709

I have a list of lists:

[[12, 'tall', 'blue', 1],
[2, 'short', 'red', 9],
[4, 'tall', 'blue', 13]]

If I wanted to sort by one element, say the tall/short element, I could do it via s = sorted(s, key = itemgetter(1)).

If I wanted to sort by both tall/short and colour, I could do the sort twice, once for each element, but is there a quicker way?

3

8 Answers 8

1217

A key can be a function that returns a tuple:

s = sorted(s, key = lambda x: (x[1], x[2]))

Or you can achieve the same using itemgetter (which is faster and avoids a Python function call):

import operator
s = sorted(s, key = operator.itemgetter(1, 2))

And notice that here you can use sort instead of using sorted and then reassigning:

s.sort(key = operator.itemgetter(1, 2))
18
  • 28
    For completeness from timeit: for me first gave 6 us per loop and the second 4.4 us per loop Feb 8, 2013 at 21:52
  • 33
    Is there a way to sort the first one ascending and the second one descending? (Assume both attributes are strings, so no hacks like adding - for integers) Aug 5, 2013 at 11:03
  • 98
    how about if I want to apply revrse=True only to x[1] is that possible ?
    – Amyth
    Nov 24, 2014 at 11:45
  • 38
    @moose, @Amyth, to reverse to only one attribute, you can sort twice: first by the secondary s = sorted(s, key = operator.itemgetter(2)) then by the primary s = sorted(s, key = operator.itemgetter(1), reverse=True) Not ideal, but works. Apr 13, 2015 at 9:43
  • 75
    @Amyth or another option, if key is number, to make it reverse, you can multiple it by -1.
    – Serge
    Apr 6, 2016 at 11:21
58

I'm not sure if this is the most pythonic method ... I had a list of tuples that needed sorting 1st by descending integer values and 2nd alphabetically. This required reversing the integer sort but not the alphabetical sort. Here was my solution: (on the fly in an exam btw, I was not even aware you could 'nest' sorted functions)

a = [('Al', 2),('Bill', 1),('Carol', 2), ('Abel', 3), ('Zeke', 2), ('Chris', 1)]  
b = sorted(sorted(a, key = lambda x : x[0]), key = lambda x : x[1], reverse = True)  
print(b)  
[('Abel', 3), ('Al', 2), ('Carol', 2), ('Zeke', 2), ('Bill', 1), ('Chris', 1)]
1
  • 29
    since 2nd is a number, it works to do it like b = sorted(a, key = lambda x: (-x[1], x[0])) which is more visible on which criteria applies first. as for efficiency I'm not sure, someone needs to timeit. May 17, 2017 at 7:21
25

Several years late to the party but I want to both sort on 2 criteria and use reverse=True. In case someone else wants to know how, you can wrap your criteria (functions) in parenthesis:

s = sorted(my_list, key=lambda i: ( criteria_1(i), criteria_2(i) ), reverse=True)
1
7

It appears you could use a list instead of a tuple. This becomes more important I think when you are grabbing attributes instead of 'magic indexes' of a list/tuple.

In my case I wanted to sort by multiple attributes of a class, where the incoming keys were strings. I needed different sorting in different places, and I wanted a common default sort for the parent class that clients were interacting with; only having to override the 'sorting keys' when I really 'needed to', but also in a way that I could store them as lists that the class could share

So first I defined a helper method

def attr_sort(self, attrs=['someAttributeString']:
  '''helper to sort by the attributes named by strings of attrs in order'''
  return lambda k: [ getattr(k, attr) for attr in attrs ]

then to use it

# would defined elsewhere but showing here for consiseness
self.SortListA = ['attrA', 'attrB']
self.SortListB = ['attrC', 'attrA']
records = .... #list of my objects to sort
records.sort(key=self.attr_sort(attrs=self.SortListA))
# perhaps later nearby or in another function
more_records = .... #another list
more_records.sort(key=self.attr_sort(attrs=self.SortListB))

This will use the generated lambda function sort the list by object.attrA and then object.attrB assuming object has a getter corresponding to the string names provided. And the second case would sort by object.attrC then object.attrA.

This also allows you to potentially expose outward sorting choices to be shared alike by a consumer, a unit test, or for them to perhaps tell you how they want sorting done for some operation in your api by only have to give you a list and not coupling them to your back end implementation.

3
  • Nice work. What if the attributes should be sorted in different orders? Suppose attrA should be sorted ascending and attrB descending? Is there a quick solution on top of this? Thanks!
    – mhn_namak
    Feb 3, 2020 at 22:18
  • @mhn_namak see stackoverflow.com/a/55866810/2359945 which is a beautiful way to sort on n criteria, each in either ascending or descending. Feb 9, 2021 at 13:03
  • We clearly have very different views on beautiful. While it does the job that is fugliest thing I have ever seen. And the efficiency becomes a function of (n*m) where m is number of attributes to sort on instead of just a function of the length of the list. i would think other answers here have better solutions or you could write your own sort function to do it yourself if you really needed that behavior
    – UpAndAdam
    Feb 18, 2021 at 19:59
7

convert the list of list into a list of tuples then sort the tuple by multiple fields.

 data=[[12, 'tall', 'blue', 1],[2, 'short', 'red', 9],[4, 'tall', 'blue', 13]]

 data=[tuple(x) for x in data]
 result = sorted(data, key = lambda x: (x[1], x[2]))
 print(result)

output:

 [(2, 'short', 'red', 9), (12, 'tall', 'blue', 1), (4, 'tall', 'blue', 13)]
2

Here's one way: You basically re-write your sort function to take a list of sort functions, each sort function compares the attributes you want to test, on each sort test, you look and see if the cmp function returns a non-zero return if so break and send the return value. You call it by calling a Lambda of a function of a list of Lambdas.

Its advantage is that it does single pass through the data not a sort of a previous sort as other methods do. Another thing is that it sorts in place, whereas sorted seems to make a copy.

I used it to write a rank function, that ranks a list of classes where each object is in a group and has a score function, but you can add any list of attributes. Note the un-lambda-like, though hackish use of a lambda to call a setter. The rank part won't work for an array of lists, but the sort will.

#First, here's  a pure list version
my_sortLambdaLst = [lambda x,y:cmp(x[0], y[0]), lambda x,y:cmp(x[1], y[1])]
def multi_attribute_sort(x,y):
    r = 0
    for l in my_sortLambdaLst:
        r = l(x,y)
        if r!=0: return r #keep looping till you see a difference
    return r

Lst = [(4, 2.0), (4, 0.01), (4, 0.9), (4, 0.999),(4, 0.2), (1, 2.0), (1, 0.01), (1, 0.9), (1, 0.999), (1, 0.2) ]
Lst.sort(lambda x,y:multi_attribute_sort(x,y)) #The Lambda of the Lambda
for rec in Lst: print str(rec)

Here's a way to rank a list of objects

class probe:
    def __init__(self, group, score):
        self.group = group
        self.score = score
        self.rank =-1
    def set_rank(self, r):
        self.rank = r
    def __str__(self):
        return '\t'.join([str(self.group), str(self.score), str(self.rank)]) 


def RankLst(inLst, group_lambda= lambda x:x.group, sortLambdaLst = [lambda x,y:cmp(x.group, y.group), lambda x,y:cmp(x.score, y.score)], SetRank_Lambda = lambda x, rank:x.set_rank(rank)):
    #Inner function is the only way (I could think of) to pass the sortLambdaLst into a sort function
    def multi_attribute_sort(x,y):
        r = 0
        for l in sortLambdaLst:
            r = l(x,y)
            if r!=0: return r #keep looping till you see a difference
        return r

    inLst.sort(lambda x,y:multi_attribute_sort(x,y))
    #Now Rank your probes
    rank = 0
    last_group = group_lambda(inLst[0])
    for i in range(len(inLst)):
        rec = inLst[i]
        group = group_lambda(rec)
        if last_group == group: 
            rank+=1
        else:
            rank=1
            last_group = group
        SetRank_Lambda(inLst[i], rank) #This is pure evil!! The lambda purists are gnashing their teeth

Lst = [probe(4, 2.0), probe(4, 0.01), probe(4, 0.9), probe(4, 0.999), probe(4, 0.2), probe(1, 2.0), probe(1, 0.01), probe(1, 0.9), probe(1, 0.999), probe(1, 0.2) ]

RankLst(Lst, group_lambda= lambda x:x.group, sortLambdaLst = [lambda x,y:cmp(x.group, y.group), lambda x,y:cmp(x.score, y.score)], SetRank_Lambda = lambda x, rank:x.set_rank(rank))
print '\t'.join(['group', 'score', 'rank']) 
for r in Lst: print r
0

There is a operator < between lists e.g.:

[12, 'tall', 'blue', 1] < [4, 'tall', 'blue', 13]

will give

False
0

Multisort with ability to specify ascending/descending order per each attribute

from operator import itemgetter, attrgetter
from functools import cmp_to_key


def multikeysort(items, *columns, attrs=True) -> list:
    """
    Perform a multiple column sort on a list of dictionaries or objects.
    Args:
        items (list): List of dictionaries or objects to be sorted.
        *columns: Columns to sort by, optionally preceded by a '-' for descending order.
        attrs (bool): True if items are objects, False if items are dictionaries.

    Returns:
        list: Sorted list of items.
    """
    getter = attrgetter if attrs else itemgetter

    def get_comparers():
        comparers = []

        for col in columns:
            col = col.strip()
            if col.startswith('-'):  # If descending, strip '-' and create a comparer with reverse order
                key = getter(col[1:])
                order = -1
            else:  # If ascending, use the column directly
                key = getter(col)
                order = 1

            comparers.append((key, order))
        return comparers

    def custom_compare(left, right):
        """Custom comparison function to handle multiple keys"""
        for fn, reverse in get_comparers():
            result = (fn(left) > fn(right)) - (fn(left) < fn(right))
            if result != 0:
                return result * reverse
        return 0

    return sorted(items, key=cmp_to_key(custom_compare))

Usage/test with SORT by DESC('opens'), ASC('clicks')

def test_sort_objects(self):
    Customer = namedtuple('Customer', ['id', 'opens', 'clicks'])

    customer1 = Customer(id=1, opens=4, clicks=8)
    customer2 = Customer(id=2, opens=4, clicks=7)
    customer3 = Customer(id=2, opens=5, clicks=1)
    customers = [customer1, customer2, customer3]

    sorted_customers = multikeysort(customers, '-opens', 'clicks')
    exp_sorted_customers = [customer3, customer2, customer1]
    self.assertEqual(exp_sorted_customers, sorted_customers)

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