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# Copyright 2016–2021 Julien Danjou
# 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 abc
import re
import typing
if typing.TYPE_CHECKING:
from pip._vendor.tenacity import RetryCallState
class retry_base(abc.ABC):
"""Abstract base class for retry strategies."""
@abc.abstractmethod
def __call__(self, retry_state: "RetryCallState") -> bool:
pass
def __and__(self, other: "retry_base") -> "retry_all":
return retry_all(self, other)
def __or__(self, other: "retry_base") -> "retry_any":
return retry_any(self, other)
class _retry_never(retry_base):
"""Retry strategy that never rejects any result."""
def __call__(self, retry_state: "RetryCallState") -> bool:
return False
retry_never = _retry_never()
class _retry_always(retry_base):
"""Retry strategy that always rejects any result."""
def __call__(self, retry_state: "RetryCallState") -> bool:
return True
retry_always = _retry_always()
class retry_if_exception(retry_base):
"""Retry strategy that retries if an exception verifies a predicate."""
def __init__(self, predicate: typing.Callable[[BaseException], bool]) -> None:
self.predicate = predicate
def __call__(self, retry_state: "RetryCallState") -> bool:
if retry_state.outcome.failed:
return self.predicate(retry_state.outcome.exception())
else:
return False
class retry_if_exception_type(retry_if_exception):
"""Retries if an exception has been raised of one or more types."""
def __init__(
self,
exception_types: typing.Union[
typing.Type[BaseException],
typing.Tuple[typing.Type[BaseException], ...],
] = Exception,
) -> None:
self.exception_types = exception_types
super().__init__(lambda e: isinstance(e, exception_types))
class retry_if_not_exception_type(retry_if_exception):
"""Retries except an exception has been raised of one or more types."""
def __init__(
self,
exception_types: typing.Union[
typing.Type[BaseException],
typing.Tuple[typing.Type[BaseException], ...],
] = Exception,
) -> None:
self.exception_types = exception_types
super().__init__(lambda e: not isinstance(e, exception_types))
class retry_unless_exception_type(retry_if_exception):
"""Retries until an exception is raised of one or more types."""
def __init__(
self,
exception_types: typing.Union[
typing.Type[BaseException],
typing.Tuple[typing.Type[BaseException], ...],
] = Exception,
) -> None:
self.exception_types = exception_types
super().__init__(lambda e: not isinstance(e, exception_types))
def __call__(self, retry_state: "RetryCallState") -> bool:
# always retry if no exception was raised
if not retry_state.outcome.failed:
return True
return self.predicate(retry_state.outcome.exception())
class retry_if_result(retry_base):
"""Retries if the result verifies a predicate."""
def __init__(self, predicate: typing.Callable[[typing.Any], bool]) -> None:
self.predicate = predicate
def __call__(self, retry_state: "RetryCallState") -> bool:
if not retry_state.outcome.failed:
return self.predicate(retry_state.outcome.result())
else:
return False
class retry_if_not_result(retry_base):
"""Retries if the result refutes a predicate."""
def __init__(self, predicate: typing.Callable[[typing.Any], bool]) -> None:
self.predicate = predicate
def __call__(self, retry_state: "RetryCallState") -> bool:
if not retry_state.outcome.failed:
return not self.predicate(retry_state.outcome.result())
else:
return False
class retry_if_exception_message(retry_if_exception):
"""Retries if an exception message equals or matches."""
def __init__(
self,
message: typing.Optional[str] = None,
match: typing.Optional[str] = None,
) -> None:
if message and match:
raise TypeError(f"{self.__class__.__name__}() takes either 'message' or 'match', not both")
# set predicate
if message:
def message_fnc(exception: BaseException) -> bool:
return message == str(exception)
predicate = message_fnc
elif match:
prog = re.compile(match)
def match_fnc(exception: BaseException) -> bool:
return bool(prog.match(str(exception)))
predicate = match_fnc
else:
raise TypeError(f"{self.__class__.__name__}() missing 1 required argument 'message' or 'match'")
super().__init__(predicate)
class retry_if_not_exception_message(retry_if_exception_message):
"""Retries until an exception message equals or matches."""
def __init__(
self,
message: typing.Optional[str] = None,
match: typing.Optional[str] = None,
) -> None:
super().__init__(message, match)
# invert predicate
if_predicate = self.predicate
self.predicate = lambda *args_, **kwargs_: not if_predicate(*args_, **kwargs_)
def __call__(self, retry_state: "RetryCallState") -> bool:
if not retry_state.outcome.failed:
return True
return self.predicate(retry_state.outcome.exception())
class retry_any(retry_base):
"""Retries if any of the retries condition is valid."""
def __init__(self, *retries: retry_base) -> None:
self.retries = retries
def __call__(self, retry_state: "RetryCallState") -> bool:
return any(r(retry_state) for r in self.retries)
class retry_all(retry_base):
"""Retries if all the retries condition are valid."""
def __init__(self, *retries: retry_base) -> None:
self.retries = retries
def __call__(self, retry_state: "RetryCallState") -> bool:
return all(r(retry_state) for r in self.retries)
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