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I'd like to create random list of integers for testing purposes. The distribution of the numbers is not important. The only thing that is count is time. I know generating random numbers is a time-consuming task, but there must be a better way.

Here's my current solution:

import random
import timeit

# random lists from [0-999] interval
print [random.randint(0,1000) for r in xrange(10)] # v1
print [random.choice([i for i in xrange(1000)]) for r in xrange(10)] # v2 

# measurement:
t1 = timeit.Timer('[random.randint(0,1000) for r in xrange(10000)]','import random') # v1
t2 = timeit.Timer('random.sample(range(1000), 10000)','import random') # v2

print t1.timeit(1000)/1000
print t2.timeit(1000)/1000

v2 is faster than v1 but is not working such a large scale. It gives the following error: 'ValueError: sample larger than population '

Do you know a fast, efficient solution that works in that scale?


Andrew's: 0.000290962934494

gnibbler's: 0.0058455221653

KennyTM's: 0.00219276118279

NumPy came, saw, conquered

Thank you!

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Of course it doesn't work. random.sample() depletes the population, making the numbers less and less random. Once the entire population is depleted, it's impossible to sample further. – Ignacio Vazquez-Abrams Nov 13 '10 at 10:58
When you say it's for testing purposes, how long will the testing take? – Mike Dunlavey Nov 15 '10 at 14:08

4 Answers 4

up vote 38 down vote accepted

Not entirely clear what you want, but I would use numpy.random.randint:

import numpy.random as nprnd

t1 = timeit.Timer('[random.randint(0,1000) for r in xrange(10000)]','import random') # v1
### change v2 so that it picks numbers in (0,10000) and thus runs...
t2 = timeit.Timer('random.sample(range(10000), 10000)','import random') # v2
t3 = timeit.Timer('nprnd.randint(1000, size=10000)','import numpy.random as nprnd') # v3

print t1.timeit(1000)/1000
print t2.timeit(1000)/1000
print t3.timeit(1000)/1000

which gives on my machine


Note that randint is very different from random.sample (in order for it to work in your case I had to change the 1,000 to 10,000 as one of the commentators pointed out -- if you really want them from 0 to 1,000 you could divide by 10). And if you really don't care what distribution you are getting then it is possible that you either don't understand your problem very well, or random numbers -- with apologies if that sounds rude...

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+1 for numpy, if Stiggo needs this many random numbers it's probably worth installing numpy just for this – John La Rooy Nov 13 '10 at 11:38
Andrew, you absolutely right about distribution. But this is not a real thing. Just a challange between friends. :D Cheers! – Stiggo Nov 13 '10 at 11:49

All the random methods end up calling random.random() so the best way is to call it directly

[int(1000*random.random()) for i in xrange(10000)]


random.randint calls random.randrange
random.randrange has a bunch of overhead to check the range before returning istart + istep*int(self.random() * n)

Edit: numpy is much faster still of course

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+1 I was just digging through it all earlier and ended up thinking that randrange eventually led to a call to getrandbits. I missed that you have to instantiate SystemRandom for that to be the behavior. Thanks for making me look more closely. – aaronasterling Nov 13 '10 at 12:21
Your's beat my version, but Andrew's solution clearly the winner. – Stiggo Nov 13 '10 at 12:25
@Stiggo, for sure, the only reason I can think not to use numpy would be if numpy isn't supported on your platform. eg. google app engine – John La Rooy Nov 13 '10 at 21:51

Your question about performance is moot—both functions are very fast. The speed of your code will be determined by what you do with the random numbers.

However it's important you understand the difference in behaviour of those two functions. One does random sampling with replacement, the other does random sampling without replacement.

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Firstly, you should use randrange(0,1000) or randint(0,999), not randint(0,1000). The upper limit of randint is inclusive.

For efficiently, randint is simply a wrapper of randrange which calls random, so you should just use random. Also, use xrange as the argument to sample, not range.

You could use

[a for a in sample(xrange(1000),1000) for _ in range(10000/1000)]

to generate 10,000 numbers in the range using sample 10 times.

(Of course this won't beat NumPy.)

$ python2.7 -m timeit -s 'from random import randrange' '[randrange(1000) for _ in xrange(10000)]'
10 loops, best of 3: 26.1 msec per loop

$ python2.7 -m timeit -s 'from random import sample' '[a%1000 for a in sample(xrange(10000),10000)]'
100 loops, best of 3: 18.4 msec per loop

$ python2.7 -m timeit -s 'from random import random' '[int(1000*random()) for _ in xrange(10000)]' 
100 loops, best of 3: 9.24 msec per loop

$ python2.7 -m timeit -s 'from random import sample' '[a for a in sample(xrange(1000),1000) for _ in range(10000/1000)]'
100 loops, best of 3: 3.79 msec per loop

$ python2.7 -m timeit -s 'from random import shuffle
> def samplefull(x):
>   a = range(x)
>   shuffle(a)
>   return a' '[a for a in samplefull(1000) for _ in xrange(10000/1000)]'
100 loops, best of 3: 3.16 msec per loop

$ python2.7 -m timeit -s 'from numpy.random import randint' 'randint(1000, size=10000)'
1000 loops, best of 3: 363 usec per loop

But since you don't care about the distribution of numbers, why not just use:



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randrange(1000) takes more than twice as long as 1000*int(random()) on my computer – John La Rooy Nov 13 '10 at 11:36

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