Suppose you have a dictionary like:

{'a': 1,
 'c': {'a': 2,
       'b': {'x': 5,
             'y' : 10}},
 'd': [1, 2, 3]}

How would you go about flattening that into something like:

{'a': 1,
 'c_a': 2,
 'c_b_x': 5,
 'c_b_y': 10,
 'd': [1, 2, 3]}

20 Answers 20


Basically the same way you would flatten a nested list, you just have to do the extra work for iterating the dict by key/value, creating new keys for your new dictionary and creating the dictionary at final step.

import collections

def flatten(d, parent_key='', sep='_'):
    items = []
    for k, v in d.items():
        new_key = parent_key + sep + k if parent_key else k
        if isinstance(v, collections.MutableMapping):
            items.extend(flatten(v, new_key, sep=sep).items())
            items.append((new_key, v))
    return dict(items)

>>> flatten({'a': 1, 'c': {'a': 2, 'b': {'x': 5, 'y' : 10}}, 'd': [1, 2, 3]})
{'a': 1, 'c_a': 2, 'c_b_x': 5, 'd': [1, 2, 3], 'c_b_y': 10}
  • 4
    If you replace the isinstance with a try..except block, this will work for any mapping, even if it is not derived from dict. – Björn Pollex May 17 '11 at 7:34
  • 1
    Changed it to test for collections.MutableMapping to make it more generic. But for Python < 2.6, try..except is probably the best option. – Imran May 17 '11 at 7:55
  • 4
    If you want empty dictionaries preserved in flattened version you might want to change if isinstance(v, collections.MutableMapping): to if v and isinstance(v, collections.MutableMapping): – tarequeh Sep 6 '13 at 0:19
  • 2
    Note that new_key = parent_key + sep + k if parent_key else k assumes that keys are always strings, otherwise it will raise TypeError: cannot concatenate 'str' and [other] objects. However, you could fix that by simply coercing k to string (str(k)), or concatenating keys into a tuple instead of a string (tuples can be dict keys, too). – Scott H Jun 29 '15 at 21:09
  • 1
    And the inflate function is here – mitch Jan 26 '16 at 20:54

There are two big considerations that the original poster needs to consider:

  1. Are there keyspace clobbering issues? For example, {'a_b':{'c':1}, 'a':{'b_c':2}} would result in {'a_b_c':???}. The below solution evades the problem by returning an iterable of pairs.
  2. If performance is an issue, does the key-reducer function (which I hereby refer to as 'join') require access to the entire key-path, or can it just do O(1) work at every node in the tree? If you want to be able to say joinedKey = '_'.join(*keys), that will cost you O(N^2) running time. However if you're willing to say nextKey = previousKey+'_'+thisKey, that gets you O(N) time. The solution below lets you do both (since you could merely concatenate all the keys, then postprocess them).

(Performance is not likely an issue, but I'll elaborate on the second point in case anyone else cares: In implementing this, there are numerous dangerous choices. If you do this recursively and yield and re-yield, or anything equivalent which touches nodes more than once (which is quite easy to accidentally do), you are doing potentially O(N^2) work rather than O(N). This is because maybe you are calculating a key a then a_1 then a_1_i..., and then calculating a then a_1 then a_1_ii..., but really you shouldn't have to calculate a_1 again. Even if you aren't recalculating it, re-yielding it (a 'level-by-level' approach) is just as bad. A good example is to think about the performance on {1:{1:{1:{1:...(N times)...{1:SOME_LARGE_DICTIONARY_OF_SIZE_N}...}}}})

Below is a function I wrote flattenDict(d, join=..., lift=...) which can be adapted to many purposes and can do what you want. Sadly it is fairly hard to make a lazy version of this function without incurring the above performance penalties (many python builtins like chain.from_iterable aren't actually efficient, which I only realized after extensive testing of three different versions of this code before settling on this one).

from collections import Mapping
from itertools import chain
from operator import add

_FLAG_FIRST = object()

def flattenDict(d, join=add, lift=lambda x:x):
    results = []
    def visit(subdict, results, partialKey):
        for k,v in subdict.items():
            newKey = lift(k) if partialKey==_FLAG_FIRST else join(partialKey,lift(k))
            if isinstance(v,Mapping):
                visit(v, results, newKey)
    visit(d, results, _FLAG_FIRST)
    return results

To better understand what's going on, below is a diagram for those unfamiliar with reduce(left), otherwise known as "fold left". Sometimes it is drawn with an initial value in place of k0 (not part of the list, passed into the function). Here, J is our join function. We preprocess each kn with lift(k).

                           /    \
                         ...    kN
                       /  \
                      /    \
           J(J(k0,k1),k2)   k3
                    /   \
                   /     \
             J(k0,k1)    k2
                 /  \
                /    \
               k0     k1

This is in fact the same as functools.reduce, but where our function does this to all key-paths of the tree.

>>> reduce(lambda a,b:(a,b), range(5))
((((0, 1), 2), 3), 4)

Demonstration (which I'd otherwise put in docstring):

>>> testData = {
from pprint import pprint as pp

>>> pp(dict( flattenDict(testData, lift=lambda x:(x,)) ))
{('a',): 1,
 ('b',): 2,
 ('c', 'aa'): 11,
 ('c', 'bb'): 22,
 ('c', 'cc', 'aaa'): 111}

>>> pp(dict( flattenDict(testData, join=lambda a,b:a+'_'+b) ))
{'a': 1, 'b': 2, 'c_aa': 11, 'c_bb': 22, 'c_cc_aaa': 111}    

>>> pp(dict( (v,k) for k,v in flattenDict(testData, lift=hash, join=lambda a,b:hash((a,b))) ))
{1: 12416037344,
 2: 12544037731,
 11: 5470935132935744593,
 22: 4885734186131977315,
 111: 3461911260025554326}


from functools import reduce
def makeEvilDict(n):
    return reduce(lambda acc,x:{x:acc}, [{i:0 for i in range(n)}]+range(n))

import timeit
def time(runnable):
    t0 = timeit.default_timer()
    _ = runnable()
    t1 = timeit.default_timer()
    print('took {:.2f} seconds'.format(t1-t0))

>>> pp(makeEvilDict(8))
{7: {6: {5: {4: {3: {2: {1: {0: {0: 0,
                                 1: 0,
                                 2: 0,
                                 3: 0,
                                 4: 0,
                                 5: 0,
                                 6: 0,
                                 7: 0}}}}}}}}}

import sys

forget = lambda a,b:''

>>> time(lambda: dict(flattenDict(makeEvilDict(10000), join=forget)) )
took 0.10 seconds
>>> time(lambda: dict(flattenDict(makeEvilDict(100000), join=forget)) )
[1]    12569 segmentation fault  python

... sigh, don't think that one is my fault...

[unimportant historical note due to moderation issues]

Regarding the alleged duplicate of Flatten a dictionary of dictionaries (2 levels deep) of lists in Python:

That question's solution can be implemented in terms of this one by doing sorted( sum(flatten(...),[]) ). The reverse is not possible: while it is true that the values of flatten(...) can be recovered from the alleged duplicate by mapping a higher-order accumulator, one cannot recover the keys. (edit: Also it turns out that the alleged duplicate owner's question is completely different, in that it only deals with dictionaries exactly 2-level deep, though one of the answers on that page gives a general solution.)

  • 1
    I am not sure if this is relevant to the question. This solution does not flatten a dictionary item of a list of dictionaries, i.e. {'a': [{'aa': 1}, {'ab': 2}]}. The flattenDict function can be altered easily to accommodate this case. – Stewbaca Mar 2 '16 at 19:25

Or if you are already using pandas, You can do it with json_normalize() like so:

import pandas as pd

d = {'a': 1,
     'c': {'a': 2, 'b': {'x': 5, 'y' : 10}},
     'd': [1, 2, 3]}

df = pd.io.json.json_normalize(d, sep='_')



{'a': 1, 'c_a': 2, 'c_b_x': 5, 'c_b_y': 10, 'd': [1, 2, 3]}
  • 4
    or just pass the sep argument :) – Blue Moon Sep 25 '18 at 8:13
  • 1
    Bit of a shame it doesn't handle lists :) – Roelant Nov 27 '18 at 14:32

Here is a kind of a "functional", "one-liner" implementation. It is recursive, and based on a conditional expression and a dict comprehension.

def flatten_dict(dd, separator='_', prefix=''):
    return { prefix + separator + k if prefix else k : v
             for kk, vv in dd.items()
             for k, v in flatten_dict(vv, separator, kk).items()
             } if isinstance(dd, dict) else { prefix : dd }


In [2]: flatten_dict({'abc':123, 'hgf':{'gh':432, 'yu':433}, 'gfd':902, 'xzxzxz':{"432":{'0b0b0b':231}, "43234":1321}}, '.')
{'abc': 123,
 'gfd': 902,
 'hgf.gh': 432,
 'hgf.yu': 433,
 'xzxzxz.432.0b0b0b': 231,
 'xzxzxz.43234': 1321}
  • This doesn't work for general dictionaries, specifically, with tuple keys, eg substitute ('hgf',2) for the 2nd key in your test throws TypeError – alancalvitti Jul 3 at 19:22
  • @alancalvitti This assumes it to be a string, or something else that supports the + operator. For anything else you'll need to adapt prefix + separator + k to the appropriate function call to compose the objects. – dividebyzero Jul 5 at 13:31
  • Another issue relevant to tuple keys. I've posted separately how to generalize based on your method. However it cannot correctly handle ninjageko's example: {'a_b':{'c':1}, 'a':{'b_c':2}} – alancalvitti Jul 5 at 15:39


test = {'a': 1, 'c': {'a': 2, 'b': {'x': 5, 'y' : 10}}, 'd': [1, 2, 3]}

def parse_dict(init, lkey=''):
    ret = {}
    for rkey,val in init.items():
        key = lkey+rkey
        if isinstance(val, dict):
            ret.update(parse_dict(val, key+'_'))
            ret[key] = val
    return ret



$ python test.py
{'a': 1, 'c_a': 2, 'c_b_x': 5, 'd': [1, 2, 3], 'c_b_y': 10}

I am using python3.2, update for your version of python.

  • You probably want to specify the default value of lkey='' in your function definition instead of when calling the function. See other answers in this regard. – Acumenus Dec 21 '12 at 10:55

If you're using pandas there is a function hidden in pandas.io.json.normalize called nested_to_record which does this exactly.

from pandas.io.json.normalize import nested_to_record    

flat = nested_to_record(my_dict, sep='_')

This is not restricted to dictionaries, but every mapping type that implements .items(). Further ist faster as it avoides an if condition. Nevertheless credits go to Imran:

def flatten(d, parent_key=''):
    items = []
    for k, v in d.items():
            items.extend(flatten(v, '%s%s_' % (parent_key, k)).items())
        except AttributeError:
            items.append(('%s%s' % (parent_key, k), v))
    return dict(items)
  • 1
    If d is not a dict but a custom mapping type that doesn't implement items, your function would fail right then and there. So, it it does not work for every mapping type but only those that implement items(). – user6037143 Feb 19 at 23:08
  • @user6037143 have you ever encountered a mapping type that doesn't implement items? I'd be curious to see one. – Trey Hunner Apr 17 at 23:35
  • Yes, I have!!!! – user6037143 Apr 18 at 13:04
  • @user6037143, no you haven't by definition if items is not implemented it's no mapping type. – Davoud Taghawi-Nejad Apr 18 at 20:00
  • Yes, I have!!!! – user6037143 Apr 19 at 15:23

How about a functional and performant solution in Python3.5?

from functools import reduce

def _reducer(items, key, val, pref):
    if isinstance(val, dict):
        return {**items, **flatten(val, pref + key)}
        return {**items, pref + key: val}

def flatten(d, pref=''):
        lambda new_d, kv: _reducer(new_d, *kv, pref), 

This is even more performant:

def flatten(d, pref=''):
        lambda new_d, kv: \
            isinstance(kv[1], dict) and \
            {**new_d, **flatten(kv[1], pref + kv[0])} or \
            {**new_d, pref + kv[0]: kv[1]}, 

In use:

my_obj = {'a': 1, 'c': {'a': 2, 'b': {'x': 5, 'y': 10}}, 'd': [1, 2, 3]}

# {'d': [1, 2, 3], 'cby': 10, 'cbx': 5, 'ca': 2, 'a': 1}
  • 1
    How about a readable and working solution? ;) Which version did you test this on? I'm Getting "Syntax error" when trying this out in Python 3.4.3. Seems that usage of "**all" is not legit. – ifischer Nov 22 '17 at 12:01
  • I works since Python 3.5. Didn't know it doesn't work with 3.4. You're right this isn't very readable. I updated the answer. Hope it's more readable now. :) – Rotareti Nov 22 '17 at 14:28
  • 1
    Added missing reduce import. Still find the code hard to understand and I think it's a good example why Guido van Rossum himself discouraged the usage of lambda, reduce, filter and map in 2005 already: artima.com/weblogs/viewpost.jsp?thread=98196 – ifischer Nov 23 '17 at 9:40
  • I agree. Python isn't really designed for functional programming. Still I think reduce is great in case you need to reduce dictionaries. I updated the answer. Should look a little more pythonic now. – Rotareti Nov 23 '17 at 10:02

My Python 3.3 Solution using generators:

def flattenit(pyobj, keystring=''):
   if type(pyobj) is dict:
     if (type(pyobj) is dict):
         keystring = keystring + "_" if keystring else keystring
         for k in pyobj:
             yield from flattenit(pyobj[k], keystring + k)
     elif (type(pyobj) is list):
         for lelm in pyobj:
             yield from flatten(lelm, keystring)
      yield keystring, pyobj

my_obj = {'a': 1, 'c': {'a': 2, 'b': {'x': 5, 'y': 10}}, 'd': [1, 2, 3]}

#your flattened dictionary object
flattened={k:v for k,v in flattenit(my_obj)}

# result: {'c_b_y': 10, 'd': [1, 2, 3], 'c_a': 2, 'a': 1, 'c_b_x': 5}
  • can you extend to handle any valid key type other than str (including tuple)? Instead of string concatenation, join them in a tuple. – alancalvitti Jun 13 at 21:23

Simple function to flatten nested dictionaries. For Python 3, replace .iteritems() with .items()

def flatten_dict(init_dict):
    res_dict = {}
    if type(init_dict) is not dict:
        return res_dict

    for k, v in init_dict.iteritems():
        if type(v) == dict:
            res_dict[k] = v

    return res_dict

The idea/requirement was: Get flat dictionaries with no keeping parent keys.

Example of usage:

dd = {'a': 3, 
      'b': {'c': 4, 'd': 5}, 
      'e': {'f': 
                 {'g': 1, 'h': 2}
      'i': 9,


>> {'a': 3, 'c': 4, 'd': 5, 'g': 1, 'h': 2, 'i': 9}

Keeping parent keys is simple as well.


This is similar to both imran's and ralu's answer. It does not use a generator, but instead employs recursion with a closure:

def flatten_dict(d, separator='_'):
  final = {}
  def _flatten_dict(obj, parent_keys=[]):
    for k, v in obj.iteritems():
      if isinstance(v, dict):
        _flatten_dict(v, parent_keys + [k])
        key = separator.join(parent_keys + [k])
        final[key] = v
  return final

>>> print flatten_dict({'a': 1, 'c': {'a': 2, 'b': {'x': 5, 'y' : 10}}, 'd': [1, 2, 3]})
{'a': 1, 'c_a': 2, 'c_b_x': 5, 'd': [1, 2, 3], 'c_b_y': 10}
  • I am not sure if using the term "closure" is correct here, as the function _flatten_dict is never returned, nor is it expected to ever be returned. It can perhaps be referred to as a subfunction or an enclosed function instead. – Acumenus Dec 21 '12 at 10:59

Davoud's solution is very nice but doesn't give satisfactory results when the nested dict also contains lists of dicts, but his code be adapted for that case:

def flatten_dict(d):
    items = []
    for k, v in d.items():
            if (type(v)==type([])): 
                for l in v: items.extend(flatten_dict(l).items())
        except AttributeError:
            items.append((k, v))
    return dict(items)
  • You could cache the result of type([]) to avoid a function call for every item of the dict. – bfontaine Dec 27 '14 at 21:42
  • 2
    Please use isinstance(v, list) instead – Druska Mar 25 '15 at 1:22

The answers above work really well. Just thought I'd add the unflatten function that I wrote:

def unflatten(d):
    ud = {}
    for k, v in d.items():
        context = ud
        for sub_key in k.split('_')[:-1]:
            if sub_key not in context:
                context[sub_key] = {}
            context = context[sub_key]
        context[k.split('_')[-1]] = v
    return ud

Note: This doesn't account for '_' already present in keys, much like the flatten counterparts.


Here's an algorithm for elegant, in-place replacement. Tested with Python 2.7 and Python 3.5. Using the dot character as a separator.

def flatten_json(json):
    if type(json) == dict:
        for k, v in list(json.items()):
            if type(v) == dict:
                for k2, v2 in v.items():
                    json[k+"."+k2] = v2


d = {'a': {'b': 'c'}}                   


{'a.b': 'c'}
{'a': {'b': 'c'}}

I published this code here along with the matching unflatten_json function.


If you want to flat nested dictionary and want all unique keys list then here is the solution:

def flat_dict_return_unique_key(data, unique_keys=set()):
    if isinstance(data, dict):
        [unique_keys.add(i) for i in data.keys()]
        for each_v in data.values():
            if isinstance(each_v, dict):
                flat_dict_return_unique_key(each_v, unique_keys)
    return list(set(unique_keys))

Using generators:

def flat_dic_helper(prepand,d):
    if len(prepand) > 0:
        prepand = prepand + "_"
    for k in d:
        if type(i).__name__=='dict':
            r = flat_dic_helper(prepand+k,i)
            for j in r:
                yield j
            yield (prepand+k,i)

def flat_dic(d): return dict(flat_dic_helper("",d))

d={'a': 1, 'c': {'a': 2, 'b': {'x': 5, 'y' : 10}}, 'd': [1, 2, 3]}

>> {'a': 1, 'c_a': 2, 'c_b_x': 5, 'd': [1, 2, 3], 'c_b_y': 10}
  • 2
    type(i).__name__=='dict' could be replaced with type(i) is dict or perhaps even better isinstance(d, dict) (or Mapping/MutableMapping). – Cristian Ciupitu Jun 27 '14 at 18:21

Using dict.popitem() in straightforward nested-list-like recursion:

def flatten(d):
    if d == {}:
        return d
        k,v = d.popitem()
        if (dict != type(v)):
            return {k:v, **flatten(d)}
            flat_kv = flatten(v)
            for k1 in list(flat_kv.keys()):
                flat_kv[k + '_' + k1] = flat_kv[k1]
                del flat_kv[k1]
            return {**flat_kv, **flatten(d)}
def flatten(unflattened_dict, separator='_'):
    flattened_dict = {}

    for k, v in unflattened_dict.items():
        if isinstance(v, dict):
            sub_flattened_dict = flatten(v, separator)
            for k2, v2 in sub_flattened_dict.items():
                flattened_dict[k + separator + k2] = v2
            flattened_dict[k] = v

    return flattened_dict

I always prefer access dict objects via .items(), so for flattening dicts I use the following recursive generator flat_items(d). If you like to have dict again, simply wrap it like this: flat = dict(flat_items(d))

def flat_items(d, key_separator='.'):
    Flattens the dictionary containing other dictionaries like here: https://stackoverflow.com/questions/6027558/flatten-nested-python-dictionaries-compressing-keys

    >>> example = {'a': 1, 'c': {'a': 2, 'b': {'x': 5, 'y' : 10}}, 'd': [1, 2, 3]}
    >>> flat = dict(flat_items(example, key_separator='_'))
    >>> assert flat['c_b_y'] == 10
    for k, v in d.items():
        if type(v) is dict:
            for k1, v1 in flat_items(v, key_separator=key_separator):
                yield key_separator.join((k, k1)), v1
            yield k, v

I actually wrote a package called cherrypicker recently to deal with this exact sort of thing since I had to do it so often!

I think the following code would give you exactly what you're after:

from cherrypicker import CherryPicker

dct = {
    'a': 1,
    'c': {
        'a': 2,
        'b': {
            'x': 5,
            'y' : 10
    'd': [1, 2, 3]

picker = CherryPicker(dct)

You can install the package with:

pip install cherrypicker

...and there's more docs and guidance at https://cherrypicker.readthedocs.io.

Other methods may be faster, but the priority of this package is to make such tasks quick and easy. If you do have a large list of objects to flatten though, you can also tell CherryPicker to use parallel processing to speed things up.

protected by codeforester Apr 16 at 5:35

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