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Let's have a method that would cache results it calculates.

"If" approach:

def calculate1(input_values):
    if input_values not in calculate1.cache.keys():
        # do some calculation
        result = input_values
        calculate1.cache[input_values] = result
    return calculate1.cache[input_values]
calculate1.cache = {}

"Except" approach:

def calculate2(input_values):
       return calculate2.cache[input_values]
    except AttributeError:
       calculate2.cache = {}
    except KeyError:
    # do some calculation
    result = input_values
    calculate2.cache[input_values] = result
    return result

"get/has" approach:

def calculate3(input_values):

    if not hasattr(calculate3, cache):
        calculate3.cache = {}

    result = calculate3.cache.get(input_values)
    if not result:
        # do some calculation
        result = input_values
        calculate3.cache[input_values] = result
    return result

Is there another (faster) way? Which one is most pythonic? Which one would you use?

Note: There's a speed difference:

calculate = calculateX # depening on test run
for i in xrange(10000):

Results time python

calculate1: 0m9.579s
calculate2: 0m0.130s
calculate3: 0m0.095s
share|improve this question
your benchmarking looks fishy to me - I don't believe the third method is 100 times faster. Did you by any chance reuse the cache from the first run? – Eli Bendersky Dec 1 '10 at 15:51
Using keys can indeed slow, at least in python 2 (where it generates a list). It also means linear search. WhyTF not just use input_values not in calculate1.cache? That's a simple hash lookup and propably close to the others (as in, < 0.300s). – delnan Dec 1 '10 at 16:06
If you want to measure the execution time of Python code you can use the timeit module which will probably give you more accurate answers than time. – Dave Webb Dec 1 '10 at 16:16
Your benchmark seems inappropriate; at least on my system aren't using values from the cache, as each loop takes more than a microsecond. Add print len(calculate.cache) and try having something that checks the cache occasionally. Maybe datetime.utcnow().microsecond % 500 – dr jimbob Dec 1 '10 at 16:30
Eh; I just don't think a defaultdict particularly will help if what you are just trying to do is memoize. And memoization is probably best done in python with a decorator class. See ans below. – dr jimbob Dec 1 '10 at 18:38
up vote 20 down vote accepted

Use a collections.defaultdict. It's designed precisely for this purpose.

share|improve this answer
defaultdict seems logical, but I wonder if it is faster than other methods ? Sometimes I had bad surprises with such python extensions. – kriss Dec 1 '10 at 15:59
Who cares if it's slower (even if it is)? It's the right solution. If it becomes a bottlenect, replace it with a hand-tuned implementation. And if it made it into the stdlib, at least it's complexity is propably fine. – delnan Dec 1 '10 at 16:04
@kriss 0m0.101s with the defaultdict – Martin Tóth Dec 1 '10 at 16:06
@delnan: the OP asked for performance, clearly he cares. Beside that I disagree with the pythonic mindset there is (only) **One** right solution, that is subjective, and I like to know if what I use is concise, simple, fast, several of them at once... and make informed choices. But in this case defaultdict clearly has concision, efficiency and simplicity for it. – kriss Dec 1 '10 at 16:17
At any rate, that was exactly the answer I was looking for to my (admittedly different from the OP's) question -- I don't care about performance right now, just readability/maintainability. Thanks, unutbu! :) – hheimbuerger Mar 21 '11 at 13:57

Of course; this is Python after all: Just use a defaultdict.

share|improve this answer

Well if you are trying to memoize something, its best to use a Memoize class and decorators.

class Memoize(object):
    def __init__(self, func):
        self.func = func
        self.cache = {}

    def __call__(self, *args):
        if args not in self.cache:
            self.cache[args] = self.func(*args)
        return self.cache[args]

Now define some function to be memoized, say a key-strengthening function that does say 100,000 md5sums of a string hashes:

import md5

def one_md5(init_str):
    return md5.md5(init_str).hexdigest()

def repeat_md5(cur_str, num=1000000, salt='aeb4f89a2'):
    for i in xrange(num):
        cur_str = one_md5(cur_str+salt)
    return cur_str

The @Memoize function decorator is equivalent to defining the function and then defining repeat_md5 = Memoize(repeat_md5). The first time you call it for a particular set of arguments, the function takes about a second to compute; and the next time you call its near instantaneous as it read from its cache.

As for the method of memoization; as long as you aren't doing something silly (like the first method where you do "if key in some_dict.keys()" rather than "if key in some_dict") there shouldn't be much a significant difference. (The first method is bad as you generate an array from the dictionary first, and then check to see if the key is in it; rather than just check to see whether the key is in the dict (See Coding like a pythonista)). Also catching exceptions will be slower than if statements by nature (you have to create an exception then the exception-handler has to handle it; and then you catch it).

share|improve this answer
Code Like a Pythonista is a great resource, thank You. – Martin Tóth Dec 1 '10 at 19:07

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