)
-def datetime_to_date(date: datetime.datetime) -> datetime.date:
- return datetime.date(
- date.year,
- date.month,
- date.day
- )
+def datetime_to_date_and_time(
+ dt: datetime.datetime
+) -> Tuple[datetime.date, datetime.time]:
+ return (dt.date(), dt.timetz())
+
+
+def datetime_to_date(dt: datetime.datetime) -> datetime.date:
+ return datetime_to_date_and_time(dt)[0]
+
+
+def datetime_to_time(dt: datetime.datetime) -> datetime.time:
+ return datetime_to_date_and_time(dt)[1]
# An enum to represent units with which we can compute deltas.
@classmethod
def is_valid(cls, value: Any):
if type(value) is int:
- print("int")
return value in cls._value2member_map_
elif type(value) is TimeUnit:
- print("TimeUnit")
return value.value in cls._value2member_map_
elif type(value) is str:
- print("str")
return value in cls._member_names_
else:
print(type(value))
def parse_duration(duration: str) -> int:
"""Parse a duration in string form."""
+ if duration.isdigit():
+ return int(duration)
seconds = 0
m = re.search(r'(\d+) *d[ays]*', duration)
if m is not None: