I want to make a progress bar. To achieve this first i need percentage.
For example i watch the movie. i know when movie starts (startTime) and when ends (endTime).
startTime = "09:40" currentTime = "11:52" endTime = "13:05"
So i need to calculate current percentage of playing.
Any help is appreciated, thanks!
from datetime import datetime
timefmt = "%H:%M"
startTime = datetime.strptime("09:40", timefmt)
currentTime = datetime.strptime("11:52", timefmt)
endTime = datetime.strptime("13:05", timefmt)
ratio = (currentTime - startTime) / (endTime - startTime)
print(f"{ratio:5.2%}")
you can parse your strings into a datetime object; those can be subtracted (which will return a timedelta object).
then just use sting formatting in order to print the ratio in percent.
for this to work in python 2.7 you need to call total_seconds() on the timedelta objects and replace the f-string with str.format:
ratio = (currentTime - startTime).total_seconds() / (endTime - startTime).total_seconds()
print("{:5.2%}".format(ratio))
It can be done using the datetime module as already mentioned in an answer, but this is a more brute-force or general approach and would work even if the time is in HH:MM:SS format
startTime = "09:40"
currentTime = "11:52"
endTime = "13:05"
def changeToMin(time):
arr = list(map(int, time.split(':')))
seconds = 0
for n,i in enumerate(arr):
seconds += i*60**(len(arr)-n-1)
return seconds
def precentage(start, end, current):
return (current-start)*100/(end-start)
print(precentage(changeToMin(startTime), changeToMin(endTime), changeToMin(currentTime)))
I would like to measure the execution time of some piece of code in days, hours, minutes and seconds.
This is what I have so far:
import time
start_time = time.time()
# some code
elapsed = time.strftime("%H:%M:%S", time.gmtime(time.time() - start_time))
print(f"Took: {elapsed}")
The problem is that if the code that I am measuring takes longer than 24h, the time displayed overflows and starts from zero again. I would like something like this:
# Example: 12 hours and 34 minutes should be printed as
> Took: 12:34:00
# Example: 26 hours and 3 minutes should be printed as
> Took: 1:02:03:00
You could use datetime:
from datetime import datetime as dt
start = dt.fromtimestamp(1588432670)
end = dt.now()
elapsed=end-start
print("Took: %02d:%02d:%02d:%02d" % (elapsed.days, elapsed.seconds // 3600, elapsed.seconds // 60 % 60, elapsed.seconds % 60))
Output:
Took: 33:00:21:49
The result of time.gmtime(time.time() - start_time) is not what you seem to think it is. Instead of being a duration of time it is a point in time. Let me explain.
The result of time.time() is the number of seconds since January 1, 1970, 00:00:00 (UTC) at the time of calling. Therefore, the statement time.time() - start_time will produce the number of seconds between the two calls. So far so good. However, the time.gmtime function is interpreting this duration as the number of seconds since January 1, 1970, 00:00:00 (UTC) and formatting the time accordingly. What you are seeing then is the time portion of the date January 1, 1970, 12:34:00 (UTC).
I suggest you either use the datetime.timedelta object and format using that, or as others have suggested, output the duration in seconds or milliseconds.
If you want to format this number yourself, you could use something like this:
def format_duration(duration):
mapping = [
('s', 60),
('m', 60),
('h', 24),
]
duration = int(duration)
result = []
for symbol, max_amount in mapping:
amount = duration % max_amount
result.append(f'{amount}{symbol}')
duration //= max_amount
if duration == 0:
break
if duration:
result.append(f'{duration}d')
return ' '.join(reversed(result))
You should try this:
import time
start_time = time.time()
...
elapsed_time = time.time() - start_time
days = 0
if elapsed_time >= 86400:
days = int(elapsed_time / 86400)
elapsed = time.strftime("%H:%M:%S", time.gmtime(time.time() - start_time))
if days == 0:
print(f"Took: {elapsed}")
else:
print(f"Took: {days}:{eplased}")
Time types can only include hours and less units. You should use datetime instead of time as follows:
from datetime import datetime
start_time = datetime.now()
# some code
elapsed = datetime.now() - start_time)
print(f"Took: {elapsed}")
Example usage of Datetime:
from datetime import datetime
d1 = datetime(2013,9,1,5,5,4)
d2 = datetime(2013,1,13,3,2,1)
result1 = d1-d2
print ('{} between {} and {}'.format(result1, d1, d2))
This produces following output:
231 days, 2:03:03 between 2013-09-01 05:05:04 and 2013-01-13 03:02:01
Try using timeit:
import timeit
timeit.timeit(<callable function>, number = 100)
Here timeit will call callable function number times and give you the average runtime.
I expect that if I substract two datetimes in Python, I'll get datetime with substracted days, weeks, etc...
Here is my sample. What I get are just substracted hours, minutes and seconds. Date variable is taken from database. On type() function returns datetime.datetime.
def elapsed_time(date):
"""
Custom filter that format time to "x time age".
:param date:
:return:
"""
if date is None:
return 'No time given'
now = datetime.datetime.now()
elapsed = (now - date).seconds
if elapsed < 60:
return '{} seconds ago'.format(elapsed)
elif elapsed < 3600:
return '{} minutes ago'.format(int(elapsed / 60))
elif elapsed < 86400:
return '{} hours ago'.format(int(elapsed / 3600))
else:
return '{} days ago'.format((elapsed / 86400))
My current example:
Given datetime is 2017-07-27 01:18:58.398231
Current datetime is 2017-07-31 20:23:36.095440
Result is 19 hours (68677 seconds)
The following line returns only the 'seconds' component of the difference and does not take into account the days/hours/minutes components of it.
elapsed = (now - date).seconds
What you need is to use total_seconds() instead of just seconds since that's what you're trying to compare in subsequent conditions. Use it as follows:
elapsed = (now - date).total_seconds()
The rest of the code remains the same and you will get your desired output.
If you subtract two datetime objects the result will be a timedelta
import datetime as dt
import time
t1 = dt.datetime.now()
time.sleep(4)
t2 = dt.datetime.now()
dt1 = t2 - t1
print(dt1)
print(dt1.total_seconds())
print(type(dt1))
dt2 = t1 - t2
print(dt2.total_seconds())
print(dt2)
print(type(dt2))
If the second timestep was earlier than the first one, the results can be irritating. See negative day in example.
dt.seconds is only a part of the result, you are looking for
timedelta.total_seconds()
I am able to compute elapsed time, but I dont know how to print results in ms (i need integer, like this: 20ms, 30ms..)
import datetime
start_time = datetime.datetime.now()
print 'some long procedure'
elapsed = datetime.datetime.now() - start_time
print int(elapsed).strftime("%s")) * 1000 #<------- not working
The total_seconds method of datetime.timedelta objects returns the number of seconds, as a float, so it includes the fractions of second - see timedelta.total_seconds.
So, you just have to multiply it by 1000 to convert it to milliseconds, and keep the integer part.
import datetime
start_time = datetime.datetime.now()
print 'some long procedure'
elapsed = datetime.datetime.now() - start_time
print(int(elapsed.total_seconds()*1000))
I have two times, a start and a stop time, in the format of 10:33:26 (HH:MM:SS). I need the difference between the two times. I've been looking through documentation for Python and searching online and I would imagine it would have something to do with the datetime and/or time modules. I can't get it to work properly and keep finding only how to do this when a date is involved.
Ultimately, I need to calculate the averages of multiple time durations. I got the time differences to work and I'm storing them in a list. I now need to calculate the average. I'm using regular expressions to parse out the original times and then doing the differences.
For the averaging, should I convert to seconds and then average?
Yes, definitely datetime is what you need here. Specifically, the datetime.strptime() method, which parses a string into a datetime object.
from datetime import datetime
s1 = '10:33:26'
s2 = '11:15:49' # for example
FMT = '%H:%M:%S'
tdelta = datetime.strptime(s2, FMT) - datetime.strptime(s1, FMT)
That gets you a timedelta object that contains the difference between the two times. You can do whatever you want with that, e.g. converting it to seconds or adding it to another datetime.
This will return a negative result if the end time is earlier than the start time, for example s1 = 12:00:00 and s2 = 05:00:00. If you want the code to assume the interval crosses midnight in this case (i.e. it should assume the end time is never earlier than the start time), you can add the following lines to the above code:
if tdelta.days < 0:
tdelta = timedelta(
days=0,
seconds=tdelta.seconds,
microseconds=tdelta.microseconds
)
(of course you need to include from datetime import timedelta somewhere). Thanks to J.F. Sebastian for pointing out this use case.
Try this -- it's efficient for timing short-term events. If something takes more than an hour, then the final display probably will want some friendly formatting.
import time
start = time.time()
time.sleep(10) # or do something more productive
done = time.time()
elapsed = done - start
print(elapsed)
The time difference is returned as the number of elapsed seconds.
Here's a solution that supports finding the difference even if the end time is less than the start time (over midnight interval) such as 23:55:00-00:25:00 (a half an hour duration):
#!/usr/bin/env python
from datetime import datetime, time as datetime_time, timedelta
def time_diff(start, end):
if isinstance(start, datetime_time): # convert to datetime
assert isinstance(end, datetime_time)
start, end = [datetime.combine(datetime.min, t) for t in [start, end]]
if start <= end: # e.g., 10:33:26-11:15:49
return end - start
else: # end < start e.g., 23:55:00-00:25:00
end += timedelta(1) # +day
assert end > start
return end - start
for time_range in ['10:33:26-11:15:49', '23:55:00-00:25:00']:
s, e = [datetime.strptime(t, '%H:%M:%S') for t in time_range.split('-')]
print(time_diff(s, e))
assert time_diff(s, e) == time_diff(s.time(), e.time())
Output
0:42:23
0:30:00
time_diff() returns a timedelta object that you can pass (as a part of the sequence) to a mean() function directly e.g.:
#!/usr/bin/env python
from datetime import timedelta
def mean(data, start=timedelta(0)):
"""Find arithmetic average."""
return sum(data, start) / len(data)
data = [timedelta(minutes=42, seconds=23), # 0:42:23
timedelta(minutes=30)] # 0:30:00
print(repr(mean(data)))
# -> datetime.timedelta(0, 2171, 500000) # days, seconds, microseconds
The mean() result is also timedelta() object that you can convert to seconds (td.total_seconds() method (since Python 2.7)), hours (td / timedelta(hours=1) (Python 3)), etc.
This site says to try:
import datetime as dt
start="09:35:23"
end="10:23:00"
start_dt = dt.datetime.strptime(start, '%H:%M:%S')
end_dt = dt.datetime.strptime(end, '%H:%M:%S')
diff = (end_dt - start_dt)
diff.seconds/60
This forum uses time.mktime()
Structure that represent time difference in Python is called timedelta. If you have start_time and end_time as datetime types you can calculate the difference using - operator like:
diff = end_time - start_time
you should do this before converting to particualr string format (eg. before start_time.strftime(...)). In case you have already string representation you need to convert it back to time/datetime by using strptime method.
I like how this guy does it — https://amalgjose.com/2015/02/19/python-code-for-calculating-the-difference-between-two-time-stamps.
Not sure if it has some cons.
But looks neat for me :)
from datetime import datetime
from dateutil.relativedelta import relativedelta
t_a = datetime.now()
t_b = datetime.now()
def diff(t_a, t_b):
t_diff = relativedelta(t_b, t_a) # later/end time comes first!
return '{h}h {m}m {s}s'.format(h=t_diff.hours, m=t_diff.minutes, s=t_diff.seconds)
Regarding to the question you still need to use datetime.strptime() as others said earlier.
Try this
import datetime
import time
start_time = datetime.datetime.now().time().strftime('%H:%M:%S')
time.sleep(5)
end_time = datetime.datetime.now().time().strftime('%H:%M:%S')
total_time=(datetime.datetime.strptime(end_time,'%H:%M:%S') - datetime.datetime.strptime(start_time,'%H:%M:%S'))
print total_time
OUTPUT :
0:00:05
import datetime as dt
from dateutil.relativedelta import relativedelta
start = "09:35:23"
end = "10:23:00"
start_dt = dt.datetime.strptime(start, "%H:%M:%S")
end_dt = dt.datetime.strptime(end, "%H:%M:%S")
timedelta_obj = relativedelta(start_dt, end_dt)
print(
timedelta_obj.years,
timedelta_obj.months,
timedelta_obj.days,
timedelta_obj.hours,
timedelta_obj.minutes,
timedelta_obj.seconds,
)
result:
0 0 0 0 -47 -37
Both time and datetime have a date component.
Normally if you are just dealing with the time part you'd supply a default date. If you are just interested in the difference and know that both times are on the same day then construct a datetime for each with the day set to today and subtract the start from the stop time to get the interval (timedelta).
Take a look at the datetime module and the timedelta objects. You should end up constructing a datetime object for the start and stop times, and when you subtract them, you get a timedelta.
you can use pendulum:
import pendulum
t1 = pendulum.parse("10:33:26")
t2 = pendulum.parse("10:43:36")
period = t2 - t1
print(period.seconds)
would output:
610
import datetime
day = int(input("day[1,2,3,..31]: "))
month = int(input("Month[1,2,3,...12]: "))
year = int(input("year[0~2020]: "))
start_date = datetime.date(year, month, day)
day = int(input("day[1,2,3,..31]: "))
month = int(input("Month[1,2,3,...12]: "))
year = int(input("year[0~2020]: "))
end_date = datetime.date(year, month, day)
time_difference = end_date - start_date
age = time_difference.days
print("Total days: " + str(age))
Concise if you are just interested in the time elapsed that is under 24 hours. You can format the output as needed in the return statement :
import datetime
def elapsed_interval(start,end):
elapsed = end - start
min,secs=divmod(elapsed.days * 86400 + elapsed.seconds, 60)
hour, minutes = divmod(min, 60)
return '%.2d:%.2d:%.2d' % (hour,minutes,secs)
if __name__ == '__main__':
time_start=datetime.datetime.now()
""" do your process """
time_end=datetime.datetime.now()
total_time=elapsed_interval(time_start,time_end)
Usually, you have more than one case to deal with and perhaps have it in a pd.DataFrame(data) format. Then:
import pandas as pd
df['duration'] = pd.to_datetime(df['stop time']) - pd.to_datetime(df['start time'])
gives you the time difference without any manual conversion.
Taken from Convert DataFrame column type from string to datetime.
If you are lazy and do not mind the overhead of pandas, then you could do this even for just one entry.
Here is the code if the string contains days also [-1 day 32:43:02]:
print(
(int(time.replace('-', '').split(' ')[0]) * 24) * 60
+ (int(time.split(' ')[-1].split(':')[0]) * 60)
+ int(time.split(' ')[-1].split(':')[1])
)