Is there a way to rename a dictionary key, without reassigning its value to a new name and removing the old name key; and without iterating through dict key/value?

In case of OrderedDict, do the same, while keeping that key's position.

  • 7
    what exactly do you mean by "without reassigning its value to a new name and removing the old name key"? the way i see it, that is the definition of renaming a key, and all of the answers below reassign the value and remove the old key name. you have yet to accept an answer, so perhaps these haven't accomplished what you're seeking?
    – dbliss
    Apr 6 '15 at 18:09
  • 8
    You really need to specify version number(s). As of Python 3.7, the language spec now guarantees that dicts follow insertion order. That also makes OrderedDict mostly obsolete (unless a) you want code that also backports to 2.x or 3.6- or b) you care about the issues listed in Will OrderedDict become redundant in Python 3.7?). And back in 3.6, dictionary insertion order was guaranteed by the CPython implementation (but not the language spec).
    – smci
    Mar 4 '19 at 5:38
  • 5
    @smci In Python 3.7 dicts follow insertion order, however there are still different from OrderedDict. dicts ignore order when they are being compared for equality, whereas OrderedDict take order into account when being compared. I know you linked to something that explains it, but I thought your comment might have misled those who may not have read that link.
    – Flimm
    Dec 5 '19 at 13:08
  • 1
    @smci I disagree with your opinion that differences between dict and OrderedDict can be glossed over and that OrderedDict is now obsolete. I think also debating this opinion is out-of-topic for this question. The question you linked to is a better place to talk about it. Interestingly, the only upvoted answer on the question you linked to agrees that the differences matter and that OrderedDict is not obsolete. If you have a different answer, go post it there and let the community vote. stackoverflow.com/q/50872498/247696
    – Flimm
    Dec 6 '19 at 8:21
  • 2
    Does this answer your question? Change the name of a key in dictionary Aug 28 '20 at 22:10

13 Answers 13


For a regular dict, you can use:

mydict[k_new] = mydict.pop(k_old)

This will move the item to the end of the dict, unless k_new was already existing in which case it will overwrite the value in-place.

For a Python 3.7+ dict where you additionally want to preserve the ordering, the simplest is to rebuild an entirely new instance. For example, renaming key 2 to 'two':

>>> d = {0:0, 1:1, 2:2, 3:3}
>>> {"two" if k == 2 else k:v for k,v in d.items()}
{0: 0, 1: 1, 'two': 2, 3: 3}

The same is true for an OrderedDict, where you can't use dict comprehension syntax, but you can use a generator expression:

OrderedDict((k_new if k == k_old else k, v) for k, v in od.items())

Modifying the key itself, as the question asks for, is impractical because keys are hashable which usually implies they're immutable and can't be modified.

  • 1
    For python 3.5, I think dict.pop is workable for an OrderedDict based on my test.
    – Daniel
    Dec 5 '17 at 13:30
  • 7
    Nope, OrderedDict will preserve insertion order, which is not what the question asked about.
    – wim
    Dec 5 '17 at 16:20
  • When using the approach with rebuilding an entirely new instance (although only single key has to be changed), what would be the performance for really huge dictionaries (lot of items)?
    – Nerxis
    Jun 15 at 7:46

Using a check for newkey!=oldkey, this way you can do:

if newkey!=oldkey:  
    dictionary[newkey] = dictionary[oldkey]
    del dictionary[oldkey]
  • 6
    this works beautifully, but does not maintain the original order because the new key gets added at the end by default (in python3).
    – szeitlin
    Oct 1 '18 at 21:14
  • 5
    @szeitlin you shouldn't rely on dict order, even if python3.6+ intializes it in ordered form, previous versions don't and it's not really a feature just an afteraffect of how py3.6+ dicts were change. Use OrderedDict if you care about order. Nov 15 '18 at 8:05
  • 4
    Thanks @Granitosaurus, I did not need you to explain that to me. That was not the point of my comment.
    – szeitlin
    Nov 15 '18 at 19:30
  • 12
    @szeitlin your comment implied that the fact that it changes the dict order matters in some way, shape or form when in reality no one should rely on dictionary order so this fact is completely irrelevant Nov 16 '18 at 7:51
  • 2
    So, the above argumentative comments were relevant in Python 3.6, but as of 3.7+, dicts are definitely ordered.
    – mattdm
    Jul 31 at 14:45

In case of renaming all dictionary keys:

target_dict = {'k1':'v1', 'k2':'v2', 'k3':'v3'}
new_keys = ['k4','k5','k6']

for key,n_key in zip(target_dict.keys(), new_keys):
    target_dict[n_key] = target_dict.pop(key)
  • 3
    Is target_dict.keys() guaranteed to be the same order as in definition? I thought a Python dict is unordered, and the order from a dict's keys view is unpredictable
    – ttimasdf
    Jan 14 '20 at 7:55
  • This has changed since Python 3.6 see docs.python.org/3/library/…
    – Sebastian
    Feb 17 at 16:32

You can use this OrderedDict recipe written by Raymond Hettinger and modify it to add a rename method, but this is going to be a O(N) in complexity:

def rename(self,key,new_key):
    ind = self._keys.index(key)  #get the index of old key, O(N) operation
    self._keys[ind] = new_key    #replace old key with new key in self._keys
    self[new_key] = self[key]    #add the new key, this is added at the end of self._keys
    self._keys.pop(-1)           #pop the last item in self._keys


dic = OrderedDict((("a",1),("b",2),("c",3)))
print dic
dic["d"] = 5
for k,v in  dic.items():
    print k,v


OrderedDict({'a': 1, 'b': 2, 'c': 3})
foo 1
bar 2
c 3
spam 5
  • 1
    @MERose Add the Python file somewhere in your module search path and import OrderedDict from it. But I would recommend: Create a class that inherits from OrderedDict and add a rename method to it. Jun 9 '15 at 10:09
  • Seems like OrderedDict has since been rewritten to use a doubly-linked list, so there's probably still a way to do this, but it requires a lot more acrobatics. :-/
    – szeitlin
    Oct 1 '18 at 21:36

A few people before me mentioned the .pop trick to delete and create a key in a one-liner.

I personally find the more explicit implementation more readable:

d = {'a': 1, 'b': 2}
v = d['b']
del d['b']
d['c'] = v

The code above returns {'a': 1, 'c': 2}


Other answers are pretty good.But in python3.6, regular dict also has order. So it's hard to keep key's position in normal case.

def rename(old_dict,old_name,new_name):
    new_dict = {}
    for key,value in zip(old_dict.keys(),old_dict.values()):
        new_key = key if key != old_name else new_name
        new_dict[new_key] = old_dict[key]
    return new_dict

In Python 3.6 (onwards?) I would go for the following one-liner

test = {'a': 1, 'old': 2, 'c': 3}
old_k = 'old'
new_k = 'new'
new_v = 4  # optional

print(dict((new_k, new_v) if k == old_k else (k, v) for k, v in test.items()))

which produces

{'a': 1, 'new': 4, 'c': 3}

May be worth noting that without the print statement the ipython console/jupyter notebook present the dictionary in an order of their choosing...


Suppose you want to rename key k3 to k4:

temp_dict = {'k1':'v1', 'k2':'v2', 'k3':'v3'}
temp_dict['k4']= temp_dict.pop('k3')
  • 2
    Doesn't work, did you mean ... temp_dict['k4'] = temp_dict.pop('k3') ?
    – DougR
    Sep 4 '19 at 15:01
  • This will return a TypeError: 'dict' object is not callable If with temp_dict('k3') you are trying to reference the value of the k3 key then you should use square brackets and not parentheses. However, this will just add a new key to the dictionary and won't rename an existing key, as requested.
    – Mewtwo
    Nov 11 '19 at 10:28

In case someone wants to rename all the keys at once providing a list with the new names:

def rename_keys(dict_, new_keys):
     new_keys: type List(), must match length of dict_

    # dict_ = {oldK: value}
    # d1={oldK:newK,} maps old keys to the new ones:  
    d1 = dict( zip( list(dict_.keys()), new_keys) )

          # d1{oldK} == new_key 
    return {d1[oldK]: value for oldK, value in dict_.items()}

I am using @wim 's answer above, with dict.pop() when renaming keys, but I found a gotcha. Cycling through the dict to change the keys, without separating the list of old keys completely from the dict instance, resulted in cycling new, changed keys into the loop, and missing some existing keys.

To start with, I did it this way:

for current_key in my_dict:
    new_key = current_key.replace(':','_')
    fixed_metadata[new_key] = fixed_metadata.pop(current_key)

I found that cycling through the dict in this way, the dictionary kept finding keys even when it shouldn't, i.e., the new keys, the ones I had changed! I needed to separate the instances completely from each other to (a) avoid finding my own changed keys in the for loop, and (b) find some keys that were not being found within the loop for some reason.

I am doing this now:

current_keys = list(my_dict.keys())
for current_key in current_keys:
    and so on...

Converting the my_dict.keys() to a list was necessary to get free of the reference to the changing dict. Just using my_dict.keys() kept me tied to the original instance, with the strange side effects.


@helloswift123 I like your function. Here is a modification to rename multiple keys in a single call:

def rename(d, keymap):
    :param d: old dict
    :type d: dict
    :param keymap: [{:keys from-keys :values to-keys} keymap]
    :returns: new dict
    :rtype: dict
    new_dict = {}
    for key, value in zip(d.keys(), d.values()):
        new_key = keymap.get(key, key)
        new_dict[new_key] = d[key]
    return new_dict

I came up with this function which does not mutate the original dictionary. This function also supports list of dictionaries too.

import functools
from typing import Union, Dict, List

def rename_dict_keys(
    data: Union[Dict, List[Dict]], old_key: str, new_key: str
    This function renames dictionary keys

    :param data:
    :param old_key:
    :param new_key:
    :return: Union[Dict, List[Dict]]
    if isinstance(data, dict):
        res = {k: v for k, v in data.items() if k != old_key}
            res[new_key] = data[old_key]
        except KeyError:
            raise KeyError(
                "cannot rename key as old key '%s' is not present in data"
                % old_key
        return res
    elif isinstance(data, list):
        return list(
                    rename_dict_keys, old_key=old_key, new_key=new_key
    raise ValueError("expected type List[Dict] or Dict got '%s' for data" % type(data))

I have combined some answers from the above thread and come up with the solution below. Although it is simple it can be used as a building block for making more complex key updates from a dictionary.

test_dict = {'a': 1, 'b': 2, 'c': 3}
# {'a': 1, 'b': 2, 'c': 3}
prefix = 'up'
def dict_key_update(json_file):    
    new_keys = []
    old_keys = []
    for i,(key,value) in enumerate(json_file.items()):
        new_keys.append(str(prefix) + key) # i have updated by adding a prefix to the 
        # key
    for old_key, new_key in zip(old_keys,new_keys):
        print('old {}, new {}'.format(old_key, new_key))
        if new_key!=old_key:  
           json_file[new_key] = json_file.pop(old_key)
     return json_file

test_dict = dict_key_update(test_dict)
# {'upa': 1, 'upb': 2, 'upc': 3}

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