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?

  • I think you should call list() to actually create a new list each time. You might want to use dict comprehension rather than fromkeys Commented Jun 8, 2022 at 8:43

6 Answers 6


When [] is passed as the second argument to dict.fromkeys(), all values in the resulting dict will be the same list object.

In Python 2.7 or above, use a dict comprehension instead:

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

In earlier versions of Python, there is no dict comprehension, but a list comprehension can be passed to the dict constructor instead:

data = dict([(k, []) for k in range(2)])

In 2.4-2.6, it is also possible to pass a generator expression to dict, and the surrounding parentheses can be dropped:

data = dict((k, []) for k in range(2))

Try using a defaultdict instead:

from collections import defaultdict
data = defaultdict(list)

This way, the keys don't need to be initialized with empty lists ahead of time. The defaultdict() object instead calls the factory function given to it, every time a key is accessed that doesn't exist yet. So, in this example, attempting to access data[1] triggers data[1] = list() internally, giving that key a new empty list as its value.

The original code with .fromkeys shares one (mutable) list. Similarly,

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

would output {0: [1, 2], 1: [1, 2]}. This is called out in the dict.fromkeys() documentation:

All of the values refer to just a single instance, so it generally doesn’t make sense for value to be a mutable object such as an empty list.

Another option is to use the dict.setdefault() method, which retrieves the value for a key after first checking it exists and setting a default if it doesn't. .append can then be called on the result:

data = {}
data.setdefault(1, []).append('hello')

Finally, to create a dictionary from a list of known keys and a given "template" list (where each value should start with the same elements, but be a distinct list), use a dictionary comprehension and copy the initial list:

alist = [1]
data = {key: alist[:] for key in range(2)}

Here, alist[:] creates a shallow copy of alist, and this is done separately for each value. See How do I clone a list so that it doesn't change unexpectedly after assignment? for more techniques for copying the list.


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]}
  • 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
    Commented 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? Commented 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
    Commented Nov 29, 2021 at 19:59
  • Of course you have to iterate. dict.fromkeys iterates in the first place. Anyway, this seems like a lot of detail to explain something that's already pretty clear from the top two answers. Commented Jan 21, 2023 at 12:25

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
    Commented Aug 21, 2016 at 14:29
  • What is v in this answer?
    – Dr_Zaszuś
    Commented May 28, 2020 at 8:03
  • Sure, but page 262 of no less than the 5'th edition of Learning Python makes no reference to this business of deliberately creating a dict with just one single reference in common to all keys such that there can only ever be one value in the entire dict. Nowhere can I find any clue as to what is the purpose of fromkeys(). Who would ever want a dict where all the values are the same? How can you force the single common reference to later separate into unique references such that you can later populate unique values to the keys? Python is such a great language, but this one is a rare puzzler.
    – J B
    Commented Mar 19 at 13:32

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