# What is the most pythonic way to pop a random element from a list?

Say I have a list `x` with unkown length from which I want to randomly pop one element so that the list does not contain the element afterwards. What is the most pythonic way to do this?

I can do it using a rather unhandy combincation of `pop`, `random.randint`, and `len`, and would like to see shorter or nicer solutions:

``````import random
x = [1,2,3,4,5,6]
x.pop(random.randint(0,len(x)-1))
``````

What I am trying to achieve is consecutively pop random elements from a list. (i.e., randomly pop one element and move it to a dictionary, randomly pop another element and move it to another dictionary, ...)

Note that I am using Python 2.6 and did not find any solutions via the search function.

• I'm not much of a Pythonista, but that sure looks pretty good to me. Apr 6, 2012 at 19:12
• a detailed time complexity analysis has been performed by me, see my answer somewhere down the road. SHUFFLE is NOT EFFICIENT ! but you can still use if you need to change order of items somehow. if pop(0) concerns you, use dequeue, mentioned in my analysis. Nov 12, 2020 at 0:12
• O(2) time complexity for the answer ive written. wrap it in a function for quick use. please note that any list.pop(n) other than list.pop(-1) takes O(n). Nov 13, 2020 at 21:57

What you seem to be up to doesn't look very Pythonic in the first place. You shouldn't remove stuff from the middle of a list, because lists are implemented as arrays in all Python implementations I know of, so this is an `O(n)` operation.

If you really need this functionality as part of an algorithm, you should check out a data structure like the `blist` that supports efficient deletion from the middle.

In pure Python, what you can do if you don't need access to the remaining elements is just shuffle the list first and then iterate over it:

``````lst = [1,2,3]
random.shuffle(lst)
for x in lst:
# ...
``````

If you really need the remainder (which is a bit of a code smell, IMHO), at least you can `pop()` from the end of the list now (which is fast!):

``````while lst:
x = lst.pop()
# do something with the element
``````

In general, you can often express your programs more elegantly if you use a more functional style, instead of mutating state (like you do with the list).

• So a better (faster) idea would be to use `random.shuffle(x)` and then `x.pop()`? I do not understand how to do this "functional"? Apr 6, 2012 at 19:21
• @Henrik: If you have two collections (for example, a list of dictionaries and a list of random numbers) and you want to iterate them at the same time, you can `zip` them to get a list of (dict, number) pairs. You said something about multiple dictionaries of which you want to associate each with a random number. `zip` is perfect for this Apr 6, 2012 at 19:48
• I'm supposed to add a post when I down-vote. There are times when you need to remove an item from the middle of a list...I have to do it right now. No choice: I have an ordered list, I have to remove an item in the middle. It sucks, but the only other choice is to do a heavy code refactoring for one semi-rare operation. The issue is one of implementation of [ ], which SHOULD be efficient for such operations, but is not. Nov 30, 2016 at 17:58
• @NiklasB. The OP was using random as an example (frankly, it should have been left off, it clouded the issue). "Don't do that" is insufficient. A better answer would have been to suggest a Python data structure that DOES support such operations while providing SUFFICIENT access speed (clearly not as good as arra...er...list). In python 2, I could not find one. If I do, I will answer with that. Note that due to a browser mishap, I was unable to add that in to my original comment, I should have added a secondary comment. Thank you for keeping me honest :) Nov 30, 2016 at 20:36
• @MarkGerolimatos There is no data structure with both efficient random access and insert/delete in the standard library. You probably want to use something like pypi.python.org/pypi/blist I would still argue that in a lot of use cases this can be avoided Nov 30, 2016 at 20:50

You won't get much better than that, but here is a slight improvement:

``````x.pop(random.randrange(len(x)))
``````

Documentation on `random.randrange()`:

random.randrange([start], stop[, step])
Return a randomly selected element from `range(start, stop, step)`. This is equivalent to `choice(range(start, stop, step))`, but doesn’t actually build a range object.

To remove a single element at random index from a list if the order of the rest of list elements doesn't matter:

``````import random

L = [1,2,3,4,5,6]
i = random.randrange(len(L)) # get random index
L[i], L[-1] = L[-1], L[i]    # swap with the last element
x = L.pop()                  # pop last element O(1)
``````

The swap is used to avoid O(n) behavior on deletion from a middle of a list.

despite many answers suggesting use `random.shuffle(x)` and `x.pop()` its very slow on large data. and time required on a list of `10000` elements took about `6 seconds` when shuffle is enabled. when shuffle is disabled speed was `0.2s`

the `fastest` method after testing all the given methods above was turned out to be written by @jfs because only one item is touched.

``````import random

L = [1,"2",[3],(4),{5:"6"},'etc'] #you can take mixed or pure list
i = random.randrange(len(L)) # get random index
L[i], L[-1] = L[-1], L[i]    # swap with the last element
x = L.pop()                  # pop last element O(1)
``````

alternatively enhancing (niklas answer), doing random.shuffle() over all elements (costly) which can be one-linered as:

``````random.shuffle((L := ["a","b",...,"z"])) # enjoy 🦭 walrus operator available in 3.10 :)
for el in L:
print(el)
``````

`jfs answer` "lazily" randomizes only 1 sample, and can be used with for loop. the benefit over The implementation of `niklas answer` random.shuffle() which uses the Fisher-Yates shuffle algorithm is that, it does not iterate all O(n). you are encouraged to use a generator and wrap it over to `only pay for what you use` , in other words, shuffle swaps `n` times.

in support of my claim regarding speed concerns for popping from middle, here is the time complexity chart from official source

## IF there are no duplicates in list,

you can achieve your purpose using sets too. once list made into set duplicates will be removed. `remove by value` and `remove random` cost `O(1)`, ie very effecient. this is the cleanest method i could come up with.

``````L=set([1,2,3,4,5,6...]) #directly input the list to inbuilt function set()
while 1:
r=L.pop()
#do something with r , r is random element of initial list L.
``````

Unlike `lists` which support `A+B` option, `sets` also support `A-B (A minus B)` along with `A+B (A union B)`and `A.intersection(B,C,D)`. super useful when you want to perform logical operations on the data.

## OPTIONAL

IF you want speed when operations performed on head and tail of list, use python dequeue (double ended queue) in support of my claim here is the image. an image is thousand words.

Here's another alternative: why don't you shuffle the list first, and then start popping elements of it until no more elements remain? like this:

``````import random

x = [1,2,3,4,5,6]
random.shuffle(x)

while x:
p = x.pop()
# do your stuff with p
``````
• @NiklasB. because we're removing elements from the list. If it's not absolutely necessary to remove elements, yes I agree with you: `[for p in x]` Apr 6, 2012 at 19:34
• Because it alters the list and if you just want to select half of the elements now and the other half later, you will have the remaining set later. Apr 6, 2012 at 19:34
• @Henrik: Okay, that's why I asked you if you need the remaining list. You didn't answer that. Apr 6, 2012 at 19:35

I know this is an old question, but just for documentation's sake:

If you (the person googling the same question) are doing what I think you are doing, which is selecting k number of items randomly from a list (where k<=len(yourlist)), but making sure each item is never selected more than one time (=sampling without replacement), you could use random.sample like @j-f-sebastian suggests. But without knowing more about the use case, I don't know if this is what you need.

One way to do it is:

``````x.remove(random.choice(x))
``````
• This could get problematic if elements occur more the once. Apr 6, 2012 at 19:15
• This will remove the leftmost element when there are duplicates, causing a not perfectly random result. Apr 6, 2012 at 19:15
• With `pop` you can point a name at the removed element, with this you can't.
– agf
Apr 6, 2012 at 19:17
• Fair enough, I agree that this is not very random when elements occur more than once. Apr 6, 2012 at 19:18
• Aside from the question of skewing your distribute, `remove` requires a linear scan of the list. That's terribly inefficient compared to looking up an index. Apr 6, 2012 at 19:39

While not popping from the list, I encountered this question on Google while trying to get X random items from a list without duplicates. Here's what I eventually used:

``````items = [1, 2, 3, 4, 5]
items_needed = 2
from random import shuffle
shuffle(items)
for item in items[:items_needed]:
print(item)
``````

This may be slightly inefficient as you're shuffling an entire list but only using a small portion of it, but I'm not an optimisation expert so I could be wrong.

• `random.sample(items, items_needed)`
– jfs
Nov 22, 2013 at 23:55

This answer comes courtesy of @niklas-b:

"You probably want to use something like pypi.python.org/pypi/blist "

To quote the PYPI page:

...a list-like type with better asymptotic performance and similar performance on small lists

The blist is a drop-in replacement for the Python list that provides better performance when modifying large lists. The blist package also provides sortedlist, sortedset, weaksortedlist, weaksortedset, sorteddict, and btuple types.

One would assume lowered performance on the random access/random run end, as it is a "copy on write" data structure. This violates many use case assumptions on Python lists, so use it with care.

HOWEVER, if your main use case is to do something weird and unnatural with a list (as in the forced example given by @OP, or my Python 2.6 FIFO queue-with-pass-over issue), then this will fit the bill nicely.