I have a list of dictionaries and want each item to be sorted by a specific value.

Take into consideration the list:

[{'name':'Homer', 'age':39}, {'name':'Bart', 'age':10}]

When sorted by name, it should become:

[{'name':'Bart', 'age':10}, {'name':'Homer', 'age':39}]
  • 3
    Reading the answer and looking on operator.itemgetter. Can I sort on multiple value in the same process (for example we have [{'name':'Bart', 'age':10, 'note':3},{'name':'Homer','age':10,'note':2},{'name':'Vasile','age':20,'note':3}] And to use: from operator import itemgetter newlist = sorted(old_list, key=itemgetter(-'note','name') EDIT: Tested, and it is working but I don't know how to make note DESC and name ASC.
    – Claudiu
    May 21 '20 at 7:13

18 Answers 18


The sorted() function takes a key= parameter

newlist = sorted(list_to_be_sorted, key=lambda d: d['name']) 

Alternatively, you can use operator.itemgetter instead of defining the function yourself

from operator import itemgetter
newlist = sorted(list_to_be_sorted, key=itemgetter('name')) 

For completeness, add reverse=True to sort in descending order

newlist = sorted(list_to_be_sorted, key=itemgetter('name'), reverse=True)
  • 46
    Using key is not only cleaner but more effecient too.
    – jfs
    Sep 16 '08 at 15:03
  • 5
    The fastest way would be to add a newlist.reverse() statement. Otherwise you can define a comparison like cmp=lambda x,y: - cmp(x['name'],y['name']).
    – Mario F
    Oct 13 '09 at 7:14
  • 4
    if the sort value is a number you could say: lambda k: (k['age'] * -1) to get a reverse sort Nov 20 '09 at 15:16
  • 3
    This also applies to a list of tuples, if you use itemgetter(i) where i is the index of the tuple element to sort on.
    – radicand
    Jul 11 '12 at 23:14
  • 50
    itemgetter accepts more than one argument: itemgetter(1,2,3) is a function that return a tuple like obj[1], obj[2], obj[3], so you can use it to do complex sorts.
    – Bakuriu
    Sep 7 '12 at 17:59
import operator

To sort the list of dictionaries by key='name':


To sort the list of dictionaries by key='age':

  • 12
    Anyway to combine name and age ? (like in SQL ORDER BY name,age ?)
    – monojohnny
    Feb 17 '10 at 13:10
  • 39
    @monojohnny: yes, just have the key return a tuple, key=lambda k: (k['name'], k['age']). (or key=itemgetter('name', 'age')). tuple's cmp will compare each element in turn. it's bloody brilliant.
    – Claudiu
    Sep 4 '13 at 22:21
  • 1
    In the documentation (docs.python.org/2/tutorial/datastructures.html) the optional key argument for list.sort() is not described. Any idea where to find that?
    – TTT
    Feb 21 '14 at 15:21
  • 2
    @TTT: See the library documentation for list and friends.
    – Kevin
    Feb 19 '15 at 14:56
my_list = [{'name':'Homer', 'age':39}, {'name':'Bart', 'age':10}]

my_list.sort(lambda x,y : cmp(x['name'], y['name']))

my_list will now be what you want.

Or better:

Since Python 2.4, there's a key argument is both more efficient and neater:

my_list = sorted(my_list, key=lambda k: k['name'])

...the lambda is, IMO, easier to understand than operator.itemgetter, but your mileage may vary.

  • what could be done if the key is unknown and keeps changing?I mean list of dicts with just one key and value but the key and value could not be defined as they keep changing.
    – Sam
    Dec 1 '20 at 14:51
  • 1
    I'd need more of an example to look at. Try submitting a possible solution on the codereview stackexchange and asking if there's a better way.
    – pjz
    Dec 30 '20 at 1:02
  • @Sam if you want to sort by the value of the single key in the dict, even if you don't know the key, you can do key=lambda k: list(k.values())[0]
    – pjz
    Mar 10 at 6:38

If you want to sort the list by multiple keys, you can do the following:

my_list = [{'name':'Homer', 'age':39}, {'name':'Milhouse', 'age':10}, {'name':'Bart', 'age':10} ]
sortedlist = sorted(my_list , key=lambda elem: "%02d %s" % (elem['age'], elem['name']))

It is rather hackish, since it relies on converting the values into a single string representation for comparison, but it works as expected for numbers including negative ones (although you will need to format your string appropriately with zero paddings if you are using numbers).

  • 3
    sorted using timsort which is stable, you can call sorted several times to have a sort on several criteria
    – njzk2
    May 29 '13 at 13:41
  • 1
    njzk2's comment wasn't immediately clear to me so I found the following. You can just sort twice as njzk2 suggests, or pass multiple arguments to operator.itemgetter in the top answer. Link: stackoverflow.com/questions/5212870/… Aug 23 '13 at 21:05
  • 17
    No need to convert to string. Just return a tuple as the key. Dec 15 '13 at 4:55
  • Sorting multiple times is the easiest generic solution without hacks: stackoverflow.com/a/29849371/1805397 Apr 24 '15 at 13:59
a = [{'name':'Homer', 'age':39}, ...]

# This changes the list a
a.sort(key=lambda k : k['name'])

# This returns a new list (a is not modified)
sorted(a, key=lambda k : k['name']) 
import operator

'key' is used to sort by an arbitrary value and 'itemgetter' sets that value to each item's 'name' attribute.


I guess you've meant:

[{'name':'Homer', 'age':39}, {'name':'Bart', 'age':10}]

This would be sorted like this:

sorted(l,cmp=lambda x,y: cmp(x['name'],y['name']))

Using the Schwartzian transform from Perl,

py = [{'name':'Homer', 'age':39}, {'name':'Bart', 'age':10}]


sort_on = "name"
decorated = [(dict_[sort_on], dict_) for dict_ in py]
result = [dict_ for (key, dict_) in decorated]


>>> result
[{'age': 10, 'name': 'Bart'}, {'age': 39, 'name': 'Homer'}]

More on the Perl Schwartzian transform:

In computer science, the Schwartzian transform is a Perl programming idiom used to improve the efficiency of sorting a list of items. This idiom is appropriate for comparison-based sorting when the ordering is actually based on the ordering of a certain property (the key) of the elements, where computing that property is an intensive operation that should be performed a minimal number of times. The Schwartzian Transform is notable in that it does not use named temporary arrays.

  • 10
    Python has supported the key= for .sort since 2.4, that is year 2004, it does the Schwartzian transform within the sorting code, in C; thus this method is useful only on Pythons 2.0-2.3. all of which are more than 12 years old. Feb 15 '15 at 20:11

You could use a custom comparison function, or you could pass in a function that calculates a custom sort key. That's usually more efficient as the key is only calculated once per item, while the comparison function would be called many more times.

You could do it this way:

def mykey(adict): return adict['name']
x = [{'name': 'Homer', 'age': 39}, {'name': 'Bart', 'age':10}]
sorted(x, key=mykey)

But the standard library contains a generic routine for getting items of arbitrary objects: itemgetter. So try this instead:

from operator import itemgetter
x = [{'name': 'Homer', 'age': 39}, {'name': 'Bart', 'age':10}]
sorted(x, key=itemgetter('name'))

You have to implement your own comparison function that will compare the dictionaries by values of name keys. See Sorting Mini-HOW TO from PythonInfo Wiki

  • 1
    This relies too much on the link. Can you provide a more complete answer? Aug 14 '20 at 20:51
  • Proper anwers are already provided by other contributors as well. Feel free to either keep the link, or delete the answer.
    – Matej
    Aug 17 '20 at 4:25

Sometimes we need to use lower(). For example,

lists = [{'name':'Homer', 'age':39},
  {'name':'Bart', 'age':10},
  {'name':'abby', 'age':9}]

lists = sorted(lists, key=lambda k: k['name'])
# [{'name':'Bart', 'age':10}, {'name':'Homer', 'age':39}, {'name':'abby', 'age':9}]

lists = sorted(lists, key=lambda k: k['name'].lower())
# [ {'name':'abby', 'age':9}, {'name':'Bart', 'age':10}, {'name':'Homer', 'age':39}]
  • Why do we need to use lower() in this case? Aug 14 '20 at 20:52

Using the Pandas package is another method, though its runtime at large scale is much slower than the more traditional methods proposed by others:

import pandas as pd

listOfDicts = [{'name':'Homer', 'age':39}, {'name':'Bart', 'age':10}]
df = pd.DataFrame(listOfDicts)
df = df.sort_values('name')
sorted_listOfDicts = df.T.to_dict().values()

Here are some benchmark values for a tiny list and a large (100k+) list of dicts:

setup_large = "listOfDicts = [];\
[listOfDicts.extend(({'name':'Homer', 'age':39}, {'name':'Bart', 'age':10})) for _ in range(50000)];\
from operator import itemgetter;import pandas as pd;\
df = pd.DataFrame(listOfDicts);"

setup_small = "listOfDicts = [];\
listOfDicts.extend(({'name':'Homer', 'age':39}, {'name':'Bart', 'age':10}));\
from operator import itemgetter;import pandas as pd;\
df = pd.DataFrame(listOfDicts);"

method1 = "newlist = sorted(listOfDicts, key=lambda k: k['name'])"
method2 = "newlist = sorted(listOfDicts, key=itemgetter('name')) "
method3 = "df = df.sort_values('name');\
sorted_listOfDicts = df.T.to_dict().values()"

import timeit
t = timeit.Timer(method1, setup_small)
print('Small Method LC: ' + str(t.timeit(100)))
t = timeit.Timer(method2, setup_small)
print('Small Method LC2: ' + str(t.timeit(100)))
t = timeit.Timer(method3, setup_small)
print('Small Method Pandas: ' + str(t.timeit(100)))

t = timeit.Timer(method1, setup_large)
print('Large Method LC: ' + str(t.timeit(100)))
t = timeit.Timer(method2, setup_large)
print('Large Method LC2: ' + str(t.timeit(100)))
t = timeit.Timer(method3, setup_large)
print('Large Method Pandas: ' + str(t.timeit(1)))

#Small Method LC: 0.000163078308105
#Small Method LC2: 0.000134944915771
#Small Method Pandas: 0.0712950229645
#Large Method LC: 0.0321750640869
#Large Method LC2: 0.0206089019775
#Large Method Pandas: 5.81405615807
  • 4
    I ran your code and found a mistake in the the timeit.Timer args for Large Method Pandas: you specify "setup_small" where it should be "setup_large". Changing that arg caused the program to run without finishing, and I stopped it after more than 5 minutes. When I ran it with "timeit(1)", the Large Method Pandas finished in 7.3 sec, much worse than LC or LC2.
    – clp2
    Nov 7 '16 at 4:05
  • You're quite right, that was quite an oversight on my part. I no longer recommend it for large cases! I have edited the answer to simply allow it as a possibility, the use case is still up for debate.
    – abby sobh
    Nov 8 '16 at 22:58

Here is the alternative general solution - it sorts elements of a dict by keys and values.

The advantage of it - no need to specify keys, and it would still work if some keys are missing in some of dictionaries.

def sort_key_func(item):
    """ Helper function used to sort list of dicts

    :param item: dict
    :return: sorted list of tuples (k, v)
    pairs = []
    for k, v in item.items():
        pairs.append((k, v))
    return sorted(pairs)
sorted(A, key=sort_key_func)
  • What do you mean by "sorts elements of a dict by keys and values"? In what way is it sorting? Where do the values come in? Aug 14 '20 at 20:54

If you do not need the original list of dictionaries, you could modify it in-place with sort() method using a custom key function.

Key function:

def get_name(d):
    """ Return the value of a key in a dictionary. """

    return d["name"]

The list to be sorted:

data_one = [{'name': 'Homer', 'age': 39}, {'name': 'Bart', 'age': 10}]

Sorting it in-place:


If you need the original list, call the sorted() function passing it the list and the key function, then assign the returned sorted list to a new variable:

data_two = [{'name': 'Homer', 'age': 39}, {'name': 'Bart', 'age': 10}]
new_data = sorted(data_two, key=get_name)

Printing data_one and new_data.

>>> print(data_one)
[{'name': 'Bart', 'age': 10}, {'name': 'Homer', 'age': 39}]
>>> print(new_data)
[{'name': 'Bart', 'age': 10}, {'name': 'Homer', 'age': 39}]

Let's say I have a dictionary D with the elements below. To sort, just use the key argument in sorted to pass a custom function as below:

D = {'eggs': 3, 'ham': 1, 'spam': 2}
def get_count(tuple):
    return tuple[1]

sorted(D.items(), key = get_count, reverse=True)
# Or
sorted(D.items(), key = lambda x: x[1], reverse=True)  # Avoiding get_count function call

Check this out.


I have been a big fan of a filter with lambda. However, it is not best option if you consider time complexity.

First option

sorted_list = sorted(list_to_sort, key= lambda x: x['name'])
# Returns list of values

Second option

# Edits the list, and does not return a new list

Fast comparison of execution times

# First option
python3.6 -m timeit -s "list_to_sort = [{'name':'Homer', 'age':39}, {'name':'Bart', 'age':10}, {'name':'Faaa', 'age':57}, {'name':'Errr', 'age':20}]" -s "sorted_l=[]" "sorted_l = sorted(list_to_sort, key=lambda e: e['name'])"

1000000 loops, best of 3: 0.736 µsec per loop

# Second option
python3.6 -m timeit -s "list_to_sort = [{'name':'Homer', 'age':39}, {'name':'Bart', 'age':10}, {'name':'Faaa', 'age':57}, {'name':'Errr', 'age':20}]" -s "sorted_l=[]" -s "import operator" "list_to_sort.sort(key=operator.itemgetter('name'))"

1000000 loops, best of 3: 0.438 µsec per loop


If performance is a concern, I would use operator.itemgetter instead of lambda as built-in functions perform faster than hand-crafted functions. The itemgetter function seems to perform approximately 20% faster than lambda based on my testing.

From https://wiki.python.org/moin/PythonSpeed:

Likewise, the builtin functions run faster than hand-built equivalents. For example, map(operator.add, v1, v2) is faster than map(lambda x,y: x+y, v1, v2).

Here is a comparison of sorting speed using lambda vs itemgetter.

import random
import operator

# Create a list of 100 dicts with random 8-letter names and random ages from 0 to 100.
l = [{'name': ''.join(random.choices(string.ascii_lowercase, k=8)), 'age': random.randint(0, 100)} for i in range(100)]

# Test the performance with a lambda function sorting on name
%timeit sorted(l, key=lambda x: x['name'])
13 µs ± 388 ns per loop (mean ± std. dev. of 7 runs, 100000 loops each)

# Test the performance with itemgetter sorting on name
%timeit sorted(l, key=operator.itemgetter('name'))
10.7 µs ± 38.1 ns per loop (mean ± std. dev. of 7 runs, 100000 loops each)

# Check that each technique produces the same sort order
sorted(l, key=lambda x: x['name']) == sorted(l, key=operator.itemgetter('name'))

Both techniques sort the list in the same order (verified by execution of the final statement in the code block), but the first one is a little faster.


As indicated by @Claudiu to @monojohnny in comment section of this answer,

list_to_be_sorted = [
                      {'name':'Homer', 'age':39}, 
                      {'name':'Milhouse', 'age':10}, 
                      {'name':'Bart', 'age':10} 

to sort the list of dictionaries by key 'age', 'name'
(like in SQL statement ORDER BY age, name), you can use:

newlist = sorted( list_to_be_sorted, key=lambda k: (k['age'], k['name']) )

or, likewise

import operator
newlist = sorted( list_to_be_sorted, key=operator.itemgetter('age','name') )


[{'name': 'Bart', 'age': 10},
{'name': 'Milhouse', 'age': 10},
{'name': 'Homer', 'age': 39}]

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