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I am having a hard time formulating my question so I'll just show by example.

x = ['abc', 'c', 'w', 't', '3']
a, b = random_split(x, 3)      # first list should be length 3
# e.g. a => ['abc', 'w', 't']
# e.g. b => ['c', '3']

Is there an easy way of splitting a list into two random samples while maintaining the original ordering?

Edit: I know that I could use random.sample and then reorder, but I was hoping for an easy, simple, one line method.

Edit 2: Here's another solution, see if you can improve it:

def random_split(l, a_size):
    a, b = [], []
    m = len(l)
    which = ([a] * a_size) + ([b] * (m - a_size)) 

    for array, sample in zip(which, l):

    return a, b

Edit 3: My concern in avoiding sorting was that in the best case scenario it is O(N*log(N)). It should be possible to get a function that scales O(N) Unfortunately, none of the solutions posted so far actually achieve O(N) Though, after a little thought I found one that works and is comparable to @PedroWerneck's answer in performance. Though, I'm not 100% sure that is truly random.

def random_split(items, size):
  n = len(items)
  a, b = [], []
  for item in items:
    if size > 0 and random.random() < float(size)/n:
      size -= 1

    n -= 1

  return a, b
share|improve this question
I barely have any python experience, but how about this: generate a random number between 0 and the list size and then split on that index. – Jasper Apr 21 '12 at 4:41
@Jasper That doesn't work because as you can see some items in b come before a. – Jacob Eggers Apr 21 '12 at 4:55
random.sample does preserve sample order. It would be pretty simple to take random samples and then do a set difference. You could subclass ordereddict and create an ordered set... – Joel Cornett Apr 21 '12 at 5:20
@JoelCornett random.sample doesn't preserve order, it might have before, but it doesn't anymore. From the docs: The resulting list is in selection order so that all sub-slices will also be valid random samples – Jacob Eggers Apr 21 '12 at 5:36
@JoelCornett though the funny thing is, from the docs it looks like random.sample used to do exactly what I want. – Jacob Eggers Apr 21 '12 at 5:44
up vote 3 down vote accepted

I believe it's impossible to do the limiting and no sorting after splitting while keeping the randomness in a simpler way than just sampling and reordering.

If there was no limit, it would be as random as the RNG can by by iterating over the list, and choosing randomly which destination list to send the values to:

>>> import random
>>> x = range(20)
>>> a = []
>>> b = []
>>> for v in x:
...     random.choice((a, b)).append(v)
>>> a
[0, 2, 3, 4, 6, 7, 10, 12, 15, 17]
>>> b
[1, 5, 8, 9, 11, 13, 14, 16, 18, 19]

If you can deal with some bias, you can stop appending to the first list when it reaches the limit and still use the solution above. If you'll deal with small lists like in your example, it shouldn't be a big deal to retry it until you get the first list length right.

If you want it to be really random and be able to limit the first list size, then you'll have to give up and reorder at least one of the lists. The closest to a one liner implementation I can think is something like:

>>> x = range(20)
>>> b = x[:]
>>> a = sorted([b.pop(b.index(random.choice(b))) for n in xrange(limit)])
>>> a
[0, 1, 5, 10, 15, 16, 17]
>>> b
[2, 3, 4, 6, 7, 8, 9, 11, 12, 13, 14, 18, 19]

You have to sort a, but b has the order kept.


Now, do you really have to avoid reordering at all costs? Many neat solutions were posted, and your second solution is very nice, but none of them is simpler, easier and shorter than:

def random_split(items, size):
    sample = set(random.sample(items, size))
    return sorted(sample), sorted(set(items) - sample)

Even considering both sorting operations, I think it's hard to beat that one for simplicity and efficiency. Consider how optimized Python's Timsort is and how most other methods have to iterate over the n items at least once for each list.

If you really must avoid reordering, I guess this one also works and is very easy and simple, but iterates twice:

def random_split(items, size):
    sample = set(random.sample(items, size))
    a = [x for x in items if x in sample]
    b = [x for x in items if x not in sample]
    return a, b

This is essentially the same as Hexparrot's solution with the set(sample) suggested by senderle to make comparisons O(1), and removing the redundant index sample and enumerate calls. You don't need that if you deal only with hashable objects.

share|improve this answer
Don't forget the second parameter to random_split – Ray Toal Apr 21 '12 at 4:48
Ops... that makes it a lot more complicate. It will be hard to find anything simpler than the sample, diff and reorder method. Limiting size on iteration will cause the non-limited list to get the highest values more often. – Pedro Werneck Apr 21 '12 at 4:56
Hexparrot's method does two n*n search for the items after sampling, based on the ordered list, which is effectively sorting the sample, in a much more expensive way than sorted(sample()) would be. So, that method is not only doing exactly what the OP isn't willing to do, but doing it in the most expensive way. – Pedro Werneck Apr 21 '12 at 22:44
And I didn't said I believe it's impossible to do. I said I believe it's impossible to limit one of the samples while keeping the order and doing no further sorting without losing randomness. The solution given by the OP on his edit2 is the closest to it, which is essentially the same as the first solution I proposed, but I'm not sure it doesn't reduce randomness. – Pedro Werneck Apr 21 '12 at 22:48
@pjwerneck, you're mistaken. The OP's edit2 is totally different from your first solution, and it accomplishes exactly what you say you believe is impossible. It randomly partitions the list into two lists of size n and len(x) - n every time, in a uniformly random way, maintaining the original order, without sorting. – senderle Apr 21 '12 at 23:03

How about this approach. Random sample from the indexes and return two lists from two list comprehensions if in and if not in:

def random_split(lst, size):
    import random
    samp = set(random.sample(xrange(len(lst)),size))
    return ([v for i,v in enumerate(lst) if i in samp],
            [v for i,v in enumerate(lst) if i not in samp])

x = ['abc', 'c', 'w', 't', '3']

print random_split(x,3)


(['abc', 't', '3'], ['c', 'w']) #random and retains order
share|improve this answer
It's a nice way to do it, but the n*n searches for the membership checks make it a lot worse than the sample-reorder approach. – Pedro Werneck Apr 21 '12 at 19:01
+1; but change samp to a set to avoid the O(n) overhead of a linear search. – senderle Apr 21 '12 at 22:30
Since the list comprehension is ordered, there's no real need to iterate over a random sample of indexes and enumerate the list. A sample of values and a simple iteration would work as well. – Pedro Werneck Apr 22 '12 at 0:13
Another small nit-pick: no need to call list() on your two list comprehensions; the comprehensions return lists already. – senderle Apr 24 '12 at 19:03
@PedroWerneck Yes, but wouldn't sample of values (rather than sample of indexes) not permit the OPs bonus request of duplicate values? (see comments). – hexparrot Apr 24 '12 at 19:34

Ok, there have been lots of interesting suggestions, one of which I inadvertently duplicated in a previous version of this post. But here are two solutions that have not been presented in this exact form:

def random_split(seq, n):
    indices = set(random.sample(range(len(seq)), n))
    left_right = ([], [])
    for n, x in enumerate(seq):
        left_right[n not in indices].append(x)
    return left_right

This does just one pass through the list and produces a uniformly random partition of the list, maintaining order. It's a refinement of hexparrot's suggestion, which was the one I inadvertently duplicated. You could use the ternary operator and two separate lists, but this seems a tad cleaner to me. Using enumerate allows this to handle non-hashable items, as well as sequences with duplicates.

def random_split(seq, n):
    rnd_bools = random.sample((0,) * n + (1,) * (len(seq) - n), len(seq))
    left_right = ([], [])
    for b, x in zip(rnd_bools, seq):
    return left_right

This one feels right to me. It's a refinement of Jacob Eggers second edit to the question. It's not very different, but instead of shuffling a list of lists, it shuffles a list of bools. I think it's a tad more comprehensible at first glance. It avoids the 2-line shuffle by using random.sample, which generates a copy; some may prefer the 2-line shuffle, and it's easily replaced.

Note that both of these work on the same basic principle: generate a sequence of bools and use them to index a left_right tuple; the first could easily be made almost identical to the second by pre-generating the boolean list.

Finally, the second solution can be converted into a profoundly ugly "one-liner" that I do not recommend -- obviously -- but that I display here for your amusement and ridicule:

random_split = lambda seq, n: reduce(lambda a, b: (a[0] + ([b[1]] if not b[0] else []), a[1] + ([b[1]] if b[0] else [])), zip(random.sample((0,) * n + (1,) * (len(seq) - n), len(seq)), seq), ([], []))
share|improve this answer

Here is a transcript you can turn into a function:

>>> a = [10,20,30,40,50,60]
>>> keep = sorted(random.sample(range(len(a)),3))
>>> keep
[0, 3, 4]
>>> ([a[i] for i in keep], [a[i] for i in range(len(a)) if i not in keep])
([10, 40, 50], [20, 30, 60])
share|improve this answer
That doesn't keep original order. – Pedro Werneck Apr 21 '12 at 5:05
He also doesn't want to do sample and sorting. :) – Pedro Werneck Apr 21 '12 at 5:14
Good point. Time to search through itertools. – Ray Toal Apr 21 '12 at 5:16

A variation on the shuffle-sort theme...

def random_split(L, size):
    index = range(len(L))
    return ([L[i] for i in sorted(index[:size])],
            [L[i] for i in sorted(index[size:])])
share|improve this answer

I'm taking a guess that your random_split isn't supposed to give repeat elements.

If you don't have any duplicates in the original list, this will work as a one-liner as you have it in the original post, but it uses sorting. It's a very simple, if inefficient method of doing it:

import random

x = ['abc', 'c', 'w', 't', '3']

def random_split(x, n):
    k = x[:]
    yield sorted(k[:n], key = x.index)
    yield sorted(k[n:], key = x.index)

a, b = random_split(x, 3)

Example of results:

>>> a
['c', 'w', 't']
>>> b
['abc', '3']
share|improve this answer

Here's something in a few lines:

from random import sample
x = ['abc', 'c', 'w', 't', '3']
sample_size = len(x) // 2

sample_set = set(sample(x, sample_size))
split_list = [[x[i] for i in subset] for subset in (sorted(sample_set), sorted(set(x) - sample_set))]
share|improve this answer

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