zeroes in the printouts, so columns are messy.

Here's my routine, if you like it:

def printNiceTimeDelta(stime, etime):
    delay = datetime.timedelta(seconds=(etime - stime))
    if (delay.days > 0):
        out = str(delay).replace(" days, ", ":")
    else:
        out = "0:" + str(delay)
    outAr = out.split(':')
    outAr = ["%02d" % (int(float(x))) for x in outAr]
    out   = ":".join(outAr)
    return out

this returns output as dd:hh:mm:ss format:

00:00:00:15
00:00:00:19
02:01:31:40
02:01:32:22

I did think about adding years to this, but this is left as an exercise for the reader, since the output is safe at over 1 year:

>>> str(datetime.timedelta(seconds=99999999))
'1157 days, 9:46:39'
15

I would seriously consider the Occam's Razor approach here:

td = str(timedelta).split('.')[0]

This returns a string without the microseconds

If you want to regenerate the datetime.timedelta object, just do this:

h,m,s = re.split(':', td)
new_delta = datetime.timedelta(hours=int(h),minutes=int(m),seconds=int(s))

2 years in, I love this language!

  • 5
    This does not cover days – Waschbaer Feb 20 '16 at 17:29
13

My datetime.timedelta objects went greater than a day. So here is a further problem. All the discussion above assumes less than a day. A timedelta is actually a tuple of days, seconds and microseconds. The above discussion should use td.seconds as joe did, but if you have days it is NOT included in the seconds value.

I am getting a span of time between 2 datetimes and printing days and hours.

span = currentdt - previousdt
print '%d,%d\n' % (span.days,span.seconds/3600)
  • This is the future proof solution. – Jibin Aug 22 '12 at 12:17
12

I used the humanfriendly python library to do this, it works very well.

import humanfriendly
from datetime import timedelta
delta = timedelta(seconds = 321)
humanfriendly.format_timespan(delta)

'5 minutes and 21 seconds'

Available at https://pypi.org/project/humanfriendly/

6

Following Joe's example value above, I'd use the modulus arithmetic operator, thusly:

td = datetime.timedelta(hours=10.56)
td_str = "%d:%d" % (td.seconds/3600, td.seconds%3600/60)

Note that integer division in Python rounds down by default; if you want to be more explicit, use math.floor() or math.ceil() as appropriate.

  • timedelta already knows how to format itself, as in 'print some_timedelta'. – joeforker Feb 11 '09 at 20:57
  • Yeah, but it can't accept an arbitrary format string, which is what Michael was asking. Although now that I think about it 3600 division mod makes the hours-seconds assumption which causes problems at leap seconds. – UltraNurd Feb 11 '09 at 21:01
  • Yeah, but he doesn't want an arbitrary format string, he wants almost exactly the default behaviour. – joeforker Feb 11 '09 at 21:07
  • 3
    Don't forget // for truncating division in Python 3000 – joeforker Feb 12 '09 at 18:22
  • 4
    +1, but why don't you edit the answer to use //? I'd also suggest using td.total_seconds() instead of .seconds to make it work for intervals > 1 day. – Antony Hatchkins Aug 14 '14 at 13:03
5

A straight forward template filter for this problem. The built-in function int() never rounds up. F-Strings (i.e. f'') require python 3.6.

@app_template_filter()
def diffTime(end, start):
    diff = (end - start).total_seconds()
    d = int(diff / 86400)
    h = int((diff - (d * 86400)) / 3600)
    m = int((diff - (d * 86400 + h * 3600)) / 60)
    s = int((diff - (d * 86400 + h * 3600 + m *60)))
    if d > 0:
        fdiff = f'{d}d {h}h {m}m {s}s'
    elif h > 0:
        fdiff = f'{h}h {m}m {s}s'
    elif m > 0:
        fdiff = f'{m}m {s}s'
    else:
        fdiff = f'{s}s'
    return fdiff
4
def seconds_to_time_left_string(total_seconds):
    s = int(total_seconds)
    years = s // 31104000
    if years > 1:
        return '%d years' % years
    s = s - (years * 31104000)
    months = s // 2592000
    if years == 1:
        r = 'one year'
        if months > 0:
            r += ' and %d months' % months
        return r
    if months > 1:
        return '%d months' % months
    s = s - (months * 2592000)
    days = s // 86400
    if months == 1:
        r = 'one month'
        if days > 0:
            r += ' and %d days' % days
        return r
    if days > 1:
        return '%d days' % days
    s = s - (days * 86400)
    hours = s // 3600
    if days == 1:
        r = 'one day'
        if hours > 0:
            r += ' and %d hours' % hours
        return r 
    s = s - (hours * 3600)
    minutes = s // 60
    seconds = s - (minutes * 60)
    if hours >= 6:
        return '%d hours' % hours
    if hours >= 1:
        r = '%d hours' % hours
        if hours == 1:
            r = 'one hour'
        if minutes > 0:
            r += ' and %d minutes' % minutes
        return r
    if minutes == 1:
        r = 'one minute'
        if seconds > 0:
            r += ' and %d seconds' % seconds
        return r
    if minutes == 0:
        return '%d seconds' % seconds
    if seconds == 0:
        return '%d minutes' % minutes
    return '%d minutes and %d seconds' % (minutes, seconds)

for i in range(10):
    print pow(8, i), seconds_to_time_left_string(pow(8, i))


Output:
1 1 seconds
8 8 seconds
64 one minute and 4 seconds
512 8 minutes and 32 seconds
4096 one hour and 8 minutes
32768 9 hours
262144 3 days
2097152 24 days
16777216 6 months
134217728 4 years
  • Did you write this one? How much did you test it? – Thomas Ahle Dec 4 '13 at 12:30
  • I am using this code in my project called datahaven.net. It works pretty fine. Did you see any errors? – Veselin Penev Dec 12 '13 at 16:07
  • It's always nice if you can provide a bit of information with such a code heavy answer :) Like an example of how it works, possible strengths and weaknesses. – Thomas Ahle Dec 12 '13 at 16:13
  • 1
    Oh. Sure!. Added an example for you. :-) – Veselin Penev Dec 22 '13 at 16:26
  • Super :) Also notice that the timedelta object has the fields days, seconds and microseconds by the documentation. – Thomas Ahle Apr 16 '14 at 9:23
4

I had a similar problem with the output of overtime calculation at work. The value should always show up in HH:MM, even when it is greater than one day and the value can get negative. I combined some of the shown solutions and maybe someone else find this solution useful. I realized that if the timedelta value is negative most of the shown solutions with the divmod method doesn't work out of the box:

def td2HHMMstr(td):
  '''Convert timedelta objects to a HH:MM string with (+/-) sign'''
  if td < datetime.timedelta(seconds=0):
    sign='-'
    td = -td
  else:
    sign = ''
  tdhours, rem = divmod(td.total_seconds(), 3600)
  tdminutes, rem = divmod(rem, 60)
  tdstr = '{}{:}:{:02d}'.format(sign, int(tdhours), int(tdminutes))
  return tdstr

timedelta to HH:MM string:

td2HHMMstr(datetime.timedelta(hours=1, minutes=45))
'1:54'

td2HHMMstr(datetime.timedelta(days=2, hours=3, minutes=2))
'51:02'

td2HHMMstr(datetime.timedelta(hours=-3, minutes=-2))
'-3:02'

td2HHMMstr(datetime.timedelta(days=-35, hours=-3, minutes=-2))
'-843:02'
4
import datetime
hours = datetime.timedelta(hours=16, minutes=30)
print((datetime.datetime(1,1,1) + hours).strftime('%H:%M'))
  • 2
    in 3.7 I get AttributeError: 'datetime.timedelta' object has no attribute 'strftime' – qubodup Mar 14 '19 at 13:00
  • Now try this with hours = datetime.timedelta(hours=25, minutes=30) – gss Aug 27 '20 at 20:41
3
from django.utils.translation import ngettext

def localize_timedelta(delta):
    ret = []
    num_years = int(delta.days / 365)
    if num_years > 0:
        delta -= timedelta(days=num_years * 365)
        ret.append(ngettext('%d year', '%d years', num_years) % num_years)

    if delta.days > 0:
        ret.append(ngettext('%d day', '%d days', delta.days) % delta.days)

    num_hours = int(delta.seconds / 3600)
    if num_hours > 0:
        delta -= timedelta(hours=num_hours)
        ret.append(ngettext('%d hour', '%d hours', num_hours) % num_hours)

    num_minutes = int(delta.seconds / 60)
    if num_minutes > 0:
        ret.append(ngettext('%d minute', '%d minutes', num_minutes) % num_minutes)

    return ' '.join(ret)

This will produce:

>>> from datetime import timedelta
>>> localize_timedelta(timedelta(days=3660, minutes=500))
'10 years 10 days 8 hours 20 minutes'
  • Neatest one in my opinion, in terms of length and of what it covers – Dici Dec 22 '19 at 12:54
2

One liner. Since timedeltas do not offer datetime's strftime, bring the timedelta back to a datetime, and use stftime.

This can not only achieve the OP's requested format Hours:Minutes, now you can leverage the full formatting power of datetime's strftime, should your requirements change to another representation.

import datetime
td = datetime.timedelta(hours=2, minutes=10, seconds=5)
print(td)
print(datetime.datetime.strftime(datetime.datetime.strptime(str(td), "%H:%M:%S"), "%H:%M"))

Output:
2:10:05
02:10

This also solves the annoyance that timedeltas are formatted into strings as H:MM:SS rather than HH:MM:SS, which lead me to this problem, and the solution I've shared.

1

Please check this function - it converts timedelta object into string 'HH:MM:SS'

def format_timedelta(td):
    hours, remainder = divmod(td.total_seconds(), 3600)
    minutes, seconds = divmod(remainder, 60)
    hours, minutes, seconds = int(hours), int(minutes), int(seconds)
    if hours < 10:
        hours = '0%s' % int(hours)
    if minutes < 10:
        minutes = '0%s' % minutes
    if seconds < 10:
        seconds = '0%s' % seconds
    return '%s:%s:%s' % (hours, minutes, seconds)
1

If you happen to have IPython in your packages (you should), it has (up to now, anyway) a very nice formatter for durations (in float seconds). That is used in various places, for example by the %%time cell magic. I like the format it produces for short durations:

>>> from IPython.core.magics.execution import _format_time
>>> 
>>> for v in range(-9, 10, 2):
...     dt = 1.25 * 10**v
...     print(_format_time(dt))

1.25 ns
125 ns
12.5 µs
1.25 ms
125 ms
12.5 s
20min 50s
1d 10h 43min 20s
144d 16h 13min 20s
14467d 14h 13min 20s
1

Here's a function to stringify timedelta.total_seconds(). It works in python 2 and 3.

def strf_interval(seconds):
    days, remainder = divmod(seconds, 86400)
    hours, remainder = divmod(remainder, 3600)
    minutes, seconds = divmod(remainder, 60)
    return '{} {} {} {}'.format(
            "" if int(days) == 0 else str(int(days)) + ' days',
            "" if int(hours) == 0 else str(int(hours)) + ' hours',
            "" if int(minutes) == 0 else str(int(minutes))  + ' mins',
            "" if int(seconds) == 0 else str(int(seconds))  + ' secs'
        )

Example output:

>>> print(strf_interval(1))
   1 secs
>>> print(strf_interval(100))
  1 mins 40 secs
>>> print(strf_interval(1000))
  16 mins 40 secs
>>> print(strf_interval(10000))
 2 hours 46 mins 40 secs
>>> print(strf_interval(100000))
1 days 3 hours 46 mins 40 secs
1

I have a function:

def period(delta, pattern):
    d = {'d': delta.days}
    d['h'], rem = divmod(delta.seconds, 3600)
    d['m'], d['s'] = divmod(rem, 60)
    return pattern.format(**d)

Examples:

>>> td = timedelta(seconds=123456789)
>>> period(td, "{d} days {h}:{m}:{s}")
'1428 days 21:33:9'
>>> period(td, "{h} hours, {m} minutes and {s} seconds, {d} days")
'21 hours, 33 minutes and 9 seconds, 1428 days'
1

maybe:

>>> import datetime
>>> dt0 = datetime.datetime(1,1,1)
>>> td = datetime.timedelta(minutes=34, hours=12, seconds=56)
>>> (dt0+td).strftime('%X')
'12:34:56'
>>> (dt0+td).strftime('%M:%S')
'34:56'
>>> (dt0+td).strftime('%H:%M')
'12:34'
>>>
0

I continued from MarredCheese's answer and added year, month, millicesond and microsecond

all numbers are formatted to integer except for second, thus the fraction of a second can be customized.

@kfmfe04 asked for fraction of a second so I posted this solution

In the main there are some examples.

from string import Formatter
from datetime import timedelta

def strfdelta(tdelta, fmt='{D:02}d {H:02}h {M:02}m {S:02.0f}s', inputtype='timedelta'):
    """Convert a datetime.timedelta object or a regular number to a custom-
    formatted string, just like the stftime() method does for datetime.datetime
    objects.

    The fmt argument allows custom formatting to be specified.  Fields can 
    include seconds, minutes, hours, days, and weeks.  Each field is optional.

    Some examples:
        '{D:02}d {H:02}h {M:02}m {S:02.0f}s' --> '05d 08h 04m 02s' (default)
        '{W}w {D}d {H}:{M:02}:{S:02.0f}'     --> '4w 5d 8:04:02'
        '{D:2}d {H:2}:{M:02}:{S:02.0f}'      --> ' 5d  8:04:02'
        '{H}h {S:.0f}s'                       --> '72h 800s'

    The inputtype argument allows tdelta to be a regular number instead of the  
    default, which is a datetime.timedelta object.  Valid inputtype strings: 
        's', 'seconds', 
        'm', 'minutes', 
        'h', 'hours', 
        'd', 'days', 
        'w', 'weeks'
    """

    # Convert tdelta to integer seconds.
    if inputtype == 'timedelta':
        remainder = tdelta.total_seconds()
    elif inputtype in ['s', 'seconds']:
        remainder = float(tdelta)
    elif inputtype in ['m', 'minutes']:
        remainder = float(tdelta)*60
    elif inputtype in ['h', 'hours']:
        remainder = float(tdelta)*3600
    elif inputtype in ['d', 'days']:
        remainder = float(tdelta)*86400
    elif inputtype in ['w', 'weeks']:
        remainder = float(tdelta)*604800

    f = Formatter()
    desired_fields = [field_tuple[1] for field_tuple in f.parse(fmt)]
    possible_fields = ('Y','m','W', 'D', 'H', 'M', 'S', 'mS', 'µS')
    constants = {'Y':86400*365.24,'m': 86400*30.44 ,'W': 604800, 'D': 86400, 'H': 3600, 'M': 60, 'S': 1, 'mS': 1/pow(10,3) , 'µS':1/pow(10,6)}
    values = {}
    for field in possible_fields:
        if field in desired_fields and field in constants:
            Quotient, remainder = divmod(remainder, constants[field])
            values[field] = int(Quotient) if field != 'S' else Quotient + remainder
    return f.format(fmt, **values)

if __name__ == "__main__":
    td = timedelta(days=717, hours=3, minutes=5, seconds=8, microseconds=3549)
    print(strfdelta(td,'{Y} years {m} months {W} weeks {D} days {H:02}:{M:02}:{S:02}'))  
    print(strfdelta(td,'{m} months {W} weeks {D} days {H:02}:{M:02}:{S:02.4f}'))  
    td = timedelta( seconds=8, microseconds=8549)
    print(strfdelta(td,'{S} seconds {mS} milliseconds {µS} microseconds'))  
    print(strfdelta(td,'{S:.0f} seconds {mS} milliseconds {µS} microseconds'))  
    print(strfdelta(pow(10,7),inputtype='s'))

Output:

1 years 11 months 2 weeks 3 days 01:09:56.00354900211096
23 months 2 weeks 3 days 00:12:20.0035
8.008549 seconds 8 milliseconds 549 microseconds
8 seconds 8 milliseconds 549 microseconds
115d 17h 46m 40s
0

timedelta to string, use for print running time info.

def strf_runningtime(tdelta, round_period='second'):
  """timedelta to string,  use for measure running time
  attend period from days downto smaller period, round to minimum period
  omit zero value period  
  """
  period_names = ('day', 'hour', 'minute', 'second', 'millisecond')
  if round_period not in period_names:
    raise Exception(f'round_period "{round_period}" invalid, should be one of {",".join(period_names)}')
  period_seconds = (86400, 3600, 60, 1, 1/pow(10,3))
  period_desc = ('days', 'hours', 'mins', 'secs', 'msecs')
  round_i = period_names.index(round_period)
  
  s = ''
  remainder = tdelta.total_seconds()
  for i in range(len(period_names)):
    q, remainder = divmod(remainder, period_seconds[i])
    if int(q)>0:
      if not len(s)==0:
        s += ' '
      s += f'{q:.0f} {period_desc[i]}'
    if i==round_i:
      break
    if i==round_i+1:
      s += f'{remainder} {period_desc[round_i]}'
      break
    
  return s

e.g. auto omit zero leading period:

>>> td = timedelta(days=0, hours=2, minutes=5, seconds=8, microseconds=3549)
>>> strfdelta_round(td, 'second')
'2 hours 5 mins 8 secs'

or omit middle zero period:

>>> td = timedelta(days=2, hours=0, minutes=5, seconds=8, microseconds=3549)
>>> strfdelta_round(td, 'millisecond')
'2 days 5 mins 8 secs 3 msecs'

or round to minutes, omit below minutes:

>>> td = timedelta(days=1, hours=2, minutes=5, seconds=8, microseconds=3549)
>>> strfdelta_round(td, 'minute')
'1 days 2 hours 5 mins'
-1

If you already have a timedelta obj then just convert that obj into string. Remove the last 3 characters of the string and print. This will truncate the seconds part and print the rest of it in the format Hours:Minutes.

t = str(timedeltaobj) 

print t[:-3]
  • The -3 doesn't work, better use print t.split('.')[0] – EvgenyKolyakov Mar 5 '20 at 21:46
-1

I suggest the following method so that we can utilize the standard formatting function, pandas.Timestamp.strftime!

from pandas import Timestamp, Timedelta

(Timedelta("2 hours 30 min") + Timestamp("00:00:00")).strftime("%H:%M")
-3
t1 = datetime.datetime.strptime(StartTime, "%H:%M:%S %d-%m-%y")

t2 = datetime.datetime.strptime(EndTime, "%H:%M:%S %d-%m-%y")

return str(t2-t1)

So for:

StartTime = '15:28:53 21-07-13'
EndTime = '15:32:40 21-07-13'

returns:

'0:03:47'
-10

Thanks everyone for your help. I took many of your ideas and put them together, let me know what you think.

I added two methods to the class like this:

def hours(self):
    retval = ""
    if self.totalTime:
        hoursfloat = self.totalTime.seconds / 3600
        retval = round(hoursfloat)
    return retval

def minutes(self):
    retval = ""
    if self.totalTime:
        minutesfloat = self.totalTime.seconds / 60
        hoursAsMinutes = self.hours() * 60
        retval = round(minutesfloat - hoursAsMinutes)
    return retval

In my django I used this (sum is the object and it is in a dictionary):

<td>{{ sum.0 }}</td>    
<td>{{ sum.1.hours|stringformat:"d" }}:{{ sum.1.minutes|stringformat:"#02.0d" }}</td>

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.