I'm trying to write a custom filter method that takes an arbitrary number of kwargs and returns a list containing the elements of a database-like list that contain those kwargs.

For example, suppose d1 = {'a':'2', 'b':'3'} and d2 = the same thing. d1 == d2 results in True. But suppose d2 = the same thing plus a bunch of other things. My method needs to be able to tell if d1 in d2, but Python can't do that with dictionaries.


I have a Word class, and each object has properties like word, definition, part_of_speech, and so on. I want to be able to call a filter method on the main list of these words, like Word.objects.filter(word='jump', part_of_speech='verb-intransitive'). I can't figure out how to manage these keys and values at the same time. But this could have larger functionality outside this context for other people.


18 Answers 18


In Python 3, you can use dict.items() to get a set-like view of the dict items. You can then use the <= operator to test if one view is a "subset" of the other:

d1.items() <= d2.items()

In Python 2.7, use the dict.viewitems() to do the same:

d1.viewitems() <= d2.viewitems()

In Python 2.6 and below you will need a different solution, such as using all():

all(key in d2 and d2[key] == d1[key] for key in d1)
  • 1
    Caveat: if your program could potentially be used on Python 2.6 (or even below), the d1.items() <= d2.items() are actually comparing 2 lists of tuples, without particular order, so the final result will probably not reliable. For this reason, I switch to @blubberdiblub 's answer.
    – RayLuo
    Feb 17, 2017 at 20:43
  • @RayLuo Yes, viewitems is not the same as items. Edited to clarify.
    – augurar
    Feb 17, 2017 at 22:49
  • 2
    d1.items() <= d2.items() is undefined behavior. It is not documented in the official docs and, most important, this is not tested: github.com/python/cpython/blob/… So this is implementation dependent. Jul 13, 2017 at 19:57
  • 5
    @RodrigoMartins It's documented here: "For set-like views, all of the operations defined for the abstract base class collections.abc.Set are available"
    – augurar
    Jul 13, 2017 at 23:22
  • 3
    @RodrigoMartins If you're worried about future maintainers, wrap the operation in a clearly-named function or add a code comment. Lowering your code standards to the level of incompetent developers is a terrible idea.
    – augurar
    Oct 27, 2017 at 20:49

Convert to item pairs and check for containment.

all(item in superset.items() for item in subset.items())

Optimization is left as an exercise for the reader.

  • 21
    If the dict values are hashable, using viewitems() is the most optimizied way I can think of: d1.viewitems() <= d2.viewitems(). Timeit runs showed over a 3x performance improvement. If not hashable, even using iteritems() instead of items() leads to about a 1.2x improvement. This was done using Python 2.7.
    – Chad
    Mar 29, 2016 at 21:47
  • 50
    i don't think optimisation should be left to the reader - i'm worried people will actually use this without realising it's going to build a copy of superset.items() and iterate through it for every item in subset.
    – Rusty Rob
    Apr 4, 2016 at 2:10
  • 10
    With Python 3 items() will return lightweight views instead of copies. No further optimization is necessary.
    – Kentzo
    Sep 21, 2017 at 5:19
  • 3
    What about nested directories? Oct 18, 2017 at 10:02
  • 16
    this is hilarious. I'll leave the subject refinement of the humor to the reader. Mar 23, 2019 at 17:28

Note for people that need this for unit testing: there's also an assertDictContainsSubset() method in Python's TestCase class.


It's however deprecated in 3.2, not sure why, maybe there's a replacement for it.

  • 34
    was curious, found this in what's new in 3.2: The assertDictContainsSubset() method was deprecated because it was misimplemented with the arguments in the wrong order. This created hard-to-debug optical illusions where tests like TestCase().assertDictContainsSubset({'a':1, 'b':2}, {'a':1}) would fail. (Contributed by Raymond Hettinger.)
    – Pedru
    Dec 3, 2013 at 14:34
  • 2
    Wait, the left side is expected and the right side is actual... Shouldn't that fail? The only thing wrong with the function is that which one goes in which place is confusing? Feb 1, 2017 at 17:38
  • @JamesHutchison correct. Jun 22, 2022 at 3:55

For completeness, you can also do this:

def is_subdict(small, big):
    return dict(big, **small) == big

However, I make no claims whatsoever concerning speed (or lack thereof) or readability (or lack thereof).

Update: As pointed out by Boris' comment, this trick does not work if your small dict has non-string keys and you're using Python >= 3 (or in other words: in the face of arbitrarily typed keys, it only works in legacy Python 2.x).

If you are using Python 3.9 or newer, though, you can make it work both with non-string typed keys as well as get an even neater syntax.

Provided your code already has both dictionaries as variables, it's very concise to check for this inline:

if big | small == big:
    # do something

Otherwise, or if you prefer a reusable function as above, you can use this:

def is_subdict(small, big):
    return big | small == big

The working principle is the same as the first function, only this time around making use of the union operator that was extended to support dicts.

  • A side note: Other answers mentioning small.viewitems() <= big.viewitems() was promising, but with one caveat: if your program could also be used on Python 2.6 (or even below), the d1.items() <= d2.items() are actually comparing 2 lists of tuples, without particular order, so the final result will probably not reliable. For that reason, I switch to @blubberdiblub 's answer. Upvoted.
    – RayLuo
    Feb 17, 2017 at 20:45
  • This is cool, but it doesn't seem to work with nested dictionaries. Aug 26, 2019 at 12:21
  • @FrederikBaetens it's not meant to. Also, I believe there is no generally accepted way how to do that, because there are multiple ways you could go about it and there are multiple possible structures/restrictions you could impose on such dictionaries. Here are some questions that come to mind: How do you determine whether a deeper dictionary should be descended into? What about objects of a type that has dict as base class? What if it hasn't and still behaves like a dict? What if small and big contain values of different type at a matching key which still behave like dict? Aug 26, 2019 at 12:34
  • Those are valid points, but a basic function that worked with plain nested dicts should be nice. I posted an example here, but @NutCracker's solution is better Aug 26, 2019 at 13:04
  • 2
    {**big, **small} == big would have worked too, didn't need to wait till 3.9 for this!
    – ddejohn
    Oct 1, 2021 at 5:11

for keys and values check use: set(d1.items()).issubset(set(d2.items()))

if you need to check only keys: set(d1).issubset(set(d2))

  • 12
    The first expression won't work if any value in either of the dictionaries is not hashable. Jul 23, 2013 at 13:38
  • 6
    The second example can be shortened slightly by removing the set(d2), as "issubset accepts any iterable". docs.python.org/2/library/stdtypes.html#set
    – trojjer
    Jul 31, 2013 at 9:39
  • This is wrong: d1={'a':1,'b':2}; d2={'a':2,'b':1} -> the second snippet will return True... Sep 30, 2019 at 5:48
  • 3
    @FrancescoPasa The second snippet says explicitly: "if you need to check only keys". {'a', 'b'} is in fact a subset of {'a', 'b'} ;)
    – DylanYoung
    Nov 7, 2019 at 19:57
>>> d1 = {'a':'2', 'b':'3'}
>>> d2 = {'a':'2', 'b':'3','c':'4'}
>>> all((k in d2 and d2[k]==v) for k,v in d1.iteritems())


>>> d1 = {'a':'2', 'b':'3'}
>>> d2 = {'a':'2', 'b':'3','c':'4'}
>>> list(d1.iteritems())
[('a', '2'), ('b', '3')]
>>> [(k,v) for k,v in d1.iteritems()]
[('a', '2'), ('b', '3')]
>>> k,v = ('a','2')
>>> k
>>> v
>>> k in d2
>>> d2[k]
>>> k in d2 and d2[k]==v
>>> [(k in d2 and d2[k]==v) for k,v in d1.iteritems()]
[True, True]
>>> ((k in d2 and d2[k]==v) for k,v in d1.iteritems())
<generator object <genexpr> at 0x02A9D2B0>
>>> ((k in d2 and d2[k]==v) for k,v in d1.iteritems()).next()
>>> all((k in d2 and d2[k]==v) for k,v in d1.iteritems())

Here is a solution that also properly recurses into lists and sets contained within the dictionary. You can also use this for lists containing dicts etc...

def is_subset(subset, superset):
    if isinstance(subset, dict):
        return all(key in superset and is_subset(val, superset[key]) for key, val in subset.items())
    if isinstance(subset, list) or isinstance(subset, set):
        return all(any(is_subset(subitem, superitem) for superitem in superset) for subitem in subset)

    # assume that subset is a plain value if none of the above match
    return subset == superset

When using python 3.10, you can use python's new match statements to do the typechecking:

def is_subset(subset, superset):
    match subset:
        case dict(_): return all(key in superset and is_subset(val, superset[key]) for key, val in subset.items())
        case list(_) | set(_): return all(any(is_subset(subitem, superitem) for superitem in superset) for subitem in subset)
        # assume that subset is a plain value if none of the above match
        case _: return subset == superset
  • This fails for subset of {"name" : "Girls"} and superset of {"show": {"name": "Girls"}}
    – Ywapom
    Jun 30, 2021 at 17:38
  • 1
    That's because it's not a subset. If we consider dicts to be searchable sets of (key value) tuples. Both sets have one element: One has the key value tuple "name":"Girls" and the other has the single element composed of a key value tuple "show": {"name": "Girls"} and when two sets both have one element, those elements must be equal for the sets to be considered subsets of eachother. This is clearly not the case, they're both key value tuples, but one has the key name and the other has the key show, and one has the value Girls, and the other has a value in the form of another key value tuple. Jun 30, 2021 at 18:01
  • Even with my definition of recursive subsets, which relaxes the requirement that "for every element in the subset there should be an element in the superset which is equal to that element", to "for every element in the subset there should be an element in the superset of which that element is a subset", your set isn't a subset because the level at which elements appear is important. Imagine family trees as dictionaries: {grandpa: {child1:{}, child2:{}}} shouldn't be a subset of {grandpa: {dad: {child1:{}, child2:{}}}} Jun 30, 2021 at 18:15
  • Just an FYI, technically if 2 things are equivalent, then according to set theory, they are both subsets of each other. But in my own personal layman speak (and perhaps that of many others), equivalent things are not subsets of each other; that just doesn't make sense to me; they're equivalent. So, if you're like me you might want to check if they're equivalent as well.
    – Joe Flack
    Sep 22, 2021 at 22:28
  • Yes, you can replace equal with equivalent in the sentence I wrote above. Sep 26, 2021 at 13:46

With Python 3.9, this is what I use:

def dict_contains_dict(small: dict, big: dict):    
   return (big | small) == big

My function for the same purpose, doing this recursively:

def dictMatch(patn, real):
    """does real dict match pattern?"""
        for pkey, pvalue in patn.iteritems():
            if type(pvalue) is dict:
                result = dictMatch(pvalue, real[pkey])
                assert result
                assert real[pkey] == pvalue
                result = True
    except (AssertionError, KeyError):
        result = False
    return result

In your example, dictMatch(d1, d2) should return True even if d2 has other stuff in it, plus it applies also to lower levels:

d1 = {'a':'2', 'b':{3: 'iii'}}
d2 = {'a':'2', 'b':{3: 'iii', 4: 'iv'},'c':'4'}

dictMatch(d1, d2)   # True

Notes: There could be even better solution which avoids the if type(pvalue) is dict clause and applies to even wider range of cases (like lists of hashes etc). Also recursion is not limited here so use at your own risk. ;)


If you don't mind using pydash there is is_match there which does exactly that:

import pydash

a = {1:2, 3:4, 5:{6:7}}
b = {3:4.0, 5:{6:8}}
c = {3:4.0, 5:{6:7}}

pydash.predicates.is_match(a, b) # False
pydash.predicates.is_match(a, c) # True

This seemingly straightforward issue costs me a couple hours in research to find a 100% reliable solution, so I documented what I've found in this answer.

  1. "Pythonic-ally" speaking, small_dict <= big_dict would be the most intuitive way, but too bad that it won't work. {'a': 1} < {'a': 1, 'b': 2} seemingly works in Python 2, but it is not reliable because the official documention explicitly calls it out. Go search "Outcomes other than equality are resolved consistently, but are not otherwise defined." in this section. Not to mention, comparing 2 dicts in Python 3 results in a TypeError exception.

  2. The second most-intuitive thing is small.viewitems() <= big.viewitems() for Python 2.7 only, and small.items() <= big.items() for Python 3. But there is one caveat: it is potentially buggy. If your program could potentially be used on Python <=2.6, its d1.items() <= d2.items() are actually comparing 2 lists of tuples, without particular order, so the final result will be unreliable and it becomes a nasty bug in your program. I am not keen to write yet another implementation for Python<=2.6, but I still don't feel comfortable that my code comes with a known bug (even if it is on an unsupported platform). So I abandon this approach.

  3. I settle down with @blubberdiblub 's answer (Credit goes to him):

    def is_subdict(small, big): return dict(big, **small) == big

    It is worth pointing out that, this answer relies on the == behavior between dicts, which is clearly defined in official document, hence should work in every Python version. Go search:

    • "Dictionaries compare equal if and only if they have the same (key, value) pairs." is the last sentence in this page
    • "Mappings (instances of dict) compare equal if and only if they have equal (key, value) pairs. Equality comparison of the keys and elements enforces reflexivity." in this page

Here's a general recursive solution for the problem given:

import traceback
import unittest

def is_subset(superset, subset):
    for key, value in subset.items():
        if key not in superset:
            return False

        if isinstance(value, dict):
            if not is_subset(superset[key], value):
                return False

        elif isinstance(value, str):
            if value not in superset[key]:
                return False

        elif isinstance(value, list):
            if not set(value) <= set(superset[key]):
                return False
        elif isinstance(value, set):
            if not value <= superset[key]:
                return False

            if not value == superset[key]:
                return False

    return True

class Foo(unittest.TestCase):

    def setUp(self):
        self.dct = {
            'a': 'hello world',
            'b': 12345,
            'c': 1.2345,
            'd': [1, 2, 3, 4, 5],
            'e': {1, 2, 3, 4, 5},
            'f': {
                'a': 'hello world',
                'b': 12345,
                'c': 1.2345,
                'd': [1, 2, 3, 4, 5],
                'e': {1, 2, 3, 4, 5},
                'g': False,
                'h': None
            'g': False,
            'h': None,
            'question': 'mcve',
            'metadata': {}

    def tearDown(self):

    def check_true(self, superset, subset):
        return self.assertEqual(is_subset(superset, subset), True)

    def check_false(self, superset, subset):
        return self.assertEqual(is_subset(superset, subset), False)

    def test_simple_cases(self):
        self.check_true(self.dct, {'a': 'hello world'})
        self.check_true(self.dct, {'b': 12345})
        self.check_true(self.dct, {'c': 1.2345})
        self.check_true(self.dct, {'d': [1, 2, 3, 4, 5]})
        self.check_true(self.dct, {'e': {1, 2, 3, 4, 5}})
        self.check_true(self.dct, {'f': {
            'a': 'hello world',
            'b': 12345,
            'c': 1.2345,
            'd': [1, 2, 3, 4, 5],
            'e': {1, 2, 3, 4, 5},
        self.check_true(self.dct, {'g': False})
        self.check_true(self.dct, {'h': None})

    def test_tricky_cases(self):
        self.check_true(self.dct, {'a': 'hello'})
        self.check_true(self.dct, {'d': [1, 2, 3]})
        self.check_true(self.dct, {'e': {3, 4}})
        self.check_true(self.dct, {'f': {
            'a': 'hello world',
            'h': None
            self.dct, {'question': 'mcve', 'metadata': {'author': 'BPL'}})
            self.dct, {'question': 'mcve', 'metadata': {}})
            self.dct, {'question1': 'mcve', 'metadata': {}})

if __name__ == "__main__":

NOTE: The original code would fail in certain cases, credits for the fixing goes to @olivier-melançon

  • code fails with a superset that has a dict nested inside a list, in the line if not set(value) <= set(superset[key]) Sep 12, 2018 at 11:55

Another way of doing this:

>>> d1 = {'a':'2', 'b':'3'}
>>> d2 = {'a':'2', 'b':'3','c':'4'}
>>> d3 = {'a':'1'}
>>> set(d1.items()).issubset(d2.items())
>>> set(d3.items()).issubset(d2.items())

I know this question is old, but here is my solution for checking if one nested dictionary is a part of another nested dictionary. The solution is recursive.

def compare_dicts(a, b):
    for key, value in a.items():
        if key in b:
            if isinstance(a[key], dict):
                if not compare_dicts(a[key], b[key]):
                    return False
            elif value != b[key]:
                return False
            return False
    return True

Use this wrapper object that provides partial comparison and nice diffs:

class DictMatch(dict):
    """ Partial match of a dictionary to another one """
    def __eq__(self, other: dict):
        assert isinstance(other, dict)
        return all(other[name] == value for name, value in self.items())

actual_name = {'praenomen': 'Gaius', 'nomen': 'Julius', 'cognomen': 'Caesar'}
expected_name = DictMatch({'praenomen': 'Gaius'})  # partial match
assert expected_name == actual_name  # True

Most of the answers will not work if within dict there are some arrays of other dicts, here is a solution for this:

def d_eq(d, d1):
   if not isinstance(d, (dict, list)):
      return d == d1
   if isinstance(d, list):
      return all(d_eq(a, b) for a, b in zip(d, d1))
   return all(d.get(i) == d1[i] or d_eq(d.get(i), d1[i]) for i in d1)

def is_sub(d, d1):
  if isinstance(d, list):
     return any(is_sub(i, d1) for i in d)
  return d_eq(d, d1) or (isinstance(d, dict) and any(is_sub(b, d1) for b in d.values()))

print(is_sub(dct_1, dict_2))

Taken from How to check if dict is subset of another complex dict


This function works for non-hashable values. I also think that it is clear and easy to read.

def isSubDict(subDict,dictionary):
    for key in subDict.keys():
        if (not key in dictionary) or (not subDict[key] == dictionary[key]):
            return False
    return True

In [126]: isSubDict({1:2},{3:4})
Out[126]: False

In [127]: isSubDict({1:2},{1:2,3:4})
Out[127]: True

In [128]: isSubDict({1:{2:3}},{1:{2:3},3:4})
Out[128]: True

In [129]: isSubDict({1:{2:3}},{1:{2:4},3:4})
Out[129]: False

A short recursive implementation that works for nested dictionaries:

def compare_dicts(a,b):
    if not a: return True
    if isinstance(a, dict):
        key, val = a.popitem()
        return isinstance(b, dict) and key in b and compare_dicts(val, b.pop(key)) and compare_dicts(a, b)
    return a == b

This will consume the a and b dicts. If anyone knows of a good way to avoid that without resorting to partially iterative solutions as in other answers, please tell me. I would need a way to split a dict into head and tail based on a key.

This code is more usefull as a programming exercise, and probably is a lot slower than other solutions in here that mix recursion and iteration. @Nutcracker's solution is pretty good for nested dictionaries.

  • 1
    There's something missing in the code. It just descends down the first value starting in a (and any subsequent first value) popitem finds. It should also examine other items on the same level. I've got pairs of nested dicts where it returns the wrong answer. (hard to present a future-proof example here, as it relies on the order of popitem) Aug 26, 2019 at 13:36
  • Thanks, should be fixed now :) Dec 25, 2019 at 18:20

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