from collections import deque from functools import wraps from typing import Any, Callable, Deque, Dict, Generic, Hashable, Tuple, TypeVar, cast __all__ = [ "SimpleCache", "FastDictCache", "memoized", ] _T = TypeVar("_T", bound=Hashable) _U = TypeVar("_U") class SimpleCache(Generic[_T, _U]): """ Very simple cache that discards the oldest item when the cache size is exceeded. :param maxsize: Maximum size of the cache. (Don't make it too big.) """ def __init__(self, maxsize: int = 8) -> None: assert maxsize > 0 self._data: Dict[_T, _U] = {} self._keys: Deque[_T] = deque() self.maxsize: int = maxsize def get(self, key: _T, getter_func: Callable[[], _U]) -> _U: """ Get object from the cache. If not found, call `getter_func` to resolve it, and put that on the top of the cache instead. """ # Look in cache first. try: return self._data[key] except KeyError: # Not found? Get it. value = getter_func() self._data[key] = value self._keys.append(key) # Remove the oldest key when the size is exceeded. if len(self._data) > self.maxsize: key_to_remove = self._keys.popleft() if key_to_remove in self._data: del self._data[key_to_remove] return value def clear(self) -> None: " Clear cache. " self._data = {} self._keys = deque() _K = TypeVar("_K", bound=Tuple) _V = TypeVar("_V") class FastDictCache(Dict[_K, _V]): """ Fast, lightweight cache which keeps at most `size` items. It will discard the oldest items in the cache first. The cache is a dictionary, which doesn't keep track of access counts. It is perfect to cache little immutable objects which are not expensive to create, but where a dictionary lookup is still much faster than an object instantiation. :param get_value: Callable that's called in case of a missing key. """ # NOTE: This cache is used to cache `prompt_toolkit.layout.screen.Char` and # `prompt_toolkit.Document`. Make sure to keep this really lightweight. # Accessing the cache should stay faster than instantiating new # objects. # (Dictionary lookups are really fast.) # SimpleCache is still required for cases where the cache key is not # the same as the arguments given to the function that creates the # value.) def __init__(self, get_value: Callable[..., _V], size: int = 1000000) -> None: assert size > 0 self._keys: Deque[_K] = deque() self.get_value = get_value self.size = size def __missing__(self, key: _K) -> _V: # Remove the oldest key when the size is exceeded. if len(self) > self.size: key_to_remove = self._keys.popleft() if key_to_remove in self: del self[key_to_remove] result = self.get_value(*key) self[key] = result self._keys.append(key) return result _F = TypeVar("_F", bound=Callable) def memoized(maxsize: int = 1024) -> Callable[[_F], _F]: """ Memoization decorator for immutable classes and pure functions. """ def decorator(obj: _F) -> _F: cache: SimpleCache[Hashable, Any] = SimpleCache(maxsize=maxsize) @wraps(obj) def new_callable(*a: Any, **kw: Any) -> Any: def create_new() -> Any: return obj(*a, **kw) key = (a, tuple(sorted(kw.items()))) return cache.get(key, create_new) return cast(_F, new_callable) return decorator