My attempt to programmatically create a dictionary of lists is failing to allow me to individually address dictionary keys. Whenever I create the dictionary of lists and try to append to one key, all of them are updated. Here's a very simple test case:

data = {}
data = data.fromkeys(range(2),[])
print data

Actual result: {0: ['hello'], 1: ['hello']}

Expected result: {0: [], 1: ['hello']}

Here's what works

data = {0:[],1:[]}
print data

Actual and Expected Result: {0: [], 1: ['hello']}

Why is the fromkeys method not working as expected?


7 Answers 7


Passing [] as second argument to dict.fromkeys() gives a rather useless result – all values in the dictionary will be the same list object.

In Python 2.7 or above, you can use a dicitonary comprehension instead:

data = {k: [] for k in range(2)}

In earlier versions of Python, you can use

data = dict((k, []) for k in range(2))
  • 3
    Well this is rather unintuitive behavior, any idea on why the same object is used for all keys?
    – Bar
    Apr 13, 2016 at 19:05
  • 5
    @Bar Because there is nothing else the function could do within the semantics of the Python language. You pass in a single object to be used as value for all keys, so that single object is used for all keys. It would be better for the fromkeys() method to accept a factory function instead, so we could pass in list as a function, and that funciton would be called once for each key created, but that's not the actual API of dict.fromkeys(). Apr 13, 2016 at 20:30
  • 3
    This is not intuitive at all. This took me an hour to find. Thanks
    – Astrid
    Mar 12, 2019 at 13:38
  • 1
    Same thing happens if you pass dict() as a second argument. Very baffling behavior.
    – Orly
    May 20, 2020 at 12:14
  • 2
    @KevOMalley743 {"string1": [], "string2": []} looks like perfectly fine Python code, so I don't quite understand what problem you are asking about. Jul 29, 2021 at 11:27

Use defaultdict instead:

from collections import defaultdict
data = defaultdict(list)

This way you don't have to initialize all the keys you want to use to lists beforehand.

What is happening in your example is that you use one (mutable) list:

alist = [1]
data = dict.fromkeys(range(2), alist)
print data

would output {0: [1, 2], 1: [1, 2]}.

  • 2
    In my case, I need to initialize all the keys beforehand so the rest of the program logic can work as expected, but this would be a good solution otherwise. Thanks. Jul 16, 2012 at 18:06
  • 1
    I guess what is missing from this answer is saying that this solution works, as opposed to that of the OP, because list here is not an empty list, but a type (or you can see it as a callable constructor, I guess). So every time a missing key is passed, a new list is created instead of re-using the same one.
    – Dr_Zaszuś
    May 28, 2020 at 8:09

You could use a dict comprehension:

>>> keys = ['a','b','c']
>>> value = [0, 0]
>>> {key: list(value) for key in keys}
    {'a': [0, 0], 'b': [0, 0], 'c': [0, 0]}
  • 2
    list(value) is the same thing as value[:] here?
    – yurisich
    Apr 20, 2014 at 1:56
  • 1
    @Droogans: Yep. I just find the empty slice notation ugly.
    – Blender
    Apr 20, 2014 at 2:51
  • value[:] isn't that ugly (unless you share Alex Martelli's aesthetic sense :) ), and it's less typing. In recent versions of Python there's now a list.copy method. In terms of performance, slicing is fastest for small lists (upto 50 or 60 items), but for larger lists list(value) is actually a little faster. value.copy() seems to have similar performance to list(value). All 3 techniques dramatically slow down for large lists: on my old 32 bit machine that happens around 32k, YMMV depending on your CPU's word size and cache sizes.
    – PM 2Ring
    Jul 14, 2018 at 8:25

This answer is here to explain this behavior to anyone flummoxed by the results they get of trying to instantiate a dict with fromkeys() with a mutable default value in that dict.


#Python 3.4.3 (default, Nov 17 2016, 01:08:31) 

# start by validating that different variables pointing to an
# empty mutable are indeed different references.
>>> l1 = []
>>> l2 = []
>>> id(l1)
>>> id(l2)

so any change to l1 will not affect l2 and vice versa. this would be true for any mutable so far, including a dict.

# create a new dict from an iterable of keys
>>> dict1 = dict.fromkeys(['a', 'b', 'c'], [])
>>> dict1
{'c': [], 'b': [], 'a': []}

this can be a handy function. here we are assigning to each key a default value which also happens to be an empty list.

# the dict has its own id.
>>> id(dict1)

# but look at the ids of the values.
>>> id(dict1['a'])
>>> id(dict1['b'])
>>> id(dict1['c'])

Indeed they are all using the same ref! A change to one is a change to all, since they are in fact the same object!

>>> dict1['a'].append('apples')
>>> dict1
{'c': ['apples'], 'b': ['apples'], 'a': ['apples']}
>>> id(dict1['a'])
>>> 140150323816328
>>> id(dict1['b'])
>>> id(dict1['c'])

for many, this was not what was intended!

Now let's try it with making an explicit copy of the list being used as a the default value.

>>> empty_list = []
>>> id(empty_list)

and now create a dict with a copy of empty_list.

>>> dict2 = dict.fromkeys(['a', 'b', 'c'], empty_list[:])
>>> id(dict2)
>>> id(dict2['a'])
>>> id(dict2['b'])
>>> id(dict2['c'])
>>> dict2['a'].append('apples')
>>> dict2
{'c': ['apples'], 'b': ['apples'], 'a': ['apples']}

Still no joy! I hear someone shout, it's because I used an empty list!

>>> not_empty_list = [0]
>>> dict3 = dict.fromkeys(['a', 'b', 'c'], not_empty_list[:])
>>> dict3
{'c': [0], 'b': [0], 'a': [0]}
>>> dict3['a'].append('apples')
>>> dict3
{'c': [0, 'apples'], 'b': [0, 'apples'], 'a': [0, 'apples']}

The default behavior of fromkeys() is to assign None to the value.

>>> dict4 = dict.fromkeys(['a', 'b', 'c'])
>>> dict4
{'c': None, 'b': None, 'a': None}
>>> id(dict4['a'])
>>> id(dict4['b'])
>>> id(dict4['c'])

Indeed, all of the values are the same (and the only!) None. Now, let's iterate, in one of a myriad number of ways, through the dict and change the value.

>>> for k, _ in dict4.items():
...    dict4[k] = []

>>> dict4
{'c': [], 'b': [], 'a': []}

Hmm. Looks the same as before!

>>> id(dict4['a'])
>>> id(dict4['b'])
>>> id(dict4['c'])
>>> dict4['a'].append('apples')
>>> dict4
>>> {'c': [], 'b': [], 'a': ['apples']}

But they are indeed different []s, which was in this case the intended result.

  • 8
    So we have to iterate? Jan 25, 2018 at 2:46
  • 2
    i thought the whole point was to not iterate ... that's the shortcut , otherwise why do i need this function in the first place ?
    – Ricky Levi
    Nov 29, 2021 at 19:59

You can use this:

l = ['a', 'b', 'c']
d = dict((k, [0, 0]) for k in l)

You are populating your dictionaries with references to a single list so when you update it, the update is reflected across all the references. Try a dictionary comprehension instead. See Create a dictionary with list comprehension in Python

d = {k : v for k in blah blah blah}
  • great suggestion on initializing dictionary values... thanks cobie! I extended your example to reset the values in an existing dictionary, d. I performed this as follows: d = { k:0 for k in d }
    – John
    Aug 21, 2016 at 14:29
  • What is v in this answer?
    – Dr_Zaszuś
    May 28, 2020 at 8:03

You could use this:

data[:1] = ['hello']
  • 2
    It might be helpful to the OP to explain why this works. The original question posted aks why it doesn't work as expected. Jun 15, 2017 at 18:05
  • @william.taylor.09 it's kinda obvious why this works, isn't it? Jun 15, 2017 at 18:24
  • OP is (was) asking "Why is the fromkeys method not working as expected?" Jun 15, 2017 at 18:29

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