I do understand that querying a non-existent key in a defaultdict the way I do will add items to the defaultdict. That is why it is fair to compare my 2nd code snippet to my first one in terms of performance.
import numpy as num from collections import defaultdict topKeys = range(16384) keys = range(8192) table = dict((k,defaultdict(int)) for k in topKeys) dat = num.zeros((16384,8192), dtype="int32") print "looping begins" #how much memory should this use? I think it shouldn't use more that a few #times the memory required to hold (16384*8192) int32's (512 mb), but #it uses 11 GB! for k in topKeys: for j in keys: dat[k,j] = table[k][j] print "done"
What is going on here? Furthermore, this similar script takes eons to run compared to the first one, and also uses an absurd quantity of memory.
topKeys = range(16384) keys = range(8192) table = [(j,0) for k in topKeys for j in keys]
I guess python ints might be 64 bit ints, which would account for some of this, but do these relatively natural and simple constructions really produce such a massive overhead? I guess these scripts show that they do, so my question is: what exactly is causing the high memory usage in the first script and the long runtime and high memory usage of the second script and is there any way to avoid these costs?
Edit: Python 2.6.4 on 64 bit machine.
Edit 2: I can see why, to a first approximation, my table should take up 3 GB 16384*8192*(12+12) bytes and 6GB with a defaultdict load factor that forces it to reserve double the space. Then inefficiencies in memory allocation eat up another factor of 2.
So here are my remaining questions: Is there a way for me to tell it to use 32 bit ints somehow?
And why does my second code snippet take FOREVER to run compared to the first one? The first one takes about a minute and I killed the second one after 80 minutes.