Is there a way to make a defaultdict also be the default for the defaultdict? (i.e. infinite-level recursive defaultdict?)

I want to be able to do:

x = defaultdict(...stuff...)

So, I can do x = defaultdict(defaultdict), but that's only a second level:

KeyError: 0

There are recipes that can do this. But can it be done simply just using the normal defaultdict arguments?

Note this is asking how to do an infinite-level recursive defaultdict, so it's distinct to Python: defaultdict of defaultdict?, which was how to do a two-level defaultdict.

I'll probably just end up using the bunch pattern, but when I realized I didn't know how to do this, it got me interested.


12 Answers 12


The other answers here tell you how to create a defaultdict which contains "infinitely many" defaultdict, but they fail to address what I think may have been your initial need which was to simply have a two-depth defaultdict.

You may have been looking for:

defaultdict(lambda: defaultdict(dict))

The reasons why you might prefer this construct are:

  • It is more explicit than the recursive solution, and therefore likely more understandable to the reader.
  • This enables the "leaf" of the defaultdict to be something other than a dictionary, e.g.,: defaultdict(lambda: defaultdict(list)) or defaultdict(lambda: defaultdict(set))
  • 5
    defaultdict(lambda: defaultdict(list)) The correct form ? Feb 9, 2015 at 10:12
  • Ooops, yes, the lambda form is correct--because the defaultdict(something) returns a dictionary-like object, but defaultdict expects a callable! Thank you!
    – Chris W.
    Feb 12, 2015 at 20:39
  • 6
    This got marked as a possible duplicate of another question... but it wasn't my original question. I knew how to create a two-level defaultdict; what I didn't know was how to make it recursive. This answer is, in fact, similar to stackoverflow.com/questions/5029934/… Jan 13, 2017 at 19:52
  • 1
    One draw back of the lambda approach is that the objects it generates can't be pickled... but you can get around this by casting to a regular dict(result) before the pickle
    – CpILL
    Mar 15, 2020 at 23:38
  • This seems to only work for recursion levels greater than 1. For example nested_dict['foo']['bar'].append('baz') works, but nested_dict['foo'].append('bar') fails because the defaultdict class has no append attribute Feb 22, 2021 at 22:27

For an arbitrary number of levels:

def rec_dd():
    return defaultdict(rec_dd)

>>> x = rec_dd()
>>> x['a']['b']['c']['d']
defaultdict(<function rec_dd at 0x7f0dcef81500>, {})
>>> print json.dumps(x)
{"a": {"b": {"c": {"d": {}}}}}

Of course you could also do this with a lambda, but I find lambdas to be less readable. In any case it would look like this:

rec_dd = lambda: defaultdict(rec_dd)
  • 4
    Indeed a perfect example, thanks. Could you please extend it to the case, that the data are loaded from json into defaultdict of defaultdict? Mar 4, 2017 at 20:52
  • 6
    One note. If you are trying to use this code while pickling lambda won't work. Apr 3, 2017 at 11:52
  • 4
    How can we define the type of the last value at the bottom of the dictionary?
    – Diamond
    Jun 28, 2021 at 14:28
  • 1
    Know this is old, but hope someone replies. How would you properly ad type hints to the rec_dd function? Feb 10, 2023 at 20:25

There is a nifty trick for doing that:

tree = lambda: defaultdict(tree)

Then you can create your x with x = tree().

  • 3
    coming back to this, i think this is a piece of code i use more than any other :) Jan 4, 2022 at 14:59

Similar to BrenBarn's solution, but doesn't contain the name of the variable tree twice, so it works even after changes to the variable dictionary:

tree = (lambda f: f(f))(lambda a: (lambda: defaultdict(a(a))))

Then you can create each new x with x = tree().

For the def version, we can use function closure scope to protect the data structure from the flaw where existing instances stop working if the tree name is rebound. It looks like this:

from collections import defaultdict

def tree():
    def the_tree():
        return defaultdict(the_tree)
    return the_tree()
  • 4
    i'll have to think about this one (it's a little more complex). but i think your point is that if do x = tree(), but then someone comes by later and does tree=None, this one would still work, and that would wouldn't? Oct 4, 2013 at 20:58

I would also propose more OOP-styled implementation, which supports infinite nesting as well as properly formatted repr.

class NestedDefaultDict(defaultdict):
    def __init__(self, *args, **kwargs):
        super(NestedDefaultDict, self).__init__(NestedDefaultDict, *args, **kwargs)

    def __repr__(self):
        return repr(dict(self))


my_dict = NestedDefaultDict()
my_dict['a']['b'] = 1
my_dict['a']['c']['d'] = 2

print(my_dict)  # {'a': {'b': 1, 'c': {'d': 2}}, 'b': {}}
  • 2
    Neat ! I added the passthrough of *args and **kwargs which allows it to function like the defaultdict, namely to create a dict with keyword arguments. This is useful for passing NestedDefaultDict into json.load Aug 6, 2019 at 13:47
  • Trying my_dict = NestedDefaultDict(list) returns a TypeError - is the *args intended to allow the leaf type definition in that way? Feb 22, 2021 at 22:23
  • @AddisonKlinke No, in this implementation it's not. The default_factory argument is already taken by NestedDefaultDict type. There is no easy way to check if current node is leaf or not without building more complex class. However, you can write something like my_dict['a']['b'][0] to imitate node with list type. Feb 24, 2021 at 10:28
  • Unfortunately, this answer does not appear to support multiprocessing. Jan 10, 2023 at 19:02
  • I like this! However, it doesn't support increment or list append: my_dict['a']['b'] += 1 ...will fail. Is there any way to get it to support the remaining dict operations? Apr 11, 2023 at 20:40

I based this of Andrew's answer here. If you are looking to load data from a json or an existing dict into the nester defaultdict see this example:

def nested_defaultdict(existing=None, **kwargs):
    if existing is None:
        existing = {}
    if not isinstance(existing, dict):
        return existing
    existing = {key: nested_defaultdict(val) for key, val in existing.items()}
    return defaultdict(nested_defaultdict, existing, **kwargs)



Here is a function for an arbitrary base defaultdict for an arbitrary depth of nesting.

(cross posting from Can't pickle defaultdict)

def wrap_defaultdict(instance, times=1):
    """Wrap an instance an arbitrary number of `times` to create nested defaultdict.
    instance - list, dict, int, collections.Counter
    times - the number of nested keys above `instance`; if `times=3` dd[one][two][three] = instance
    using `x.copy` allows pickling (loading to ipyparallel cluster or pkldump)
        - thanks https://stackoverflow.com/questions/16439301/cant-pickle-defaultdict
    from collections import defaultdict

    def _dd(x):
        return defaultdict(x.copy)

    dd = defaultdict(instance)
    for i in range(times-1):
        dd = _dd(dd)

    return dd

here is a recursive function to convert a recursive default dict to a normal dict

def defdict_to_dict(defdict, finaldict):
    # pass in an empty dict for finaldict
    for k, v in defdict.items():
        if isinstance(v, defaultdict):
            # new level created and that is the new value
            finaldict[k] = defdict_to_dict(v, {})
            finaldict[k] = v
    return finaldict

defdict_to_dict(my_rec_default_dict, {})

@nucklehead's response can be extended to handle arrays in JSON as well:

def nested_dict(existing=None, **kwargs):
    if existing is None:
        existing = defaultdict()
    if isinstance(existing, list):
        existing = [nested_dict(val) for val in existing]
    if not isinstance(existing, dict):
        return existing
    existing = {key: nested_dict(val) for key, val in existing.items()}
    return defaultdict(nested_dict, existing, **kwargs)

Based on Chris W answer, however, to address the type annotation concern, you could make it a factory function that defines the detailed types. For example this is the final solution to my problem when I was researching this question:

def frequency_map_factory() -> dict[str, dict[str, int]]:
    Provides a recorder of: per X:str, frequency of Y:str occurrences.
    return defaultdict(lambda: defaultdict(int))

Here's a solution similar to @Stanislav's answer that works with multiprocessing and also allows for termination of the nesting:

from collections import defaultdict
from functools import partial

class NestedDD(defaultdict):
    def __init__(self, n, *args, **kwargs):
        self.n = n
        factory = partial(build_nested_dd, n=n - 1) if n > 1 else int
        super().__init__(factory, *args, **kwargs)

    def __repr__(self):
        return repr(dict(self))

def build_nested_dd(n):
    return NestedDD(n)

Here is a solution similar to @Chris W., that makes more levels possible. It still allows the 'leaf' to be specified as something besides defaultdict.

Instead of a lambda, a closure is defined.

You might prefer this method because,

  • the declaration of the nested defaultdict is written as nested functions so it might read easier.
  • More than two levels are possible.
  • The last leaf can be: list, set, ...

Here is an example.

from collections import defaultdict
import json

def another_defaultdict(factory):
    'return another layer of defaultdict as a factory function'
    def layer():
        return defaultdict(factory)  
    return layer

>>> # two levels
>>> d = defaultdict(another_defaultdict(list))

>>> # three levels
>>> d = defaultdict(another_defaultdict(another_defaultdict(list)))

>>> d['Canada']['Alberta'] = ['Calgary', 'Magrath', 'Cardston', 'Lethbridge']
>>> d['France']['Nord'] = ['Dunkirk', 'Croix']
>>> print(json.dumps(d, indent=2))
  "Canada": {
    "Alberta": [
  "France": {
    "Nord": [

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