What is the most lightweight way to create a random string of 30 characters like the following?


And an hexadecimal number of 30 digits like the followin?


  • 2
    How (why?) is it that none of the (well-crafted) answers have been accepted? – r2evans Apr 15 '19 at 23:57

12 Answers 12


I got a faster one for the hex output. Using the same t1 and t2 as above:

>>> t1 = timeit.Timer("''.join(random.choice('0123456789abcdef') for n in xrange(30))", "import random")
>>> t2 = timeit.Timer("binascii.b2a_hex(os.urandom(15))", "import os, binascii")
>>> t3 = timeit.Timer("'%030x' % random.randrange(16**30)", "import random")
>>> for t in t1, t2, t3:
...     t.timeit()

t3 only makes one call to the random module, doesn't have to build or read a list, and then does the rest with string formatting.

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  • 4
    Nice. Just generate a random number 30 hex digits long and print it out. Obvious when pointed out. Nice one. – eemz May 6 '10 at 17:50
  • Interesting, I kind of forgot that Python (and the random module) handles bigints natively. – wump May 6 '10 at 18:49
  • 3
    See yaronf's answer below on using string.hexdigits: stackoverflow.com/a/15462293/311288 "string.hexdigits returns 0123456789abcdefABCDEF (both lowercase and uppercase), [...]. Instead, just use random.choice('0123456789abcdef')." – Thomas Jun 27 '14 at 14:35
  • 2
    Use getrandbits instead of randrange to make it even faster. – robinst Jun 8 '16 at 3:24
  • @robinst has a good point. '%030x' % random.getrandbits(60) is even faster than '%030x' % random.randrange(16**30), likely because it doesn't haven't have to do any conversion to/from big-ints – Dan Lenski Aug 6 '18 at 2:56

30 digit hex string:

>>> import os,binascii
>>> print binascii.b2a_hex(os.urandom(15))

The advantage is that this gets randomness directly from the OS, which might be more secure and/or faster than the random(), and you don't have to seed it.

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  • that's interesting, and probably a good choice for generating the 30 digit hex number he wants. probably could use urandom and a slice operator to generate the alphanumeric string also. – eemz May 6 '10 at 16:29
  • I did take a look at the other functions in binascii, they do have base64 and uuencode, but no way to generate the first kind of strings he wants (base36). – wump May 6 '10 at 16:49
  • 1
    Is this random/unique enough to be used in, say, session tokens? – moraes Jul 4 '11 at 12:31
  • 1
    A: No. Found the answer: stackoverflow.com/questions/817882/unique-session-id-in-python/… – moraes Jul 4 '11 at 12:48
  • How does one specify the length? – 3kstc Jun 25 '19 at 4:58

In Py3.6+, another option is to use the new standard secrets module:

>>> import secrets
>>> secrets.token_hex(15)
>>> secrets.token_urlsafe(22)   # may include '_-' unclear if that is acceptable
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import string
import random
lst = [random.choice(string.ascii_letters + string.digits) for n in xrange(30)]
str = "".join(lst)
print str
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  • 6
    and random.choice(string.hexdigits) – eemz May 6 '10 at 15:30
  • 1
    One might prefer the more cryptographically secure random.SystemRandom().choice – Brian M. Hunt Jan 3 '15 at 21:29
  • 1
    xrange() should be range() - NameError: name 'xrange' is not defined – Caleb Bramwell Feb 13 '15 at 2:58
  • xrange is correct (and usually better) in python 2.x – jcdyer Mar 3 '15 at 21:24

Dramatically faster solution than those here:

timeit("'%0x' % getrandbits(30 * 4)", "from random import getrandbits")
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  • One user has to try all the methods on the same machine to get an accurate baseline. Hardware specs can make a big difference. >>>> timeit.timeit("'%0x' % getrandbits(30 * 4)", "from random import getrandbits") 0.2471246949999113</pre> – ptay Mar 28 '19 at 1:03
  • Thank you, this much faster than the others above. %timeit '%030x' % randrange(16**30) gives 1000000 loops, best of 3: 1.61 µs per loop while %timeit '%0x' % getrandbits(30 * 4) gives 1000000 loops, best of 3: 396 ns per loop – frmdstryr Mar 28 '19 at 17:15

Note: random.choice(string.hexdigits) is incorrect, because string.hexdigits returns 0123456789abcdefABCDEF (both lowercase and uppercase), so you will get a biased result, with the hex digit 'c' twice as likely to appear as the digit '7'. Instead, just use random.choice('0123456789abcdef').

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Another Method :

from Crypto import Random
import binascii

my_hex_value = binascii.hexlify(Random.get_random_bytes(30))

The point is : byte value is always equal to the value in hex.

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one-line function:

import random
import string

def generate_random_key(length):
    return ''.join(random.choice(string.ascii_lowercase + string.digits) for _ in range(length))

print generate_random_key(30)
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Incidentally, this is the result of using timeit on the two approaches that have been suggested:

Using random.choice():

>>> t1 = timeit.Timer("''.join(random.choice(string.hexdigits) for n in xrange(30))", "import random, string")
>>> t1.timeit()

Using binascii.b2a_hex():

>>> t2 = timeit.Timer("binascii.b2a_hex(os.urandom(15))", "import os, binascii")
>>> t2.timeit()
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There's a faster one compared to what jcdyer has mentioned. This takes ~50% of his fastest method.

from numpy.random.mtrand import RandomState
import binascii
rand = RandomState()

lo = 1000000000000000
hi = 999999999999999999
binascii.b2a_hex(rand.randint(lo, hi, 2).tostring())[:30]

>>> timeit.Timer("binascii.b2a_hex(rand.randint(lo,hi,2).tostring())[:30]", \
...                 'from __main__ import lo,hi,rand,binascii').timeit()
1.648831844329834         <-- this is on python 2.6.6
2.253110885620117         <-- this on python 2.7.5

If you want in base64:

binascii.b2a_base64(rand.randint(lo, hi, 3).tostring())[:30]

You can change the size parameter passed to randint (last arg) to vary the output length based on your requirement. So, for a 60 char one:

binascii.b2a_hex(rand.randint(lo, hi, 4).tostring())[:60]
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  • A slight variation: binascii.b2a_hex(np.random.rand(np.ceil(N/16)).view(dtype=int))[:N] where N=30. – dan-man Mar 29 '15 at 10:16
  • @dan-man Thanks for this optional method. However, I find that it's consumes atleast 5x more time. Do you notice that as well? – Ethan Mar 29 '15 at 16:31
In [1]: import random                                    

In [2]: hex(random.getrandbits(16))                      
Out[2]: '0x3b19'
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  • FYI: This answer was flagged as low-quality, you may want to improve it. – oguz ismail Apr 29 '19 at 19:45
  • Any suggestions for improvement? – Bob Apr 30 '19 at 3:31
  • No idea. I just thought you should know that – oguz ismail Apr 30 '19 at 3:33

adding one more answer to the mix that performs faster than @eemz solution and is also fully alphanumeric. Note that this does not give you a hexidecimal answer.

import random
import string

LETTERS_AND_DIGITS = string.ascii_letters + string.digits

def random_choice_algo(width):
  return ''.join(random.choice(LETTERS_AND_DIGITS) for i in range(width))

def random_choices_algo(width):
  return ''.join(random.choices(LETTERS_AND_DIGITS, k=width))

# prints "48uTwINW1D"

a quick benchmark yields

from timeit import timeit
from functools import partial

arg_width = 10
print("random_choice_algo", timeit(partial(random_choice_algo, arg_width)))
# random_choice_algo 8.180561417000717
print("random_choices_algo", timeit(partial(random_choices_algo, arg_width)))
# random_choices_algo 3.172438014007639
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