pablogsal/gist:38095b4f0aacb8a692f28ae8316c84dd

## gistfile1.txt
#!/usr/bin/env python3


import pytz

from zoneinfo import ZoneInfo
from datetime import datetime, timedelta, timezone
from dateutil import tz
from zoneinfo import ZoneInfo


def time_travel():
    tzlondon = ZoneInfo("Europe/London")
    start_date = datetime(2019, 3, 31, 0, 59, tzinfo=tzlondon)
    # according to:
    #  - https://stackoverflow.com/questions/64440016/python-3-9-construct-dst-valid-timestamp-using-standard-library/64452687#64452687
    #  - https://blog.ganssle.io/articles/2018/02/aware-datetime-arithmetic.html
    # a timedelta should be considered as moving the clock forward by X amount of time, in absolute terms
    # which means it may return a local time that does not exist
    #
    # furthermore, the second link mentions timedelta addition should not modify the timezone,
    # but it will do so in this example
    print(f"Starting from {start_date.isoformat()}")
    end_date = start_date + timedelta(minutes=1)

    # https://www.python.org/dev/peps/pep-0495
    # as per the documentation, if (on a short day):
    #  - fold=0 (default), the timeline from *before* the transition is brought forward
    #  - fold=1, the timeline from *after* the transition is brought back
    #
    # as per docs
    assert end_date.fold == 0
    # meaning that
    assert end_date.utcoffset() == timedelta(seconds=0)
    # prints 2019-03-31T01:00:00+00:00
    # this time does not exist in local time! As mentioned above, this is "by design"
    # but we are still linear. We have increased by 60 absolute seconds
    print(f"Add 1 minute, and we get {end_date.isoformat()}")

    # however, if we add 61 minutes instead...
    new_end_date = start_date + timedelta(minutes=61)
    # prints 2019-03-31T02:00:00+01:00
    # this makes more sense in local time...
    # but contradicts the statement above. We have added 3660 seconds (61 minutes), but we
    # get a time back that is only 60 seconds past the start date in absolute terms
    # (02:00:00+01:00 is the same as 01:00:00+00:00)
    print(f"Add 61 minutes, and we get {new_end_date.isoformat()}")
    # which has the right UTC offset now
    assert new_end_date.utcoffset() == timedelta(seconds=3600)
    # and since we're now fully on the new timeline, fold is still zero
    assert new_end_date.fold == 0

    # At this point we have:
    # end_date - built by adding 1 minute:
    #   =01:00:00+00:00, which does NOT exist as a local time
    #
    # new_end_date - built by adding 61 minutes:
    #   =02:00:00+01:00, which DOES exist as a local time
    #   ... but is the same as the 01:00:00+00:00 we got by adding just 1 minute
    #
    # If we compare their absolute time differences, by adding 61 minutes, we went up by....
    # 60 seconds
    assert (new_end_date.timestamp() - start_date.timestamp()) == 60
    # and in fact, the timestamps we get by adding 1 minute or 61 minutes are identical
    assert (new_end_date.timestamp() == end_date.timestamp())

def no_time_travel_pytz():
    tzlondon = pytz.timezone("Europe/London")
    start_date = tzlondon.localize(datetime(2019, 3, 31, 0, 59))
    print(f"Starting from {start_date.isoformat()}")

    end_date = start_date + timedelta(minutes=1)
    # prints 2019-03-31T01:00:00+00:00
    # which does not exist in local time, just like the other library
    print(f"Add 1 minute and we get {end_date.isoformat()}")

    new_end_date = start_date + timedelta(minutes=61)
    # prints 2019-03-31T02:00:00+00:00
    # which is not the right time, but does exist
    print(f"Add 61 minutes and we get {new_end_date.isoformat()}")

    # we could use tzlondon.normalize, but that's not the point here
    #
    # if we compare their times, we always get something that makes sense:
    assert (end_date.timestamp() - start_date.timestamp()) == 60
    assert (new_end_date.timestamp() - start_date.timestamp()) == 3660


print("Standard lib time travels...")
time_travel()
print("pytz does not - I think?")
no_time_travel_pytz()
	#!/usr/bin/env python3


	import pytz

	from zoneinfo import ZoneInfo
	from datetime import datetime, timedelta, timezone
	from dateutil import tz
	from zoneinfo import ZoneInfo


	def time_travel():
	tzlondon = ZoneInfo("Europe/London")
	start_date = datetime(2019, 3, 31, 0, 59, tzinfo=tzlondon)
	# according to:
	# - https://stackoverflow.com/questions/64440016/python-3-9-construct-dst-valid-timestamp-using-standard-library/64452687#64452687
	# - https://blog.ganssle.io/articles/2018/02/aware-datetime-arithmetic.html
	# a timedelta should be considered as moving the clock forward by X amount of time, in absolute terms
	# which means it may return a local time that does not exist
	#
	# furthermore, the second link mentions timedelta addition should not modify the timezone,
	# but it will do so in this example
	print(f"Starting from {start_date.isoformat()}")
	end_date = start_date + timedelta(minutes=1)

	# https://www.python.org/dev/peps/pep-0495
	# as per the documentation, if (on a short day):
	# - fold=0 (default), the timeline from before the transition is brought forward
	# - fold=1, the timeline from after the transition is brought back
	#
	# as per docs
	assert end_date.fold == 0
	# meaning that
	assert end_date.utcoffset() == timedelta(seconds=0)
	# prints 2019-03-31T01:00:00+00:00
	# this time does not exist in local time! As mentioned above, this is "by design"
	# but we are still linear. We have increased by 60 absolute seconds
	print(f"Add 1 minute, and we get {end_date.isoformat()}")

	# however, if we add 61 minutes instead...
	new_end_date = start_date + timedelta(minutes=61)
	# prints 2019-03-31T02:00:00+01:00
	# this makes more sense in local time...
	# but contradicts the statement above. We have added 3660 seconds (61 minutes), but we
	# get a time back that is only 60 seconds past the start date in absolute terms
	# (02:00:00+01:00 is the same as 01:00:00+00:00)
	print(f"Add 61 minutes, and we get {new_end_date.isoformat()}")
	# which has the right UTC offset now
	assert new_end_date.utcoffset() == timedelta(seconds=3600)
	# and since we're now fully on the new timeline, fold is still zero
	assert new_end_date.fold == 0

	# At this point we have:
	# end_date - built by adding 1 minute:
	# =01:00:00+00:00, which does NOT exist as a local time
	#
	# new_end_date - built by adding 61 minutes:
	# =02:00:00+01:00, which DOES exist as a local time
	# ... but is the same as the 01:00:00+00:00 we got by adding just 1 minute
	#
	# If we compare their absolute time differences, by adding 61 minutes, we went up by....
	# 60 seconds
	assert (new_end_date.timestamp() - start_date.timestamp()) == 60
	# and in fact, the timestamps we get by adding 1 minute or 61 minutes are identical
	assert (new_end_date.timestamp() == end_date.timestamp())

	def no_time_travel_pytz():
	tzlondon = pytz.timezone("Europe/London")
	start_date = tzlondon.localize(datetime(2019, 3, 31, 0, 59))
	print(f"Starting from {start_date.isoformat()}")

	end_date = start_date + timedelta(minutes=1)
	# prints 2019-03-31T01:00:00+00:00
	# which does not exist in local time, just like the other library
	print(f"Add 1 minute and we get {end_date.isoformat()}")

	new_end_date = start_date + timedelta(minutes=61)
	# prints 2019-03-31T02:00:00+00:00
	# which is not the right time, but does exist
	print(f"Add 61 minutes and we get {new_end_date.isoformat()}")

	# we could use tzlondon.normalize, but that's not the point here
	#
	# if we compare their times, we always get something that makes sense:
	assert (end_date.timestamp() - start_date.timestamp()) == 60
	assert (new_end_date.timestamp() - start_date.timestamp()) == 3660


	print("Standard lib time travels...")
	time_travel()
	print("pytz does not - I think?")
	no_time_travel_pytz()