# Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. import datetime import functools import inspect import logging import iso8601 import six logger = logging.getLogger(__name__) class positional(object): """A decorator which enforces only some args may be passed positionally. This idea and some of the code was taken from the oauth2 client of the google-api client. This decorator makes it easy to support Python 3 style key-word only parameters. For example, in Python 3 it is possible to write:: def fn(pos1, *, kwonly1, kwonly2=None): ... All named parameters after * must be a keyword:: fn(10, 'kw1', 'kw2') # Raises exception. fn(10, kwonly1='kw1', kwonly2='kw2') # Ok. To replicate this behaviour with the positional decorator you simply specify how many arguments may be passed positionally. To replicate the example above:: @positional(1) def fn(pos1, kwonly1=None, kwonly2=None): ... If no default value is provided to a keyword argument, it becomes a required keyword argument:: @positional(0) def fn(required_kw): ... This must be called with the keyword parameter:: fn() # Raises exception. fn(10) # Raises exception. fn(required_kw=10) # Ok. When defining instance or class methods always remember that in python the first positional argument passed is always the instance so you will need to account for `self` and `cls`:: class MyClass(object): @positional(2) def my_method(self, pos1, kwonly1=None): ... @classmethod @positional(2) def my_method(cls, pos1, kwonly1=None): ... If you would prefer not to account for `self` and `cls` you can use the `method` and `classmethod` helpers which do not consider the initial positional argument. So the following class is exactly the same as the one above:: class MyClass(object): @positional.method(1) def my_method(self, pos1, kwonly1=None): ... @positional.classmethod(1) def my_method(cls, pos1, kwonly1=None): ... If a value isn't provided to the decorator then it will enforce that every variable without a default value will be required to be a kwarg:: @positional() def fn(pos1, kwonly1=None): ... fn(10) # Ok. fn(10, 20) # Raises exception. fn(10, kwonly1=20) # Ok. This behaviour will work with the `positional.method` and `positional.classmethod` helper functions as well:: class MyClass(object): @positional.classmethod() def my_method(cls, pos1, kwonly1=None): ... MyClass.my_method(10) # Ok. MyClass.my_method(10, 20) # Raises exception. MyClass.my_method(10, kwonly1=20) # Ok. For compatibility reasons you may wish to not always raise an exception so a WARN mode is available. Rather than raise an exception a warning message will be logged:: @positional(1, enforcement=positional.WARN): def fn(pos1, kwonly=1): ... Available modes are: - positional.EXCEPT - the default, raise an exception. - positional.WARN - log a warning on mistake. """ EXCEPT = 'except' WARN = 'warn' def __init__(self, max_positional_args=None, enforcement=EXCEPT): self._max_positional_args = max_positional_args self._enforcement = enforcement @classmethod def method(cls, max_positional_args=None, enforcement=EXCEPT): if max_positional_args is not None: max_positional_args += 1 def f(func): return cls(max_positional_args, enforcement)(func) return f @classmethod def classmethod(cls, *args, **kwargs): def f(func): return classmethod(cls.method(*args, **kwargs)(func)) return f def __call__(self, func): if self._max_positional_args is None: spec = inspect.getargspec(func) self._max_positional_args = len(spec.args) - len(spec.defaults) plural = '' if self._max_positional_args == 1 else 's' @functools.wraps(func) def inner(*args, **kwargs): if len(args) > self._max_positional_args: message = ('%(name)s takes at most %(max)d positional ' 'argument%(plural)s (%(given)d given)' % {'name': func.__name__, 'max': self._max_positional_args, 'given': len(args), 'plural': plural}) if self._enforcement == self.EXCEPT: raise TypeError(message) elif self._enforcement == self.WARN: logger.warning(message) return func(*args, **kwargs) return inner def normalize_time(timestamp): """Normalize time in arbitrary timezone to UTC naive object.""" offset = timestamp.utcoffset() if offset is None: return timestamp return timestamp.replace(tzinfo=None) - offset def parse_isotime(timestr): """Parse time from ISO 8601 format.""" try: return iso8601.parse_date(timestr) except iso8601.ParseError as e: raise ValueError(six.text_type(e)) except TypeError as e: raise ValueError(six.text_type(e)) def from_utcnow(**timedelta_kwargs): """Calculate the time in the future from utcnow. :param \*\*timedelta_kwargs: Passed directly to :class:`datetime.timedelta` to add to the current time in UTC. :returns: The time in the future based on ``timedelta_kwargs``. :rtype: datetime.datetime """ now = datetime.datetime.utcnow() delta = datetime.timedelta(**timedelta_kwargs) return now + delta def before_utcnow(**timedelta_kwargs): """Calculate the time in the past from utcnow. :param \*\*timedelta_kwargs: Passed directly to :class:`datetime.timedelta` to subtract from the current time in UTC. :returns: The time in the past based on ``timedelta_kwargs``. :rtype: datetime.datetime """ now = datetime.datetime.utcnow() delta = datetime.timedelta(**timedelta_kwargs) return now - delta