MatrixSynapse/synapse/util/linked_list.py

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# Copyright 2021 The Matrix.org Foundation C.I.C.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""A circular doubly linked list implementation.
"""
import threading
from typing import Generic, Optional, Type, TypeVar
P = TypeVar("P")
LN = TypeVar("LN", bound="ListNode")
class ListNode(Generic[P]):
"""A node in a circular doubly linked list, with an (optional) reference to
a cache entry.
The reference should only be `None` for the root node or if the node has
been removed from the list.
"""
# A lock to protect mutating the list prev/next pointers.
_LOCK = threading.Lock()
# We don't use attrs here as in py3.6 you can't have `attr.s(slots=True)`
# and inherit from `Generic` for some reason
__slots__ = [
"cache_entry",
"prev_node",
"next_node",
]
def __init__(self, cache_entry: Optional[P] = None) -> None:
self.cache_entry = cache_entry
self.prev_node: Optional[ListNode[P]] = None
self.next_node: Optional[ListNode[P]] = None
@classmethod
def create_root_node(cls: Type["ListNode[P]"]) -> "ListNode[P]":
"""Create a new linked list by creating a "root" node, which is a node
that has prev_node/next_node pointing to itself and no associated cache
entry.
"""
root = cls()
root.prev_node = root
root.next_node = root
return root
@classmethod
def insert_after(
cls: Type[LN],
cache_entry: P,
node: "ListNode[P]",
) -> LN:
"""Create a new list node that is placed after the given node.
Args:
cache_entry: The associated cache entry.
node: The existing node in the list to insert the new entry after.
"""
new_node = cls(cache_entry)
with cls._LOCK:
new_node._refs_insert_after(node)
return new_node
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def remove_from_list(self) -> None:
"""Remove this node from the list."""
with self._LOCK:
self._refs_remove_node_from_list()
# We drop the reference to the cache entry to break the reference cycle
# between the list node and cache entry, allowing the two to be dropped
# immediately rather than at the next GC.
self.cache_entry = None
def move_after(self, node: "ListNode[P]") -> None:
"""Move this node from its current location in the list to after the
given node.
"""
with self._LOCK:
# We assert that both this node and the target node is still "alive".
assert self.prev_node
assert self.next_node
assert node.prev_node
assert node.next_node
assert self is not node
# Remove self from the list
self._refs_remove_node_from_list()
# Insert self back into the list, after target node
self._refs_insert_after(node)
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def _refs_remove_node_from_list(self) -> None:
"""Internal method to *just* remove the node from the list, without
e.g. clearing out the cache entry.
"""
if self.prev_node is None or self.next_node is None:
# We've already been removed from the list.
return
prev_node = self.prev_node
next_node = self.next_node
prev_node.next_node = next_node
next_node.prev_node = prev_node
# We set these to None so that we don't get circular references,
# allowing us to be dropped without having to go via the GC.
self.prev_node = None
self.next_node = None
def _refs_insert_after(self, node: "ListNode[P]") -> None:
"""Internal method to insert the node after the given node."""
# This method should only be called when we're not already in the list.
assert self.prev_node is None
assert self.next_node is None
# We expect the given node to be in the list and thus have valid
# prev/next refs.
assert node.next_node
assert node.prev_node
prev_node = node
next_node = node.next_node
self.prev_node = prev_node
self.next_node = next_node
prev_node.next_node = self
next_node.prev_node = self
def get_cache_entry(self) -> Optional[P]:
"""Get the cache entry, returns None if this is the root node (i.e.
cache_entry is None) or if the entry has been dropped.
"""
return self.cache_entry