diff options
author | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
---|---|---|
committer | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
commit | 5f8de423f190bbb79a62f804151bc24824fa32d8 (patch) | |
tree | 10027f336435511475e392454359edea8e25895d /python/pylru/pylru.py | |
parent | 49ee0794b5d912db1f95dce6eb52d781dc210db5 (diff) | |
download | UXP-5f8de423f190bbb79a62f804151bc24824fa32d8.tar UXP-5f8de423f190bbb79a62f804151bc24824fa32d8.tar.gz UXP-5f8de423f190bbb79a62f804151bc24824fa32d8.tar.lz UXP-5f8de423f190bbb79a62f804151bc24824fa32d8.tar.xz UXP-5f8de423f190bbb79a62f804151bc24824fa32d8.zip |
Add m-esr52 at 52.6.0
Diffstat (limited to 'python/pylru/pylru.py')
-rw-r--r-- | python/pylru/pylru.py | 556 |
1 files changed, 556 insertions, 0 deletions
diff --git a/python/pylru/pylru.py b/python/pylru/pylru.py new file mode 100644 index 000000000..e69cadb76 --- /dev/null +++ b/python/pylru/pylru.py @@ -0,0 +1,556 @@ + +# Cache implementaion with a Least Recently Used (LRU) replacement policy and +# a basic dictionary interface. + +# Copyright (C) 2006, 2009, 2010, 2011 Jay Hutchinson + +# This program is free software; you can redistribute it and/or modify it +# under the terms of the GNU General Public License as published by the Free +# Software Foundation; either version 2 of the License, or (at your option) +# any later version. + +# This program is distributed in the hope that it will be useful, but WITHOUT +# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or +# FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for +# more details. + +# You should have received a copy of the GNU General Public License along +# with this program; if not, write to the Free Software Foundation, Inc., 51 +# Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. + + + +# The cache is implemented using a combination of a python dictionary (hash +# table) and a circular doubly linked list. Items in the cache are stored in +# nodes. These nodes make up the linked list. The list is used to efficiently +# maintain the order that the items have been used in. The front or head of +# the list contains the most recently used item, the tail of the list +# contains the least recently used item. When an item is used it can easily +# (in a constant amount of time) be moved to the front of the list, thus +# updating its position in the ordering. These nodes are also placed in the +# hash table under their associated key. The hash table allows efficient +# lookup of values by key. + +# Class for the node objects. +class _dlnode(object): + def __init__(self): + self.empty = True + + +class lrucache(object): + + def __init__(self, size, callback=None): + + self.callback = callback + + # Create an empty hash table. + self.table = {} + + # Initialize the doubly linked list with one empty node. This is an + # invariant. The cache size must always be greater than zero. Each + # node has a 'prev' and 'next' variable to hold the node that comes + # before it and after it respectively. Initially the two variables + # each point to the head node itself, creating a circular doubly + # linked list of size one. Then the size() method is used to adjust + # the list to the desired size. + + self.head = _dlnode() + self.head.next = self.head + self.head.prev = self.head + + self.listSize = 1 + + # Adjust the size + self.size(size) + + + def __len__(self): + return len(self.table) + + def clear(self): + for node in self.dli(): + node.empty = True + node.key = None + node.value = None + + self.table.clear() + + + def __contains__(self, key): + return key in self.table + + # Looks up a value in the cache without affecting cache order. + def peek(self, key): + # Look up the node + node = self.table[key] + return node.value + + + def __getitem__(self, key): + # Look up the node + node = self.table[key] + + # Update the list ordering. Move this node so that is directly + # proceeds the head node. Then set the 'head' variable to it. This + # makes it the new head of the list. + self.mtf(node) + self.head = node + + # Return the value. + return node.value + + def get(self, key, default=None): + """Get an item - return default (None) if not present""" + try: + return self[key] + except KeyError: + return default + + def __setitem__(self, key, value): + # First, see if any value is stored under 'key' in the cache already. + # If so we are going to replace that value with the new one. + if key in self.table: + + # Lookup the node + node = self.table[key] + + # Replace the value. + node.value = value + + # Update the list ordering. + self.mtf(node) + self.head = node + + return + + # Ok, no value is currently stored under 'key' in the cache. We need + # to choose a node to place the new item in. There are two cases. If + # the cache is full some item will have to be pushed out of the + # cache. We want to choose the node with the least recently used + # item. This is the node at the tail of the list. If the cache is not + # full we want to choose a node that is empty. Because of the way the + # list is managed, the empty nodes are always together at the tail + # end of the list. Thus, in either case, by chooseing the node at the + # tail of the list our conditions are satisfied. + + # Since the list is circular, the tail node directly preceeds the + # 'head' node. + node = self.head.prev + + # If the node already contains something we need to remove the old + # key from the dictionary. + if not node.empty: + if self.callback is not None: + self.callback(node.key, node.value) + del self.table[node.key] + + # Place the new key and value in the node + node.empty = False + node.key = key + node.value = value + + # Add the node to the dictionary under the new key. + self.table[key] = node + + # We need to move the node to the head of the list. The node is the + # tail node, so it directly preceeds the head node due to the list + # being circular. Therefore, the ordering is already correct, we just + # need to adjust the 'head' variable. + self.head = node + + + def __delitem__(self, key): + + # Lookup the node, then remove it from the hash table. + node = self.table[key] + del self.table[key] + + node.empty = True + + # Not strictly necessary. + node.key = None + node.value = None + + # Because this node is now empty we want to reuse it before any + # non-empty node. To do that we want to move it to the tail of the + # list. We move it so that it directly preceeds the 'head' node. This + # makes it the tail node. The 'head' is then adjusted. This + # adjustment ensures correctness even for the case where the 'node' + # is the 'head' node. + self.mtf(node) + self.head = node.next + + def __iter__(self): + + # Return an iterator that returns the keys in the cache in order from + # the most recently to least recently used. Does not modify the cache + # order. + for node in self.dli(): + yield node.key + + def items(self): + + # Return an iterator that returns the (key, value) pairs in the cache + # in order from the most recently to least recently used. Does not + # modify the cache order. + for node in self.dli(): + yield (node.key, node.value) + + def keys(self): + + # Return an iterator that returns the keys in the cache in order from + # the most recently to least recently used. Does not modify the cache + # order. + for node in self.dli(): + yield node.key + + def values(self): + + # Return an iterator that returns the values in the cache in order + # from the most recently to least recently used. Does not modify the + # cache order. + for node in self.dli(): + yield node.value + + def size(self, size=None): + + if size is not None: + assert size > 0 + if size > self.listSize: + self.addTailNode(size - self.listSize) + elif size < self.listSize: + self.removeTailNode(self.listSize - size) + + return self.listSize + + # Increases the size of the cache by inserting n empty nodes at the tail + # of the list. + def addTailNode(self, n): + for i in range(n): + node = _dlnode() + node.next = self.head + node.prev = self.head.prev + + self.head.prev.next = node + self.head.prev = node + + self.listSize += n + + # Decreases the size of the list by removing n nodes from the tail of the + # list. + def removeTailNode(self, n): + assert self.listSize > n + for i in range(n): + node = self.head.prev + if not node.empty: + if self.callback is not None: + self.callback(node.key, node.value) + del self.table[node.key] + + # Splice the tail node out of the list + self.head.prev = node.prev + node.prev.next = self.head + + # The next four lines are not strictly necessary. + node.prev = None + node.next = None + + node.key = None + node.value = None + + self.listSize -= n + + + # This method adjusts the ordering of the doubly linked list so that + # 'node' directly precedes the 'head' node. Because of the order of + # operations, if 'node' already directly precedes the 'head' node or if + # 'node' is the 'head' node the order of the list will be unchanged. + def mtf(self, node): + node.prev.next = node.next + node.next.prev = node.prev + + node.prev = self.head.prev + node.next = self.head.prev.next + + node.next.prev = node + node.prev.next = node + + # This method returns an iterator that iterates over the non-empty nodes + # in the doubly linked list in order from the most recently to the least + # recently used. + def dli(self): + node = self.head + for i in range(len(self.table)): + yield node + node = node.next + + + + +class WriteThroughCacheManager(object): + def __init__(self, store, size): + self.store = store + self.cache = lrucache(size) + + def __len__(self): + return len(self.store) + + # Returns/sets the size of the managed cache. + def size(self, size=None): + return self.cache.size(size) + + def clear(self): + self.cache.clear() + self.store.clear() + + def __contains__(self, key): + # Check the cache first. If it is there we can return quickly. + if key in self.cache: + return True + + # Not in the cache. Might be in the underlying store. + if key in self.store: + return True + + return False + + def __getitem__(self, key): + # First we try the cache. If successful we just return the value. If + # not we catch KeyError and ignore it since that just means the key + # was not in the cache. + try: + return self.cache[key] + except KeyError: + pass + + # It wasn't in the cache. Look it up in the store, add the entry to + # the cache, and return the value. + value = self.store[key] + self.cache[key] = value + return value + + def get(self, key, default=None): + """Get an item - return default (None) if not present""" + try: + return self[key] + except KeyError: + return default + + def __setitem__(self, key, value): + # Add the key/value pair to the cache and store. + self.cache[key] = value + self.store[key] = value + + def __delitem__(self, key): + # Write-through behavior cache and store should be consistent. Delete + # it from the store. + del self.store[key] + try: + # Ok, delete from the store was successful. It might also be in + # the cache, try and delete it. If not we catch the KeyError and + # ignore it. + del self.cache[key] + except KeyError: + pass + + def __iter__(self): + return self.keys() + + def keys(self): + return self.store.keys() + + def values(self): + return self.store.values() + + def items(self): + return self.store.items() + + + +class WriteBackCacheManager(object): + def __init__(self, store, size): + self.store = store + + # Create a set to hold the dirty keys. + self.dirty = set() + + # Define a callback function to be called by the cache when a + # key/value pair is about to be ejected. This callback will check to + # see if the key is in the dirty set. If so, then it will update the + # store object and remove the key from the dirty set. + def callback(key, value): + if key in self.dirty: + self.store[key] = value + self.dirty.remove(key) + + # Create a cache and give it the callback function. + self.cache = lrucache(size, callback) + + # Returns/sets the size of the managed cache. + def size(self, size=None): + return self.cache.size(size) + + def clear(self): + self.cache.clear() + self.dirty.clear() + self.store.clear() + + def __contains__(self, key): + # Check the cache first, since if it is there we can return quickly. + if key in self.cache: + return True + + # Not in the cache. Might be in the underlying store. + if key in self.store: + return True + + return False + + def __getitem__(self, key): + # First we try the cache. If successful we just return the value. If + # not we catch KeyError and ignore it since that just means the key + # was not in the cache. + try: + return self.cache[key] + except KeyError: + pass + + # It wasn't in the cache. Look it up in the store, add the entry to + # the cache, and return the value. + value = self.store[key] + self.cache[key] = value + return value + + def get(self, key, default=None): + """Get an item - return default (None) if not present""" + try: + return self[key] + except KeyError: + return default + + def __setitem__(self, key, value): + # Add the key/value pair to the cache. + self.cache[key] = value + self.dirty.add(key) + + def __delitem__(self, key): + + found = False + try: + del self.cache[key] + found = True + self.dirty.remove(key) + except KeyError: + pass + + try: + del self.store[key] + found = True + except KeyError: + pass + + if not found: # If not found in cache or store, raise error. + raise KeyError + + + def __iter__(self): + return self.keys() + + def keys(self): + for key in self.store.keys(): + if key not in self.dirty: + yield key + + for key in self.dirty: + yield key + + + def values(self): + for key, value in self.items(): + yield value + + + def items(self): + for key, value in self.store.items(): + if key not in self.dirty: + yield (key, value) + + for key in self.dirty: + value = self.cache.peek(key) + yield (key, value) + + + + def sync(self): + # For each dirty key, peek at its value in the cache and update the + # store. Doesn't change the cache's order. + for key in self.dirty: + self.store[key] = self.cache.peek(key) + # There are no dirty keys now. + self.dirty.clear() + + def flush(self): + self.sync() + self.cache.clear() + + def __enter__(self): + return self + + def __exit__(self, exc_type, exc_val, exc_tb): + self.sync() + return False + + +class FunctionCacheManager(object): + def __init__(self, func, size): + self.func = func + self.cache = lrucache(size) + + def size(self, size=None): + return self.cache.size(size) + + def clear(self): + self.cache.clear() + + def __call__(self, *args, **kwargs): + kwtuple = tuple((key, kwargs[key]) for key in sorted(kwargs.keys())) + key = (args, kwtuple) + try: + return self.cache[key] + except KeyError: + pass + + value = self.func(*args, **kwargs) + self.cache[key] = value + return value + + +def lruwrap(store, size, writeback=False): + if writeback: + return WriteBackCacheManager(store, size) + else: + return WriteThroughCacheManager(store, size) + +import functools + +class lrudecorator(object): + def __init__(self, size): + self.cache = lrucache(size) + + def __call__(self, func): + def wrapper(*args, **kwargs): + kwtuple = tuple((key, kwargs[key]) for key in sorted(kwargs.keys())) + key = (args, kwtuple) + try: + return self.cache[key] + except KeyError: + pass + + value = func(*args, **kwargs) + self.cache[key] = value + return value + + wrapper.cache = self.cache + wrapper.size = self.cache.size + wrapper.clear = self.cache.clear + return functools.update_wrapper(wrapper, func) |