Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I need to get the following values

Today = 6th Feb
time 1 = 5th Feb 0000 hrs
time 2 = 6th Feb 0000 hrs.

So I have 24 hours in epoch time. The reference is today but not now()

So far I have this.

yesterday = datetime.date.today() - datetime.timedelta(days=1)
epoch_yesterday =  time.mktime(yesterday.timetuple())
epoch_today = time.mktime(datetime.date.today().timetuple())

Both epoch_ values are actually returning seconds from now() like 1600 hrs (depends on when I run the script) not from 0000/2400 hrs. I understand it would be better to get yesterdays epoch time and then ad 24 hours to it to get the end date. But I need to get the first part right :) , maybe I need sleep?

p.s. Sorry code styling isn't working, SO won't let me post with code styling and was very frustrating to get SO to post this.

share|improve this question
    
Midnight yesterday and midnight today differ by 24 hours only 363 days a year (approximately). Simply adding 24 hours will be wrong around time changes for daylight savings. –  William Pursell Feb 5 '12 at 20:59

1 Answer 1

up vote 2 down vote accepted

The simpler way might be to construct the date explicitly as so:

now = datetime.now()
previous_midnight = datetime.datetime( now.year, now.month, now.day )

That gets you the timestamp for the just passed midnight. As you already know time.mktime will get you your the epoch value. Just add or subtract 24 * 60 * 60 to get the previous or next midnight from there.

Oh! And be aware that the epochal value will be seconds from midnight 1970, Jan 1st UTC. If you need seconds from midnight in your timezone, remember to adjust accordingly!

Update: test code, executed from the shell at just before 1 pm, PST:

>>> from datetime import datetime
>>> import time
>>> time_now = datetime.now()
>>> time_at_start_of_today_local = datetime( n.year, n.month, n.day )
>>> epochal_time_now = time.mktime( time_now.timetuple() )
>>> epochal_time_at_start_of_today_local = time.mktime( time_at_start_of_today.timetuple() )
>>> hours_since_start_of_day_today = (epochal_time_at_start_of_today_local - epochal_time_now) / 60 / 60
12.975833333333332

Note: time_at_start_of_today_local is the number of seconds between 1970 Jan 1st, midnight, and the start of the current day in your timezone. If you want the number of seconds to the start of the current day in UTC, then subtract your time zone from time_at_start_of_today_local:

>>> time_at_start_of_today_utc = time_at_start_of_today_local - time.timezone

Be aware that you get into odd territory here, specifically who's day do you care about? If it's currently Tuesday in your timezone, but still Monday in UTC, which midnight do you consider today's midnight for your purposes?

share|improve this answer
    
I'll try this. Looks like it will work. And yes, I do need epoch in UTC. thanks. EDIT: yes exactly what I needed. Weird that python does not have a simpler way to do this. thanks a lot. –  Vangel Feb 5 '12 at 20:46
    
sorry that did not work when I use mktime. Still gives me same result. –  Vangel Feb 5 '12 at 20:53
    
Are you sure? I just tried it in a Python shell and got exactly what I expected: the delta between last midnight and now = the current time. >>> n = datetime.now() >>> m = datetime( n.year, n.month, n.day ) >>> nt = time.mktime( n.timetuple() ) >>> mt = time.mktime( m.timetuple() ) >>> (nt - mt) / 60 / 60 final result is 12.975833333333332 –  Chris Subagio Feb 5 '12 at 21:03
    
can u please pastebin or put your codein your answer? I can try it your way. I think the problem is that the functions are assuming my timezone instead of UTC. –  Vangel Feb 5 '12 at 21:07
    
Sure, pasted it up there. The UTC problem should be moot here: the timezone information is lost when you convert to epochal value; that value should always be seconds since 1970 on unix. You can test this by feeding back your epochal value to time.gmtime(). You should end up with the same time you gave it, minus your timezone offset. –  Chris Subagio Feb 5 '12 at 21:15

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

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