# Randomly Shuffle Keys and Values in Python DIctionary

Is there a way to randomly shuffle what keys correspond to what values? I have found random.sample but I was wondering if there was a more pythonic/faster way of doing this.

Example: a = {"one":1,"two":2,"three":3}

Shuffled: a_shuffled = {"one":2,"two":3,"three":1}

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I do not want to reorder, I want to shuffle it so a key will point to a different value. See my example. –  brebs Aug 1 at 15:02
Right, you may want to be more explicit about this; at first glance your question looks like Yet Another Question about ordering and dictionaries. –  Martijn Pieters Aug 1 at 15:04

sorry the only way to make it faster is by using numpy :/. No matter what you do it has to somehow scramble all the indices which takes time - so doing it in C will help slightly. Also the difference between sheer random and this random is that you can't have repeated indices.

sorry it's sort of long now - so you'll have to do some scrolling

E.g.

# made for python 2.7 but should be able to work in python 3
import random
import numpy as np
from time import time

def given_seq():
#general example
start = time()
a = {"one":1,"two":2,"three":3}
keys = a.keys()
random.shuffle(keys)
a = dict(zip(keys, a.values()))

#Large example

a = dict(zip(range(0,100000), range(1,100001)))

def random_shuffle():
keys = a.keys()
random.shuffle(keys)
b = dict(zip(keys, a.values()))

def np_random_shuffle():
keys = a.keys()
np.random.shuffle(keys)
b = dict(zip(keys, a.values()))

def np_random_permutation():
#more concise and using numpy's permutation option
b = dict(zip(np.random.permutation(a.keys()), a.values()))

#if you precompute the array key as a numpy array

def np_random_keys_choice():
akeys = np.array(a.keys())
return dict(zip(akeys[np.random.permutation(len(akeys))],a.values()))

def np_random_keys_shuffle():
key_indexes = np.arange(len(a.keys()))
np.random.shuffle(key_indexes)
return dict(zip(np.array(a.keys())[key_indexes],a.values()))

#fixed dictionary size
key_indexes = np.arange(len(a.keys()))
def np_random_fixed_keys_shuffle():
np.random.shuffle(key_indexes)
return dict(zip(np.array(a.keys())[key_indexes],a.values()))

#so dstack actually slows things down
def np_random_shuffle_dstack():
keys = a.keys()
np.random.shuffle(keys)
return dict(np.dstack((keys, a.values()))[0])

if __name__=='__main__':
import timeit
# i can use global namespace level introspection to automate the below line but it's not needed yet
for func in ['given_seq', 'random_shuffle', 'np_random_shuffle', 'np_random_permutation', 'np_random_keys_choice',
'np_random_keys_shuffle', 'np_random_fixed_keys_shuffle']:
print func, timeit.timeit("{}()".format(func), setup = "from __main__ import {}".format(''.join(func)), number = 200)
given_seq 0.00103783607483
random_shuffle 23.869166851
np_random_shuffle 16.3060112
np_random_permutation 21.9921720028
np_random_keys_choice 21.8105020523
np_random_keys_shuffle 22.4905178547
np_random_fixed_keys_shuffle 21.8256559372

Using Choice/Permutation may look nicer - but it's not faster by any means. Unfortunately copying is usually slow unless it's a small size - and there's no way to pass pointers/references without it having to take up an extra line - though I debate if this makes it 'non-pythonic'

namely if you look at the Zen of Python or just do import this in a python session one of the lines is:

Although practicality beats purity.

so it's open to interpretation of course :)

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For some reason when I use np.random.shuffle on a list such as a.keys() it returns an object of type 'NoneType'. This obviously then fails when I zip. Same happens when I use random.shuffle. Ideas? –  brebs Aug 1 at 15:41
np.random.shuffle shuffles an object in place. In my mind it's scrambling the pointers behind the scenes, so it can't give you back an object because it never copies it :) - it's faster to just play with pointers as a giant array can have a few million ints, whereas a pointer and a length / end pointer are magnitudes of size less –  Eiyrioü von Kauyf Aug 1 at 15:43
Thank you! I was trying to save it as a new variable. I didn't realize it simply shuffled the original. It works now. –  brebs Aug 1 at 15:48
no problem :). good luck! –  Eiyrioü von Kauyf Aug 1 at 15:49
In [47]: import random

In [48]: keys = a.keys()

In [49]: values = a.values()

In [50]: random.shuffle(values)

In [51]: a_shuffled = dict(zip(keys, values))

In [52]: a_shuffled
Out[52]: {'one': 2, 'three': 1, 'two': 3}

Or, more pithy would be:

In [56]: dict(zip(a.keys(), random.sample(a.values(), len(a))))
Out[56]: {'one': 3, 'three': 2, 'two': 1}

(but I suppose that is the solution you already came up with.)

Note that although using random.sample is pithier, using random.shuffle is a bit faster:

import random
import string
def using_shuffle(a):
keys = a.keys()
values = a.values()
random.shuffle(values)
return dict(zip(keys, values))

def using_sample(a):
return dict(zip(a.keys(), random.sample(a.values(), len(a))))

N = 10000
keys = [''.join(random.choice(string.letters) for j in range(4)) for i in xrange(N)]
a = dict(zip(keys, range(N)))

In [71]: %timeit using_shuffle(a)
100 loops, best of 3: 5.14 ms per loop

In [72]: %timeit using_sample(a)
100 loops, best of 3: 5.78 ms per loop
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