How do you convert a Python time.struct_time
object into a datetime.datetime
object?
I have a library that provides the first one and a second library that wants the second one.
Use time.mktime() to convert the time tuple (in localtime) into seconds since the Epoch, then use datetime.fromtimestamp() to get the datetime object.
from datetime import datetime
from time import mktime
dt = datetime.fromtimestamp(mktime(struct))
tm_isdst
data? I think so, the resulting datetime object remains naive to the extent to return None
on .dst()
even if struct.tm_isdst
is 1
.
mktime()
should take tm_isdst
into account and Python time.mktime()
calls C mktime()
function on CPython. mktime()
may choose the wrong local time when it is ambiguous (e.g., during end-of-DST ("fall back") transition) if struct.tm_isdst
is -1
or if mktime()
on the given platform ignores the input tm_isdst
. Also, if the local timezone had different utc offset in the past and C mktime()
does not use a historical tz database that can provide the old utc offset values then mktime()
may return a wrong (e.g., by an hour) value too.
mktime()
doesn't ignore tm_isdst
on the given platform (it does on mine) then fromtimestamp()
definitely looses the info: the returned naive datetime
object representing local time may be ambiguous (timestamp -> local time is deterministic (if we ignore leap seconds) but local time -> timestamp may be ambiguous e.g., during end-of-DST transition). Also,
fromtimestamp()` may choose a wrong utc offset if the it doesn't use a historical tz database.
Like this:
>>> structTime = time.localtime()
>>> datetime.datetime(*structTime[:6])
datetime.datetime(2009, 11, 8, 20, 32, 35)
*
and **
syntax allows you to expand a listy or dicty type object in to separate arguments - it's one of my favourite pieces of Python lovelyness. See docs.python.org/2/tutorial/… for more info
Jan 17, 2013 at 16:02
t=time.strptime("30 Jun 1997 22:59:60", "%d %b %Y %H:%M:%S"); datetime.datetime(*t[:6])
datetime
: datetime(*t[:5]+(min(t[5], 59),))
e.g., to accept "2015-06-30 16:59:60 PDT"
.
This is not a direct answer to your question (which was answered pretty well already). However, having had times bite me on the fundament several times, I cannot stress enough that it would behoove you to look closely at what your time.struct_time object is providing, vs. what other time fields may have.
Assuming you have both a time.struct_time object, and some other date/time string, compare the two, and be sure you are not losing data and inadvertently creating a naive datetime object, when you can do otherwise.
For example, the excellent feedparser module will return a "published" field and may return a time.struct_time object in its "published_parsed" field:
time.struct_time(
tm_year=2013, tm_mon=9, tm_mday=9,
tm_hour=23, tm_min=57, tm_sec=42,
tm_wday=0, tm_yday=252, tm_isdst=0,
)
Now note what you actually get with the "published" field.
Mon, 09 Sep 2013 19:57:42 -0400
By Stallman's Beard! Timezone information!
In this case, the lazy man might want to use the excellent dateutil module to keep the timezone information:
from dateutil import parser
dt = parser.parse(entry["published"])
print "published", entry["published"])
print "dt", dt
print "utcoffset", dt.utcoffset()
print "tzinfo", dt.tzinfo
print "dst", dt.dst()
which gives us:
published Mon, 09 Sep 2013 19:57:42 -0400
dt 2013-09-09 19:57:42-04:00
utcoffset -1 day, 20:00:00
tzinfo tzoffset(None, -14400)
dst 0:00:00
One could then use the timezone-aware datetime object to normalize all time to UTC or whatever you think is awesome.
*_parsed
fields from feedparsed are already normalized to UTC as can be checked in the date parsing documentation so this is redundant.
datetime
object which is lost when feedparser
parses raw string dates.