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ray-project--ray/python/ray/_common/deprecation.py
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2026-07-13 13:17:40 +08:00

182 lines
5.9 KiB
Python

import inspect
import logging
from functools import wraps
from typing import Any, Callable, Optional, TypeVar, Union, cast, overload
from ray.util import log_once
from ray.util.annotations import _mark_annotated
# TypeVar for preserving function/class signatures through decorators.
# Note: These decorators also accept properties, but we use Callable for the
# common case. Properties work at runtime but won't get full type inference.
F = TypeVar("F", bound=Callable[..., Any])
logger = logging.getLogger(__name__)
# A constant to use for any configuration that should be deprecated
# (to check, whether this config has actually been assigned a proper value or
# not).
DEPRECATED_VALUE = -1
def deprecation_warning(
old: str,
new: Optional[str] = None,
*,
help: Optional[str] = None,
error: Optional[Union[bool, type[Exception]]] = None,
stacklevel: int = 2,
) -> None:
"""Warns (via the `logger` object) or throws a deprecation warning/error.
Args:
old: A description of the "thing" that is to be deprecated.
new: A description of the new "thing" that replaces it.
help: An optional help text to tell the user, what to
do instead of using `old`.
error: Whether or which exception to raise. If True, raise ValueError.
If False, just warn. If `error` is-a subclass of Exception,
raise that Exception.
stacklevel: The stacklevel to use for the warning message.
Use 2 to point to where this function is called, 3+ to point
further up the stack.
Raises:
ValueError: If `error=True`.
Exception: Of type `error`, iff `error` is a sub-class of `Exception`.
"""
msg = "`{}` has been deprecated.{}".format(
old, (" Use `{}` instead.".format(new) if new else f" {help}" if help else "")
)
if error:
if not isinstance(error, bool) and issubclass(error, Exception):
# error is an Exception
raise error(msg)
else:
# error is a boolean, construct ValueError ourselves
raise ValueError(msg)
else:
logger.warning(
"DeprecationWarning: " + msg + " This will raise an error in the future!",
stacklevel=stacklevel,
)
@overload
def Deprecated(
old: None = None,
*,
new: Optional[str] = None,
help: Optional[str] = None,
error: Union[bool, type[Exception]],
) -> Callable[[F], F]:
...
@overload
def Deprecated(
old: str,
*,
new: Optional[str] = None,
help: Optional[str] = None,
error: Union[bool, type[Exception]],
) -> Callable[[F], F]:
...
def Deprecated(
old: Optional[str] = None,
*,
new: Optional[str] = None,
help: Optional[str] = None,
error: Union[bool, type[Exception]],
) -> Callable[[F], F]:
"""Decorator for documenting a deprecated class, method, or function.
Automatically adds a `deprecation.deprecation_warning(old=...,
error=False)` to not break existing code at this point to the decorated
class' constructor, method, or function.
In a next major release, this warning should then be made an error
(by setting error=True), which means at this point that the
class/method/function is no longer supported, but will still inform
the user about the deprecation event.
In a further major release, the class, method, function should be erased
entirely from the codebase.
.. testcode::
:skipif: True
from ray._common.deprecation import Deprecated
# Deprecated class: Patches the constructor to warn if the class is
# used.
@Deprecated(new="NewAndMuchCoolerClass", error=False)
class OldAndUncoolClass:
...
# Deprecated class method: Patches the method to warn if called.
class StillCoolClass:
...
@Deprecated(new="StillCoolClass.new_and_much_cooler_method()",
error=False)
def old_and_uncool_method(self, uncool_arg):
...
# Deprecated function: Patches the function to warn if called.
@Deprecated(new="new_and_much_cooler_function", error=False)
def old_and_uncool_function(*uncool_args):
...
"""
def _inner(obj: F) -> F:
# A deprecated class.
if inspect.isclass(obj):
# Patch the class' init method to raise the warning/error.
obj_init = obj.__init__
def patched_init(*args, **kwargs):
if log_once(old or obj.__name__):
deprecation_warning(
old=old or obj.__name__,
new=new,
help=help,
error=error,
stacklevel=3,
)
return obj_init(*args, **kwargs)
obj.__init__ = patched_init
_mark_annotated(obj)
# Return the patched class (with the warning/error when
# instantiated).
return obj
# A deprecated class method or function.
# Patch with the warning/error at the beginning.
def _ctor(*args, **kwargs):
if log_once(old or obj.__name__):
deprecation_warning(
old=old or obj.__name__,
new=new,
help=help,
error=error,
stacklevel=3,
)
# Call the deprecated method/function.
return obj(*args, **kwargs)
# Only apply @wraps for actual callables, not properties/descriptors.
# Setting __wrapped__ on a property causes inspect.unwrap() to return
# the property, which breaks inspect.signature() in the tracing helper.
if callable(obj):
_ctor = wraps(obj)(_ctor)
# Return the patched class method/function.
return cast(F, _ctor)
# Return the prepared decorator.
return _inner