153 lines
5.8 KiB
Python
153 lines
5.8 KiB
Python
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# Extra utilities for working with context managers that should have been
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# in the standard library but are not
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import functools
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import inspect
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import warnings
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import sys
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from typing import Any, Callable, TypeVar, cast
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# Used for annotating the decorator usage of _DecoratorContextManager (e.g.,
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# 'no_grad' and 'enable_grad').
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# See https://mypy.readthedocs.io/en/latest/generics.html#declaring-decorators
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FuncType = Callable[..., Any]
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F = TypeVar('F', bound=FuncType)
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def _wrap_generator(ctx_factory, func):
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"""
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Wrap each generator invocation with the context manager factory.
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The input should be a function that returns a context manager,
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not a context manager itself, to handle one-shot context managers.
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"""
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@functools.wraps(func)
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def generator_context(*args, **kwargs):
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gen = func(*args, **kwargs)
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# Generators are suspended and unsuspended at `yield`, hence we
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# make sure the grad mode is properly set every time the execution
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# flow returns into the wrapped generator and restored when it
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# returns through our `yield` to our caller (see PR #49017).
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try:
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# Issuing `None` to a generator fires it up
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with ctx_factory():
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response = gen.send(None)
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while True:
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try:
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# Forward the response to our caller and get its next request
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request = yield response
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except GeneratorExit:
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# Inform the still active generator about its imminent closure
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with ctx_factory():
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gen.close()
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raise
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except BaseException:
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# Propagate the exception thrown at us by the caller
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with ctx_factory():
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response = gen.throw(*sys.exc_info())
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else:
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# Pass the last request to the generator and get its response
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with ctx_factory():
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response = gen.send(request)
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# We let the exceptions raised above by the generator's `.throw` or
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# `.send` methods bubble up to our caller, except for StopIteration
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except StopIteration as e:
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# The generator informed us that it is done: take whatever its
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# returned value (if any) was and indicate that we're done too
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# by returning it (see docs for python's return-statement).
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return e.value
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return generator_context
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def context_decorator(ctx, func):
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"""
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Like contextlib.ContextDecorator.
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But with the following differences:
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1. Is done by wrapping, rather than inheritance, so it works with context
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managers that are implemented from C and thus cannot easily inherit from
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Python classes
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2. Wraps generators in the intuitive way (c.f. https://bugs.python.org/issue37743)
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3. Errors out if you try to wrap a class, because it is ambiguous whether
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or not you intended to wrap only the constructor
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The input argument can either be a context manager (in which case it must
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be a multi-shot context manager that can be directly invoked multiple times)
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or a callable that produces a context manager.
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"""
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assert not (callable(ctx) and hasattr(ctx, '__enter__')), (
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f"Passed in {ctx} is both callable and also a valid context manager "
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"(has __enter__), making it ambiguous which interface to use. If you "
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"intended to pass a context manager factory, rewrite your call as "
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"context_decorator(lambda: ctx()); if you intended to pass a context "
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"manager directly, rewrite your call as context_decorator(lambda: ctx)"
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)
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if not callable(ctx):
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def ctx_factory():
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return ctx
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else:
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ctx_factory = ctx
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if inspect.isclass(func):
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raise RuntimeError(
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"Cannot decorate classes; it is ambiguous whether or not only the "
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"constructor or all methods should have the context manager applied; "
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"additionally, decorating a class at definition-site will prevent "
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"use of the identifier as a conventional type. "
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"To specify which methods to decorate, decorate each of them "
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"individually."
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)
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if inspect.isgeneratorfunction(func):
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return _wrap_generator(ctx_factory, func)
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@functools.wraps(func)
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def decorate_context(*args, **kwargs):
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with ctx_factory():
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return func(*args, **kwargs)
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return decorate_context
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class _DecoratorContextManager:
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"""Allow a context manager to be used as a decorator."""
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def __call__(self, orig_func: F) -> F:
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if inspect.isclass(orig_func):
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warnings.warn("Decorating classes is deprecated and will be disabled in "
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"future versions. You should only decorate functions or methods. "
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"To preserve the current behavior of class decoration, you can "
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"directly decorate the `__init__` method and nothing else.")
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func = cast(F, lambda *args, **kwargs: orig_func(*args, **kwargs))
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else:
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func = orig_func
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return cast(F, context_decorator(self.clone, func))
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def __enter__(self) -> None:
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raise NotImplementedError
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def __exit__(self, exc_type: Any, exc_value: Any, traceback: Any) -> None:
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raise NotImplementedError
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def clone(self):
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# override this method if your children class takes __init__ parameters
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return self.__class__()
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class _NoParamDecoratorContextManager(_DecoratorContextManager):
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"""Allow a context manager to be used as a decorator without parentheses."""
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def __new__(cls, orig_func=None):
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if orig_func is None:
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return super().__new__(cls)
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return cls()(orig_func)
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