upstream/mercurial-mirror Files · mercurial/thirdparty/attr/validators.pyi

stream-clone: check is a compatible protocol can be found...

stream-clone: check is a compatible protocol can be found The previous code was explicitly checking if "v2" is listed in the "stream" bundle2 capability. The new code is checking is there is anything common between the versions supported client side and server side overlaps. This prepare the introduction of more stream version than "v2".

Matt Harbison - - Load All Authors

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      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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				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]: ...