Consider the following code:

def CalcSomething(a):
    if CalcSomething._cache.has_key(a):
      return CalcSomething._cache[a]
    CalcSomething._cache[a] = ReallyCalc(a)
    return CalcSomething._cache[a] 

CalcSomething._cache = { }

This is the easiest way I can think of for simulating a 'local static' variable in python.
What bothers me is that CalcSomething._cache is mentioned outside the function's definition, but the alternative would be something like that:

if not hasattr(CalcSomething, "_cache"):  
    setattr(CalcSomething, "_cache", { } )  

inside the function's definition, which is really cumbersome.

Is there a more elegant way?

Just to clarify, this question is not about local function caches, as the example above might suggest. Here is another short example where a 'static local' might be handy:

def ParseString(s):
    return ParseString._parser.parse(s)  
# Create a Parser object once, which will be used for all parsings.
# Assuming a Parser object is heave on resources, for the sake of this example.
ParseString._parser = Parser() 
  • BTW, you might want to phrase your question differently. You're not looking for a local static variable, but for a way to introduce memoization to your function. Jan 20, 2009 at 10:16
  • your second example is worst than the first one. You could return datetime.datetime.strptime(dts, "%m-%d-%Y %H:%M:%S") since strptime is a class method that creates a new datetime object. There is really no need for a datetime object to be created.
    – nosklo
    Jan 20, 2009 at 11:22
  • You are right about the second example. Changed that. Jan 20, 2009 at 11:43

5 Answers 5


Turn it into a callable object (since that's what it really is.)

class CalcSomething(object):
    def __init__(self):
        self._cache = {}
    def __call__(self, a):
        if a not in self._cache: 
            self._cache[a] = self.reallyCalc(a)
        return self._cache[a]
    def reallyCalc(self, a):
        return # a real answer
calcSomething = CalcSomething()

Now you can use calcSomething as if it were a function. But it remains tidy and self-contained.

  • +1 - another solution that hides caching implementation. This approach didn't cross my mind, but it looks more powerful than my simple decorator.
    – Abgan
    Jan 20, 2009 at 11:00
  • For those who want to use custom callables as methods, you'll have to implement get the right way (google for "python descriptor protocol" for more on this) Jan 20, 2009 at 12:33
  • Beautiful. This combo of using a specialized class plus being callable actually enables a sort of 'functions factory' for different cases, controlled by ctor params. Jan 20, 2009 at 12:39
  • 1
    +1 for call, I had no idea you could do this with python objects
    – Wim Coenen
    Jan 20, 2009 at 12:53
  • +1: functionality + state -> functor (AKA class with call defined).
    – cdleary
    Feb 27, 2009 at 4:40

Turn it into a decorator.

def static_var(var_name, initial_value):
    def _set_var(obj):
        setattr(obj, var_name, initial_value)
        return obj
    return _set_var

@static_var("_cache", {})
def CalcSomething(a):
  • 1
    Do you really consider that 'a more elegant way'? No, seriously ;-) Jan 20, 2009 at 9:44
  • I wouldn't consider static variables an elegant pattern to use in Python, but the decorator at least encapsulates the technical details of the attribute setting. Jan 20, 2009 at 10:05
  • +1 for cool use of python attributes. @Pau Oyster: no idea why you don't consider this elegant. If you want a non-hackish way to do it, just use a Calculator class with an instance variable. You asked for local static which is inherently ugly.
    – Wim Coenen
    Jan 20, 2009 at 10:43
  • Well, being a pragmatist rather than a purist (plus writing C++ code since 1991..) I don't consider local static an ugly thing. Jan 20, 2009 at 10:56
  • You need to return obj at the end of _set_var. And while I know that you're trying to indicate that _set_var is non-public, there's no need to mangle the name (with the added underscore), as it's only relevant inside static_var.
    – Roger Pate
    Jan 20, 2009 at 13:29

Consider writing decorator that will maintain cache and your function won't be contaminated by caching code:

def cacheResults(aFunc):
    '''This decorator funcion binds a map between the tuple of arguments 
       and results computed by aFunc for those arguments'''
    def cachedFunc(*args):
        if not hasattr(aFunc, '_cache'):
            aFunc._cache = {}
        if args in aFunc._cache:
            return aFunc._cache[args]
        newVal = aFunc(*args)
        aFunc._cache[args] = newVal
        return newVal
    return cachedFunc

def ReallyCalc(a):
    '''This function does only actual computation'''
    return pow(a, 42)

Maybe it doesn't look great at first, but you can use cacheResults() anywhere you don't need keyword parameters. It is possible to create similar decorator that would work also for keyword params, but that didn't seem necessary this time.

  • Although this is not the aim of my question (see clarification there), this is a beautiful scheme for implementing local caches. Thanks for that. Jan 20, 2009 at 10:53
  • You can get rid of if not hasattr... condition by making _cache cacheResults's local variable. Jul 13, 2015 at 17:37

One option is to abuse default parameters. ie:

def CalcSomething(a, _cache={}):
    if _cache.has_key(a):

This has the advantage that you don't need to qualify the name, and will get fast local access to the variables rather than doing two slow dict lookups. However it still has the problem that it is mentioned outside the function (in fact it's worse since its now in the function signature.)

To prevent this, a better solution would be to wrap the function in a closure containing your statics:

def CalcSomething():
    cache = {}  # statics go here

    def CalcSomething(a):
        if cache.has_key(a):
            return cache[a]
        cache[a] = ReallyCalc(a)
        return cache[a]
    return CalcSomething
  • Unfortunately, apply has been removed from Python 3.0. I too found a handful of similar cases where it was short, simple, and useful.
    – Roger Pate
    Jan 20, 2009 at 13:32
  • I don't think that's a good use of apply. It's much more obvious to just call the function. Jan 20, 2009 at 15:08

The solution proposed by S.Lott is the solution I would propose too.

There are useful "memoize" decorators around, too, like:

Given all that, I'm providing an alternative for your initial attempt at a function and a "static local", which is standalone:

def calc_something(a):

        return calc_something._cache[a]
    except AttributeError: # _cache is not there
        calc_something._cache= {}
    except KeyError: # the result is not there

    # compute result here

    calc_something._cache[a]= result
    return result
  • I guess this will not work. The first pass will run the except AttributeError block, initialize cache as empty dict and then fail on keyerror in calc_something._cache[a]= result
    – smido
    Apr 23, 2020 at 9:48
  • @smido I'm willing to bet that the odds of dict.__setitem__ throwing a MemoryError are much better than it throwing a KeyError 😉
    – tzot
    Apr 30, 2020 at 17:32

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.