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date_time.py
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date_time.py
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"""
The `datetime` class is one of the core classes we encounter when tracking
events at a given date and time. By default, creating an instance with
`datetime.now` means that an offset-naive datetime object is produced in
the host's local timezone.
An offset-naive `datetime` object is useful for scripts that are run on a
personal device. Once we use `datetime` objects for web applications that
are deployed globally, it's important to know the offset that `datetime`
objects are aligned to before processing them. For more on `datetime`:
https://docs.python.org/3/library/datetime.html
Backend developers address this by storing time fields with offsets aligned
with the UTC (Coordinated Universal Time) timezone. As a result, time fields
can be displayed in any timezone - at any moment. For more on UTC:
https://en.wikipedia.org/wiki/Coordinated_Universal_Time
In this module, we will show the difference between offset-naive and
offset-aware `datetime` objects. We will also highlight the builtin
UTC timezone and show how it can be used to make the default `datetime`
object more powerful.
"""
from datetime import datetime, timezone
def convert_dt_to_utc_epoch(dt):
"""Convert datetime to UTC epoch seconds.
Note that the timestamp method assumes that an offset-naive
datetime instance is in the local timezone and converts its
offset to UTC before making it a floating point number.
"""
return dt.timestamp()
def convert_utc_epoch_to_dt(epoch):
"""Convert UTC epoch seconds to datetime."""
return datetime.fromtimestamp(epoch, tz=timezone.utc)
def convert_dt_timezone(dt, tz):
"""Convert datetime timezone."""
return dt.astimezone(tz=tz)
def get_utc_now_as_dt():
"""Get current UTC time as datetime."""
return datetime.now(tz=timezone.utc)
def get_utc_now_as_epoch():
"""Get current UTC time as epoch seconds."""
return convert_dt_to_utc_epoch(get_utc_now_as_dt())
def main():
# Create offset-naive datetime
naive_dt = datetime.now()
assert naive_dt.tzinfo is None
# Change offset-naive datetime to epoch seconds
naive_dt_epoch = convert_dt_to_utc_epoch(naive_dt)
assert naive_dt_epoch > 0
# Change epoch seconds to UTC datetime
utc_dt = convert_utc_epoch_to_dt(naive_dt_epoch)
assert utc_dt.tzinfo is timezone.utc
assert convert_dt_to_utc_epoch(utc_dt) == naive_dt_epoch
# We cannot compute differences between offset-naive and offset-aware
# datetime objects
calc_failed = False
try:
_ = utc_dt - naive_dt
except TypeError:
calc_failed = True
assert calc_failed is True
# But we can change the timezone of an offset-naive datetime object
# first before running operations on them
assert convert_dt_timezone(naive_dt, timezone.utc) == utc_dt
# Create new UTC time as datetime
utc_dt_new_one = get_utc_now_as_dt()
assert utc_dt_new_one > utc_dt
# Create another new UTC time as epoch seconds
utc_epoch_new_two = get_utc_now_as_epoch()
utc_epoch_new_one = convert_dt_to_utc_epoch(utc_dt_new_one)
assert utc_epoch_new_two > utc_epoch_new_one > naive_dt_epoch
utc_dt_new_two = convert_utc_epoch_to_dt(utc_epoch_new_two)
assert utc_dt_new_two > utc_dt_new_one > utc_dt
if __name__ == "__main__":
main()