pip install cache
import pylibmc from cache import Cache backend = pylibmc.Client(["127.0.0.1"]) cache = Cache(backend) @cache("mykey") def some_expensive_method(): sleep(10) return 42 # writes 42 to the cache some_expensive_method() # reads 42 from the cache some_expensive_method() # re-calculates and writes 42 to the cache some_expensive_method.refresh() # get the cached value or throw an error # (unless default= was passed to @cache(...)) some_expensive_method.cached()
Options can be passed to either the
Cache constructor or the decorator. Options passed to the decorator take precedence. Available options are:
enabled If `False`, the backend cache will not be used at all, and your functions will be run as-is, even when you call `.cached()`. This is useful for development, when the function may be changing rapidly. Default: True bust If `True`, the values in the backend cache will be ignored, and new data will be calculated and written over the old values. Default: False default If given, `.cached()` will return the given value instead of raising a KeyError.
The remaining options, if given, will be passed as keyword arguments to the backend's
set method. This is useful for things like expiration times - for example, using pylibmc:
@cache("some_key", time=1000) def expensive_method(): # ...
Cache provides two "fake" caches for local development without a backend cache:
LocalCache uses a dictionary in place of a backend cache, and
NullCache is a noop on
set and always returns
The difference between passing
enabled=False to the cache and using
NullCache comes in when you use the
.cached() method. If the cache is disabled,
.cached() will run the underlying function, but
NullCache will throw a
KeyError as if the key was not present.
If you're a Ruby user, check out the analogous Cacher library for Ruby