Is it possible to delete multiple elements from a list at the same time? If I want to delete elements at index 0 and 2, and try something like del somelist[0], followed by del somelist[2], the second statement will actually delete somelist[3].

I suppose I could always delete the higher numbered elements first but I'm hoping there is a better way.

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  • Use multiple slices if you care about efficiency. – tejasvi88 Aug 18 at 10:27

29 Answers 29


You can use enumerate and remove the values whose index matches the indices you want to remove:

indices = 0, 2
somelist = [i for j, i in enumerate(somelist) if j not in indices]
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  • 3
    Almost, only if you delete the entire list. it'll be len(indices) * len(somelist). It also creates a copy, which may or may not be desired – Richard Levasseur Jan 31 '09 at 2:26
  • if you're checking for a value in a list, it is. the 'in' operator works on the values of a list, whereas it works on the keys of a dict. If i'm wrong, please point me to the pep/reference – Richard Levasseur Jan 31 '09 at 2:42
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    the reason that i've chosen tuple for indices was only simplicity of the record. it would be a perfect job for set() giving O(n) – SilentGhost Jan 31 '09 at 3:57
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    This is not deleting items from somelist at all, but rather creating a brand new list. If anything is holding a reference to the original list, it will still have all the items in it. – Tom Future Jul 31 '11 at 16:09
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    @SilentGhost Not necessary to make an enumeration. How about this: somelist = [ lst[i] for i in xrange(len(lst)) if i not in set(indices) ]? – ToolmakerSteve Dec 14 '13 at 22:33

For some reason I don't like any of the answers here. Yes, they work, but strictly speaking most of them aren't deleting elements in a list, are they? (But making a copy and then replacing the original one with the edited copy).

Why not just delete the higher index first?

Is there a reason for this? I would just do:

for i in sorted(indices, reverse=True):
    del somelist[i]

If you really don't want to delete items backwards, then I guess you should just deincrement the indices values which are greater than the last deleted index (can't really use the same index since you're having a different list) or use a copy of the list (which wouldn't be 'deleting' but replacing the original with an edited copy).

Am I missing something here, any reason to NOT delete in the reverse order?

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  • 5
    There are two reasons. (a) For a list, the time complexity would be higher than the "make a copy" method (using a set of indices) on average (assuming random indices) because some elements need to be shifted forward multiple times. (b) At least for me, it's difficult to read, because there is a sort function that doesn't correspond to any actual program logic, and exists solely for technical reasons. Even though by now I already understand the logic thoroughly, I still feel it would be difficult to read. – Imperishable Night Oct 27 '18 at 3:20
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    @ImperishableNightcould you elaborate (a) ? I don't understand the "some elements need to be shifted". For (b) you could just define a function if you need reading clarity. – tglaria Oct 29 '18 at 16:00
  • worth mentioning that you can also use somelist.pop(i) instead of del if you want to do something with the item you are removing. – user5359531 Sep 14 at 20:07

If you're deleting multiple non-adjacent items, then what you describe is the best way (and yes, be sure to start from the highest index).

If your items are adjacent, you can use the slice assignment syntax:

a[2:10] = []
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  • 95
    You can also say del a[2:10] with the same effect. – sth Jan 30 '09 at 22:11
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    @sth Interestingly, del is little faster than the assigning. – thefourtheye Nov 18 '13 at 4:25

You can use numpy.delete as follows:

import numpy as np
a = ['a', 'l', 3.14, 42, 'u']
I = [0, 2]
np.delete(a, I).tolist()
# Returns: ['l', '42', 'u']

If you don't mind ending up with a numpy array at the end, you can leave out the .tolist(). You should see some pretty major speed improvements, too, making this a more scalable solution. I haven't benchmarked it, but numpy operations are compiled code written in either C or Fortran.

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  • 1
    general solution when elements are not consecutive +1 – noɥʇʎԀʎzɐɹƆ Jun 23 '16 at 22:17
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    question here, how about deleting ['a', 42]. – evanhutomo Nov 22 '17 at 8:20
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    HUGE bonus points for this solution, compared to the others, for speed. What I can say is that for a very large data set, it was taking me several minutes to achieve something that took just a few seconds with good ol' numpy. – legel Feb 22 at 18:59

As a specialisation of Greg's answer, you can even use extended slice syntax. eg. If you wanted to delete items 0 and 2:

>>> a= [0, 1, 2, 3, 4]
>>> del a[0:3:2]
>>> a
[1, 3, 4]

This doesn't cover any arbitrary selection, of course, but it can certainly work for deleting any two items.

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As a function:

def multi_delete(list_, *args):
    indexes = sorted(list(args), reverse=True)
    for index in indexes:
        del list_[index]
    return list_

Runs in n log(n) time, which should make it the fastest correct solution yet.

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  • 1
    The version with args.sort().reverse() is definitely better. It also happens to work with dicts instead of throwing or, worse, silently corrupting. – Roger Pate Jan 30 '09 at 22:45
  • sort() is not defined for tuple, you'd have to convert to list first. sort() returns None, so you couldn't use reverse() on it. – SilentGhost Jan 31 '09 at 1:38
  • @ R. Pate: I removed the first version for that reason. Thanks. @ SilentGhost: Fixed it. – Nikhil Chelliah Jan 31 '09 at 1:47
  • @Nikhil: no you didn't ;) args = list(args) args.sort() args.reverse() but better option would be: args = sorted(args, reverse=True) – SilentGhost Jan 31 '09 at 1:53
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    n log n? Really? I don't think del list[index] is O(1). – user202729 Jun 15 '18 at 2:56

So, you essentially want to delete multiple elements in one pass? In that case, the position of the next element to delete will be offset by however many were deleted previously.

Our goal is to delete all the vowels, which are precomputed to be indices 1, 4, and 7. Note that its important the to_delete indices are in ascending order, otherwise it won't work.

to_delete = [1, 4, 7]
target = list("hello world")
for offset, index in enumerate(to_delete):
  index -= offset
  del target[index]

It'd be a more complicated if you wanted to delete the elements in any order. IMO, sorting to_delete might be easier than figuring out when you should or shouldn't subtract from index.

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I'm a total beginner in Python, and my programming at the moment is crude and dirty to say the least, but my solution was to use a combination of the basic commands I learnt in early tutorials:

some_list = [1,2,3,4,5,6,7,8,10]
rem = [0,5,7]

for i in rem:
    some_list[i] = '!' # mark for deletion

for i in range(0, some_list.count('!')):
    some_list.remove('!') # remove
print some_list

Obviously, because of having to choose a "mark-for-deletion" character, this has its limitations.

As for the performance as the size of the list scales, I'm sure that my solution is sub-optimal. However, it's straightforward, which I hope appeals to other beginners, and will work in simple cases where some_list is of a well-known format, e.g., always numeric...

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  • 2
    instead of using '!' as your special character, use None. This keeps every character valid and frees up your possiblities – portforwardpodcast Nov 14 '15 at 0:22

Here is an alternative, that does not use enumerate() to create tuples (as in SilentGhost's original answer).

This seems more readable to me. (Maybe I'd feel differently if I was in the habit of using enumerate.) CAVEAT: I have not tested performance of the two approaches.

# Returns a new list. "lst" is not modified.
def delete_by_indices(lst, indices):
    indices_as_set = set(indices)
    return [ lst[i] for i in xrange(len(lst)) if i not in indices_as_set ]

NOTE: Python 2.7 syntax. For Python 3, xrange => range.


lst = [ 11*x for x in xrange(10) ]
somelist = delete_by_indices( lst, [0, 4, 5])


[11, 22, 33, 66, 77, 88, 99]

--- BONUS ---

Delete multiple values from a list. That is, we have the values we want to delete:

# Returns a new list. "lst" is not modified.
def delete__by_values(lst, values):
    values_as_set = set(values)
    return [ x for x in lst if x not in values_as_set ]


somelist = delete__by_values( lst, [0, 44, 55] )


[11, 22, 33, 66, 77, 88, 99]

This is the same answer as before, but this time we supplied the VALUES to be deleted [0, 44, 55].

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  • I've decided @SilentGhost's was only difficult to read, because of the non-descriptive variable names used for the result of the enumerate. Also, parens would have made it easier to read. So here is how I would word his solution (with "set" added, for performance): [ value for (i, value) in enumerate(lst) if i not in set(indices) ]. But I'll leave my answer here, because I also show how to delete by values. Which is an easier case, but might help someone. – ToolmakerSteve Dec 15 '13 at 0:05
  • @Veedrac- thank you; I've re-written to build the set first. What do you think - faster solution now than SilentGhost's? (I don't consider it important enough to actually time it, just asking your opinion.) Similarly, I would re-write SilentGhost's version as indices_as_set = set(indices), [ value for (i, value) in enumerate(lst) if i not in indices_as_set ], to speed it up. – ToolmakerSteve Nov 7 '14 at 1:42
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    Is there a style reason for the double underscore in delete__by_values()? – Tom May 25 '15 at 19:40

An alternative list comprehension method that uses list index values:

stuff = ['a', 'b', 'c', 'd', 'e', 'f', 'woof']
index = [0, 3, 6]
new = [i for i in stuff if stuff.index(i) not in index]

This returns:

['b', 'c', 'e', 'f']
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  • 1
    good answer, but naming the list of indexes as index is misleading since in the list iterator is used the method index() – Joe Jun 18 '19 at 10:49

here is another method which removes the elements in place. also if your list is really long, it is faster.

>>> a = range(10)
>>> remove = [0,4,5]
>>> from collections import deque
>>> deque((list.pop(a, i) for i in sorted(remove, reverse=True)), maxlen=0)

>>> timeit.timeit('[i for j, i in enumerate(a) if j not in remove]', setup='import random;remove=[random.randrange(100000) for i in range(100)]; a = range(100000)', number=1)

>>> timeit.timeit('deque((list.pop(a, i) for i in sorted(remove, reverse=True)), maxlen=0)', setup='from collections import deque;import random;remove=[random.randrange(100000) for i in range(100)]; a = range(100000)', number=1)
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  • +1: Interesting use of deque to perform a for action as part of an expression, rather than requiring a "for ..:" block. However, for this simple case, I find Nikhil's for block more readable. – ToolmakerSteve Dec 14 '13 at 20:43

This has been mentioned, but somehow nobody managed to actually get it right.

On O(n) solution would be:

indices = {0, 2}
somelist = [i for j, i in enumerate(somelist) if j not in indices]

This is really close to SilentGhost's version, but adds two braces.

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  • This is not O(n) if you count the lookups that take log(len(indices)) for each iteration. – Mad Physicist Oct 20 '15 at 19:34
  • @MadPhysicist j not in indices is O(1). – Veedrac Oct 21 '15 at 0:21
  • I am not sure how you get that number. Since indices is a set, j not in indices still requires lookup, which is O(log(len(indices))). While I agree that a lookup in a 2-element set qualifies as O(1), in the general case it will be O(log(N)). Either way O(N log(N)) still beats O(N^2). – Mad Physicist Oct 21 '15 at 12:44
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    @MadPhysicist j not in indices is O(1), seriously. – Veedrac Oct 21 '15 at 12:51
  • And what exactly did two braces do? – Nuclear03020704 Jun 15 at 8:26
l = ['a','b','a','c','a','d']
to_remove = [1, 3]
[l[i] for i in range(0, len(l)) if i not in to_remove])

It's basically the same as the top voted answer, just a different way of writing it. Note that using l.index() is not a good idea, because it can't handle duplicated elements in a list.

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Remove method will causes a lot of shift of list elements. I think is better to make a copy:

new_list = []
for el in obj.my_list:
   if condition_is_true(el):
del obj.my_list
obj.my_list = new_list
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technically, the answer is NO it is not possible to delete two objects AT THE SAME TIME. However, it IS possible to delete two objects in one line of beautiful python.

del (foo['bar'],foo['baz'])

will recusrively delete foo['bar'], then foo['baz']

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  • This deletes from a dict object, not a list, but I'm still +1'ing it cause it's darn pretty! – Ulf Aslak Feb 12 '16 at 17:33
  • It applies to list as well, with appropriate syntax. However the claim is that it is not possible to delete two objects at the same time is false; see answer by @bobince – Pedro Gimeno Oct 25 '19 at 18:44

we can do this by use of a for loop iterating over the indexes after sorting the index list in descending order

mylist=[66.25, 333, 1, 4, 6, 7, 8, 56, 8769, 65]
indexes = 4,6
indexes = sorted(indexes, reverse=True)
for i in index:
print mylist
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For the indices 0 and 2 from listA:

for x in (2,0): listA.pop(x)

For some random indices to remove from listA:

for x in sorted(indices)[::-1]: listA.pop(x)
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I wanted to a way to compare the different solutions that made it easy to turn the knobs.

First I generated my data:

import random

N = 16 * 1024
x = range(N)
y = random.sample(range(N), N / 10)

Then I defined my functions:

def list_set(value_list, index_list):
    index_list = set(index_list)
    result = [value for index, value in enumerate(value_list) if index not in index_list]
    return result

def list_del(value_list, index_list):
    for index in sorted(index_list, reverse=True):

def list_pop(value_list, index_list):
    for index in sorted(index_list, reverse=True):

Then I used timeit to compare the solutions:

import timeit
from collections import OrderedDict

M = 1000
setup = 'from __main__ import x, y, list_set, list_del, list_pop'
statement_dict = OrderedDict([
    ('overhead',  'a = x[:]'),
    ('set', 'a = x[:]; list_set(a, y)'),
    ('del', 'a = x[:]; list_del(a, y)'),
    ('pop', 'a = x[:]; list_pop(a, y)'),

overhead = None
result_dict = OrderedDict()
for name, statement in statement_dict.iteritems():
    result = timeit.timeit(statement, number=M, setup=setup)
    if overhead is None:
        overhead = result
        result = result - overhead
        result_dict[name] = result

for name, result in result_dict.iteritems():
    print "%s = %7.3f" % (name, result)


set =   1.711
del =   3.450
pop =   3.618

So the generator with the indices in a set was the winner. And del is slightly faster then pop.

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  • Thank you for this comparison, this led me to make my own tests (actually just borrowed your code) and for small number of items to remove, the overhead for creating a SET makes it the worst solution (use 10, 100, 500 for the length of 'y' and you'll see). As most of the times, this depends on the application. – tglaria Oct 10 '17 at 15:38

You can use this logic:

my_list = ['word','yes','no','nice']

c=[b for i,b in enumerate(my_list) if not i in (0,2,3)]

print c
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Another implementation of the idea of removing from the highest index.

for i in range(len(yourlist)-1, -1, -1):
    del yourlist(i)
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I can actually think of two ways to do it:

  1. slice the list like (this deletes the 1st,3rd and 8th elements)

    somelist = somelist[1:2]+somelist[3:7]+somelist[8:]

  2. do that in place, but one at a time:

    somelist.pop(2) somelist.pop(0)

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You can do that way on a dict, not on a list. In a list elements are in sequence. In a dict they depend only on the index.

Simple code just to explain it by doing:

>>> lst = ['a','b','c']
>>> dct = {0: 'a', 1: 'b', 2:'c'}
>>> lst[0]
>>> dct[0]
>>> del lst[0]
>>> del dct[0]
>>> lst[0]
>>> dct[0]
Traceback (most recent call last):
  File "<pyshell#19>", line 1, in <module>
KeyError: 0
>>> dct[1]
>>> lst[1]

A way to "convert" a list in a dict is:

>>> dct = {}
>>> for i in xrange(0,len(lst)): dct[i] = lst[i]

The inverse is:

lst = [dct[i] for i in sorted(dct.keys())] 

Anyway I think it's better to start deleting from the higher index as you said.

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  • Does Python guarantee [dct[i] for i in dct] will always use increasing values of i? If so, list(dct.values()) is surely better. – Roger Pate Jan 30 '09 at 22:41
  • I was not thinking about that. You're right. There is not guarantee as I read [here][1] that the items will be picked in order, or at least the expected order. I edited. [1]: docs.python.org/library/stdtypes.html#dict.items – Andrea Ambu Jan 31 '09 at 13:07
  • 2
    This answer talks about dictionaries in a fundamentally wrong way. A dictionary has KEYS (not INDICES). Yes, the key/value pairs are independent of each other. No, it doesn't matter what order you delete the entries in. Converting to a dictionary just to delete some elements from a list would be overkill. – ToolmakerSteve Dec 14 '13 at 20:15

To generalize the comment from @sth. Item deletion in any class, that implements abc.MutableSequence, and in list in particular, is done via __delitem__ magic method. This method works similar to __getitem__, meaning it can accept either an integer or a slice. Here is an example:

class MyList(list):
    def __delitem__(self, item):
        if isinstance(item, slice):
            for i in range(*item.indices(len(self))):
                self[i] = 'null'
            self[item] = 'null'

l = MyList(range(10))
del l[5:8]

This will output

[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
[0, 1, 2, 3, 4, 'null', 'null', 'null', 8, 9]
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Importing it only for this reason might be overkill, but if you happen to be using pandas anyway, then the solution is simple and straightforward:

import pandas as pd
stuff = pd.Series(['a','b','a','c','a','d'])
less_stuff = stuff[stuff != 'a']  # define any condition here
# results ['b','c','d']
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some_list.remove(some_list[max(i, j)])

Avoids sorting cost and having to explicitly copy list.

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None of the answers offered so far performs the deletion in place in O(n) on the length of the list for an arbitrary number of indices to delete, so here's my version:

def multi_delete(the_list, indices):
    assert type(indices) in {set, frozenset}, "indices must be a set or frozenset"
    offset = 0
    for i in range(len(the_list)):
        if i in indices:
            offset += 1
        elif offset:
            the_list[i - offset] = the_list[i]
    if offset:
        del the_list[-offset:]

# Example:
a = [0, 1, 2, 3, 4, 5, 6, 7]
multi_delete(a, {1, 2, 4, 6, 7})
print(a)  # prints [0, 3, 5]
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How about one of these (I'm very new to Python, but they seem ok):

ocean_basin = ['a', 'Atlantic', 'Pacific', 'Indian', 'a', 'a', 'a']
for i in range(1, (ocean_basin.count('a') + 1)):

['Atlantic', 'Pacific', 'Indian']

ob = ['a', 'b', 4, 5,'Atlantic', 'Pacific', 'Indian', 'a', 'a', 4, 'a']
remove = ('a', 'b', 4, 5)
ob = [i for i in ob if i not in (remove)]

['Atlantic', 'Pacific', 'Indian']

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I put it all together into a list_diff function that simply takes two lists as inputs and returns their difference, while preserving the original order of the first list.

def list_diff(list_a, list_b, verbose=False):

    # returns a difference of list_a and list_b,
    # preserving the original order, unlike set-based solutions

    # get indices of elements to be excluded from list_a
    excl_ind = [i for i, x in enumerate(list_a) if x in list_b]
    if verbose:

    # filter out the excluded indices, producing a new list 
    new_list = [i for i in list_a if list_a.index(i) not in excl_ind]
    if verbose:


Sample usage:

my_list = ['a', 'b', 'c', 'd', 'e', 'f', 'woof']
# index = [0, 3, 6]

# define excluded names list
excl_names_list = ['woof', 'c']

list_diff(my_list, excl_names_list)
>> ['a', 'b', 'd', 'e', 'f']
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You can use remove, too.

delete_from_somelist = []
for i in [int(0), int(2)]:
for j in delete_from_somelist:
     newlist = somelist.remove(j)
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