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I'm trying to improve the speed of an algorithm and, after looking at which operations are being called, I'm having difficulty pinning down exactly what's slowing things up. I'm wondering if Python's deepcopy() could possibly be the culprit or if I should look a little further into my own code.

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The complexity of deepcopy is very probably, as it name suggests, proportional to the total amount of values reachable from its argument. That may be most of the heap in pathological cases. –  Basile Starynkevitch Jan 21 '12 at 22:50
    
@BasileStarynkevitch: Please post your answer as an answer. –  S.Lott Jan 21 '12 at 23:21
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Looking at the code (you can too), it goes through every object in the tree of referenced objects (e.g. dict's keys and values, object member variables, ...) and does two things for them:

  1. see if it's already been copied, by looking it in id-indexed memo dict
  2. copy of the object if not

The second one is O(1) for simple objects. For composite objects, the same routine handles them, so over all n objects in the tree, that's O(n). The first part, looking an object up in a dict, is O(1) on average, but O(n) amortized worst case.

So at best, on average, deepcopy is linear. The keys used in memo are id() values, i.e. memory locations, so they are not randomly distributed over the key space (the "average" part above) and it may behave worse, up to the O(n^2) worst case. I did observe some performance degradations in real use, but for the most part, it behaved as linear.

That's the complexity part, but the constant is large and deepcopy is anything but cheap and could very well be causing your problems. The only sure way to know is to use a profiler -- do it. FWIW, I'm currently rewriting terribly slow code that spends 98% of its execution time in deepcopy.

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What are you using deepcopy for? As the name suggests, deepcopy copies the object, and all subobjects recursively, so it is going to take an amount of time proportional to the size of the object you are copying. (with a bit of overhead to deal with circular references)

There isn't really any way to speed it up, if you are going to copy everything, you need to copy everything.

One question to ask, is do you need to copy everything, or can you just copy part of the structure.

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The complexity of deepcopy() is dependant upon the size (number of elements/children) of the object being copied.

If your algorithm's inputs do not affect the size of the object(s) being copied, then you should consider the call to deeopcopy() to be O(1) for the purposes of determining complexity, since each invocation's execution time is relatively static.

(If your algorithm's inputs do have an effect on the size of the object(s) being copied, you'll have to elaborate how. Then the complexity of the algorithm can be evaluated.)

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If you're looking for a practical performance evaluation rather than determining theoretical complexity, you should post some code. –  cheeken Jan 21 '12 at 23:23
    
That's just nonsense, sorry. The very nature of what deepcopy does makes it painfully obvious that it must have at least linear complexity in the number of all (sub)objects in the references graph of the object being deep-copied. –  Václav Slavík Aug 5 '12 at 8:49
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