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revlog: test possible read race condition with splitting...

revlog: test possible read race condition with splitting This is currently working fine, but could break with another approach (for example, with the one we are about to use in the next changesets…) So we make sure the case is covered.

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        Matt Harbison
    
attr: vendor 22.1.0...

              r50538
            
      from typing import (

          Any,

          AnyStr,

          Callable,

          Container,

          ContextManager,

          Iterable,

          List,

          Mapping,

          Match,

          Optional,

          Pattern,

          Tuple,

          Type,

          TypeVar,

          Union,

          overload,

      )

      from . import _ValidatorType

      from . import _ValidatorArgType

      _T = TypeVar("_T")

      _T1 = TypeVar("_T1")

      _T2 = TypeVar("_T2")

      _T3 = TypeVar("_T3")

      _I = TypeVar("_I", bound=Iterable)

      _K = TypeVar("_K")

      _V = TypeVar("_V")

      _M = TypeVar("_M", bound=Mapping)

      def set_disabled(run: bool) -> None: ...

      def get_disabled() -> bool: ...

      def disabled() -> ContextManager[None]: ...

      # To be more precise on instance_of use some overloads.

      # If there are more than 3 items in the tuple then we fall back to Any

      @overload

      def instance_of(type: Type[_T]) -> _ValidatorType[_T]: ...

      @overload

      def instance_of(type: Tuple[Type[_T]]) -> _ValidatorType[_T]: ...

      @overload

      def instance_of(

          type: Tuple[Type[_T1], Type[_T2]]

      ) -> _ValidatorType[Union[_T1, _T2]]: ...

      @overload

      def instance_of(

          type: Tuple[Type[_T1], Type[_T2], Type[_T3]]

      ) -> _ValidatorType[Union[_T1, _T2, _T3]]: ...

      @overload

      def instance_of(type: Tuple[type, ...]) -> _ValidatorType[Any]: ...

      def provides(interface: Any) -> _ValidatorType[Any]: ...

      def optional(

          validator: Union[_ValidatorType[_T], List[_ValidatorType[_T]]]

      ) -> _ValidatorType[Optional[_T]]: ...

      def in_(options: Container[_T]) -> _ValidatorType[_T]: ...

      def and_(*validators: _ValidatorType[_T]) -> _ValidatorType[_T]: ...

      def matches_re(

          regex: Union[Pattern[AnyStr], AnyStr],

          flags: int = ...,

          func: Optional[

              Callable[[AnyStr, AnyStr, int], Optional[Match[AnyStr]]]

          ] = ...,

      ) -> _ValidatorType[AnyStr]: ...

      def deep_iterable(

          member_validator: _ValidatorArgType[_T],

          iterable_validator: Optional[_ValidatorType[_I]] = ...,

      ) -> _ValidatorType[_I]: ...

      def deep_mapping(

          key_validator: _ValidatorType[_K],

          value_validator: _ValidatorType[_V],

          mapping_validator: Optional[_ValidatorType[_M]] = ...,

      ) -> _ValidatorType[_M]: ...

      def is_callable() -> _ValidatorType[_T]: ...

      def lt(val: _T) -> _ValidatorType[_T]: ...

      def le(val: _T) -> _ValidatorType[_T]: ...

      def ge(val: _T) -> _ValidatorType[_T]: ...

      def gt(val: _T) -> _ValidatorType[_T]: ...

      def max_len(length: int) -> _ValidatorType[_T]: ...

      def min_len(length: int) -> _ValidatorType[_T]: ...

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Matt Harbison attr: vendor 22.1.0...	r50538	from typing import (
		Any,
		AnyStr,
		Callable,
		Container,
		ContextManager,
		Iterable,
		List,
		Mapping,
		Match,
		Optional,
		Pattern,
		Tuple,
		Type,
		TypeVar,
		Union,
		overload,
		)

		from . import _ValidatorType
		from . import _ValidatorArgType

		_T = TypeVar("_T")
		_T1 = TypeVar("_T1")
		_T2 = TypeVar("_T2")
		_T3 = TypeVar("_T3")
		_I = TypeVar("_I", bound=Iterable)
		_K = TypeVar("_K")
		_V = TypeVar("_V")
		_M = TypeVar("_M", bound=Mapping)

		def set_disabled(run: bool) -> None: ...
		def get_disabled() -> bool: ...
		def disabled() -> ContextManager[None]: ...

		# To be more precise on instance_of use some overloads.
		# If there are more than 3 items in the tuple then we fall back to Any
		@overload
		def instance_of(type: Type[_T]) -> _ValidatorType[_T]: ...
		@overload
		def instance_of(type: Tuple[Type[_T]]) -> _ValidatorType[_T]: ...
		@overload
		def instance_of(
		type: Tuple[Type[_T1], Type[_T2]]
		) -> _ValidatorType[Union[_T1, _T2]]: ...
		@overload
		def instance_of(
		type: Tuple[Type[_T1], Type[_T2], Type[_T3]]
		) -> _ValidatorType[Union[_T1, _T2, _T3]]: ...
		@overload
		def instance_of(type: Tuple[type, ...]) -> _ValidatorType[Any]: ...
		def provides(interface: Any) -> _ValidatorType[Any]: ...
		def optional(
		validator: Union[_ValidatorType[_T], List[_ValidatorType[_T]]]
		) -> _ValidatorType[Optional[_T]]: ...
		def in_(options: Container[_T]) -> _ValidatorType[_T]: ...
		def and_(*validators: _ValidatorType[_T]) -> _ValidatorType[_T]: ...
		def matches_re(
		regex: Union[Pattern[AnyStr], AnyStr],
		flags: int = ...,
		func: Optional[
		Callable[[AnyStr, AnyStr, int], Optional[Match[AnyStr]]]
		] = ...,
		) -> _ValidatorType[AnyStr]: ...
		def deep_iterable(
		member_validator: _ValidatorArgType[_T],
		iterable_validator: Optional[_ValidatorType[_I]] = ...,
		) -> _ValidatorType[_I]: ...
		def deep_mapping(
		key_validator: _ValidatorType[_K],
		value_validator: _ValidatorType[_V],
		mapping_validator: Optional[_ValidatorType[_M]] = ...,
		) -> _ValidatorType[_M]: ...
		def is_callable() -> _ValidatorType[_T]: ...
		def lt(val: _T) -> _ValidatorType[_T]: ...
		def le(val: _T) -> _ValidatorType[_T]: ...
		def ge(val: _T) -> _ValidatorType[_T]: ...
		def gt(val: _T) -> _ValidatorType[_T]: ...
		def max_len(length: int) -> _ValidatorType[_T]: ...
		def min_len(length: int) -> _ValidatorType[_T]: ...