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430 lines
14 KiB
Python
430 lines
14 KiB
Python
"""This module contains several handy functions primarily meant for internal use."""
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from __future__ import division
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from datetime import date, datetime, time, timedelta, tzinfo
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from calendar import timegm
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from functools import partial
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from inspect import isclass, ismethod
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import re
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from pytz import timezone, utc, FixedOffset
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import six
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try:
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from inspect import signature
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except ImportError: # pragma: nocover
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from funcsigs import signature
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try:
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from threading import TIMEOUT_MAX
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except ImportError:
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TIMEOUT_MAX = 4294967 # Maximum value accepted by Event.wait() on Windows
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try:
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from asyncio import iscoroutinefunction
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except ImportError:
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try:
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from trollius import iscoroutinefunction
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except ImportError:
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def iscoroutinefunction(func):
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return False
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__all__ = ('asint', 'asbool', 'astimezone', 'convert_to_datetime', 'datetime_to_utc_timestamp',
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'utc_timestamp_to_datetime', 'timedelta_seconds', 'datetime_ceil', 'get_callable_name',
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'obj_to_ref', 'ref_to_obj', 'maybe_ref', 'repr_escape', 'check_callable_args',
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'TIMEOUT_MAX')
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class _Undefined(object):
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def __nonzero__(self):
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return False
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def __bool__(self):
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return False
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def __repr__(self):
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return '<undefined>'
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undefined = _Undefined() #: a unique object that only signifies that no value is defined
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def asint(text):
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"""
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Safely converts a string to an integer, returning ``None`` if the string is ``None``.
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:type text: str
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:rtype: int
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"""
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if text is not None:
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return int(text)
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def asbool(obj):
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"""
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Interprets an object as a boolean value.
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:rtype: bool
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"""
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if isinstance(obj, str):
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obj = obj.strip().lower()
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if obj in ('true', 'yes', 'on', 'y', 't', '1'):
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return True
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if obj in ('false', 'no', 'off', 'n', 'f', '0'):
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return False
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raise ValueError('Unable to interpret value "%s" as boolean' % obj)
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return bool(obj)
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def astimezone(obj):
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"""
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Interprets an object as a timezone.
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:rtype: tzinfo
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"""
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if isinstance(obj, six.string_types):
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return timezone(obj)
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if isinstance(obj, tzinfo):
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if not hasattr(obj, 'localize') or not hasattr(obj, 'normalize'):
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raise TypeError('Only timezones from the pytz library are supported')
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if obj.zone == 'local':
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raise ValueError(
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'Unable to determine the name of the local timezone -- you must explicitly '
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'specify the name of the local timezone. Please refrain from using timezones like '
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'EST to prevent problems with daylight saving time. Instead, use a locale based '
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'timezone name (such as Europe/Helsinki).')
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return obj
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if obj is not None:
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raise TypeError('Expected tzinfo, got %s instead' % obj.__class__.__name__)
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_DATE_REGEX = re.compile(
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r'(?P<year>\d{4})-(?P<month>\d{1,2})-(?P<day>\d{1,2})'
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r'(?:[ T](?P<hour>\d{1,2}):(?P<minute>\d{1,2}):(?P<second>\d{1,2})'
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r'(?:\.(?P<microsecond>\d{1,6}))?'
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r'(?P<timezone>Z|[+-]\d\d:\d\d)?)?$')
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def convert_to_datetime(input, tz, arg_name):
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"""
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Converts the given object to a timezone aware datetime object.
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If a timezone aware datetime object is passed, it is returned unmodified.
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If a native datetime object is passed, it is given the specified timezone.
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If the input is a string, it is parsed as a datetime with the given timezone.
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Date strings are accepted in three different forms: date only (Y-m-d), date with time
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(Y-m-d H:M:S) or with date+time with microseconds (Y-m-d H:M:S.micro). Additionally you can
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override the time zone by giving a specific offset in the format specified by ISO 8601:
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Z (UTC), +HH:MM or -HH:MM.
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:param str|datetime input: the datetime or string to convert to a timezone aware datetime
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:param datetime.tzinfo tz: timezone to interpret ``input`` in
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:param str arg_name: the name of the argument (used in an error message)
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:rtype: datetime
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"""
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if input is None:
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return
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elif isinstance(input, datetime):
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datetime_ = input
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elif isinstance(input, date):
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datetime_ = datetime.combine(input, time())
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elif isinstance(input, six.string_types):
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m = _DATE_REGEX.match(input)
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if not m:
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raise ValueError('Invalid date string')
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values = m.groupdict()
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tzname = values.pop('timezone')
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if tzname == 'Z':
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tz = utc
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elif tzname:
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hours, minutes = (int(x) for x in tzname[1:].split(':'))
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sign = 1 if tzname[0] == '+' else -1
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tz = FixedOffset(sign * (hours * 60 + minutes))
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values = {k: int(v or 0) for k, v in values.items()}
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datetime_ = datetime(**values)
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else:
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raise TypeError('Unsupported type for %s: %s' % (arg_name, input.__class__.__name__))
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if datetime_.tzinfo is not None:
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return datetime_
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if tz is None:
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raise ValueError(
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'The "tz" argument must be specified if %s has no timezone information' % arg_name)
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if isinstance(tz, six.string_types):
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tz = timezone(tz)
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try:
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return tz.localize(datetime_, is_dst=None)
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except AttributeError:
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raise TypeError(
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'Only pytz timezones are supported (need the localize() and normalize() methods)')
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def datetime_to_utc_timestamp(timeval):
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"""
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Converts a datetime instance to a timestamp.
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:type timeval: datetime
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:rtype: float
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"""
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if timeval is not None:
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return timegm(timeval.utctimetuple()) + timeval.microsecond / 1000000
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def utc_timestamp_to_datetime(timestamp):
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"""
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Converts the given timestamp to a datetime instance.
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:type timestamp: float
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:rtype: datetime
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"""
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if timestamp is not None:
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return datetime.fromtimestamp(timestamp, utc)
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def timedelta_seconds(delta):
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"""
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Converts the given timedelta to seconds.
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:type delta: timedelta
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:rtype: float
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"""
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return delta.days * 24 * 60 * 60 + delta.seconds + \
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delta.microseconds / 1000000.0
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def datetime_ceil(dateval):
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"""
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Rounds the given datetime object upwards.
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:type dateval: datetime
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"""
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if dateval.microsecond > 0:
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return dateval + timedelta(seconds=1, microseconds=-dateval.microsecond)
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return dateval
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def datetime_repr(dateval):
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return dateval.strftime('%Y-%m-%d %H:%M:%S %Z') if dateval else 'None'
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def get_callable_name(func):
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"""
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Returns the best available display name for the given function/callable.
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:rtype: str
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"""
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# the easy case (on Python 3.3+)
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if hasattr(func, '__qualname__'):
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return func.__qualname__
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# class methods, bound and unbound methods
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f_self = getattr(func, '__self__', None) or getattr(func, 'im_self', None)
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if f_self and hasattr(func, '__name__'):
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f_class = f_self if isclass(f_self) else f_self.__class__
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else:
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f_class = getattr(func, 'im_class', None)
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if f_class and hasattr(func, '__name__'):
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return '%s.%s' % (f_class.__name__, func.__name__)
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# class or class instance
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if hasattr(func, '__call__'):
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# class
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if hasattr(func, '__name__'):
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return func.__name__
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# instance of a class with a __call__ method
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return func.__class__.__name__
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raise TypeError('Unable to determine a name for %r -- maybe it is not a callable?' % func)
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def obj_to_ref(obj):
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"""
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Returns the path to the given callable.
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:rtype: str
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:raises TypeError: if the given object is not callable
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:raises ValueError: if the given object is a :class:`~functools.partial`, lambda or a nested
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function
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"""
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if isinstance(obj, partial):
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raise ValueError('Cannot create a reference to a partial()')
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name = get_callable_name(obj)
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if '<lambda>' in name:
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raise ValueError('Cannot create a reference to a lambda')
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if '<locals>' in name:
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raise ValueError('Cannot create a reference to a nested function')
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if ismethod(obj):
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if hasattr(obj, 'im_self') and obj.im_self:
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# bound method
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module = obj.im_self.__module__
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elif hasattr(obj, 'im_class') and obj.im_class:
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# unbound method
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module = obj.im_class.__module__
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else:
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module = obj.__module__
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else:
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module = obj.__module__
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return '%s:%s' % (module, name)
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def ref_to_obj(ref):
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"""
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Returns the object pointed to by ``ref``.
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:type ref: str
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"""
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if not isinstance(ref, six.string_types):
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raise TypeError('References must be strings')
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if ':' not in ref:
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raise ValueError('Invalid reference')
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modulename, rest = ref.split(':', 1)
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try:
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obj = __import__(modulename, fromlist=[rest])
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except ImportError:
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raise LookupError('Error resolving reference %s: could not import module' % ref)
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try:
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for name in rest.split('.'):
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obj = getattr(obj, name)
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return obj
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except Exception:
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raise LookupError('Error resolving reference %s: error looking up object' % ref)
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def maybe_ref(ref):
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"""
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Returns the object that the given reference points to, if it is indeed a reference.
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If it is not a reference, the object is returned as-is.
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"""
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if not isinstance(ref, str):
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return ref
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return ref_to_obj(ref)
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if six.PY2:
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def repr_escape(string):
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if isinstance(string, six.text_type):
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return string.encode('ascii', 'backslashreplace')
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return string
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else:
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def repr_escape(string):
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return string
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def check_callable_args(func, args, kwargs):
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"""
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Ensures that the given callable can be called with the given arguments.
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:type args: tuple
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:type kwargs: dict
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"""
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pos_kwargs_conflicts = [] # parameters that have a match in both args and kwargs
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positional_only_kwargs = [] # positional-only parameters that have a match in kwargs
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unsatisfied_args = [] # parameters in signature that don't have a match in args or kwargs
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unsatisfied_kwargs = [] # keyword-only arguments that don't have a match in kwargs
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unmatched_args = list(args) # args that didn't match any of the parameters in the signature
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# kwargs that didn't match any of the parameters in the signature
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unmatched_kwargs = list(kwargs)
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# indicates if the signature defines *args and **kwargs respectively
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has_varargs = has_var_kwargs = False
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try:
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sig = signature(func)
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except ValueError:
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# signature() doesn't work against every kind of callable
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return
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for param in six.itervalues(sig.parameters):
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if param.kind == param.POSITIONAL_OR_KEYWORD:
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if param.name in unmatched_kwargs and unmatched_args:
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pos_kwargs_conflicts.append(param.name)
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elif unmatched_args:
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del unmatched_args[0]
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elif param.name in unmatched_kwargs:
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unmatched_kwargs.remove(param.name)
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elif param.default is param.empty:
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unsatisfied_args.append(param.name)
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elif param.kind == param.POSITIONAL_ONLY:
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if unmatched_args:
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del unmatched_args[0]
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elif param.name in unmatched_kwargs:
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unmatched_kwargs.remove(param.name)
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positional_only_kwargs.append(param.name)
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elif param.default is param.empty:
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unsatisfied_args.append(param.name)
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elif param.kind == param.KEYWORD_ONLY:
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if param.name in unmatched_kwargs:
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unmatched_kwargs.remove(param.name)
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elif param.default is param.empty:
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unsatisfied_kwargs.append(param.name)
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elif param.kind == param.VAR_POSITIONAL:
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has_varargs = True
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elif param.kind == param.VAR_KEYWORD:
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has_var_kwargs = True
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# Make sure there are no conflicts between args and kwargs
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if pos_kwargs_conflicts:
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raise ValueError('The following arguments are supplied in both args and kwargs: %s' %
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', '.join(pos_kwargs_conflicts))
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# Check if keyword arguments are being fed to positional-only parameters
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if positional_only_kwargs:
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raise ValueError('The following arguments cannot be given as keyword arguments: %s' %
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', '.join(positional_only_kwargs))
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# Check that the number of positional arguments minus the number of matched kwargs matches the
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# argspec
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if unsatisfied_args:
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raise ValueError('The following arguments have not been supplied: %s' %
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', '.join(unsatisfied_args))
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# Check that all keyword-only arguments have been supplied
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if unsatisfied_kwargs:
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raise ValueError(
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'The following keyword-only arguments have not been supplied in kwargs: %s' %
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', '.join(unsatisfied_kwargs))
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# Check that the callable can accept the given number of positional arguments
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if not has_varargs and unmatched_args:
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raise ValueError(
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'The list of positional arguments is longer than the target callable can handle '
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'(allowed: %d, given in args: %d)' % (len(args) - len(unmatched_args), len(args)))
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# Check that the callable can accept the given keyword arguments
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if not has_var_kwargs and unmatched_kwargs:
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raise ValueError(
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'The target callable does not accept the following keyword arguments: %s' %
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', '.join(unmatched_kwargs))
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def iscoroutinefunction_partial(f):
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while isinstance(f, partial):
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f = f.func
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# The asyncio version of iscoroutinefunction includes testing for @coroutine
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# decorations vs. the inspect version which does not.
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return iscoroutinefunction(f)
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