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I am filling a python dict with around 10,000,000 items. My understanding of dict (or hashtables) is that when too much elements get in them, the need to resize, an operation that cost quite some time.

Is there a way to say to a python dict that you will be storing at least n items in it, so that it can allocate memory from the start? Or will this optimization not do any good to my running speed?

(And no, I have not checked that the slowness of my small script is because of this, I actually wouldn't now how to do that. This is however something I would do in Java, set the initial capacity of the HashSet right)

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possible duplicate of Python - Create a list with initial capacity –  msw Jun 11 '10 at 6:28
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Don't agree with the duplicate part. A dict is not the same as a list. –  Peter Smit Jun 11 '10 at 7:48
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up vote 12 down vote accepted

First off, I've heard rumor that you can set the size of a dictionary at initialization, but I have never seen any documentation or PEP describing how this would be done.

With this in mind I ran an analysis on your quantity of items, described below. While it may take some time to resize the dictionary each time I would recommend moving ahead without worrying about it, at least until you can test its performance.

The two rules that concern us in determining resizing is number of elements and factor of resizing. A dictionary will resize itself when it is 2/3 full on the addition of the element putting it over the 2/3 mark. Below 50,000 elements it will increase by a factor of 4, above that amount by a factor of 2. Using your estimate of 10,000,000 elements (between 2^23 and 2^24) your dictionary will resize itself 15 times (7 times below 50k, 8 times above). Another resize would occur just past 11,100,000.

Resizing and replacing the current elements in the hashtable does take some time, but I wonder if you'd notice it with whatever else you have going on in the code nearby. I just put together a timing suite comparing inserts at five places along each boundary from dictionary sizes of 2^3 through 2^24, and the "border" additions average 0.4 nanoseconds longer than the "non-border" additions. This is 0.17% longer... probably acceptable. The minimum for all operations was 0.2085 microseconds, and max was 0.2412 microseconds.

Hope this is insightful, and if you do check the performance of your code please follow-up with an edit! My primary resource for dictionary internals was the splendid talk given by Craig Rhodes at PyCon 2010: The Mighty Dictionary

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