Decorator for a class method that caches return value after first access
First of all Test should be instantiated
test = Test()
Second, there is no need for inspect cause we can get the property name from func.__name__
And third, we return property(cache) to make python to do all the magic.
def cachedproperty(func):
" Used on methods to convert them to methods that replace themselves\
with their return value once they are called. "
def cache(*args):
self = args[0] # Reference to the class who owns the method
funcname = func.__name__
ret_value = func(self)
setattr(self, funcname, ret_value) # Replace the function with its value
return ret_value # Return the result of the function
return property(cache)
class Test:
@cachedproperty
def test(self):
print "Execute"
return "Return"
>>> test = Test()
>>> test.test
Execute
'Return'
>>> test.test
'Return'
>>>
"""
Django's version of this decorator does exactly what you describe and is simple, so besides my comment I'll just copy it here:
class cached_property(object):
"""
Decorator that converts a method with a single self argument into a
property cached on the instance.
Optional ``name`` argument allows you to make cached properties of other
methods. (e.g. url = cached_property(get_absolute_url, name='url') )
"""
def __init__(self, func, name=None):
self.func = func
self.__doc__ = getattr(func, '__doc__')
self.name = name or func.__name__
def __get__(self, instance, type=None):
if instance is None:
return self
res = instance.__dict__[self.name] = self.func(instance)
return res
(source).
As you can see, it uses func.name to determine the name of the function (no need to fiddle with inspect.stack) and it replaces the method with its result by mutating instance.__dict__. So subsequent "calls" are just an attribute lookup and there is no need for any caches, et cetera.
I think you're better off with a custom descriptor, since this is exactly the kind of thing descriptors are for. Like so:
class CachedProperty:
def __init__(self, name, get_the_value):
self.name = name
self.get_the_value = get_the_value
def __get__(self, obj, typ):
name = self.name
while True:
try:
return getattr(obj, name)
except AttributeError:
get_the_value = self.get_the_value
try:
# get_the_value can be a string which is the name of an obj method
value = getattr(obj, get_the_value)()
except AttributeError:
# or it can be another external function
value = get_the_value()
setattr(obj, name, value)
continue
break
class Mine:
cached_property = CachedProperty("_cached_property ", get_cached_property_value)
# OR:
class Mine:
cached_property = CachedProperty("_cached_property", "get_cached_property_value")
def get_cached_property_value(self):
return "the_value"
EDIT: By the way, you don't even actually need a custom descriptor. You could just cache the value inside of your property function. E.g.:
@property
def test(self):
while True:
try:
return self._test
except AttributeError:
self._test = get_initial_value()
That's all there is to it.
However, many would consider this a bit of an abuse of property, and to be an unexpected way of using it. And unexpected usually means you should do it another, more explicit way. A custom CachedProperty descriptor is very explicit, so for that reason I would prefer it to the property approach, though it requires more code.
If you don't mind alternative solutions, I'd recommend lru_cache
for example
from functools import lru_cache
class Test:
@property
@lru_cache(maxsize=None)
def calc(self):
print("Calculating")
return 1
Expected output
In [2]: t = Test()
In [3]: t.calc
Calculating
Out[3]: 1
In [4]: t.calc
Out[4]: 1