This type has always been internal-only, but moving it to a module named `Internal` will make this clearer. PiperOrigin-RevId: 606649281pull/15812/head
parent
3ab1276bbb
commit
f824f6d0d7
6 changed files with 117 additions and 115 deletions
@ -0,0 +1,99 @@ |
|||||||
|
# Protocol Buffers - Google's data interchange format |
||||||
|
# Copyright 2023 Google Inc. All rights reserved. |
||||||
|
# |
||||||
|
# Use of this source code is governed by a BSD-style |
||||||
|
# license that can be found in the LICENSE file or at |
||||||
|
# https://developers.google.com/open-source/licenses/bsd |
||||||
|
|
||||||
|
module Google |
||||||
|
module Protobuf |
||||||
|
module Internal |
||||||
|
# A pointer -> Ruby Object cache that keeps references to Ruby wrapper |
||||||
|
# objects. This allows us to look up any Ruby wrapper object by the address |
||||||
|
# of the object it is wrapping. That way we can avoid ever creating two |
||||||
|
# different wrapper objects for the same C object, which saves memory and |
||||||
|
# preserves object identity. |
||||||
|
# |
||||||
|
# We use WeakMap for the cache. If sizeof(long) > sizeof(VALUE), we also |
||||||
|
# need a secondary Hash to store WeakMap keys, because our pointer keys may |
||||||
|
# need to be stored as Bignum instead of Fixnum. Since WeakMap is weak for |
||||||
|
# both keys and values, a Bignum key will cause the WeakMap entry to be |
||||||
|
# collected immediately unless there is another reference to the Bignum. |
||||||
|
# This happens on 64-bit Windows, on which pointers are 64 bits but longs |
||||||
|
# are 32 bits. In this case, we enable the secondary Hash to hold the keys |
||||||
|
# and prevent them from being collected. |
||||||
|
class ObjectCache |
||||||
|
def initialize |
||||||
|
@map = ObjectSpace::WeakMap.new |
||||||
|
@mutex = Mutex.new |
||||||
|
end |
||||||
|
|
||||||
|
def get(key) |
||||||
|
@map[key] |
||||||
|
end |
||||||
|
|
||||||
|
def try_add(key, value) |
||||||
|
@map[key] || @mutex.synchronize do |
||||||
|
@map[key] ||= value |
||||||
|
end |
||||||
|
end |
||||||
|
end |
||||||
|
|
||||||
|
class LegacyObjectCache |
||||||
|
def initialize |
||||||
|
@secondary_map = {} |
||||||
|
@map = ObjectSpace::WeakMap.new |
||||||
|
@mutex = Mutex.new |
||||||
|
end |
||||||
|
|
||||||
|
def get(key) |
||||||
|
value = if secondary_key = @secondary_map[key] |
||||||
|
@map[secondary_key] |
||||||
|
else |
||||||
|
@mutex.synchronize do |
||||||
|
@map[(@secondary_map[key] ||= Object.new)] |
||||||
|
end |
||||||
|
end |
||||||
|
|
||||||
|
# GC if we could remove at least 2000 entries or 20% of the table size |
||||||
|
# (whichever is greater). Since the cost of the GC pass is O(N), we |
||||||
|
# want to make sure that we condition this on overall table size, to |
||||||
|
# avoid O(N^2) CPU costs. |
||||||
|
cutoff = (@secondary_map.size * 0.2).ceil |
||||||
|
cutoff = 2_000 if cutoff < 2_000 |
||||||
|
if (@secondary_map.size - @map.size) > cutoff |
||||||
|
purge |
||||||
|
end |
||||||
|
|
||||||
|
value |
||||||
|
end |
||||||
|
|
||||||
|
def try_add(key, value) |
||||||
|
if secondary_key = @secondary_map[key] |
||||||
|
if old_value = @map[secondary_key] |
||||||
|
return old_value |
||||||
|
end |
||||||
|
end |
||||||
|
|
||||||
|
@mutex.synchronize do |
||||||
|
secondary_key ||= (@secondary_map[key] ||= Object.new) |
||||||
|
@map[secondary_key] ||= value |
||||||
|
end |
||||||
|
end |
||||||
|
|
||||||
|
private |
||||||
|
|
||||||
|
def purge |
||||||
|
@mutex.synchronize do |
||||||
|
@secondary_map.each do |key, secondary_key| |
||||||
|
unless @map.key?(secondary_key) |
||||||
|
@secondary_map.delete(key) |
||||||
|
end |
||||||
|
end |
||||||
|
end |
||||||
|
nil |
||||||
|
end |
||||||
|
end |
||||||
|
end |
||||||
|
end |
||||||
|
end |
@ -1,97 +0,0 @@ |
|||||||
# Protocol Buffers - Google's data interchange format |
|
||||||
# Copyright 2023 Google Inc. All rights reserved. |
|
||||||
# |
|
||||||
# Use of this source code is governed by a BSD-style |
|
||||||
# license that can be found in the LICENSE file or at |
|
||||||
# https://developers.google.com/open-source/licenses/bsd |
|
||||||
|
|
||||||
module Google |
|
||||||
module Protobuf |
|
||||||
# A pointer -> Ruby Object cache that keeps references to Ruby wrapper |
|
||||||
# objects. This allows us to look up any Ruby wrapper object by the address |
|
||||||
# of the object it is wrapping. That way we can avoid ever creating two |
|
||||||
# different wrapper objects for the same C object, which saves memory and |
|
||||||
# preserves object identity. |
|
||||||
# |
|
||||||
# We use WeakMap for the cache. If sizeof(long) > sizeof(VALUE), we also |
|
||||||
# need a secondary Hash to store WeakMap keys, because our pointer keys may |
|
||||||
# need to be stored as Bignum instead of Fixnum. Since WeakMap is weak for |
|
||||||
# both keys and values, a Bignum key will cause the WeakMap entry to be |
|
||||||
# collected immediately unless there is another reference to the Bignum. |
|
||||||
# This happens on 64-bit Windows, on which pointers are 64 bits but longs |
|
||||||
# are 32 bits. In this case, we enable the secondary Hash to hold the keys |
|
||||||
# and prevent them from being collected. |
|
||||||
class ObjectCache |
|
||||||
def initialize |
|
||||||
@map = ObjectSpace::WeakMap.new |
|
||||||
@mutex = Mutex.new |
|
||||||
end |
|
||||||
|
|
||||||
def get(key) |
|
||||||
@map[key] |
|
||||||
end |
|
||||||
|
|
||||||
def try_add(key, value) |
|
||||||
@map[key] || @mutex.synchronize do |
|
||||||
@map[key] ||= value |
|
||||||
end |
|
||||||
end |
|
||||||
end |
|
||||||
|
|
||||||
class LegacyObjectCache |
|
||||||
def initialize |
|
||||||
@secondary_map = {} |
|
||||||
@map = ObjectSpace::WeakMap.new |
|
||||||
@mutex = Mutex.new |
|
||||||
end |
|
||||||
|
|
||||||
def get(key) |
|
||||||
value = if secondary_key = @secondary_map[key] |
|
||||||
@map[secondary_key] |
|
||||||
else |
|
||||||
@mutex.synchronize do |
|
||||||
@map[(@secondary_map[key] ||= Object.new)] |
|
||||||
end |
|
||||||
end |
|
||||||
|
|
||||||
# GC if we could remove at least 2000 entries or 20% of the table size |
|
||||||
# (whichever is greater). Since the cost of the GC pass is O(N), we |
|
||||||
# want to make sure that we condition this on overall table size, to |
|
||||||
# avoid O(N^2) CPU costs. |
|
||||||
cutoff = (@secondary_map.size * 0.2).ceil |
|
||||||
cutoff = 2_000 if cutoff < 2_000 |
|
||||||
if (@secondary_map.size - @map.size) > cutoff |
|
||||||
purge |
|
||||||
end |
|
||||||
|
|
||||||
value |
|
||||||
end |
|
||||||
|
|
||||||
def try_add(key, value) |
|
||||||
if secondary_key = @secondary_map[key] |
|
||||||
if old_value = @map[secondary_key] |
|
||||||
return old_value |
|
||||||
end |
|
||||||
end |
|
||||||
|
|
||||||
@mutex.synchronize do |
|
||||||
secondary_key ||= (@secondary_map[key] ||= Object.new) |
|
||||||
@map[secondary_key] ||= value |
|
||||||
end |
|
||||||
end |
|
||||||
|
|
||||||
private |
|
||||||
|
|
||||||
def purge |
|
||||||
@mutex.synchronize do |
|
||||||
@secondary_map.each do |key, secondary_key| |
|
||||||
unless @map.key?(secondary_key) |
|
||||||
@secondary_map.delete(key) |
|
||||||
end |
|
||||||
end |
|
||||||
end |
|
||||||
nil |
|
||||||
end |
|
||||||
end |
|
||||||
end |
|
||||||
end |
|
Loading…
Reference in new issue