venv/lib/python3.9/site-packages/pip/_vendor/tenacity/__init__.py - third_party/shuttle/sky130/mpw-007/slot-030 - Git at Google

 # Copyright 2016-2018 Julien Danjou
 # Copyright 2017 Elisey Zanko
 # Copyright 2016 Étienne Bersac
 # Copyright 2016 Joshua Harlow
 # Copyright 2013-2014 Ray Holder
 #
 # 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 functools
 import sys
 import threading
 import time
 import typing as t
 import warnings
 from abc import ABC, abstractmethod
 from concurrent import futures
 from inspect import iscoroutinefunction

 # Import all built-in retry strategies for easier usage.
 from .retry import retry_base  # noqa
 from .retry import retry_all  # noqa
 from .retry import retry_always  # noqa
 from .retry import retry_any  # noqa
 from .retry import retry_if_exception  # noqa
 from .retry import retry_if_exception_type  # noqa
 from .retry import retry_if_exception_cause_type  # noqa
 from .retry import retry_if_not_exception_type  # noqa
 from .retry import retry_if_not_result  # noqa
 from .retry import retry_if_result  # noqa
 from .retry import retry_never  # noqa
 from .retry import retry_unless_exception_type  # noqa
 from .retry import retry_if_exception_message  # noqa
 from .retry import retry_if_not_exception_message  # noqa

 # Import all nap strategies for easier usage.
 from .nap import sleep  # noqa
 from .nap import sleep_using_event  # noqa

 # Import all built-in stop strategies for easier usage.
 from .stop import stop_after_attempt  # noqa
 from .stop import stop_after_delay  # noqa
 from .stop import stop_all  # noqa
 from .stop import stop_any  # noqa
 from .stop import stop_never  # noqa
 from .stop import stop_when_event_set  # noqa

 # Import all built-in wait strategies for easier usage.
 from .wait import wait_chain  # noqa
 from .wait import wait_combine  # noqa
 from .wait import wait_exponential  # noqa
 from .wait import wait_fixed  # noqa
 from .wait import wait_incrementing  # noqa
 from .wait import wait_none  # noqa
 from .wait import wait_random  # noqa
 from .wait import wait_random_exponential  # noqa
 from .wait import wait_random_exponential as wait_full_jitter  # noqa
 from .wait import wait_exponential_jitter  # noqa

 # Import all built-in before strategies for easier usage.
 from .before import before_log  # noqa
 from .before import before_nothing  # noqa

 # Import all built-in after strategies for easier usage.
 from .after import after_log  # noqa
 from .after import after_nothing  # noqa

 # Import all built-in after strategies for easier usage.
 from .before_sleep import before_sleep_log  # noqa
 from .before_sleep import before_sleep_nothing  # noqa

 # Replace a conditional import with a hard-coded None so that pip does
 # not attempt to use tornado even if it is present in the environment.
 # If tornado is non-None, tenacity will attempt to execute some code
 # that is sensitive to the version of tornado, which could break pip
 # if an old version is found.
 tornado = None  # type: ignore

 if t.TYPE_CHECKING:
     import types

     from .wait import wait_base
     from .stop import stop_base


 WrappedFn = t.TypeVar("WrappedFn", bound=t.Callable)
 _RetValT = t.TypeVar("_RetValT")


 @t.overload
 def retry(fn: WrappedFn) -> WrappedFn:
     pass


 @t.overload
 def retry(*dargs: t.Any, **dkw: t.Any) -> t.Callable[[WrappedFn], WrappedFn]:  # noqa
     pass


 def retry(*dargs: t.Any, **dkw: t.Any) -> t.Union[WrappedFn, t.Callable[[WrappedFn], WrappedFn]]:  # noqa
     """Wrap a function with a new `Retrying` object.

     :param dargs: positional arguments passed to Retrying object
     :param dkw: keyword arguments passed to the Retrying object
     """
     # support both @retry and @retry() as valid syntax
     if len(dargs) == 1 and callable(dargs[0]):
         return retry()(dargs[0])
     else:

         def wrap(f: WrappedFn) -> WrappedFn:
             if isinstance(f, retry_base):
                 warnings.warn(
                     f"Got retry_base instance ({f.__class__.__name__}) as callable argument, "
                     f"this will probably hang indefinitely (did you mean retry={f.__class__.__name__}(...)?)"
                 )
             if iscoroutinefunction(f):
                 r: "BaseRetrying" = AsyncRetrying(*dargs, **dkw)
             elif tornado and hasattr(tornado.gen, "is_coroutine_function") and tornado.gen.is_coroutine_function(f):
                 r = TornadoRetrying(*dargs, **dkw)
             else:
                 r = Retrying(*dargs, **dkw)

             return r.wraps(f)

         return wrap


 class TryAgain(Exception):
     """Always retry the executed function when raised."""


 NO_RESULT = object()


 class DoAttempt:
     pass


 class DoSleep(float):
     pass


 class BaseAction:
     """Base class for representing actions to take by retry object.

     Concrete implementations must define:
     - __init__: to initialize all necessary fields
     - REPR_FIELDS: class variable specifying attributes to include in repr(self)
     - NAME: for identification in retry object methods and callbacks
     """

     REPR_FIELDS: t.Sequence[str] = ()
     NAME: t.Optional[str] = None

     def __repr__(self) -> str:
         state_str = ", ".join(f"{field}={getattr(self, field)!r}" for field in self.REPR_FIELDS)
         return f"{self.__class__.__name__}({state_str})"

     def __str__(self) -> str:
         return repr(self)


 class RetryAction(BaseAction):
     REPR_FIELDS = ("sleep",)
     NAME = "retry"

     def __init__(self, sleep: t.SupportsFloat) -> None:
         self.sleep = float(sleep)


 _unset = object()


 def _first_set(first: t.Union[t.Any, object], second: t.Any) -> t.Any:
     return second if first is _unset else first


 class RetryError(Exception):
     """Encapsulates the last attempt instance right before giving up."""

     def __init__(self, last_attempt: "Future") -> None:
         self.last_attempt = last_attempt
         super().__init__(last_attempt)

     def reraise(self) -> "t.NoReturn":
         if self.last_attempt.failed:
             raise self.last_attempt.result()
         raise self

     def __str__(self) -> str:
         return f"{self.__class__.__name__}[{self.last_attempt}]"


 class AttemptManager:
     """Manage attempt context."""

     def __init__(self, retry_state: "RetryCallState"):
         self.retry_state = retry_state

     def __enter__(self) -> None:
         pass

     def __exit__(
         self,
         exc_type: t.Optional[t.Type[BaseException]],
         exc_value: t.Optional[BaseException],
         traceback: t.Optional["types.TracebackType"],
     ) -> t.Optional[bool]:
         if isinstance(exc_value, BaseException):
             self.retry_state.set_exception((exc_type, exc_value, traceback))
             return True  # Swallow exception.
         else:
             # We don't have the result, actually.
             self.retry_state.set_result(None)
             return None


 class BaseRetrying(ABC):
     def __init__(
         self,
         sleep: t.Callable[[t.Union[int, float]], None] = sleep,
         stop: "stop_base" = stop_never,
         wait: "wait_base" = wait_none(),
         retry: retry_base = retry_if_exception_type(),
         before: t.Callable[["RetryCallState"], None] = before_nothing,
         after: t.Callable[["RetryCallState"], None] = after_nothing,
         before_sleep: t.Optional[t.Callable[["RetryCallState"], None]] = None,
         reraise: bool = False,
         retry_error_cls: t.Type[RetryError] = RetryError,
         retry_error_callback: t.Optional[t.Callable[["RetryCallState"], t.Any]] = None,
     ):
         self.sleep = sleep
         self.stop = stop
         self.wait = wait
         self.retry = retry
         self.before = before
         self.after = after
         self.before_sleep = before_sleep
         self.reraise = reraise
         self._local = threading.local()
         self.retry_error_cls = retry_error_cls
         self.retry_error_callback = retry_error_callback

     def copy(
         self,
         sleep: t.Union[t.Callable[[t.Union[int, float]], None], object] = _unset,
         stop: t.Union["stop_base", object] = _unset,
         wait: t.Union["wait_base", object] = _unset,
         retry: t.Union[retry_base, object] = _unset,
         before: t.Union[t.Callable[["RetryCallState"], None], object] = _unset,
         after: t.Union[t.Callable[["RetryCallState"], None], object] = _unset,
         before_sleep: t.Union[t.Optional[t.Callable[["RetryCallState"], None]], object] = _unset,
         reraise: t.Union[bool, object] = _unset,
         retry_error_cls: t.Union[t.Type[RetryError], object] = _unset,
         retry_error_callback: t.Union[t.Optional[t.Callable[["RetryCallState"], t.Any]], object] = _unset,
     ) -> "BaseRetrying":
         """Copy this object with some parameters changed if needed."""
         return self.__class__(
             sleep=_first_set(sleep, self.sleep),
             stop=_first_set(stop, self.stop),
             wait=_first_set(wait, self.wait),
             retry=_first_set(retry, self.retry),
             before=_first_set(before, self.before),
             after=_first_set(after, self.after),
             before_sleep=_first_set(before_sleep, self.before_sleep),
             reraise=_first_set(reraise, self.reraise),
             retry_error_cls=_first_set(retry_error_cls, self.retry_error_cls),
             retry_error_callback=_first_set(retry_error_callback, self.retry_error_callback),
         )

     def __repr__(self) -> str:
         return (
             f"<{self.__class__.__name__} object at 0x{id(self):x} ("
             f"stop={self.stop}, "
             f"wait={self.wait}, "
             f"sleep={self.sleep}, "
             f"retry={self.retry}, "
             f"before={self.before}, "
             f"after={self.after})>"
         )

     @property
     def statistics(self) -> t.Dict[str, t.Any]:
         """Return a dictionary of runtime statistics.

         This dictionary will be empty when the controller has never been
         ran. When it is running or has ran previously it should have (but
         may not) have useful and/or informational keys and values when
         running is underway and/or completed.

         .. warning:: The keys in this dictionary **should** be some what
                      stable (not changing), but there existence **may**
                      change between major releases as new statistics are
                      gathered or removed so before accessing keys ensure that
                      they actually exist and handle when they do not.

         .. note:: The values in this dictionary are local to the thread
                   running call (so if multiple threads share the same retrying
                   object - either directly or indirectly) they will each have
                   there own view of statistics they have collected (in the
                   future we may provide a way to aggregate the various
                   statistics from each thread).
         """
         try:
             return self._local.statistics
         except AttributeError:
             self._local.statistics = {}
             return self._local.statistics

     def wraps(self, f: WrappedFn) -> WrappedFn:
         """Wrap a function for retrying.

         :param f: A function to wraps for retrying.
         """

         @functools.wraps(f)
         def wrapped_f(*args: t.Any, **kw: t.Any) -> t.Any:
             return self(f, *args, **kw)

         def retry_with(*args: t.Any, **kwargs: t.Any) -> WrappedFn:
             return self.copy(*args, **kwargs).wraps(f)

         wrapped_f.retry = self
         wrapped_f.retry_with = retry_with

         return wrapped_f

     def begin(self) -> None:
         self.statistics.clear()
         self.statistics["start_time"] = time.monotonic()
         self.statistics["attempt_number"] = 1
         self.statistics["idle_for"] = 0

     def iter(self, retry_state: "RetryCallState") -> t.Union[DoAttempt, DoSleep, t.Any]:  # noqa
         fut = retry_state.outcome
         if fut is None:
             if self.before is not None:
                 self.before(retry_state)
             return DoAttempt()

         is_explicit_retry = retry_state.outcome.failed and isinstance(retry_state.outcome.exception(), TryAgain)
         if not (is_explicit_retry or self.retry(retry_state=retry_state)):
             return fut.result()

         if self.after is not None:
             self.after(retry_state)

         self.statistics["delay_since_first_attempt"] = retry_state.seconds_since_start
         if self.stop(retry_state=retry_state):
             if self.retry_error_callback:
                 return self.retry_error_callback(retry_state)
             retry_exc = self.retry_error_cls(fut)
             if self.reraise:
                 raise retry_exc.reraise()
             raise retry_exc from fut.exception()

         if self.wait:
             sleep = self.wait(retry_state=retry_state)
         else:
             sleep = 0.0
         retry_state.next_action = RetryAction(sleep)
         retry_state.idle_for += sleep
         self.statistics["idle_for"] += sleep
         self.statistics["attempt_number"] += 1

         if self.before_sleep is not None:
             self.before_sleep(retry_state)

         return DoSleep(sleep)

     def __iter__(self) -> t.Generator[AttemptManager, None, None]:
         self.begin()

         retry_state = RetryCallState(self, fn=None, args=(), kwargs={})
         while True:
             do = self.iter(retry_state=retry_state)
             if isinstance(do, DoAttempt):
                 yield AttemptManager(retry_state=retry_state)
             elif isinstance(do, DoSleep):
                 retry_state.prepare_for_next_attempt()
                 self.sleep(do)
             else:
                 break

     @abstractmethod
     def __call__(self, fn: t.Callable[..., _RetValT], *args: t.Any, **kwargs: t.Any) -> _RetValT:
         pass


 class Retrying(BaseRetrying):
     """Retrying controller."""

     def __call__(self, fn: t.Callable[..., _RetValT], *args: t.Any, **kwargs: t.Any) -> _RetValT:
         self.begin()

         retry_state = RetryCallState(retry_object=self, fn=fn, args=args, kwargs=kwargs)
         while True:
             do = self.iter(retry_state=retry_state)
             if isinstance(do, DoAttempt):
                 try:
                     result = fn(*args, **kwargs)
                 except BaseException:  # noqa: B902
                     retry_state.set_exception(sys.exc_info())
                 else:
                     retry_state.set_result(result)
             elif isinstance(do, DoSleep):
                 retry_state.prepare_for_next_attempt()
                 self.sleep(do)
             else:
                 return do


 class Future(futures.Future):
     """Encapsulates a (future or past) attempted call to a target function."""

     def __init__(self, attempt_number: int) -> None:
         super().__init__()
         self.attempt_number = attempt_number

     @property
     def failed(self) -> bool:
         """Return whether a exception is being held in this future."""
         return self.exception() is not None

     @classmethod
     def construct(cls, attempt_number: int, value: t.Any, has_exception: bool) -> "Future":
         """Construct a new Future object."""
         fut = cls(attempt_number)
         if has_exception:
             fut.set_exception(value)
         else:
             fut.set_result(value)
         return fut


 class RetryCallState:
     """State related to a single call wrapped with Retrying."""

     def __init__(
         self,
         retry_object: BaseRetrying,
         fn: t.Optional[WrappedFn],
         args: t.Any,
         kwargs: t.Any,
     ) -> None:
         #: Retry call start timestamp
         self.start_time = time.monotonic()
         #: Retry manager object
         self.retry_object = retry_object
         #: Function wrapped by this retry call
         self.fn = fn
         #: Arguments of the function wrapped by this retry call
         self.args = args
         #: Keyword arguments of the function wrapped by this retry call
         self.kwargs = kwargs

         #: The number of the current attempt
         self.attempt_number: int = 1
         #: Last outcome (result or exception) produced by the function
         self.outcome: t.Optional[Future] = None
         #: Timestamp of the last outcome
         self.outcome_timestamp: t.Optional[float] = None
         #: Time spent sleeping in retries
         self.idle_for: float = 0.0
         #: Next action as decided by the retry manager
         self.next_action: t.Optional[RetryAction] = None

     @property
     def seconds_since_start(self) -> t.Optional[float]:
         if self.outcome_timestamp is None:
             return None
         return self.outcome_timestamp - self.start_time

     def prepare_for_next_attempt(self) -> None:
         self.outcome = None
         self.outcome_timestamp = None
         self.attempt_number += 1
         self.next_action = None

     def set_result(self, val: t.Any) -> None:
         ts = time.monotonic()
         fut = Future(self.attempt_number)
         fut.set_result(val)
         self.outcome, self.outcome_timestamp = fut, ts

     def set_exception(self, exc_info: t.Tuple[t.Type[BaseException], BaseException, "types.TracebackType"]) -> None:
         ts = time.monotonic()
         fut = Future(self.attempt_number)
         fut.set_exception(exc_info[1])
         self.outcome, self.outcome_timestamp = fut, ts

     def __repr__(self):
         if self.outcome is None:
             result = "none yet"
         elif self.outcome.failed:
             exception = self.outcome.exception()
             result = f"failed ({exception.__class__.__name__} {exception})"
         else:
             result = f"returned {self.outcome.result()}"

         slept = float(round(self.idle_for, 2))
         clsname = self.__class__.__name__
         return f"<{clsname} {id(self)}: attempt #{self.attempt_number}; slept for {slept}; last result: {result}>"


 from pip._vendor.tenacity._asyncio import AsyncRetrying  # noqa:E402,I100

 if tornado:
     from pip._vendor.tenacity.tornadoweb import TornadoRetrying
	# Copyright 2016-2018 Julien Danjou
	# Copyright 2017 Elisey Zanko
	# Copyright 2016 Étienne Bersac
	# Copyright 2016 Joshua Harlow
	# Copyright 2013-2014 Ray Holder
	#
	# 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 functools
	import sys
	import threading
	import time
	import typing as t
	import warnings
	from abc import ABC, abstractmethod
	from concurrent import futures
	from inspect import iscoroutinefunction

	# Import all built-in retry strategies for easier usage.
	from .retry import retry_base # noqa
	from .retry import retry_all # noqa
	from .retry import retry_always # noqa
	from .retry import retry_any # noqa
	from .retry import retry_if_exception # noqa
	from .retry import retry_if_exception_type # noqa
	from .retry import retry_if_exception_cause_type # noqa
	from .retry import retry_if_not_exception_type # noqa
	from .retry import retry_if_not_result # noqa
	from .retry import retry_if_result # noqa
	from .retry import retry_never # noqa
	from .retry import retry_unless_exception_type # noqa
	from .retry import retry_if_exception_message # noqa
	from .retry import retry_if_not_exception_message # noqa

	# Import all nap strategies for easier usage.
	from .nap import sleep # noqa
	from .nap import sleep_using_event # noqa

	# Import all built-in stop strategies for easier usage.
	from .stop import stop_after_attempt # noqa
	from .stop import stop_after_delay # noqa
	from .stop import stop_all # noqa
	from .stop import stop_any # noqa
	from .stop import stop_never # noqa
	from .stop import stop_when_event_set # noqa

	# Import all built-in wait strategies for easier usage.
	from .wait import wait_chain # noqa
	from .wait import wait_combine # noqa
	from .wait import wait_exponential # noqa
	from .wait import wait_fixed # noqa
	from .wait import wait_incrementing # noqa
	from .wait import wait_none # noqa
	from .wait import wait_random # noqa
	from .wait import wait_random_exponential # noqa
	from .wait import wait_random_exponential as wait_full_jitter # noqa
	from .wait import wait_exponential_jitter # noqa

	# Import all built-in before strategies for easier usage.
	from .before import before_log # noqa
	from .before import before_nothing # noqa

	# Import all built-in after strategies for easier usage.
	from .after import after_log # noqa
	from .after import after_nothing # noqa

	# Import all built-in after strategies for easier usage.
	from .before_sleep import before_sleep_log # noqa
	from .before_sleep import before_sleep_nothing # noqa

	# Replace a conditional import with a hard-coded None so that pip does
	# not attempt to use tornado even if it is present in the environment.
	# If tornado is non-None, tenacity will attempt to execute some code
	# that is sensitive to the version of tornado, which could break pip
	# if an old version is found.
	tornado = None # type: ignore

	if t.TYPE_CHECKING:
	import types

	from .wait import wait_base
	from .stop import stop_base


	WrappedFn = t.TypeVar("WrappedFn", bound=t.Callable)
	_RetValT = t.TypeVar("_RetValT")


	@t.overload
	def retry(fn: WrappedFn) -> WrappedFn:
	pass


	@t.overload
	def retry(dargs: t.Any, *dkw: t.Any) -> t.Callable[[WrappedFn], WrappedFn]: # noqa
	pass


	def retry(dargs: t.Any, *dkw: t.Any) -> t.Union[WrappedFn, t.Callable[[WrappedFn], WrappedFn]]: # noqa
	"""Wrap a function with a new `Retrying` object.

	:param dargs: positional arguments passed to Retrying object
	:param dkw: keyword arguments passed to the Retrying object
	"""
	# support both @retry and @retry() as valid syntax
	if len(dargs) == 1 and callable(dargs[0]):
	return retry()(dargs[0])
	else:

	def wrap(f: WrappedFn) -> WrappedFn:
	if isinstance(f, retry_base):
	warnings.warn(
	f"Got retry_base instance ({f.__class__.__name__}) as callable argument, "
	f"this will probably hang indefinitely (did you mean retry={f.__class__.__name__}(...)?)"
	)
	if iscoroutinefunction(f):
	r: "BaseRetrying" = AsyncRetrying(dargs, *dkw)
	elif tornado and hasattr(tornado.gen, "is_coroutine_function") and tornado.gen.is_coroutine_function(f):
	r = TornadoRetrying(dargs, *dkw)
	else:
	r = Retrying(dargs, *dkw)

	return r.wraps(f)

	return wrap


	class TryAgain(Exception):
	"""Always retry the executed function when raised."""


	NO_RESULT = object()


	class DoAttempt:
	pass


	class DoSleep(float):
	pass


	class BaseAction:
	"""Base class for representing actions to take by retry object.

	Concrete implementations must define:
	- __init__: to initialize all necessary fields
	- REPR_FIELDS: class variable specifying attributes to include in repr(self)
	- NAME: for identification in retry object methods and callbacks
	"""

	REPR_FIELDS: t.Sequence[str] = ()
	NAME: t.Optional[str] = None

	def __repr__(self) -> str:
	state_str = ", ".join(f"{field}={getattr(self, field)!r}" for field in self.REPR_FIELDS)
	return f"{self.__class__.__name__}({state_str})"

	def __str__(self) -> str:
	return repr(self)


	class RetryAction(BaseAction):
	REPR_FIELDS = ("sleep",)
	NAME = "retry"

	def __init__(self, sleep: t.SupportsFloat) -> None:
	self.sleep = float(sleep)


	_unset = object()


	def _first_set(first: t.Union[t.Any, object], second: t.Any) -> t.Any:
	return second if first is _unset else first


	class RetryError(Exception):
	"""Encapsulates the last attempt instance right before giving up."""

	def __init__(self, last_attempt: "Future") -> None:
	self.last_attempt = last_attempt
	super().__init__(last_attempt)

	def reraise(self) -> "t.NoReturn":
	if self.last_attempt.failed:
	raise self.last_attempt.result()
	raise self

	def __str__(self) -> str:
	return f"{self.__class__.__name__}[{self.last_attempt}]"


	class AttemptManager:
	"""Manage attempt context."""

	def __init__(self, retry_state: "RetryCallState"):
	self.retry_state = retry_state

	def __enter__(self) -> None:
	pass

	def __exit__(
	self,
	exc_type: t.Optional[t.Type[BaseException]],
	exc_value: t.Optional[BaseException],
	traceback: t.Optional["types.TracebackType"],
	) -> t.Optional[bool]:
	if isinstance(exc_value, BaseException):
	self.retry_state.set_exception((exc_type, exc_value, traceback))
	return True # Swallow exception.
	else:
	# We don't have the result, actually.
	self.retry_state.set_result(None)
	return None


	class BaseRetrying(ABC):
	def __init__(
	self,
	sleep: t.Callable[[t.Union[int, float]], None] = sleep,
	stop: "stop_base" = stop_never,
	wait: "wait_base" = wait_none(),
	retry: retry_base = retry_if_exception_type(),
	before: t.Callable[["RetryCallState"], None] = before_nothing,
	after: t.Callable[["RetryCallState"], None] = after_nothing,
	before_sleep: t.Optional[t.Callable[["RetryCallState"], None]] = None,
	reraise: bool = False,
	retry_error_cls: t.Type[RetryError] = RetryError,
	retry_error_callback: t.Optional[t.Callable[["RetryCallState"], t.Any]] = None,
	):
	self.sleep = sleep
	self.stop = stop
	self.wait = wait
	self.retry = retry
	self.before = before
	self.after = after
	self.before_sleep = before_sleep
	self.reraise = reraise
	self._local = threading.local()
	self.retry_error_cls = retry_error_cls
	self.retry_error_callback = retry_error_callback

	def copy(
	self,
	sleep: t.Union[t.Callable[[t.Union[int, float]], None], object] = _unset,
	stop: t.Union["stop_base", object] = _unset,
	wait: t.Union["wait_base", object] = _unset,
	retry: t.Union[retry_base, object] = _unset,
	before: t.Union[t.Callable[["RetryCallState"], None], object] = _unset,
	after: t.Union[t.Callable[["RetryCallState"], None], object] = _unset,
	before_sleep: t.Union[t.Optional[t.Callable[["RetryCallState"], None]], object] = _unset,
	reraise: t.Union[bool, object] = _unset,
	retry_error_cls: t.Union[t.Type[RetryError], object] = _unset,
	retry_error_callback: t.Union[t.Optional[t.Callable[["RetryCallState"], t.Any]], object] = _unset,
	) -> "BaseRetrying":
	"""Copy this object with some parameters changed if needed."""
	return self.__class__(
	sleep=_first_set(sleep, self.sleep),
	stop=_first_set(stop, self.stop),
	wait=_first_set(wait, self.wait),
	retry=_first_set(retry, self.retry),
	before=_first_set(before, self.before),
	after=_first_set(after, self.after),
	before_sleep=_first_set(before_sleep, self.before_sleep),
	reraise=_first_set(reraise, self.reraise),
	retry_error_cls=_first_set(retry_error_cls, self.retry_error_cls),
	retry_error_callback=_first_set(retry_error_callback, self.retry_error_callback),
	)

	def __repr__(self) -> str:
	return (
	f"<{self.__class__.__name__} object at 0x{id(self):x} ("
	f"stop={self.stop}, "
	f"wait={self.wait}, "
	f"sleep={self.sleep}, "
	f"retry={self.retry}, "
	f"before={self.before}, "
	f"after={self.after})>"
	)

	@property
	def statistics(self) -> t.Dict[str, t.Any]:
	"""Return a dictionary of runtime statistics.

	This dictionary will be empty when the controller has never been
	ran. When it is running or has ran previously it should have (but
	may not) have useful and/or informational keys and values when
	running is underway and/or completed.

	.. warning:: The keys in this dictionary should be some what
	stable (not changing), but there existence may
	change between major releases as new statistics are
	gathered or removed so before accessing keys ensure that
	they actually exist and handle when they do not.

	.. note:: The values in this dictionary are local to the thread
	running call (so if multiple threads share the same retrying
	object - either directly or indirectly) they will each have
	there own view of statistics they have collected (in the
	future we may provide a way to aggregate the various
	statistics from each thread).
	"""
	try:
	return self._local.statistics
	except AttributeError:
	self._local.statistics = {}
	return self._local.statistics

	def wraps(self, f: WrappedFn) -> WrappedFn:
	"""Wrap a function for retrying.

	:param f: A function to wraps for retrying.
	"""

	@functools.wraps(f)
	def wrapped_f(args: t.Any, *kw: t.Any) -> t.Any:
	return self(f, args, *kw)

	def retry_with(args: t.Any, *kwargs: t.Any) -> WrappedFn:
	return self.copy(args, *kwargs).wraps(f)

	wrapped_f.retry = self
	wrapped_f.retry_with = retry_with

	return wrapped_f

	def begin(self) -> None:
	self.statistics.clear()
	self.statistics["start_time"] = time.monotonic()
	self.statistics["attempt_number"] = 1
	self.statistics["idle_for"] = 0

	def iter(self, retry_state: "RetryCallState") -> t.Union[DoAttempt, DoSleep, t.Any]: # noqa
	fut = retry_state.outcome
	if fut is None:
	if self.before is not None:
	self.before(retry_state)
	return DoAttempt()

	is_explicit_retry = retry_state.outcome.failed and isinstance(retry_state.outcome.exception(), TryAgain)
	if not (is_explicit_retry or self.retry(retry_state=retry_state)):
	return fut.result()

	if self.after is not None:
	self.after(retry_state)

	self.statistics["delay_since_first_attempt"] = retry_state.seconds_since_start
	if self.stop(retry_state=retry_state):
	if self.retry_error_callback:
	return self.retry_error_callback(retry_state)
	retry_exc = self.retry_error_cls(fut)
	if self.reraise:
	raise retry_exc.reraise()
	raise retry_exc from fut.exception()

	if self.wait:
	sleep = self.wait(retry_state=retry_state)
	else:
	sleep = 0.0
	retry_state.next_action = RetryAction(sleep)
	retry_state.idle_for += sleep
	self.statistics["idle_for"] += sleep
	self.statistics["attempt_number"] += 1

	if self.before_sleep is not None:
	self.before_sleep(retry_state)

	return DoSleep(sleep)

	def __iter__(self) -> t.Generator[AttemptManager, None, None]:
	self.begin()

	retry_state = RetryCallState(self, fn=None, args=(), kwargs={})
	while True:
	do = self.iter(retry_state=retry_state)
	if isinstance(do, DoAttempt):
	yield AttemptManager(retry_state=retry_state)
	elif isinstance(do, DoSleep):
	retry_state.prepare_for_next_attempt()
	self.sleep(do)
	else:
	break

	@abstractmethod
	def __call__(self, fn: t.Callable[..., _RetValT], args: t.Any, *kwargs: t.Any) -> _RetValT:
	pass


	class Retrying(BaseRetrying):
	"""Retrying controller."""

	def __call__(self, fn: t.Callable[..., _RetValT], args: t.Any, *kwargs: t.Any) -> _RetValT:
	self.begin()

	retry_state = RetryCallState(retry_object=self, fn=fn, args=args, kwargs=kwargs)
	while True:
	do = self.iter(retry_state=retry_state)
	if isinstance(do, DoAttempt):
	try:
	result = fn(args, *kwargs)
	except BaseException: # noqa: B902
	retry_state.set_exception(sys.exc_info())
	else:
	retry_state.set_result(result)
	elif isinstance(do, DoSleep):
	retry_state.prepare_for_next_attempt()
	self.sleep(do)
	else:
	return do


	class Future(futures.Future):
	"""Encapsulates a (future or past) attempted call to a target function."""

	def __init__(self, attempt_number: int) -> None:
	super().__init__()
	self.attempt_number = attempt_number

	@property
	def failed(self) -> bool:
	"""Return whether a exception is being held in this future."""
	return self.exception() is not None

	@classmethod
	def construct(cls, attempt_number: int, value: t.Any, has_exception: bool) -> "Future":
	"""Construct a new Future object."""
	fut = cls(attempt_number)
	if has_exception:
	fut.set_exception(value)
	else:
	fut.set_result(value)
	return fut


	class RetryCallState:
	"""State related to a single call wrapped with Retrying."""

	def __init__(
	self,
	retry_object: BaseRetrying,
	fn: t.Optional[WrappedFn],
	args: t.Any,
	kwargs: t.Any,
	) -> None:
	#: Retry call start timestamp
	self.start_time = time.monotonic()
	#: Retry manager object
	self.retry_object = retry_object
	#: Function wrapped by this retry call
	self.fn = fn
	#: Arguments of the function wrapped by this retry call
	self.args = args
	#: Keyword arguments of the function wrapped by this retry call
	self.kwargs = kwargs

	#: The number of the current attempt
	self.attempt_number: int = 1
	#: Last outcome (result or exception) produced by the function
	self.outcome: t.Optional[Future] = None
	#: Timestamp of the last outcome
	self.outcome_timestamp: t.Optional[float] = None
	#: Time spent sleeping in retries
	self.idle_for: float = 0.0
	#: Next action as decided by the retry manager
	self.next_action: t.Optional[RetryAction] = None

	@property
	def seconds_since_start(self) -> t.Optional[float]:
	if self.outcome_timestamp is None:
	return None
	return self.outcome_timestamp - self.start_time

	def prepare_for_next_attempt(self) -> None:
	self.outcome = None
	self.outcome_timestamp = None
	self.attempt_number += 1
	self.next_action = None

	def set_result(self, val: t.Any) -> None:
	ts = time.monotonic()
	fut = Future(self.attempt_number)
	fut.set_result(val)
	self.outcome, self.outcome_timestamp = fut, ts

	def set_exception(self, exc_info: t.Tuple[t.Type[BaseException], BaseException, "types.TracebackType"]) -> None:
	ts = time.monotonic()
	fut = Future(self.attempt_number)
	fut.set_exception(exc_info[1])
	self.outcome, self.outcome_timestamp = fut, ts

	def __repr__(self):
	if self.outcome is None:
	result = "none yet"
	elif self.outcome.failed:
	exception = self.outcome.exception()
	result = f"failed ({exception.__class__.__name__} {exception})"
	else:
	result = f"returned {self.outcome.result()}"

	slept = float(round(self.idle_for, 2))
	clsname = self.__class__.__name__
	return f"<{clsname} {id(self)}: attempt #{self.attempt_number}; slept for {slept}; last result: {result}>"


	from pip._vendor.tenacity._asyncio import AsyncRetrying # noqa:E402,I100

	if tornado:
	from pip._vendor.tenacity.tornadoweb import TornadoRetrying