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Let's say I have a referentially transparent function. It is very easy to memoize it; for example:

def memoize(obj):
  memo = {}
  @functools.wraps(obj)
  def memoizer(*args, **kwargs):
    combined_args = args + (kwd_mark,) + tuple(sorted(kwargs.items()))
    if combined_args not in memo:
      memo[combined_args] = obj(*args, **kwargs)
    return cache[combined_args]
  return memoizer

@memoize
def my_function(data, alpha, beta):
  # ...

Now suppose that the data argument to my_function is huge; say, it's a frozenset with millions of elements. In this case, the cost of memoization is prohibitive: every time, we'd have to calculate hash(data) as part of the dictionary lookup.

I can make the memo dictionary an attribute to data instead of an object inside memoize decorator. This way I can skip the data argument entirely when doing the cache lookup since the chance that another huge frozenset will be the same is negligible. However, this approach ends up polluting an argument passed to my_function. Worse, if I have two or more large arguments, this won't help at all (I can only attach memo to one argument).

Is there anything else that can be done?

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When you define my_function, do you know that you always want to skip memoization of data? –  Janne Karila Oct 4 '12 at 11:20
    
I don't want to skip it. But if I make the memo object an attribute of the data parameter passed to me, I don't need to include it in the key any longer: after all, by construction a separate memo will be used for each data object! –  max Oct 4 '12 at 11:23
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2 Answers

up vote 1 down vote accepted

Well, you can use "hash" there with no fears. A frozenset's hash is not calculated more than once by Python - just when it is created - check the timings:

>>> timeit("frozenset(a)", "a=range(100)")
3.26825213432312
>>> timeit("hash(a)", "a=frozenset(range(100))")
0.08160710334777832
>>> timeit("(lambda x:x)(a)", "a=hash(frozenset(range(100)))")
0.1994171142578125

Don't forget Python's "hash" builtin calls the object's __hash__ method, which has its return value defined at creation time for built-in hasheable objects. Above you can see that calling a identity lambda function is more than twice slower than calling "hash (a)"

So, if all your arguments are hasheable, just add their hash when creating "combined_args" - else, just write its creation so that you use hash for frozenset (and maybe other) types, with a conditional.

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1  
While the hash value is indeed not calculated more than once, it is not calculated during creation. And for a large object it's nearly as expensive as the object creation. But I agree, hash is not the problem. It seems __eq__ is a much bigger problem. –  max Oct 4 '12 at 12:01
    
The performance impact is only visible when you try frozenset(range(100000000)) or something like that. –  max Oct 4 '12 at 12:11
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It turns out that the built-in __hash__ is not that bad, since it caches its own value after the first calculation. The real performance hit comes from the built-in __eq__, since it doesn't short-circuit on identical objects, and actually goes through the full comparison every time, making it very costly.

One approach I thought of is to subclass the built-in class for all large arguments:

class MyFrozenSet(frozenset):
  __eq__ = lambda self, other : id(self) == id(other)
  __hash__ = lambda self : id(self)

This way, dictionary lookup would be instantaneous. But the equality for the new class will be broken.

A better solution is probably this: only when the dictionary lookup is performed, the large arguments can be wrapped inside a special class that redefines __eq__ and __hash__ to be return the wrapped object's id(). The obvious implementation of the wrapper is a bit annoying, since it requires copying all the standard frozenset methods. Perhaps deriving it from the relevant ABC class may make it easier.

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Why not just store the argument's hash? –  jsbueno Oct 4 '12 at 12:02
    
Because then you have to be absolutely sure that you won't end up with two different objects with the same hash. I agree the chances of this are nearly negligible, but it is strictly speaking unsafe. –  max Oct 4 '12 at 12:06
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