Let's say I have two lists, l1 and l2. I want to perform l1 - l2, which returns all elements of l1 not in l2.

I can think of a naive loop approach to doing this, but that is going to be really inefficient. What is a pythonic and efficient way of doing this?

As an example, if I have l1 = [1,2,6,8] and l2 = [2,3,5,8], l1 - l2 should return [1,6]

  • 9
    Just a tip: PEP8 states that lowercase "L" should not be used because it looks too much like a 1. – spelchekr Jun 10 '15 at 19:43
  • @spelchekr are you serious? Man, I'm just going to have to stop paying attention to PEP8. – jscul Aug 8 at 1:04
  • 1
    I agree. I read this whole question and the answers wondering why people kept using eleven and twelve. It was only when I read @spelchekr 's comment that it made sense. – robline Aug 21 at 17:15
  • 1
    Possible duplicate of dropping rows from dataframe based on a "not in" condition – Jim G. Sep 11 at 18:34
  • @JimG. Dataframe and list is not the same thing. – Mateusz Konieczny Nov 6 at 10:10

Python has a language feature called List Comprehensions that is perfectly suited to making this sort of thing extremely easy. The following statement does exactly what you want and stores the result in l3:

l3 = [x for x in l1 if x not in l2]

l3 will contain [1, 6].

  • 8
    Very pythonic; I like it! How efficient is it? – fandom Nov 18 '10 at 2:51
  • 2
    I believe quite efficient, and it has the benefit of being extremely readable and clear as to what you're trying to accomplish. I came across a blog post you might find interesting relating to efficiency: blog.cdleary.com/2010/04/efficiency-of-list-comprehensions – Donut Nov 18 '10 at 2:55
  • 5
    @fandom: the list comprehension itself is quite efficient (although a generator comprehension might be more efficient by not duplicating elements in memory), but the in operator isn't that efficient on a list. in on a list is O(n), whereas in on a set is O(1). However, until you get to thousands of elements or more, you're unlikely to notice the difference. – Daniel Pryden Nov 18 '10 at 3:10
  • 1
    l3 = [x for x in l1 if x not in set(l2)] ? I am sure if set(l2) would be called more than once. – Danosaure Nov 18 '10 at 6:30
  • 4
    You could also just set l2s = set(l2) and then say l3 = [x for x in l1 if x not in l2s]. Slightly easier. – spelchekr Jun 10 '15 at 19:40

One way is to use sets:

>>> set([1,2,6,8]) - set([2,3,5,8])
set([1, 6])
  • 53
    This will also remove duplicates from l1, which may be an undesired side effect. – kindall Nov 18 '10 at 4:43
  • 34
    ..and lose element order (if order is important). – Danosaure Nov 18 '10 at 6:27
  • 2
    Sorry gang but this is the best answer and the simplest to read. I need to generate random keys that I will store in a list. I need to make sure they are unique. So I have a range say from 1-10000 and then I have a list of numbers I have generated. A nice solution looks like this: random.sample( set( range(1,10) ) - set([2,3]), 1 ) – Tereus Scott Mar 12 '13 at 4:17
  • 3
    @TereusScott It is the best answer if your items are hashable. In my case, they weren't, so I had to use the selected answer. – Chris Redford Jun 26 '15 at 20:54
  • It should be noted that the output of a set is ordered, i.e. {1,3,2} becomes {1,2,3} and {"A","C","B"} becomes {"A","B","C"} and you might not want to have that. – Pablo Reyes Mar 8 '17 at 0:18

Expanding on Donut's answer and the other answers here, you can get even better results by using a generator comprehension instead of a list comprehension, and by using a set data structure (since the in operator is O(n) on a list but O(1) on a set).

So here's a function that would work for you:

def filter_list(full_list, excludes):
    s = set(excludes)
    return (x for x in full_list if x not in s)

The result will be an iterable that will lazily fetch the filtered list. If you need a real list object (e.g. if you need to do a len() on the result), then you can easily build a list like so:

filtered_list = list(filter_list(full_list, excludes))

As an alternative, you may also use filter with the lambda expression to get the desired result. For example:

>>> l1 = [1,2,6,8]
>>> l2 = set([2,3,5,8])

#     v  `filter` returns the a iterator object. Here I'm type-casting 
#     v  it to `list` in order to display the resultant value
>>> list(filter(lambda x: x not in l2, l1))
[1, 6]

Performance Comparison

Here I am comparing the performance of all the answers mentioned here. As expected, Arkku's set based operation is fastest.

  • Arkku's Set Difference - First (0.124 usec per loop)

    mquadri$ python -m timeit -s "l1 = set([1,2,6,8]); l2 = set([2,3,5,8]);" "l1 - l2"
    10000000 loops, best of 3: 0.124 usec per loop
  • Daniel Pryden's List Comprehension with set lookup - Second (0.302 usec per loop)

    mquadri$ python -m timeit -s "l1 = [1,2,6,8]; l2 = set([2,3,5,8]);" "[x for x in l1 if x not in l2]"
    1000000 loops, best of 3: 0.302 usec per loop
  • Donut's List Comprehension on plain list - Third (0.552 usec per loop)

    mquadri$ python -m timeit -s "l1 = [1,2,6,8]; l2 = [2,3,5,8];" "[x for x in l1 if x not in l2]"
    1000000 loops, best of 3: 0.552 usec per loop
  • Moinuddin Quadri's using filter - Fourth (0.972 usec per loop)

    mquadri$ python -m timeit -s "l1 = [1,2,6,8]; l2 = set([2,3,5,8]);" "filter(lambda x: x not in l2, l1)"
    1000000 loops, best of 3: 0.972 usec per loop
  • Akshay Hazari's using combination of reduce + filter - Fifth (3.97 usec per loop)

    mquadri$ python -m timeit "l1 = [1,2,6,8]; l2 = [2,3,5,8];" "reduce(lambda x,y : filter(lambda z: z!=y,x) ,l1,l2)"
    100000 loops, best of 3: 3.97 usec per loop

PS: set does not maintain the order and removes the duplicate elements from the list. Hence, do not use set difference if you need any of these.

  • 1
    Though reduce and map are much more flexible with working out how you would want the output. It sucks that everything else beats it. – Akshay Hazari Mar 3 '18 at 3:41

Use the Python set type. That would be the most Pythonic. :)

Also, since it's native, it should be the most optimized method too.



http://docs.python.org/library/sets.htm (for older python)

# Using Python 2.7 set literal format.
# Otherwise, use: l1 = set([1,2,6,8])
l1 = {1,2,6,8}
l2 = {2,3,5,8}
l3 = l1 - l2
  • 5
    When using sets it should be noted that the output of is ordered, i.e. {1,3,2} becomes {1,2,3} and {"A","C","B"} becomes {"A","B","C"} and you might not want to have that. – Pablo Reyes Mar 8 '17 at 0:19
  • 1
    this method will not work if list l1 includes repeated elements. – jdhao Nov 8 '18 at 2:36

Alternate Solution :

reduce(lambda x,y : filter(lambda z: z!=y,x) ,[2,3,5,8],[1,2,6,8])
  • 2
    Is there any advantage to using this method? It looks like it's more complex and harder to read without much benefit. – skrrgwasme Nov 7 '15 at 1:13
  • That might seem complex . Reduce is very flexible and can be used for a lot of purposes. It is known as fold . reduce is actually foldl . Suppose you want to add more complex stuff in it then it will be possible in this function but list comprehension which is the selected best answer will only get you an output of the same type i.e list and probably of the same length while with folds you could change the output type as well . en.wikipedia.org/wiki/Fold_%28higher-order_function%29 . This solution is n*m or less complexity. Others may or may not be better though. – Akshay Hazari Nov 9 '15 at 4:09
  • 1
    reduce (function , list , initial accumulator (which can be of any type)) – Akshay Hazari Nov 9 '15 at 4:11

use Set Comprehensions {x for x in l2} or set(l2) to get set, then use List Comprehensions to get list

l2set = set(l2)
l3 = [x for x in l1 if x not in l2set]

benchmark test code:

import time

l1 = list(range(1000*10 * 3))
l2 = list(range(1000*10 * 2))

l2set = {x for x in l2}

tic = time.time()
l3 = [x for x in l1 if x not in l2set]
toc = time.time()
diffset = toc-tic

tic = time.time()
l3 = [x for x in l1 if x not in l2]
toc = time.time()
difflist = toc-tic

print("speedup %fx"%(difflist/diffset))

benchmark test result:

speedup 2635.179227x    
  • l2set = set( l2 ) instead of l2set = { x for x in l2 } – c z Oct 31 at 10:42

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