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It's that time of year again that programmers want to shuffle a list such that no element resides on its original position (at least in the Netherlands, we celebrate Sinterklaas and pick straws for deciding who writes who a poem). Does anyone have a nice Python single statement for that?

So, input example: range(10)

Output example: [2,8,4,1,3,7,5,9,6,0]

Wrong output would be [2,8,4,1,3,5,7,9,6,0] because the 5 is at its original position. This would mean that person 5 must write a poem to himself and that is less fun.

edit Many people repeat the assignment just as long as needed to get lucky and find that in fact the solution is satisfactory. This is a bad approach as in theory this can take infinitely long. The better approach is indeed suggested by Bart, but I can't get that into a oneliner for one reason or another...

edit By oneliner, I mean single statement. As it appears, Python is also able to compress multiple statements on a single line. I didn't know that. There are currently very nice solutions only using the semicolon to mimic multiline behaviour on a single line. Hence: "can you do it in a single statement?"

share|improve this question
Why oneliner? Why not 5 or 6 lines? – OscarRyz Nov 14 '09 at 20:55
Because I can do that myself. Dead easy. A oneliner is just a nice hobby for the cold and dark winterdays. :) – Paul Nov 14 '09 at 21:02
Single statment version of my answer: exec "for i in range(1,len(L)):import random;r=random.randint(0,i-1);L[i],L[r]=L[r],L[i]" – John La Rooy Nov 15 '09 at 11:26

11 Answers 11

up vote 6 down vote accepted

I found shuffle can be abused into solving this

from random import shuffle
L = ["Anne", "Beth", "Cath", "Dave", "Emma"]
shuffle(L, int=lambda n: int(n - 1))
print L

The distribution is not uniform however this was not a requirement.

#For 100,000 samples

(('Beth', 'Cath', 'Dave', 'Emma', 'Anne'), 13417)
(('Beth', 'Cath', 'Emma', 'Anne', 'Dave'), 6572)
(('Beth', 'Dave', 'Anne', 'Emma', 'Cath'), 3417)
(('Beth', 'Dave', 'Emma', 'Cath', 'Anne'), 6581)
(('Beth', 'Emma', 'Anne', 'Cath', 'Dave'), 3364)
(('Beth', 'Emma', 'Dave', 'Anne', 'Cath'), 6635)
(('Cath', 'Anne', 'Dave', 'Emma', 'Beth'), 1703)
(('Cath', 'Anne', 'Emma', 'Beth', 'Dave'), 1705)
(('Cath', 'Dave', 'Beth', 'Emma', 'Anne'), 6583)
(('Cath', 'Dave', 'Emma', 'Anne', 'Beth'), 3286)
(('Cath', 'Emma', 'Beth', 'Anne', 'Dave'), 3325)
(('Cath', 'Emma', 'Dave', 'Beth', 'Anne'), 3421)
(('Dave', 'Anne', 'Beth', 'Emma', 'Cath'), 1653)
(('Dave', 'Anne', 'Emma', 'Cath', 'Beth'), 1664)
(('Dave', 'Cath', 'Anne', 'Emma', 'Beth'), 3349)
(('Dave', 'Cath', 'Emma', 'Beth', 'Anne'), 6727)
(('Dave', 'Emma', 'Anne', 'Beth', 'Cath'), 3319)
(('Dave', 'Emma', 'Beth', 'Cath', 'Anne'), 3323)
(('Emma', 'Anne', 'Beth', 'Cath', 'Dave'), 1682)
(('Emma', 'Anne', 'Dave', 'Beth', 'Cath'), 1656)
(('Emma', 'Cath', 'Anne', 'Beth', 'Dave'), 3276)
(('Emma', 'Cath', 'Dave', 'Anne', 'Beth'), 6638)
(('Emma', 'Dave', 'Anne', 'Cath', 'Beth'), 3358)
(('Emma', 'Dave', 'Beth', 'Anne', 'Cath'), 3346)

For a uniform distribution, this (longer) version can be used

from random import shuffle,randint
L=["Anne", "Beth", "Cath", "Dave", "Emma"]
shuffle(L, random=lambda: 1, int=lambda n: randint(0, n - 2))
print L

# For 100,000 samples

(('Beth', 'Cath', 'Dave', 'Emma', 'Anne'), 4157)
(('Beth', 'Cath', 'Emma', 'Anne', 'Dave'), 4155)
(('Beth', 'Dave', 'Anne', 'Emma', 'Cath'), 4099)
(('Beth', 'Dave', 'Emma', 'Cath', 'Anne'), 4141)
(('Beth', 'Emma', 'Anne', 'Cath', 'Dave'), 4243)
(('Beth', 'Emma', 'Dave', 'Anne', 'Cath'), 4208)
(('Cath', 'Anne', 'Dave', 'Emma', 'Beth'), 4219)
(('Cath', 'Anne', 'Emma', 'Beth', 'Dave'), 4087)
(('Cath', 'Dave', 'Beth', 'Emma', 'Anne'), 4117)
(('Cath', 'Dave', 'Emma', 'Anne', 'Beth'), 4127)
(('Cath', 'Emma', 'Beth', 'Anne', 'Dave'), 4198)
(('Cath', 'Emma', 'Dave', 'Beth', 'Anne'), 4210)
(('Dave', 'Anne', 'Beth', 'Emma', 'Cath'), 4179)
(('Dave', 'Anne', 'Emma', 'Cath', 'Beth'), 4119)
(('Dave', 'Cath', 'Anne', 'Emma', 'Beth'), 4143)
(('Dave', 'Cath', 'Emma', 'Beth', 'Anne'), 4203)
(('Dave', 'Emma', 'Anne', 'Beth', 'Cath'), 4252)
(('Dave', 'Emma', 'Beth', 'Cath', 'Anne'), 4159)
(('Emma', 'Anne', 'Beth', 'Cath', 'Dave'), 4193)
(('Emma', 'Anne', 'Dave', 'Beth', 'Cath'), 4177)
(('Emma', 'Cath', 'Anne', 'Beth', 'Dave'), 4087)
(('Emma', 'Cath', 'Dave', 'Anne', 'Beth'), 4150)
(('Emma', 'Dave', 'Anne', 'Cath', 'Beth'), 4268)
(('Emma', 'Dave', 'Beth', 'Anne', 'Cath'), 4109)

How it works

Here is the code for random.shuffle()

def shuffle(self, x, random=None, int=int):
    """x, random=random.random -> shuffle list x in place; return None.

    Optional arg random is a 0-argument function returning a random
    float in [0.0, 1.0); by default, the standard random.random.

    if random is None:
        random = self.random
    for i in reversed(xrange(1, len(x))):
        # pick an element in x[:i+1] with which to exchange x[i]
        j = int(random() * (i+1))
        x[i], x[j] = x[j], x[i]

Both solutions work by targeting the line j = int(random() * (i+1))

The first(non uniform) effectively makes the line work like this

j = int(random() * (i + 1) - 1)

So instead of a range of (1..i) we obtain (0..i-1)

The second solution replaces random() with a function that always returns 1, and uses randint instead of int. So the line now works like this

j = randint(0, i - 1)
share|improve this answer
You are immortal. – Paul Nov 16 '09 at 8:06

After shuffling the list of numbers, let the [i]th person write a poem (and buy a present!) for the [i+1]th person in the list: that way, there can never be someone who draws him- or herself. Of course, the last one should point to the first...

share|improve this answer
That is exactly my multiline implementation!! Because this is guaranteed to end in linear time in contrast with other methods mentioned here. But shuffling and shifting is very difficult in a oneliner. Can you give code? – Paul Nov 14 '09 at 22:41
That only generates "full circles", something like persons one and two writing each other poems will not be covered... – sth Nov 15 '09 at 1:58
@sth attentive! looks like the same holds for Glex's Ruby code? – Paul Nov 15 '09 at 17:32

Shifting every element in the list by one in a circular manner, as suggested by Bart, is easy:

>>> def shift(seq):
...     return seq[-1:] + seq[:-1]
>>> shift(range(10))
[9, 0, 1, 2, 3, 4, 5, 6, 7, 8]

As for a random solution: in this case the request for a one-liner is not such a good idea, since the obvious function to use, namely random.shuffle, performs its task in place. In other words: it has a side effect, something one usually tries to avoid in list comprehensions. There is a way around this though, as Paul points out, namely by using random.sample. The following code shows two one-liners which use these functions (note the use of not shuffle, to work around the fact that shuffle returns None...):

>>> from itertools import repeat
>>> from random import shuffle
>>> def shake_it(seq):
...     return next(c for c in repeat(seq[::]) if not shuffle(c) and all(a != b for a, b in zip(seq, c)))
>>> shake_it(range(10))
[7, 9, 0, 2, 6, 8, 5, 1, 4, 3]
>>> from itertools import count
>>> from random import sample
>>> def shake_it(seq):
...     return next(c for c in (sample(seq, len(seq)) for _ in count()) if all(a != b for a, b in zip(seq, c)))
>>> shake_it(range(10))
[1, 3, 9, 5, 2, 6, 8, 4, 0, 7]

Myself, I'd go with this one:

>>> def shake_it(seq):
...     res = seq[::]
...     while any(a == b for a, b in zip(res, seq)):
...         shuffle(res)
...     return res
>>> shake_it(range(10))
[5, 7, 9, 2, 6, 8, 3, 0, 4, 1]
share|improve this answer
Substitute random.shuffle(x) for random.sample(x, len(x)) to get a returned value if you like. – Paul Nov 14 '09 at 21:45
@Paul: good point! I've updated the answer with a one-liner which uses shuffle. – Stephan202 Nov 14 '09 at 22:17
I think this oneliner way of thinking is very similar to Wim's, whre his is far more easy to read. The use of repeat though is very promising. I didn't know that function and I bet it's going to be part of the final solution. – Paul Nov 14 '09 at 22:27
Unless I'm mistaken, Wim's solutions rely on the assumption that the input is range(n) (that is, a list of successive numbers, starting at zero). My code makes no such assumptions, and is thus more general. (I.e., I can shuffle a list of actual Dutch names ;) – Stephan202 Nov 14 '09 at 22:54
Ah, I see. Thanks :) – Paul Nov 14 '09 at 22:57

Here is how you do it with O(n) time and O(1) extra memory:

Comprehensible code:

def shuffle(a)
  n = a.length
  (0..n - 2).each do |i|
    r = rand(n - i - 1) + i + 1
    a[r], a[i] = a[i], a[r]

A one-liner (assumes "a" is the array):

n = a.length and (0..n - 2).each {|i| r = rand(n - i - 1) + i + 1; a[r], a[i] = a[i], a[r]}

The code is in ruby, but without any doubt it's easily translatable to python


P.S.: The solution modifies the array.

share|improve this answer

"One-liner" in fixed O(n) time:

import random; a=range(10)  # setup (could read in names instead)
for i in range(len(a)-1,0,-1): j=random.randint(0,i-1); a[j],a[i]=a[i],a[j]
print a  # output

The loop picks elements from the maximum index (len(a)-1) down to the next-smallest (1). The choice pool for element k only includes indices from 0 to k-1; once picked, an element will not be moved again.

After the scramble, no element can reside in its original position, because:

  • if element j is picked for some slot i>j, it will stay there
  • otherwise, element j will be swapped with some other element from slot i<j, which will stay there
  • except for the element in slot 0, which will be swapped unconditionally with the element in slot 1 (in the final iteration of the loop) if it has not already been displaced.

[edit: this is logically equivalent to the Ruby answer, I think]

share|improve this answer
Great! And yes it is like the ruby solution and I like the algo for it's simplicity. Can you write it in one statement? – Paul Nov 15 '09 at 9:56
Well, you could ";eval'...'" the middle line, but that would just be sad. – comingstorm Nov 16 '09 at 9:38

This one is O(N). Having the import in the loops is a bit silly, but you wanted a one liner

for i in range(1,len(L)):import random;r=random.randint(0,i-1);L[i],L[r]=L[r],L[i]
print L

Here is the output distribution when L=range(5) for 100000 samples

((1, 2, 3, 4, 0), 4231)
((1, 2, 4, 0, 3), 4115)
((1, 3, 0, 4, 2), 4151)
((1, 3, 4, 2, 0), 4108)
((1, 4, 0, 2, 3), 4254)
((1, 4, 3, 0, 2), 4101)
((2, 0, 3, 4, 1), 4158)
((2, 0, 4, 1, 3), 4177)
((2, 3, 1, 4, 0), 4190)
((2, 3, 4, 0, 1), 4117)
((2, 4, 1, 0, 3), 4194)
((2, 4, 3, 1, 0), 4205)
((3, 0, 1, 4, 2), 4325)
((3, 0, 4, 2, 1), 4109)
((3, 2, 0, 4, 1), 4131)
((3, 2, 4, 1, 0), 4153)
((3, 4, 0, 1, 2), 4081)
((3, 4, 1, 2, 0), 4118)
((4, 0, 1, 2, 3), 4294)
((4, 0, 3, 1, 2), 4167)
((4, 2, 0, 1, 3), 4220)
((4, 2, 3, 0, 1), 4179)
((4, 3, 0, 2, 1), 4090)
((4, 3, 1, 0, 2), 4132)
share|improve this answer
Of course, take import out of the line. Furthermore, I will edit my question as I find myself searching for a single statement rather than a "oneliner that actually comprises multiple statements". – Paul Nov 15 '09 at 9:53
I posted another answer, but I've left this one here too as I think this is a good multiple statement solution – John La Rooy Nov 16 '09 at 4:33

My first Python program in a long while. Unlike many of the above programs, this one takes O(n) time.

s = set(range(10))
r = list()
for i in range(10):
    s2 = s - set([i])
    val = s2.pop()

print r

UPDATE: Paul showed that the above program was incorrect. Thanks, Paul. Here's a different, better version of the same program:

s = range(10)
for i in range(9):
    r = random.randrange(i+1, 10)
    s[i], s[r] = s[r], s[i]

print s
share|improve this answer
do you mean something like this: reduce(lambda a,i:a+[random.choice(list(set(x)-set(a+[i])))], x, [])? It throws an IndexError when the last remaining item is forced to reference itself. – Paul Nov 14 '09 at 21:53
Paul -- if it throws an IndexError, then it's not a good re-writing of my code. – Chip Uni Nov 14 '09 at 21:56
Ok, I just don't understand your code. Now I run your code and it always gives the same outcome. For range(10), r is always [1, 0, 3, 2, 8, 9, 4, 5, 6, 7]. So not really random. – Paul Nov 14 '09 at 22:03
Yeah; pop() returns an arbitrary, rather than a random, element from a list. Would my answer be easier to understand if I used lists instead of sets? – Chip Uni Nov 14 '09 at 22:26
Let's assume there was in fact a .poprandom() on sets, then your algorithm would throw IndexError when the last remaining item in s was the last element in the list (9 in the example of range(10)). – Paul Nov 15 '09 at 10:32

Sorry this isn't a one-liner, but this works

import random
def sinterklaas(n):
    for a in range(n):

    i = 0
    while i < 10:
        index = random.randint(0,n-1)
        if l[index] == -1 and index != i:
        l[index] = i
            i += 1


share|improve this answer
This: l=[]; for a in range(n): l.append(-1) is really this: l = [-1] * n. – hughdbrown Nov 15 '09 at 16:13
Thank you for this awesome piece of information. I had not known this before. – inspectorG4dget Nov 15 '09 at 16:36
import random; u = range(10)
while sum(u[i]==i for i in range(10)): random.shuffle(u)

(Ok, I have a line 0 in there too...)

share|improve this answer
I think you meant import random, not range! – Jeffrey Aylesworth Nov 14 '09 at 21:05
Duh, that's 5 edits needed to get a oneliner working...!! – Wim Nov 14 '09 at 21:07
good work! though it is taking overly much computation (and is theoretically not guaranteed to finish) – Paul Nov 14 '09 at 21:13
Oh, it's theoretically guaranteed to finish. It's not guaranteed to finish within any particular time, but I think the expected number of iterations is asymptotically constant. – comingstorm Nov 15 '09 at 7:41
No it's not guaranteed to finish. If your random number generator can only generate permutations that don't match the don't write poem to self rule, you can try for a very long time... (I know, it'd be a pretty pathetic random generator, but we're talking theoretical, right?) – Wim Nov 15 '09 at 10:01

For one in O(n):

u=range(10); random.shuffle(u); v=[ u[u[i]] for i in range(10) ]; return [ v[(u[i]+1)%10] for i in u ]

u is the inverse of function v, so v[u[i]+1] is effectively the element following i in array v.

share|improve this answer
I think this is going in a good direction. Can you also do it without the semicolons? You can also shuffle as a returned value like this if you like: shuffled = random.sample(x, len(x)) – Paul Nov 14 '09 at 21:37
I tried running your program. My return was: [0, 1, 5, 2, 6, 9, 3, 4, 7, 8]. I feel sorry for the first and second people! – Chip Uni Nov 14 '09 at 21:51
You're right, something is still wrong. But I'm afraid I'll give up for today... – Wim Nov 14 '09 at 22:10

Here's Stephan202's circular shift implemented as a one-liner with a randomly-chosen shift increment:

from random import randrange; s = range(10); r = randrange(1,len(s)-1); print s[-r:] + s[:-r]
share|improve this answer
Yes, but it is not shuffling. – Paul Nov 14 '09 at 22:46

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