I'm trying to figure out a way to take two times from the same day and figure out the difference between them. So far shown in the code below I have converted both of the given times into Int Vars and split the strings to retrieve the information. This works well but when the clock in values minute is higher than the clock out value it proceeds to give a negative value in minute slot of the output.
My current code is:
from datetime import datetime
now = datetime.now()
clocked_in = now.strftime("%H:%M")
clocked_out = '18:10'
def calc_total_hours(clockedin, clockedout):
in_hh, in_mm = map(int, clockedin.split(':'))
out_hh, out_mm = map(int, clockedout.split(':'))
hours = out_hh - in_hh
mins = out_mm - in_mm
return f"{hours}:{mins}"
print(calc_total_hours(clocked_in, clocked_out))
if the clocked in value is 12:30 and the clocked out value is 18:10
the output is:
6:-20
the output needs to be converted back into a stand time format when everything is done H:M:S
Thanks for you assistance and sorry for the lack of quality code. Im still learning! :D
First, in order to fix your code, you need to convert both time to minutes, compute the difference and then convert it back to hours and minutes:
clocked_in = '12:30'
clocked_out = '18:10'
def calc_total_hours(clockedin, clockedout):
in_hh, in_mm = map(int, clockedin.split(':'))
out_hh, out_mm = map(int, clockedout.split(':'))
diff = (in_hh * 60 + in_mm) - (out_hh * 60 + out_mm)
hours, mins = divmod(abs(diff) ,60)
return f"{hours}:{mins}"
print(calc_total_hours(clocked_in, clocked_out))
# 5: 40
Better way to implement the time difference:
import time
import datetime
t1 = datetime.datetime.now()
time.sleep(5)
t2 = datetime.datetime.now()
diff = t2 - t1
print(str(diff))
Output:
#h:mm:ss
0:00:05.013823
Probably the most reliable way is to represent the times a datetime objects, and then take one from the other which will give you a timedelta.
from datetime import datetime
clock_in = datetime.now()
clock_out = clock_in.replace(hour=18, minute=10)
seconds_diff = abs((clock_out - clock_in).total_seconds())
hours, minutes = seconds_diff // 3600, (seconds_diff // 60) % 60
print(f"{hours}:{minutes}")
Related
This question already has answers here:
Format timedelta to string
(33 answers)
Closed 1 year ago.
How can I format this date.time variable to include on milliseconds up to 2dp?
Using the date.time module in Python, I have created 2 variables. These are as follows:
begin = datetime.datetime.now()
end = datetime.datetime.now()
I then print the variable below.
time_taken = end - begin
Printing this variable time_taken in this format 0:00:16.664335.
The question I want to ask, is there a simple way to round the milliseconds to 2dp?
I have searched other methods but they seem over-complicated and not worth using.
yes the simple way to round a variable:
{selected variable} = round({selected variable}, {number of dp})`
example:
time = 1.3454
time = round(time, 2)
print time
{out put is 1.35}
Hopes this helps.
Subtracting datetime objects return a timedelta object. It has time upto microseconds stored inside it.
You can get that value & round it to however many points of precision you require.
import time
from datetime import datetime
begin = datetime.now()
time.sleep(0.005) # 5 ms
end = datetime.now()
time_taken = end - begin # this is a timedelta object
time_taken_ms = round(time_taken.total_seconds() * 1000, 2)
print(time_taken_ms)
Output:
6.97
The result of subtracting two datetimes is a timedelta object which only stores days, seconds, and microseconds internally and that is what is normally displayed when you print their values. If you desire something different, you will need to define your own formatting function. Below is and example of one that does what you want with respect to milliseconds:
import datetime
import time
def format_timedelta(td):
""" Format a timedelta into this format D:H:M:SS.ss """
days = td.days
hours, remainder = divmod(td.seconds, 3600)
minutes, seconds = divmod(remainder, 60)
seconds += td.microseconds / 1e6
return (f'{days}:{hours}:{minutes}:{seconds:02.2f}' if days else
f'{hours}:{minutes}:{seconds:02.2f}')
begin = datetime.datetime.now()
time.sleep(0.123) # 123 ms
end = datetime.datetime.now()
time_taken = end - begin
print(format_timedelta(time_taken)) # -> 0:0:0.12
I am trying to get get the time delta i minutes from two different time values.
time1 = 2020-11-28T10:31:12Z
time2 = 2020-11-28T09:10:23.203+0000
Then i will make i condition: if time difference is bigger then x minutes, run code...
Anyone have a solution for that.
I have tried using datetime.datetime.strptime() but cant get them on same format.
Thanks
Using date parser to let it figure out the date format
Code
from dateutil.parser import parse
def time_difference(time1, time2):
# Parse strings into datetime objects
dt1 = parse(time1)
dt2 = parse(time2)
# Get timedelta object
c = dt1 - dt2
# Difference in minutes
return (c.total_seconds()/60)
Test
time1 = "2020-11-28T10:31:12Z"
time2 = "2020-11-28T09:10:23.203+0000"
print(time_difference(time1, time2))
# Output: 80.81328333333333
well assuming you don't need split seconds you could do something like that:
time1 = '2020-11-28T10:31:12Z'
time2 = '2020-11-28T09:10:23.203+0000'
import time
import datetime
def get_timestamp(time_str):
time_splited = time_str.split('T')
time_str_formatted = ' '.join([time_splited[0],time_splited[1][:8]])
return time.mktime(datetime.datetime.strptime(time_str_formatted,"%Y-%m-%d %H:%M:%S").timetuple())
print(get_timestamp(time1))
print(get_timestamp(time2))
reformatting both times to the same time format.
then your condition would look like:
if abs(get_timestamp(time1) -get_timestamp(time2) ) > x*60:
do_something(....)
The times are not uniform so you will have to make them the same to use strptime. For accuracy I prefer to convert to seconds then you can also at a later stage compare seconds, minutes or hours if you needed to.
import datetime
time1 = '2020-11-28T10:31:12Z'
time2 = '2020-11-28T09:10:23.203+0000'
def minutes_diff():
#Make the times uniform so you can then use strptime
date_time1 = datetime.datetime.strptime(time1[:-1], "%Y-%m-%dT%H:%M:%S")
date_time2 = datetime.datetime.strptime(time2[:-9], "%Y-%m-%dT%H:%M:%S")
#Convert to seconds for accuracy
a_timedelta = date_time1 - datetime.datetime(1900, 1, 1)
b_timedelta = date_time2 - datetime.datetime(1900, 1, 1)
seconds_time_a = a_timedelta.total_seconds()
seconds_time_b = b_timedelta.total_seconds()
#Take one from each other for minutes
time_in_minutes = (seconds_time_a - seconds_time_b) / 60
#Then decide what to do with it
if time_in_minutes < 60: # 1 hour
print('Less than an hours do something')
else:
print('More than an hour do nothing')
minutes_diff()
DARRYL, JOHNNY and MARCIN, thanks for your solutions, problem solved!!
Andy
There has to be an easier way to do this. I have objects that want to be refreshed every so often, so I want to record when they were created, check against the current timestamp, and refresh as necessary.
datetime.datetime has proven to be difficult, and I don't want to dive into the ctime library. Is there anything easier for this sort of thing?
if you want to compute differences between two known dates, use total_seconds like this:
import datetime as dt
a = dt.datetime(2013,12,30,23,59,59)
b = dt.datetime(2013,12,31,23,59,59)
(b-a).total_seconds()
86400.0
#note that seconds doesn't give you what you want:
(b-a).seconds
0
import time
current = time.time()
...job...
end = time.time()
diff = end - current
would that work for you?
>>> from datetime import datetime
>>> a = datetime.now()
# wait a bit
>>> b = datetime.now()
>>> d = b - a # yields a timedelta object
>>> d.seconds
7
(7 will be whatever amount of time you waited a bit above)
I find datetime.datetime to be fairly useful, so if there's a complicated or awkward scenario that you've encountered, please let us know.
EDIT: Thanks to #WoLpH for pointing out that one is not always necessarily looking to refresh so frequently that the datetimes will be close together. By accounting for the days in the delta, you can handle longer timestamp discrepancies:
>>> a = datetime(2010, 12, 5)
>>> b = datetime(2010, 12, 7)
>>> d = b - a
>>> d.seconds
0
>>> d.days
2
>>> d.seconds + d.days * 86400
172800
We have function total_seconds() with Python 2.7
Please see below code for python 2.6
import datetime
import time
def diffdates(d1, d2):
#Date format: %Y-%m-%d %H:%M:%S
return (time.mktime(time.strptime(d2,"%Y-%m-%d %H:%M:%S")) -
time.mktime(time.strptime(d1, "%Y-%m-%d %H:%M:%S")))
d1 = datetime.now()
d2 = datetime.now() + timedelta(days=1)
diff = diffdates(d1, d2)
Here's the one that is working for me.
from datetime import datetime
date_format = "%H:%M:%S"
# You could also pass datetime.time object in this part and convert it to string.
time_start = str('09:00:00')
time_end = str('18:00:00')
# Then get the difference here.
diff = datetime.strptime(time_end, date_format) - datetime.strptime(time_start, date_format)
# Get the time in hours i.e. 9.60, 8.5
result = diff.seconds / 3600;
Hope this helps!
Another approach is to use timestamp values:
end_time.timestamp() - start_time.timestamp()
By reading the source code, I came to a conclusion: the time difference cannot be obtained by .seconds:
#property
def seconds(self):
"""seconds"""
return self._seconds
# in the `__new__`, you can find the `seconds` is modulo by the total number of seconds in a day
def __new__(cls, days=0, seconds=0, microseconds=0,
milliseconds=0, minutes=0, hours=0, weeks=0):
seconds += minutes*60 + hours*3600
# ...
if isinstance(microseconds, float):
microseconds = round(microseconds + usdouble)
seconds, microseconds = divmod(microseconds, 1000000)
# ! 👇
days, seconds = divmod(seconds, 24*3600)
d += days
s += seconds
else:
microseconds = int(microseconds)
seconds, microseconds = divmod(microseconds, 1000000)
# ! 👇
days, seconds = divmod(seconds, 24*3600)
d += days
s += seconds
microseconds = round(microseconds + usdouble)
# ...
total_seconds can get an accurate difference between the two times
def total_seconds(self):
"""Total seconds in the duration."""
return ((self.days * 86400 + self.seconds) * 10**6 +
self.microseconds) / 10**6
in conclusion:
from datetime import datetime
dt1 = datetime.now()
dt2 = datetime.now()
print((dt2 - dt1).total_seconds())
enter time-1 // eg 01:12
enter time-2 // eg 18:59
calculate: time-1 to time-2 / 12
// i.e time between 01:12 to 18:59 divided by 12
How can it be done in Python. I'm a beginner so I really have no clue where to start.
Edited to add: I don't want a timer. Both time-1 and time-2 are entered by the user manually.
Thanks in advance for your help.
The datetime and timedelta class from the built-in datetime module is what you need.
from datetime import datetime
# Parse the time strings
t1 = datetime.strptime('01:12','%H:%M')
t2 = datetime.strptime('18:59','%H:%M')
# Do the math, the result is a timedelta object
delta = (t2 - t1) / 12
print(delta.seconds)
Simplest and most direct may be something like:
def getime(prom):
"""Prompt for input, return minutes since midnight"""
s = raw_input('Enter time-%s (hh:mm): ' % prom)
sh, sm = s.split(':')
return int(sm) + 60 * int(sh)
time1 = getime('1')
time2 = getime('2')
diff = time2 - time1
print "Difference: %d hours and %d minutes" % (diff//60, diff%60)
E.g., a typical run might be:
$ python ti.py
Enter time-1 (hh:mm): 01:12
Enter time-2 (hh:mm): 18:59
Difference: 17 hours and 47 minutes
Here's a timer for timing code execution. Maybe you can use it for what you want. time() returns the current time in seconds and microseconds since 1970-01-01 00:00:00.
from time import time
t0 = time()
# do stuff that takes time
print time() - t0
Assuming that the user is entering strings like "01:12", you need to convert (as well as validate) those strings into the number of minutes since 00:00 (e.g., "01:12" is 1*60+12, or 72 minutes), then subtract one from the other. You can then convert the difference in minutes back into a string of the form hh:mm.
I've got a timedelta. I want the days, hours and minutes from that - either as a tuple or a dictionary... I'm not fussed.
I must have done this a dozen times in a dozen languages over the years but Python usually has a simple answer to everything so I thought I'd ask here before busting out some nauseatingly simple (yet verbose) mathematics.
Mr Fooz raises a good point.
I'm dealing with "listings" (a bit like ebay listings) where each one has a duration. I'm trying to find the time left by doing when_added + duration - now
Am I right in saying that wouldn't account for DST? If not, what's the simplest way to add/subtract an hour?
If you have a datetime.timedelta value td, td.days already gives you the "days" you want. timedelta values keep fraction-of-day as seconds (not directly hours or minutes) so you'll indeed have to perform "nauseatingly simple mathematics", e.g.:
def days_hours_minutes(td):
return td.days, td.seconds//3600, (td.seconds//60)%60
This is a bit more compact, you get the hours, minutes and seconds in two lines.
days = td.days
hours, remainder = divmod(td.seconds, 3600)
minutes, seconds = divmod(remainder, 60)
# If you want to take into account fractions of a second
seconds += td.microseconds / 1e6
days, hours, minutes = td.days, td.seconds // 3600, td.seconds // 60 % 60
As for DST, I think the best thing is to convert both datetime objects to seconds. This way the system calculates DST for you.
>>> m13 = datetime(2010, 3, 13, 8, 0, 0) # 2010 March 13 8:00 AM
>>> m14 = datetime(2010, 3, 14, 8, 0, 0) # DST starts on this day, in my time zone
>>> mktime(m14.timetuple()) - mktime(m13.timetuple()) # difference in seconds
82800.0
>>> _/3600 # convert to hours
23.0
For all coming along and searching for an implementation:
The above posts are related to datetime.timedelta, which is sadly not having properties for hours and seconds. So far it was not mentioned, that there is a package, which is having these. You can find it here:
Check the source: https://github.com/andrewp-as-is/timedelta.py
Available via pip: https://pypi.org/project/timedelta/
Example - Calculation:
>>> import timedelta
>>> td = timedelta.Timedelta(days=2, hours=2)
# init from datetime.timedelta
>>> td = timedelta.Timedelta(datetime1 - datetime2)
Example - Properties:
>>> td = timedelta.Timedelta(days=2, hours=2)
>>> td.total.seconds
180000
>>> td.total.minutes
3000
>>> td.total.hours
50
>>> td.total.days
2
I hope this could help someone...
I don't understand
days, hours, minutes = td.days, td.seconds // 3600, td.seconds // 60 % 60
how about this
days, hours, minutes = td.days, td.seconds // 3600, td.seconds % 3600 / 60.0
You get minutes and seconds of a minute as a float.
I used the following:
delta = timedelta()
totalMinute, second = divmod(delta.seconds, 60)
hour, minute = divmod(totalMinute, 60)
print(f"{hour}h{minute:02}m{second:02}s")
Here is a little function I put together to do this right down to microseconds:
def tdToDict(td:datetime.timedelta) -> dict:
def __t(t, n):
if t < n: return (t, 0)
v = t//n
return (t - (v * n), v)
(s, h) = __t(td.seconds, 3600)
(s, m) = __t(s, 60)
(micS, milS) = __t(td.microseconds, 1000)
return {
'days': td.days
,'hours': h
,'minutes': m
,'seconds': s
,'milliseconds': milS
,'microseconds': micS
}
Here is a version that returns a tuple:
# usage: (_d, _h, _m, _s, _mils, _mics) = tdTuple(td)
def tdTuple(td:datetime.timedelta) -> tuple:
def _t(t, n):
if t < n: return (t, 0)
v = t//n
return (t - (v * n), v)
(s, h) = _t(td.seconds, 3600)
(s, m) = _t(s, 60)
(mics, mils) = _t(td.microseconds, 1000)
return (td.days, h, m, s, mics, mils)
While pandas.Timedelta does not provide these attributes directly, it indeed provide a method called total_seconds, based on which days, hours, and minutes can be easily derived:
import pandas as pd
td = pd.Timedelta("2 days 12:30:00")
minutes = td.total_seconds()/60
hours = minutes/60
days = hours/ 24
print(minutes, hours, days)
I found the easiest way is using str(timedelta). It will return a sting formatted like 3 days, 21:06:40.001000, and you can parse hours and minutes using simple string operations or regular expression.
While if you are using python datetime package, you can also code like below:
import datetime
tap_in = datetime.datetime.strptime("04:12", "%H:%M")
tap_out = datetime.datetime.strptime("18:20", "%H:%M")
num_of_hour = (tap_out - tap_in).total_seconds()/3600
num_of_hour # 14.133333333333333
This is another possible approach, though a bit wordier than those already mentioned. It maybe isn't the best approach for this scenario but it is handy to be able to obtain your time duration in a specific unit that isn't stored within the object (weeks, hours, minutes, milliseconds) and without having to remember or calculate conversion factors.
from datetime import timedelta
one_hour = timedelta(hours=1)
one_minute = timedelta(minutes=1)
print(one_hour/one_minute) # Yields 60.0
I've got a timedelta. I want the days, hours and minutes from that - either as a tuple or a dictionary... I'm not fussed.
in_time_delta = timedelta(days=2, hours=18, minutes=30)
td_d = timedelta(days=1)
td_h = timedelta(hours=1)
td_m = timedelta(minutes=1)
dmh_list = [in_time_delta.days,
(in_time_delta%td_d)//td_h,
(in_time_delta%td_h)//td_m]
Which should assign [2, 18, 30] to dmh_list
If using pandas (at least version >1.0), the Timedelta class has a components attribute that returns a named tuple with all the fields nicely laid out.
e.g.
import pandas as pd
delta = pd.Timestamp("today") - pd.Timestamp("2022-03-01")
print(delta.components)
timedelta = pd.Timestamp("today") - pd.Timestamp("2022-01-01")
print(timedelta.components)
print(timedelta.components.days)
print(timedelta.components.seconds)
will return something like:
Components(days=281, hours=2, minutes=24, seconds=3, milliseconds=72, microseconds=493, nanoseconds=0)
281
3
timedeltas have a days and seconds attribute .. you can convert them yourself with ease.