I have a big dictionary object that has several key value pairs (about 16), but I am only interested in 3 of them. What is the best way (shortest/efficient/most elegant) to achieve that?

The best I know is:

bigdict = {'a':1,'b':2,....,'z':26} 
subdict = {'l':bigdict['l'], 'm':bigdict['m'], 'n':bigdict['n']}

I am sure there is a more elegant way than this.


13 Answers 13


You could try:

dict((k, bigdict[k]) for k in ('l', 'm', 'n'))

... or in Python 3 Python versions 2.7 or later (thanks to Fábio Diniz for pointing that out that it works in 2.7 too):

{k: bigdict[k] for k in ('l', 'm', 'n')}

Update: As Håvard S points out, I'm assuming that you know the keys are going to be in the dictionary - see his answer if you aren't able to make that assumption. Alternatively, as timbo points out in the comments, if you want a key that's missing in bigdict to map to None, you can do:

{k: bigdict.get(k, None) for k in ('l', 'm', 'n')}

If you're using Python 3, and you only want keys in the new dict that actually exist in the original one, you can use the fact to view objects implement some set operations:

{k: bigdict[k] for k in bigdict.keys() & {'l', 'm', 'n'}}
  • 7
    Will fail if bigdict does not contain k
    – Håvard S
    Mar 18, 2011 at 13:29
  • 12
    {k: bigdict.get(k,None) for k in ('l', 'm', 'n')} will deal with the situation where a specified key is missing in the source dictionary by setting key in the new dict to None
    – timbo
    Dec 21, 2013 at 22:44
  • 9
    @MarkLongair Depending on the use case {k: bigdict[k] for k in ('l','m','n') if k in bigdict} might be better, as it only stores the keys that actually have values. Mar 7, 2014 at 22:20
  • 6
    bigdict.keys() & {'l', 'm', 'n'} ==> bigdict.viewkeys() & {'l', 'm', 'n'} for Python2.7
    – kxr
    Aug 25, 2016 at 15:58
  • 1
    The last solution is nice because you can just replace the '&' with a - to get an "all keys except" operation. Unfortunately that results in a dictionary with differently ordered keys (even in python 3.7 and 3.8)
    – naught101
    Jun 19, 2020 at 1:51

A bit shorter, at least:

wanted_keys = ['l', 'm', 'n'] # The keys you want
dict((k, bigdict[k]) for k in wanted_keys if k in bigdict)
  • 9
    +1 for alternate behavior of excluding a key if it is not in bigdict as opposed to setting it to None.
    – dhj
    Jun 12, 2014 at 18:35
  • 1
    Alternatively: dict((k,bigdict.get(k,defaultVal) for k in wanted_keys) if you must have all keys. May 1, 2018 at 20:57
  • 4
    This answer is saved by a "t". May 29, 2019 at 7:42
  • 1
    Also a bit shorter variant (syntax) of your solution is when using {}, i.e. {k: bigdict[k] for k in wanted_keys if k in bigdict}
    – Arty
    Oct 4, 2021 at 3:42
interesting_keys = ('l', 'm', 'n')
subdict = {x: bigdict[x] for x in interesting_keys if x in bigdict}
  • @loutre how else do you propose to ensure you extract all the data for the given keys? Aug 10, 2020 at 9:18
  • 1
    sry I made a mistake. I was thinking you were looping on "bigdict". My bad. I delete my comment
    – loutre
    Aug 12, 2020 at 8:13

A bit of speed comparison for all mentioned methods:

UPDATED on 2020.07.13 (thx to @user3780389): ONLY for keys from bigdict.

 IPython 5.5.0 -- An enhanced Interactive Python.
Python 2.7.18 (default, Aug  8 2019, 00:00:00) 
[GCC 7.3.1 20180303 (Red Hat 7.3.1-5)] on linux2
import numpy.random as nprnd
  ...: keys = nprnd.randint(100000, size=10000)
  ...: bigdict = dict([(_, nprnd.rand()) for _ in range(100000)])
  ...: %timeit {key:bigdict[key] for key in keys}
  ...: %timeit dict((key, bigdict[key]) for key in keys)
  ...: %timeit dict(map(lambda k: (k, bigdict[k]), keys))
  ...: %timeit {key:bigdict[key] for key in set(keys) & set(bigdict.keys())}
  ...: %timeit dict(filter(lambda i:i[0] in keys, bigdict.items()))
  ...: %timeit {key:value for key, value in bigdict.items() if key in keys}
100 loops, best of 3: 2.36 ms per loop
100 loops, best of 3: 2.87 ms per loop
100 loops, best of 3: 3.65 ms per loop
100 loops, best of 3: 7.14 ms per loop
1 loop, best of 3: 577 ms per loop
1 loop, best of 3: 563 ms per loop

As it was expected: dictionary comprehensions are the best option.

  • The first 3 operations are doing a different thing to the last two, and will result in an error if key doesn't exist in bigdict.
    – naught101
    Jun 19, 2020 at 1:56
  • 2
    nice. maybe worth adding {key:bigdict[key] for key in bigdict.keys() & keys} from the accepted solution which accomplishes the filter while actually being faster (on my machine) than the first method you list which doesn't filter. In fact, {key:bigdict[key] for key in set(keys) & set(bigdict.keys())} seems to be even faster for these very large sets of keys ...
    – teichert
    Jul 8, 2020 at 18:30
  • @telchert you are missing, that in the giving speed comparison bigdict.keys() & keys are not sets. And with explicit conversion to sets accepted solution is not so fast.
    – Sklavit
    Oct 18, 2021 at 13:58

This answer uses a dictionary comprehension similar to the selected answer, but will not except on a missing item.

python 2 version:

{k:v for k, v in bigDict.iteritems() if k in ('l', 'm', 'n')}

python 3 version:

{k:v for k, v in bigDict.items() if k in ('l', 'm', 'n')}
  • 5
    ...but if the big dict is HUGE it will still be iterated over completely (this is an O(n) operation), while the inverse would just grab 3 items (each an O(1) operation). Oct 5, 2015 at 16:08
  • 1
    The question is about a dictionary of only 16 keys
    – Meow
    Oct 6, 2015 at 17:09


subdict=dict([(x,bigdict[x]) for x in ['l', 'm', 'n']])

Python 3 even supports the following:

subdict={a:bigdict[a] for a in ['l','m','n']}

Note that you can check for existence in dictionary as follows:

subdict=dict([(x,bigdict[x]) for x in ['l', 'm', 'n'] if x in bigdict])

resp. for python 3

subdict={a:bigdict[a] for a in ['l','m','n'] if a in bigdict}
  • Fails if a is not in bigdict
    – Håvard S
    Mar 18, 2011 at 13:31
  • the things that are said to work only in python 3, also work in 2.7 May 14, 2021 at 15:07

You can also use map (which is a very useful function to get to know anyway):

sd = dict(map(lambda k: (k, l.get(k, None)), l))


large_dictionary = {'a1':123, 'a2':45, 'a3':344}
list_of_keys = ['a1', 'a3']
small_dictionary = dict(map(lambda key: (key, large_dictionary.get(key, None)), list_of_keys))

PS: I borrowed the .get(key, None) from a previous answer :)


An alternative approach for if you want to retain the majority of the keys while removing a few:

{k: bigdict[k] for k in bigdict.keys() if k not in ['l', 'm', 'n']}
  • 4
    Even shorter: {k: v for k, v in bigdict.items() if k not in ['l', 'm', 'n']} Oct 11, 2021 at 13:42

Okay, this is something that has bothered me a few times, so thank you Jayesh for asking it.

The answers above seem like as good a solution as any, but if you are using this all over your code, it makes sense to wrap the functionality IMHO. Also, there are two possible use cases here: one where you care about whether all keywords are in the original dictionary. and one where you don't. It would be nice to treat both equally.

So, for my two-penneth worth, I suggest writing a sub-class of dictionary, e.g.

class my_dict(dict):
    def subdict(self, keywords, fragile=False):
        d = {}
        for k in keywords:
                d[k] = self[k]
            except KeyError:
                if fragile:
        return d

Now you can pull out a sub-dictionary with


Usage examples:

## our keywords are letters of the alphabet
keywords = 'abcdefghijklmnopqrstuvwxyz'
## our dictionary maps letters to their index
d = my_dict([(k,i) for i,k in enumerate(keywords)])
print('Original dictionary:\n%r\n\n' % (d,))
## constructing a sub-dictionary with good keywords
oddkeywords = keywords[::2]
subd = d.subdict(oddkeywords)
print('Dictionary from odd numbered keys:\n%r\n\n' % (subd,))
## constructing a sub-dictionary with mixture of good and bad keywords
somebadkeywords = keywords[1::2] + 'A'
    subd2 = d.subdict(somebadkeywords)
    print("We shouldn't see this message")
except KeyError:
    print("subd2 construction fails:")
    print("\toriginal dictionary doesn't contain some keys\n\n")
## Trying again with fragile set to false
    subd3 = d.subdict(somebadkeywords, fragile=False)
    print('Dictionary constructed using some bad keys:\n%r\n\n' % (subd3,))
except KeyError:
    print("We shouldn't see this message")

If you run all the above code, you should see (something like) the following output (sorry for the formatting):

Original dictionary:
{'a': 0, 'c': 2, 'b': 1, 'e': 4, 'd': 3, 'g': 6, 'f': 5, 'i': 8, 'h': 7, 'k': 10, 'j': 9, 'm': 12, 'l': 11, 'o': 14, 'n': 13, 'q': 16, 'p': 15, 's': 18, 'r': 17, 'u': 20, 't': 19, 'w': 22, 'v': 21, 'y': 24, 'x': 23, 'z': 25}

Dictionary from odd numbered keys:
{'a': 0, 'c': 2, 'e': 4, 'g': 6, 'i': 8, 'k': 10, 'm': 12, 'o': 14, 'q': 16, 's': 18, 'u': 20, 'w': 22, 'y': 24}

subd2 construction fails:
original dictionary doesn't contain some keys

Dictionary constructed using some bad keys:
{'b': 1, 'd': 3, 'f': 5, 'h': 7, 'j': 9, 'l': 11, 'n': 13, 'p': 15, 'r': 17, 't': 19, 'v': 21, 'x': 23, 'z': 25}

  • 1
    Subclassing requires an existing dict object to be converted into the subclass type, which can be expensive. Why not just write a simple function subdict(orig_dict, keys, …)?
    – musiphil
    Jul 17, 2015 at 17:43
  • @musiphil: I doubt there's much difference in overhead. The nice thing about subclassing is the method is part of the class and doesn't need to be imported or in-lined. Only potential problem or limitation of the code in this answer is the result is not of type my_dict.
    – martineau
    Sep 14, 2021 at 21:37

Yet another one (I prefer Mark Longair's answer)

di = {'a':1,'b':2,'c':3}
req = ['a','c','w']
dict([i for i in di.iteritems() if i[0] in di and i[0] in req])
  • its slow for bigdict's
    – kxr
    Jan 28, 2016 at 8:10


from operator import itemgetter
from typing import List, Dict, Union

def subdict(d: Union[Dict, List], columns: List[str]) -> Union[Dict, List[Dict]]:
    """Return a dict or list of dicts with subset of 
    columns from the d argument.
    getter = itemgetter(*columns)

    if isinstance(d, list):
        result = []
        for subset in map(getter, d):
            record = dict(zip(columns, subset))
        return result
    elif isinstance(d, dict):
        return dict(zip(columns, getter(d)))

    raise ValueError('Unsupported type for `d`')

examples of use

# pure dict

d = dict(a=1, b=2, c=3)
print(subdict(d, ['a', 'c']))

>>> In [5]: {'a': 1, 'c': 3}
# list of dicts

d = [
    dict(a=1, b=2, c=3),
    dict(a=2, b=4, c=6),
    dict(a=4, b=8, c=12),

print(subdict(d, ['a', 'c']))

>>> In [5]: [{'a': 1, 'c': 3}, {'a': 2, 'c': 6}, {'a': 4, 'c': 12}]

Using map (halfdanrump's answer) is best for me, though haven't timed it...

But if you go for a dictionary, and if you have a big_dict:

  1. Make absolutely certain you loop through the the req. This is crucial, and affects the running time of the algorithm (big O, theta, you name it)
  2. Write it generic enough to avoid errors if keys are not there.

so e.g.:

big_dict = {'a':1,'b':2,'c':3,................................................}
req = ['a','c','w']

{k:big_dict.get(k,None) for k in req )
# or 
{k:big_dict[k] for k in req if k in big_dict)

Note that in the converse case, that the req is big, but my_dict is small, you should loop through my_dict instead.

In general, we are doing an intersection and the complexity of the problem is O(min(len(dict)),min(len(req))). Python's own implementation of intersection considers the size of the two sets, so it seems optimal. Also, being in c and part of the core library, is probably faster than most not optimized python statements. Therefore, a solution that I would consider is:

dict = {'a':1,'b':2,'c':3,................................................}
req = ['a','c','w',...................]

{k:dic[k] for k in set(req).intersection(dict.keys())}

It moves the critical operation inside python's c code and will work for all cases.


In case someone wants first few items n of the dictionary without knowing the keys:

n = 5 # First Five Items
ks = [*dikt.keys()][:n]
less_dikt = {i: dikt[i] for i in ks}

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