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https://mau.dev/maunium/synapse.git
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609 lines
21 KiB
Python
609 lines
21 KiB
Python
# Copyright 2015, 2016 OpenMarket Ltd
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# Copyright 2018 New Vector Ltd
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import functools
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import inspect
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import logging
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from typing import (
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Any,
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Awaitable,
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Callable,
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Collection,
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Dict,
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Generic,
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Hashable,
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Iterable,
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List,
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Mapping,
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Optional,
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Sequence,
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Tuple,
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Type,
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TypeVar,
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Union,
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cast,
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)
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from weakref import WeakValueDictionary
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from twisted.internet import defer
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from twisted.python.failure import Failure
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from synapse.logging.context import make_deferred_yieldable, preserve_fn
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from synapse.util import unwrapFirstError
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from synapse.util.async_helpers import delay_cancellation
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from synapse.util.caches.deferred_cache import DeferredCache
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from synapse.util.caches.lrucache import LruCache
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logger = logging.getLogger(__name__)
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CacheKey = Union[Tuple, Any]
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F = TypeVar("F", bound=Callable[..., Any])
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class CachedFunction(Generic[F]):
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invalidate: Callable[[Tuple[Any, ...]], None]
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invalidate_all: Callable[[], None]
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prefill: Callable[[Tuple[Any, ...], Any], None]
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cache: Any = None
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num_args: Any = None
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__name__: str
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# Note: This function signature is actually fiddled with by the synapse mypy
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# plugin to a) make it a bound method, and b) remove any `cache_context` arg.
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__call__: F
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class _CacheDescriptorBase:
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def __init__(
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self,
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orig: Callable[..., Any],
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num_args: Optional[int],
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uncached_args: Optional[Collection[str]] = None,
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cache_context: bool = False,
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name: Optional[str] = None,
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):
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self.orig = orig
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self.name = name or orig.__name__
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arg_spec = inspect.getfullargspec(orig)
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all_args = arg_spec.args
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# There's no reason that keyword-only arguments couldn't be supported,
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# but right now they're buggy so do not allow them.
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if arg_spec.kwonlyargs:
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raise ValueError(
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"_CacheDescriptorBase does not support keyword-only arguments."
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)
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if "cache_context" in all_args:
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if not cache_context:
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raise ValueError(
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"Cannot have a 'cache_context' arg without setting"
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" cache_context=True"
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)
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elif cache_context:
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raise ValueError(
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"Cannot have cache_context=True without having an arg"
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" named `cache_context`"
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)
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if num_args is not None and uncached_args is not None:
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raise ValueError("Cannot provide both num_args and uncached_args")
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if num_args is None:
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num_args = len(all_args) - 1
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if cache_context:
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num_args -= 1
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if len(all_args) < num_args + 1:
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raise Exception(
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"Not enough explicit positional arguments to key off for %r: "
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"got %i args, but wanted %i. (@cached cannot key off *args or "
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"**kwargs)" % (orig.__name__, len(all_args), num_args)
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)
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self.num_args = num_args
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# list of the names of the args used as the cache key
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self.arg_names = all_args[1 : num_args + 1]
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# If there are args to not cache on, filter them out (and fix the size of num_args).
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if uncached_args is not None:
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include_arg_in_cache_key = [n not in uncached_args for n in self.arg_names]
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else:
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include_arg_in_cache_key = [True] * len(self.arg_names)
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# self.arg_defaults is a map of arg name to its default value for each
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# argument that has a default value
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if arg_spec.defaults:
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self.arg_defaults = dict(
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zip(all_args[-len(arg_spec.defaults) :], arg_spec.defaults)
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)
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else:
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self.arg_defaults = {}
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if "cache_context" in self.arg_names:
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raise Exception("cache_context arg cannot be included among the cache keys")
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self.add_cache_context = cache_context
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self.cache_key_builder = _get_cache_key_builder(
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self.arg_names, include_arg_in_cache_key, self.arg_defaults
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)
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class DeferredCacheDescriptor(_CacheDescriptorBase):
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"""A method decorator that applies a memoizing cache around the function.
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This caches deferreds, rather than the results themselves. Deferreds that
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fail are removed from the cache.
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The function is presumed to take zero or more arguments, which are used in
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a tuple as the key for the cache. Hits are served directly from the cache;
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misses use the function body to generate the value.
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The wrapped function has an additional member, a callable called
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"invalidate". This can be used to remove individual entries from the cache.
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The wrapped function has another additional callable, called "prefill",
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which can be used to insert values into the cache specifically, without
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calling the calculation function.
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Cached functions can be "chained" (i.e. a cached function can call other cached
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functions and get appropriately invalidated when they called caches are
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invalidated) by adding a special "cache_context" argument to the function
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and passing that as a kwarg to all caches called. For example::
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@cached(cache_context=True)
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def foo(self, key, cache_context):
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r1 = yield self.bar1(key, on_invalidate=cache_context.invalidate)
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r2 = yield self.bar2(key, on_invalidate=cache_context.invalidate)
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return r1 + r2
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Args:
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orig:
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max_entries:
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num_args: number of positional arguments (excluding ``self`` and
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``cache_context``) to use as cache keys. Defaults to all named
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args of the function.
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uncached_args: a list of argument names to not use as the cache key.
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(``self`` and ``cache_context`` are always ignored.) Cannot be used
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with num_args.
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tree:
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cache_context:
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iterable:
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prune_unread_entries: If True, cache entries that haven't been read recently
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will be evicted from the cache in the background. Set to False to opt-out
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of this behaviour.
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"""
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def __init__(
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self,
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orig: Callable[..., Any],
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max_entries: int = 1000,
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num_args: Optional[int] = None,
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uncached_args: Optional[Collection[str]] = None,
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tree: bool = False,
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cache_context: bool = False,
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iterable: bool = False,
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prune_unread_entries: bool = True,
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name: Optional[str] = None,
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):
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super().__init__(
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orig,
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num_args=num_args,
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uncached_args=uncached_args,
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cache_context=cache_context,
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name=name,
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)
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if tree and self.num_args < 2:
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raise RuntimeError(
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"tree=True is nonsensical for cached functions with a single parameter"
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)
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self.max_entries = max_entries
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self.tree = tree
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self.iterable = iterable
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self.prune_unread_entries = prune_unread_entries
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def __get__(self, obj: Optional[Any], owner: Optional[Type]) -> Callable[..., Any]:
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cache: DeferredCache[CacheKey, Any] = DeferredCache(
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name=self.name,
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max_entries=self.max_entries,
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tree=self.tree,
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iterable=self.iterable,
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prune_unread_entries=self.prune_unread_entries,
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)
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get_cache_key = self.cache_key_builder
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@functools.wraps(self.orig)
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def _wrapped(*args: Any, **kwargs: Any) -> Any:
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# If we're passed a cache_context then we'll want to call its invalidate()
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# whenever we are invalidated
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invalidate_callback = kwargs.pop("on_invalidate", None)
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cache_key = get_cache_key(args, kwargs)
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try:
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ret = cache.get(cache_key, callback=invalidate_callback)
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except KeyError:
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# Add our own `cache_context` to argument list if the wrapped function
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# has asked for one
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if self.add_cache_context:
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kwargs["cache_context"] = _CacheContext.get_instance(
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cache, cache_key
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)
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ret = defer.maybeDeferred(preserve_fn(self.orig), obj, *args, **kwargs)
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ret = cache.set(cache_key, ret, callback=invalidate_callback)
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# We started a new call to `self.orig`, so we must always wait for it to
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# complete. Otherwise we might mark our current logging context as
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# finished while `self.orig` is still using it in the background.
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ret = delay_cancellation(ret)
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return make_deferred_yieldable(ret)
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wrapped = cast(CachedFunction, _wrapped)
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if self.num_args == 1:
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assert not self.tree
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wrapped.invalidate = lambda key: cache.invalidate(key[0])
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wrapped.prefill = lambda key, val: cache.prefill(key[0], val)
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else:
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wrapped.invalidate = cache.invalidate
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wrapped.prefill = cache.prefill
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wrapped.invalidate_all = cache.invalidate_all
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wrapped.cache = cache
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wrapped.num_args = self.num_args
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obj.__dict__[self.name] = wrapped
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return wrapped
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class DeferredCacheListDescriptor(_CacheDescriptorBase):
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"""Wraps an existing cache to support bulk fetching of keys.
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Given an iterable of keys it looks in the cache to find any hits, then passes
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the set of missing keys to the wrapped function.
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Once wrapped, the function returns a Deferred which resolves to a Dict mapping from
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input key to output value.
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"""
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def __init__(
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self,
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orig: Callable[..., Awaitable[Dict]],
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cached_method_name: str,
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list_name: str,
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num_args: Optional[int] = None,
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name: Optional[str] = None,
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):
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"""
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Args:
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orig
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cached_method_name: The name of the cached method.
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list_name: Name of the argument which is the bulk lookup list
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num_args: number of positional arguments (excluding ``self``,
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but including list_name) to use as cache keys. Defaults to all
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named args of the function.
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"""
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super().__init__(orig, num_args=num_args, uncached_args=None, name=name)
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self.list_name = list_name
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self.list_pos = self.arg_names.index(self.list_name)
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self.cached_method_name = cached_method_name
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self.sentinel = object()
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if self.list_name not in self.arg_names:
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raise Exception(
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"Couldn't see arguments %r for %r."
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% (self.list_name, cached_method_name)
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)
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def __get__(
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self, obj: Optional[Any], objtype: Optional[Type] = None
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) -> Callable[..., "defer.Deferred[Dict[Hashable, Any]]"]:
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cached_method = getattr(obj, self.cached_method_name)
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cache: DeferredCache[CacheKey, Any] = cached_method.cache
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num_args = cached_method.num_args
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if num_args != self.num_args:
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raise TypeError(
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"Number of args (%s) does not match underlying cache_method_name=%s (%s)."
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% (self.num_args, self.cached_method_name, num_args)
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)
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@functools.wraps(self.orig)
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def wrapped(*args: Any, **kwargs: Any) -> "defer.Deferred[Dict]":
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# If we're passed a cache_context then we'll want to call its
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# invalidate() whenever we are invalidated
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invalidate_callback = kwargs.pop("on_invalidate", None)
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arg_dict = inspect.getcallargs(self.orig, obj, *args, **kwargs)
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keyargs = [arg_dict[arg_nm] for arg_nm in self.arg_names]
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list_args = arg_dict[self.list_name]
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# If the cache takes a single arg then that is used as the key,
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# otherwise a tuple is used.
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if num_args == 1:
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def arg_to_cache_key(arg: Hashable) -> Hashable:
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return arg
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def cache_key_to_arg(key: tuple) -> Hashable:
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return key
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else:
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keylist = list(keyargs)
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def arg_to_cache_key(arg: Hashable) -> Hashable:
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keylist[self.list_pos] = arg
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return tuple(keylist)
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def cache_key_to_arg(key: tuple) -> Hashable:
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return key[self.list_pos]
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cache_keys = [arg_to_cache_key(arg) for arg in list_args]
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immediate_results, pending_deferred, missing = cache.get_bulk(
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cache_keys, callback=invalidate_callback
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)
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results = {cache_key_to_arg(key): v for key, v in immediate_results.items()}
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cached_defers: List["defer.Deferred[Any]"] = []
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if pending_deferred:
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def update_results(r: Dict) -> None:
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for k, v in r.items():
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results[cache_key_to_arg(k)] = v
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pending_deferred.addCallback(update_results)
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cached_defers.append(pending_deferred)
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if missing:
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cache_entry = cache.start_bulk_input(missing, invalidate_callback)
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def complete_all(res: Dict[Hashable, Any]) -> None:
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missing_results = {}
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for key in missing:
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arg = cache_key_to_arg(key)
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val = res.get(arg, None)
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results[arg] = val
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missing_results[key] = val
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cache_entry.complete_bulk(cache, missing_results)
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def errback_all(f: Failure) -> None:
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cache_entry.error_bulk(cache, missing, f)
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args_to_call = dict(arg_dict)
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args_to_call[self.list_name] = {
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cache_key_to_arg(key) for key in missing
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}
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# dispatch the call, and attach the two handlers
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missing_d = defer.maybeDeferred(
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preserve_fn(self.orig), **args_to_call
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).addCallbacks(complete_all, errback_all)
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cached_defers.append(missing_d)
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if cached_defers:
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d = defer.gatherResults(cached_defers, consumeErrors=True).addCallbacks(
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lambda _: results, unwrapFirstError
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)
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if missing:
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# We started a new call to `self.orig`, so we must always wait for it to
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# complete. Otherwise we might mark our current logging context as
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# finished while `self.orig` is still using it in the background.
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d = delay_cancellation(d)
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return make_deferred_yieldable(d)
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else:
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return defer.succeed(results)
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obj.__dict__[self.name] = wrapped
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return wrapped
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class _CacheContext:
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"""Holds cache information from the cached function higher in the calling order.
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Can be used to invalidate the higher level cache entry if something changes
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on a lower level.
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"""
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Cache = Union[DeferredCache, LruCache]
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_cache_context_objects: """WeakValueDictionary[
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Tuple["_CacheContext.Cache", CacheKey], "_CacheContext"
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]""" = WeakValueDictionary()
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def __init__(self, cache: "_CacheContext.Cache", cache_key: CacheKey) -> None:
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self._cache = cache
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self._cache_key = cache_key
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def invalidate(self) -> None:
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"""Invalidates the cache entry referred to by the context."""
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self._cache.invalidate(self._cache_key)
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@classmethod
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def get_instance(
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cls, cache: "_CacheContext.Cache", cache_key: CacheKey
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) -> "_CacheContext":
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"""Returns an instance constructed with the given arguments.
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A new instance is only created if none already exists.
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"""
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# We make sure there are no identical _CacheContext instances. This is
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# important in particular to dedupe when we add callbacks to lru cache
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# nodes, otherwise the number of callbacks would grow.
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return cls._cache_context_objects.setdefault(
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(cache, cache_key), cls(cache, cache_key)
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)
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def cached(
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*,
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max_entries: int = 1000,
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num_args: Optional[int] = None,
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uncached_args: Optional[Collection[str]] = None,
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tree: bool = False,
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cache_context: bool = False,
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iterable: bool = False,
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prune_unread_entries: bool = True,
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name: Optional[str] = None,
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) -> Callable[[F], CachedFunction[F]]:
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func = lambda orig: DeferredCacheDescriptor(
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orig,
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max_entries=max_entries,
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num_args=num_args,
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uncached_args=uncached_args,
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tree=tree,
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cache_context=cache_context,
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iterable=iterable,
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prune_unread_entries=prune_unread_entries,
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name=name,
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)
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return cast(Callable[[F], CachedFunction[F]], func)
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|
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def cachedList(
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*,
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cached_method_name: str,
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list_name: str,
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num_args: Optional[int] = None,
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name: Optional[str] = None,
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) -> Callable[[F], CachedFunction[F]]:
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"""Creates a descriptor that wraps a function in a `DeferredCacheListDescriptor`.
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Used to do batch lookups for an already created cache. One of the arguments
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is specified as a list that is iterated through to lookup keys in the
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original cache. A new tuple consisting of the (deduplicated) keys that weren't in
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the cache gets passed to the original function, which is expected to results
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in a map of key to value for each passed value. The new results are stored in the
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original cache. Note that any missing values are cached as None.
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Args:
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cached_method_name: The name of the single-item lookup method.
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This is only used to find the cache to use.
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list_name: The name of the argument that is the iterable to use to
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do batch lookups in the cache.
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num_args: Number of arguments to use as the key in the cache
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(including list_name). Defaults to all named parameters.
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Example:
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class Example:
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@cached()
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def do_something(self, first_arg, second_arg):
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...
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@cachedList(cached_method_name="do_something", list_name="second_args")
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def batch_do_something(self, first_arg, second_args):
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...
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"""
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func = lambda orig: DeferredCacheListDescriptor(
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orig,
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cached_method_name=cached_method_name,
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list_name=list_name,
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num_args=num_args,
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name=name,
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)
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return cast(Callable[[F], CachedFunction[F]], func)
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def _get_cache_key_builder(
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param_names: Sequence[str],
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include_params: Sequence[bool],
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param_defaults: Mapping[str, Any],
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) -> Callable[[Sequence[Any], Mapping[str, Any]], CacheKey]:
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"""Construct a function which will build cache keys suitable for a cached function
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|
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|
Args:
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param_names: list of formal parameter names for the cached function
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include_params: list of bools of whether to include the parameter name in the cache key
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param_defaults: a mapping from parameter name to default value for that param
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|
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Returns:
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A function which will take an (args, kwargs) pair and return a cache key
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"""
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|
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# By default our cache key is a tuple, but if there is only one item
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# then don't bother wrapping in a tuple. This is to save memory.
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|
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if len(param_names) == 1:
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nm = param_names[0]
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assert include_params[0] is True
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|
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def get_cache_key(args: Sequence[Any], kwargs: Mapping[str, Any]) -> CacheKey:
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if nm in kwargs:
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return kwargs[nm]
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elif len(args):
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return args[0]
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else:
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return param_defaults[nm]
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|
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else:
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|
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def get_cache_key(args: Sequence[Any], kwargs: Mapping[str, Any]) -> CacheKey:
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|
return tuple(
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|
_get_cache_key_gen(
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|
param_names, include_params, param_defaults, args, kwargs
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|
)
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|
)
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|
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|
return get_cache_key
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|
|
|
|
|
def _get_cache_key_gen(
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|
param_names: Iterable[str],
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|
include_params: Iterable[bool],
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|
param_defaults: Mapping[str, Any],
|
|
args: Sequence[Any],
|
|
kwargs: Mapping[str, Any],
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|
) -> Iterable[Any]:
|
|
"""Given some args/kwargs return a generator that resolves into
|
|
the cache_key.
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|
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|
This is essentially the same operation as `inspect.getcallargs`, but optimised so
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|
that we don't need to inspect the target function for each call.
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|
"""
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|
# We loop through each arg name, looking up if its in the `kwargs`,
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|
# otherwise using the next argument in `args`. If there are no more
|
|
# args then we try looking the arg name up in the defaults.
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|
pos = 0
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|
for nm, inc in zip(param_names, include_params):
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|
if nm in kwargs:
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|
if inc:
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|
yield kwargs[nm]
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|
elif pos < len(args):
|
|
if inc:
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|
yield args[pos]
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|
pos += 1
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|
else:
|
|
if inc:
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|
yield param_defaults[nm]
|