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244 lines
8.9 KiB
244 lines
8.9 KiB
from __future__ import absolute_import
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import functools
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from collections import namedtuple
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from threading import RLock
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_CacheInfo = namedtuple("_CacheInfo", ["hits", "misses", "maxsize", "currsize"])
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@functools.wraps(functools.update_wrapper)
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def update_wrapper(
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wrapper,
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wrapped,
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assigned=functools.WRAPPER_ASSIGNMENTS,
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updated=functools.WRAPPER_UPDATES,
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):
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"""
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Patch two bugs in functools.update_wrapper.
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"""
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# workaround for http://bugs.python.org/issue3445
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assigned = tuple(attr for attr in assigned if hasattr(wrapped, attr))
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wrapper = functools.update_wrapper(wrapper, wrapped, assigned, updated)
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# workaround for https://bugs.python.org/issue17482
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wrapper.__wrapped__ = wrapped
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return wrapper
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class _HashedSeq(list):
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"""This class guarantees that hash() will be called no more than once
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per element. This is important because the lru_cache() will hash
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the key multiple times on a cache miss.
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"""
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__slots__ = 'hashvalue'
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def __init__(self, tup, hash=hash):
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self[:] = tup
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self.hashvalue = hash(tup)
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def __hash__(self):
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return self.hashvalue
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def _make_key(
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args,
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kwds,
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typed,
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kwd_mark=(object(),),
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fasttypes={int, str},
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tuple=tuple,
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type=type,
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len=len,
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):
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"""Make a cache key from optionally typed positional and keyword arguments
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The key is constructed in a way that is flat as possible rather than
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as a nested structure that would take more memory.
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If there is only a single argument and its data type is known to cache
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its hash value, then that argument is returned without a wrapper. This
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saves space and improves lookup speed.
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"""
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# All of code below relies on kwds preserving the order input by the user.
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# Formerly, we sorted() the kwds before looping. The new way is *much*
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# faster; however, it means that f(x=1, y=2) will now be treated as a
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# distinct call from f(y=2, x=1) which will be cached separately.
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key = args
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if kwds:
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key += kwd_mark
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for item in kwds.items():
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key += item
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if typed:
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key += tuple(type(v) for v in args)
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if kwds:
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key += tuple(type(v) for v in kwds.values())
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elif len(key) == 1 and type(key[0]) in fasttypes:
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return key[0]
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return _HashedSeq(key)
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def lru_cache(maxsize=128, typed=False):
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"""Least-recently-used cache decorator.
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If *maxsize* is set to None, the LRU features are disabled and the cache
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can grow without bound.
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If *typed* is True, arguments of different types will be cached separately.
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For example, f(decimal.Decimal("3.0")) and f(3.0) will be treated as
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distinct calls with distinct results. Some types such as str and int may
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be cached separately even when typed is false.
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Arguments to the cached function must be hashable.
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View the cache statistics named tuple (hits, misses, maxsize, currsize)
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with f.cache_info(). Clear the cache and statistics with f.cache_clear().
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Access the underlying function with f.__wrapped__.
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See: https://en.wikipedia.org/wiki/Cache_replacement_policies#Least_recently_used_(LRU)
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"""
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# Users should only access the lru_cache through its public API:
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# cache_info, cache_clear, and f.__wrapped__
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# The internals of the lru_cache are encapsulated for thread safety and
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# to allow the implementation to change (including a possible C version).
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if isinstance(maxsize, int):
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# Negative maxsize is treated as 0
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if maxsize < 0:
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maxsize = 0
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elif callable(maxsize) and isinstance(typed, bool):
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# The user_function was passed in directly via the maxsize argument
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user_function, maxsize = maxsize, 128
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wrapper = _lru_cache_wrapper(user_function, maxsize, typed, _CacheInfo)
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wrapper.cache_parameters = lambda: {'maxsize': maxsize, 'typed': typed}
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return update_wrapper(wrapper, user_function)
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elif maxsize is not None:
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raise TypeError('Expected first argument to be an integer, a callable, or None')
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def decorating_function(user_function):
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wrapper = _lru_cache_wrapper(user_function, maxsize, typed, _CacheInfo)
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wrapper.cache_parameters = lambda: {'maxsize': maxsize, 'typed': typed}
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return update_wrapper(wrapper, user_function)
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return decorating_function
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def _lru_cache_wrapper(user_function, maxsize, typed, _CacheInfo):
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# Constants shared by all lru cache instances:
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sentinel = object() # unique object used to signal cache misses
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make_key = _make_key # build a key from the function arguments
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PREV, NEXT, KEY, RESULT = 0, 1, 2, 3 # names for the link fields
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cache = {}
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hits = misses = 0
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full = False
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cache_get = cache.get # bound method to lookup a key or return None
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cache_len = cache.__len__ # get cache size without calling len()
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lock = RLock() # because linkedlist updates aren't threadsafe
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root = [] # root of the circular doubly linked list
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root[:] = [root, root, None, None] # initialize by pointing to self
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if maxsize == 0:
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def wrapper(*args, **kwds):
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# No caching -- just a statistics update
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nonlocal misses
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misses += 1
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result = user_function(*args, **kwds)
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return result
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elif maxsize is None:
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def wrapper(*args, **kwds):
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# Simple caching without ordering or size limit
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nonlocal hits, misses
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key = make_key(args, kwds, typed)
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result = cache_get(key, sentinel)
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if result is not sentinel:
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hits += 1
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return result
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misses += 1
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result = user_function(*args, **kwds)
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cache[key] = result
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return result
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else:
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def wrapper(*args, **kwds):
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# Size limited caching that tracks accesses by recency
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nonlocal root, hits, misses, full
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key = make_key(args, kwds, typed)
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with lock:
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link = cache_get(key)
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if link is not None:
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# Move the link to the front of the circular queue
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link_prev, link_next, _key, result = link
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link_prev[NEXT] = link_next
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link_next[PREV] = link_prev
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last = root[PREV]
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last[NEXT] = root[PREV] = link
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link[PREV] = last
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link[NEXT] = root
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hits += 1
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return result
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misses += 1
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result = user_function(*args, **kwds)
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with lock:
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if key in cache:
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# Getting here means that this same key was added to the
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# cache while the lock was released. Since the link
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# update is already done, we need only return the
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# computed result and update the count of misses.
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pass
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elif full:
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# Use the old root to store the new key and result.
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oldroot = root
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oldroot[KEY] = key
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oldroot[RESULT] = result
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# Empty the oldest link and make it the new root.
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# Keep a reference to the old key and old result to
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# prevent their ref counts from going to zero during the
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# update. That will prevent potentially arbitrary object
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# clean-up code (i.e. __del__) from running while we're
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# still adjusting the links.
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root = oldroot[NEXT]
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oldkey = root[KEY]
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root[KEY] = root[RESULT] = None
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# Now update the cache dictionary.
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del cache[oldkey]
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# Save the potentially reentrant cache[key] assignment
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# for last, after the root and links have been put in
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# a consistent state.
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cache[key] = oldroot
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else:
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# Put result in a new link at the front of the queue.
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last = root[PREV]
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link = [last, root, key, result]
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last[NEXT] = root[PREV] = cache[key] = link
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# Use the cache_len bound method instead of the len() function
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# which could potentially be wrapped in an lru_cache itself.
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full = cache_len() >= maxsize
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return result
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def cache_info():
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"""Report cache statistics"""
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with lock:
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return _CacheInfo(hits, misses, maxsize, cache_len())
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def cache_clear():
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"""Clear the cache and cache statistics"""
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nonlocal hits, misses, full
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with lock:
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cache.clear()
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root[:] = [root, root, None, None]
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hits = misses = 0
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full = False
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wrapper.cache_info = cache_info
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wrapper.cache_clear = cache_clear
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return wrapper
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