I know how to remove an entry, 'key' from my dictionary d, safely. You do:

if d.has_key('key'):
    del d['key']

However, I need to remove multiple entries from a dictionary safely. I was thinking of defining the entries in a tuple as I will need to do this more than once.

entities_to_remove = ('a', 'b', 'c')
for x in entities_to_remove:
    if x in d:
        del d[x]

However, I was wondering if there is a smarter way to do this?

  • 3
    Retrieval time from a dictionary is nearly O(1) because of hashing. Unless you are removing a significant proportion of the entries, I don't think you will do much better. Jan 24, 2012 at 23:22
  • 1
    The answer of @mattbornski seems more canonical, and also succincter.
    – 0 _
    Jul 10, 2015 at 9:11
  • 3
    StackOverflow hath spoken: key in d is more Pythonic than d.has_key(key) stackoverflow.com/questions/1323410/has-key-or-in Jul 26, 2017 at 22:11
  • If you can spare a bit of memory, you can do for x in set(d) & entities_to_remove: del d[x]. This will probably only be more efficient if entities_to_remove is "large".
    – DylanYoung
    Apr 15, 2020 at 15:32

16 Answers 16


Using dict.pop:

d = {'some': 'data'}
entries_to_remove = ('any', 'iterable')
for k in entries_to_remove:
    d.pop(k, None)
  • 61
    This. This is the clever Pythonista's choice. dict.pop() eliminates the need for key existence testing. Excellent. Mar 11, 2016 at 1:51
  • 8
    For what it's worth, I think .pop() is bad and unpythonic, and would prefer the accepted answer over this one.
    – Arne
    Mar 14, 2018 at 16:03
  • 9
    A staggering number of people appear unbothered by this :) I don't mind the extra line for existence checking personally, and it's significantly more readable unless you already know about pop(). On the other hand if you were trying to do this in a comprehension or inline lambda this trick could be a big help. I'd also say that it's important, in my opinion, to meet people where they are. I'm not sure that "bad and unpythonic" is going to give the people who are reading these answers the practical guidance they are looking for. Mar 14, 2018 at 17:14
  • 11
    There is a particularly good reason to use this. While adding an extra line may improve "readability" or "clarity", it also adds an extra lookup to the dictionary. This method is the removal equivalent of doing setdefault. If implemented correctly (and I'm sure it is), it only does one lookup into the hash-map that is the dict, instead of two. Jun 8, 2018 at 21:22
  • 4
    Personally I would be concerned with correctness and maintainability first, and speed only if it is proven to be insufficiently fast. The speed difference between these operations is going to be trivial when zoomed out to the application level. It may be the case that one is faster, but I expect that in real world usage you will neither notice nor care, and if you do notice and care, you will be better served rewriting in something more performant than Python. Aug 26, 2019 at 21:01

Using Dict Comprehensions

final_dict = {key: value for key, value in d.items() if key not in [key1, key2]}

where key1 and key2 are to be removed.

In the example below, keys "b" and "c" are to be removed & it's kept in a keys list.

>>> a
{'a': 1, 'c': 3, 'b': 2, 'd': 4}
>>> keys = ["b", "c"]
>>> print {key: a[key] for key in a if key not in keys}
{'a': 1, 'd': 4}
  • 4
    new dictionary? list comprehension? You should adjust the answer to the person asking the question ;)
    – Glaslos
    Jan 24, 2012 at 23:34
  • 7
    This solution has a serious performance hit when the variable holding the has further use in the program. In other words, a dict from which keys have been deleted is much more efficient than a newly created dict with the retained items.
    – Apalala
    Mar 29, 2013 at 18:08
  • 23
    for the sake of readability, I suggest {k:v for k,v in t.items() if k not in [key1, key2]} Jul 26, 2015 at 16:23
  • 9
    This also has performance issues when the list of keys is too big, as searches take O(n). The whole operation is O(mn), where m is the number of keys in the dict and n the number of keys in the list. I suggest using a set {key1, key2} instead, if possible.
    – ldavid
    Oct 4, 2015 at 1:17
  • 4
    To Apalala: can you help me understand why there's an performance hit?
    – Sean
    Oct 26, 2016 at 5:31

Why not like this:

entries = ('a', 'b', 'c')
the_dict = {'b': 'foo'}

def entries_to_remove(entries, the_dict):
    for key in entries:
        if key in the_dict:
            del the_dict[key]

A more compact version was provided by mattbornski using dict.pop()

  • 23
    Adding this for people coming from a search engine. If keys are known (when safety is not an issue), multiple keys can be deleted in one line like this del dict['key1'], dict['key2'], dict['key3']
    – Tirtha R
    May 3, 2018 at 23:24
  • 3
    Depending on the number of keys you're deleting, it might be more efficient to use for key in set(the_dict) & entries: and bypass the key in dict test.
    – DylanYoung
    Apr 15, 2020 at 15:30

a solution is using map and filter functions

python 2

map(d.__delitem__, filter(d.__contains__,l))

python 3

list(map(d.__delitem__, filter(d.__contains__,l)))

you get:

{'c': 3}
  • This doesn't work for me with python 3.4: >>> d={"a":1,"b":2,"c":3} >>> l=("a","b","d") >>> map(d.__delitem__, filter(d.__contains__,l)) <map object at 0x10579b9e8> >>> print(d) {'a': 1, 'b': 2, 'c': 3}
    – Risadinha
    Jun 14, 2015 at 12:27
  • @Risadinha list(map(d.__delitem__,filter(d.__contains__,l))) .... in python 3.4 map function return a iterator Jun 15, 2015 at 0:28
  • 4
    or deque(map(...), maxlen=0) to avoid building a list of None values; first import with from collections import deque
    – Jason
    Jun 6, 2016 at 2:14

If you also need to retrieve the values for the keys you are removing, this would be a pretty good way to do it:

values_removed = [d.pop(k, None) for k in entities_to_remove]

You could of course still do this just for the removal of the keys from d, but you would be unnecessarily creating the list of values with the list comprehension. It is also a little unclear to use a list comprehension just for the function's side effect.

  • 5
    Or if you wanted to keep the deleted entries as a dictionary: valuesRemoved = dict((k, d.pop(k, None)) for k in entitiesToRemove) and so on.
    – kindall
    Jan 25, 2012 at 0:07
  • You can leave away the assignment to a variable. In this or that way it's the shortest and most pythonic solution and should be marked as the corect answer IMHO. Nov 16, 2015 at 9:31

Some timing tests for cpython 3 shows that a simple for loop is the fastest way, and it's quite readable. Adding in a function doesn't cause much overhead either:

timeit results (10k iterations):

  • all(x.pop(v) for v in r) # 0.85
  • all(map(x.pop, r)) # 0.60
  • list(map(x.pop, r)) # 0.70
  • all(map(x.__delitem__, r)) # 0.44
  • del_all(x, r) # 0.40
  • <inline for loop>(x, r) # 0.35
def del_all(mapping, to_remove):
      """Remove list of elements from mapping."""
      for key in to_remove:
          del mapping[key]

For small iterations, doing that 'inline' was a bit faster, because of the overhead of the function call. But del_all is lint-safe, reusable, and faster than all the python comprehension and mapping constructs.

  • Good function. Just make sure to handle the exception if a key was not found.
    – micho
    Dec 12, 2022 at 14:26

Found a solution with pop and map

d = {'a': 'valueA', 'b': 'valueB', 'c': 'valueC', 'd': 'valueD'}
keys = ['a', 'b', 'c']
list(map(d.pop, keys))

The output of this:

{'d': 'valueD'}

I have answered this question so late just because I think it will help in the future if anyone searches the same. And this might help.


The above code will throw an error if a key does not exist in the dict.

DICTIONARY = {'a': 'valueA', 'b': 'valueB', 'c': 'valueC', 'd': 'valueD'}
keys = ['a', 'l', 'c']

def remove_key(key):
    DICTIONARY.pop(key, None)

list(map(remove_key, keys))


DICTIONARY = {'b': 'valueB', 'd': 'valueD'}
  • 1
    This answer will throw an exception if any key in keys does not exist in d - you would have to filter that first.
    – ingofreyer
    Feb 28, 2019 at 7:53
  • @ingofreyer updated the code for exception handling. Thanks for finding this issue. I think now it will work. :) Mar 7, 2019 at 6:40
  • Thanks, this should help everyone finding this answer :-)
    – ingofreyer
    Mar 7, 2019 at 6:47
  • Creating a list as a by-product of using map, makes this quite slow, it's actually better to loop over it. May 28, 2020 at 16:52

I have tested the performance of three methods:

# Method 1: `del`
for key in remove_keys:
    if key in d:
        del d[key]

# Method 2: `pop()`
for key in remove_keys:
    d.pop(key, None)

# Method 3: comprehension
{key: v for key, v in d.items() if key not in remove_keys}

Here are the results of 1M iterations:

  1. del: 2.03s 2.0 ns/iter (100%)
  2. pop(): 2.38s 2.4 ns/iter (117%)
  3. comprehension: 4.11s 4.1 ns/iter (202%)

So both del and pop() are the fastest. Comprehensions are 2x slower. But anyway, we speak nanoseconds here :) Dicts in Python are ridiculously fast.

  • 1
    You forgot an t in the no word
    – igorkf
    Oct 7, 2020 at 12:08

I have no problem with any of the existing answers, but I was surprised to not find this solution:

keys_to_remove = ['a', 'b', 'c']
my_dict = {k: v for k, v in zip("a b c d e f g".split(' '), [0, 1, 2, 3, 4, 5, 6])}

for k in keys_to_remove:
        del my_dict[k]
    except KeyError:

assert my_dict == {'d': 3, 'e': 4, 'f': 5, 'g': 6}

Note: I stumbled across this question coming from here. And my answer is related to this answer.

  • 1
    Checking for membership is easier (and faster) than running try: except: Nov 25, 2022 at 12:50

Why not:

entriestoremove = (2,5,1)
for e in entriestoremove:
    if d.has_key(e):
        del d[e]

I don't know what you mean by "smarter way". Surely there are other ways, maybe with dictionary comprehensions:

entriestoremove = (2,5,1)
newdict = {x for x in d if x not in entriestoremove}


import functools

#: not key(c) in d
d = {"a": "avalue", "b": "bvalue", "d": "dvalue"}

entitiesToREmove = ('a', 'b', 'c')

#: python2
map(lambda x: functools.partial(d.pop, x, None)(), entitiesToREmove)

#: python3

list(map(lambda x: functools.partial(d.pop, x, None)(), entitiesToREmove))

# output: {'d': 'dvalue'}

It would be nice to have full support for set methods for dictionaries (and not the unholy mess we're getting with Python 3.9) so that you could simply "remove" a set of keys. However, as long as that's not the case, and you have a large dictionary with potentially a large number of keys to remove, you might want to know about the performance. So, I've created some code that creates something large enough for meaningful comparisons: a 100,000 x 1000 matrix, so 10,000,00 items in total.

from itertools import product
from time import perf_counter

# make a complete worksheet 100000 * 1000
start = perf_counter()
prod = product(range(1, 100000), range(1, 1000))
cells = {(x,y):x for x,y in prod}

print(f"Create time {perf_counter()-start:.2f}s")
clock = perf_counter()
# remove everything above row 50,000

keys = product(range(50000, 100000), range(1, 100))

# for x,y in keys:
#     del cells[x, y]

for n in map(cells.pop, keys):

stop = perf_counter()
print(f"Removal time {stop-clock:.2f}s")

10 million items or more is not unusual in some settings. Comparing the two methods on my local machine I see a slight improvement when using map and pop, presumably because of fewer function calls, but both take around 2.5s on my machine. But this pales in comparison to the time required to create the dictionary in the first place (55s), or including checks within the loop. If this is likely then its best to create a set that is a intersection of the dictionary keys and your filter:

keys = cells.keys() & keys

In summary: del is already heavily optimised, so don't worry about using it.


I think using the fact that the keys can be treated as a set is the nicest way if you're on python 3:

def remove_keys(d, keys):
    to_remove = set(keys)
    filtered_keys = d.keys() - to_remove
    filtered_values = map(d.get, filtered_keys)
    return dict(zip(filtered_keys, filtered_values))


>>> remove_keys({'k1': 1, 'k3': 3}, ['k1', 'k2'])
{'k3': 3}

Another map() way to remove list of keys from dictionary

and avoid raising KeyError exception

    dic = {
        'key1': 1,
        'key2': 2,
        'key3': 3,
        'key4': 4,
        'key5': 5,
keys_to_remove = ['key_not_exist', 'key1', 'key2', 'key3']
k = list(map(dic.pop, keys_to_remove, keys_to_remove))

print('k=', k)
print('dic after =  \n', dic)

**this will produce output** 

k= ['key_not_exist', 1, 2, 3]
dic after =  {'key4': 4, 'key5': 5}

Duplicate keys_to_remove is artificial, it needs to supply defaults values for dict.pop() function. You can add here any array with len_ = len(key_to_remove)

For example

dic = {
    'key1': 1,
    'key2': 2,
    'key3': 3,
    'key4': 4,
    'key5': 5,

keys_to_remove = ['key_not_exist', 'key1', 'key2', 'key3']    
k = list(map(dic.pop, keys_to_remove, np.zeros(len(keys_to_remove))))

print('k=', k)
print('dic after = ', dic)

** will produce output **

k= [0.0, 1, 2, 3]
dic after =  {'key4': 4, 'key5': 5}
def delete_keys_from_dict(dictionary, keys):
Deletes the unwanted keys in the dictionary
:param dictionary: dict
:param keys: list of keys
:return: dict (modified)
from collections.abc import MutableMapping

keys_set = set(keys)
modified_dict = {}
for key, value in dictionary.items():
    if key not in keys_set:
        if isinstance(value, list):
            modified_dict[key] = list()
            for x in value:
                if isinstance(x, MutableMapping):
                    modified_dict[key].append(delete_keys_from_dict(x, keys_set))
        elif isinstance(value, MutableMapping):
            modified_dict[key] = delete_keys_from_dict(value, keys_set)
            modified_dict[key] = value
return modified_dict

_d = {'a': 1245, 'b': 1234325, 'c': {'a': 1245, 'b': 1234325}, 'd': 98765,
      'e': [{'a': 1245, 'b': 1234325},
            {'a': 1245, 'b': 1234325},
            {'t': 767}]}

_output = delete_keys_from_dict(_d, ['a', 'b'])
_expected = {'c': {}, 'd': 98765, 'e': [{}, {}, {'t': 767}]}

I'm late to this discussion but for anyone else. A solution may be to create a list of keys as such.

k = ['a','b','c','d']

Then use pop() in a list comprehension, or for loop, to iterate over the keys and pop one at a time as such.

new_dictionary = [dictionary.pop(x, 'n/a') for x in k]

The 'n/a' is in case the key does not exist, a default value needs to be returned.

  • 9
    new_dictionary looks an awful lot like a list ;)
    – DylanYoung
    Dec 5, 2018 at 15:18

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