from __future__ import annotations from collections.abc import Callable, Sequence from functools import partial from inspect import getmro, isclass from typing import TYPE_CHECKING, Generic, Type, TypeVar, cast, overload if TYPE_CHECKING: from typing import Self _BaseExceptionT_co = TypeVar("_BaseExceptionT_co", bound=BaseException, covariant=True) _BaseExceptionT = TypeVar("_BaseExceptionT", bound=BaseException) _ExceptionT_co = TypeVar("_ExceptionT_co", bound=Exception, covariant=True) _ExceptionT = TypeVar("_ExceptionT", bound=Exception) def check_direct_subclass( exc: BaseException, parents: tuple[type[BaseException]] ) -> bool: for cls in getmro(exc.__class__)[:-1]: if cls in parents: return True return False def get_condition_filter( condition: type[_BaseExceptionT] | tuple[type[_BaseExceptionT], ...] | Callable[[_BaseExceptionT_co], bool] ) -> Callable[[_BaseExceptionT_co], bool]: if isclass(condition) and issubclass( cast(Type[BaseException], condition), BaseException ): return partial(check_direct_subclass, parents=(condition,)) elif isinstance(condition, tuple): if all(isclass(x) and issubclass(x, BaseException) for x in condition): return partial(check_direct_subclass, parents=condition) elif callable(condition): return cast("Callable[[BaseException], bool]", condition) raise TypeError("expected a function, exception type or tuple of exception types") class BaseExceptionGroup(BaseException, Generic[_BaseExceptionT_co]): """A combination of multiple unrelated exceptions.""" def __new__( cls, __message: str, __exceptions: Sequence[_BaseExceptionT_co] ) -> Self: if not isinstance(__message, str): raise TypeError(f"argument 1 must be str, not {type(__message)}") if not isinstance(__exceptions, Sequence): raise TypeError("second argument (exceptions) must be a sequence") if not __exceptions: raise ValueError( "second argument (exceptions) must be a non-empty sequence" ) for i, exc in enumerate(__exceptions): if not isinstance(exc, BaseException): raise ValueError( f"Item {i} of second argument (exceptions) is not an " f"exception" ) if cls is BaseExceptionGroup: if all(isinstance(exc, Exception) for exc in __exceptions): cls = ExceptionGroup if issubclass(cls, Exception): for exc in __exceptions: if not isinstance(exc, Exception): if cls is ExceptionGroup: raise TypeError( "Cannot nest BaseExceptions in an ExceptionGroup" ) else: raise TypeError( f"Cannot nest BaseExceptions in {cls.__name__!r}" ) instance = super().__new__(cls, __message, __exceptions) instance._message = __message instance._exceptions = __exceptions return instance def add_note(self, note: str) -> None: if not isinstance(note, str): raise TypeError( f"Expected a string, got note={note!r} (type {type(note).__name__})" ) if not hasattr(self, "__notes__"): self.__notes__: list[str] = [] self.__notes__.append(note) @property def message(self) -> str: return self._message @property def exceptions( self, ) -> tuple[_BaseExceptionT_co | BaseExceptionGroup[_BaseExceptionT_co], ...]: return tuple(self._exceptions) @overload def subgroup( self, __condition: type[_BaseExceptionT] | tuple[type[_BaseExceptionT], ...] ) -> BaseExceptionGroup[_BaseExceptionT] | None: ... @overload def subgroup( self: Self, __condition: Callable[[_BaseExceptionT_co], bool] ) -> Self | None: ... def subgroup( self: Self, __condition: type[_BaseExceptionT] | tuple[type[_BaseExceptionT], ...] | Callable[[_BaseExceptionT_co], bool], ) -> BaseExceptionGroup[_BaseExceptionT] | Self | None: condition = get_condition_filter(__condition) modified = False if condition(self): return self exceptions: list[BaseException] = [] for exc in self.exceptions: if isinstance(exc, BaseExceptionGroup): subgroup = exc.subgroup(__condition) if subgroup is not None: exceptions.append(subgroup) if subgroup is not exc: modified = True elif condition(exc): exceptions.append(exc) else: modified = True if not modified: return self elif exceptions: group = self.derive(exceptions) group.__cause__ = self.__cause__ group.__context__ = self.__context__ group.__traceback__ = self.__traceback__ return group else: return None @overload def split( self: Self, __condition: type[_BaseExceptionT] | tuple[type[_BaseExceptionT], ...], ) -> tuple[BaseExceptionGroup[_BaseExceptionT] | None, Self | None]: ... @overload def split( self: Self, __condition: Callable[[_BaseExceptionT_co], bool] ) -> tuple[Self | None, Self | None]: ... def split( self: Self, __condition: type[_BaseExceptionT] | tuple[type[_BaseExceptionT], ...] | Callable[[_BaseExceptionT_co], bool], ) -> tuple[BaseExceptionGroup[_BaseExceptionT] | None, Self | None] | tuple[ Self | None, Self | None ]: condition = get_condition_filter(__condition) if condition(self): return self, None matching_exceptions: list[BaseException] = [] nonmatching_exceptions: list[BaseException] = [] for exc in self.exceptions: if isinstance(exc, BaseExceptionGroup): matching, nonmatching = exc.split(condition) if matching is not None: matching_exceptions.append(matching) if nonmatching is not None: nonmatching_exceptions.append(nonmatching) elif condition(exc): matching_exceptions.append(exc) else: nonmatching_exceptions.append(exc) matching_group: Self | None = None if matching_exceptions: matching_group = self.derive(matching_exceptions) matching_group.__cause__ = self.__cause__ matching_group.__context__ = self.__context__ matching_group.__traceback__ = self.__traceback__ nonmatching_group: Self | None = None if nonmatching_exceptions: nonmatching_group = self.derive(nonmatching_exceptions) nonmatching_group.__cause__ = self.__cause__ nonmatching_group.__context__ = self.__context__ nonmatching_group.__traceback__ = self.__traceback__ return matching_group, nonmatching_group def derive(self: Self, __excs: Sequence[_BaseExceptionT_co]) -> Self: eg = BaseExceptionGroup(self.message, __excs) if hasattr(self, "__notes__"): # Create a new list so that add_note() only affects one exceptiongroup eg.__notes__ = list(self.__notes__) return eg def __str__(self) -> str: suffix = "" if len(self._exceptions) == 1 else "s" return f"{self.message} ({len(self._exceptions)} sub-exception{suffix})" def __repr__(self) -> str: return f"{self.__class__.__name__}({self.message!r}, {self._exceptions!r})" class ExceptionGroup(BaseExceptionGroup[_ExceptionT_co], Exception): def __new__(cls, __message: str, __exceptions: Sequence[_ExceptionT_co]) -> Self: return super().__new__(cls, __message, __exceptions) if TYPE_CHECKING: @property def exceptions( self, ) -> tuple[_ExceptionT_co | ExceptionGroup[_ExceptionT_co], ...]: ... @overload # type: ignore[override] def subgroup( self, __condition: type[_ExceptionT] | tuple[type[_ExceptionT], ...] ) -> ExceptionGroup[_ExceptionT] | None: ... @overload def subgroup( self: Self, __condition: Callable[[_ExceptionT_co], bool] ) -> Self | None: ... def subgroup( self: Self, __condition: type[_ExceptionT] | tuple[type[_ExceptionT], ...] | Callable[[_ExceptionT_co], bool], ) -> ExceptionGroup[_ExceptionT] | Self | None: return super().subgroup(__condition) @overload # type: ignore[override] def split( self: Self, __condition: type[_ExceptionT] | tuple[type[_ExceptionT], ...] ) -> tuple[ExceptionGroup[_ExceptionT] | None, Self | None]: ... @overload def split( self: Self, __condition: Callable[[_ExceptionT_co], bool] ) -> tuple[Self | None, Self | None]: ... def split( self: Self, __condition: type[_ExceptionT] | tuple[type[_ExceptionT], ...] | Callable[[_ExceptionT_co], bool], ) -> tuple[ExceptionGroup[_ExceptionT] | None, Self | None] | tuple[ Self | None, Self | None ]: return super().split(__condition)