I was wondering what would be a Pythonic way of sorting a list of tuples by two keys whereby sorting with one (and only one) key would be in a reverse order and sorting with the the other would be case insensitive.
More specifically, I have a list containing tuples like:
myList = [(ele1A, ele2A),(ele1B, ele2B),(ele1C, ele2C)]
I can use the following code to sort it with two keys:
sortedList = sorted(myList, key = lambda y: (y[0].lower(), y[1]))
To sort in reverse order I can use
sortedList = sorted(myList, key = lambda y: (y[0].lower(), y[1]), reverse = True)
But this would sort in a reverse order with two keys.
Answers:
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Method 1
Two keys will be used when we need to sort a list with two constraints: one in ascending order and the other in descending, in the same list or any
In your example,
sortedList = sorted(myList, key = lambda y: (y[0].lower(), y[1]))
you can sort entire list only in one order.
You can try these and check what’s happening:
sortedList = sorted(myList, key = lambda y: (y[0].lower(), -y[1])) sortedList = sorted(myList, key = lambda y: (-y[0].lower(), y[1])) sortedList = sorted(myList, key = lambda y: (-y[0].lower(), -y[1]))
Method 2
You could create a reversor class and use it to decorate the key in question. This class could be used to reverse any field that is comparable.
class reversor:
def __init__(self, obj):
self.obj = obj
def __eq__(self, other):
return other.obj == self.obj
def __lt__(self, other):
return other.obj < self.obj
Use it like so:
sortedList = sorted(myList, key=lambda y: (y[0].lower(), reversor(y[1])))
Method 3
Sometimes there is little alternative but to use a comparator function. There was a cmp argument to sorted from its introduction to 2.4, but it was removed from Python 3 in favour of the more efficient key function. In 3.2, cmp_to_key was added to functools; it creates keys from the original objects by wrapping them in an object whose comparison function is based on the cmp function. (You can see a simple definition of cmp_to_key at the end of the Sorting How-To
In your case, since lower-casing is relatively expensive, you might want to do a combination:
class case_insensitive_and_2nd_reversed:
def __init__(self, obj, *args):
self.first = obj[0].lower()
self.second = obj[1]
def __lt__(self, other):
return self.first < other.first or self.first == other.first and other.second < self.second
def __gt__(self, other):
return self.first > other.first or self.first == other.first and other.second > self.second
def __le__(self, other):
return self.first < other.first or self.first == other.first and other.second <= self.second
def __ge__(self, other):
return self.first > other.first or self.first == other.first and other.second >= self.second
def __eq__(self, other):
return self.first == other.first and self.second == other.second
def __ne__(self, other):
return self.first != other.first and self.second != other.second
sortedList = sorted(myList, key = case_insensitive_and_2nd_reversed)
Method 4
Method 1
A simple solution, but might not be the most efficient is to sort twice: the first time using the second element, the second using the first element:
sortedList = sorted(sorted(myList, key=lambda (a,b):b, reverse=True), key=lambda(a,b):a)
Or break down:
tempList = sorted(myList, key=lambda (a,b):b, reverse=True) sortedList = sorted(tempList, key=lambda(a,b):a))
Method 2
If your elements are numbers, you can cheat a little:
sorted(myList, key=lambda(a,b):(a,1.0/b))
Method 3
I recommend against this approach as it is messy and the cmp keyword is not available in Python 3.
Another approach is to swap the elements when comparing the elements:
def compare_func(x, y):
tup1 = (x[0], y[1])
tup2 = (x[1], y[0])
if tup1 == tup2:
return 0
elif tup1 > tup2:
return 1
else:
return -1
sortedList = sorted(myList, cmp=compare_func)
Or, using lambda to avoid writing function:
sortedList = sorted(
myList,
cmp=lambda (a1, b1), (a2, b2): 0 if (a1, b2) == (a2, b1) else 1 if (a1, b2) > (a2, b1) else -1
)
Method 5
When using Python 3, @KellyBundy made an excellent observation that the multisort method listed in the current python docs is incredibly fast and be used to accomplish multi-colum sort with discrete ordering. Here is a NoneType safe version:
students = [
{'idx': 0, 'name': 'john', 'grade': 'A', 'attend': 100}
,{'idx': 1, 'name': 'jane', 'grade': 'B', 'attend': 80}
,{'idx': 2, 'name': 'dave', 'grade': 'B', 'attend': 85}
,{'idx': 3, 'name': 'stu' , 'grade': None, 'attend': 85}
]
def key_grade(student):
grade = student['grade']
return grade is None, grade
def key_attend(student):
attend = student['attend']
return attend is None, attend
students_sorted = sorted(students, key=key_attend)
students_sorted.sort(key=key_grade, reverse=True)
Notes:
- The <variable> is None, check is defensive check so that search does not fail on None values
- Although, this does multiple sorted calls, it is hands down the fastest multi-sort method!
I have created a new Python Project called multisort which exposes three methodologies:
| Method | Descr | Notes | speed |
|---|---|---|---|
| multisort | Simple one-liner designed after multisort example from python docs |
Second fastest of the bunch but most configurable and easy to read. | 0.0035 |
| cmp_func | Multi column sorting in the model java.util.Comparator |
Reasonable speed | 0.0138 |
| reversor | Implementation of reversor – See Black Panda‘s answer | Pretty slow methodology | 0.0370 |
For reference:
| Method | speed |
|---|---|
| KellyBundy’s Multisort | 0.0005 |
| pandas | 0.0079 |
Note: Speed is average of 10 runs for 1000 rows with 4 columns.
Example of multisort from the multisort library :
from multisort import multisort
rows_sorted = multisort(rows_dict, [
('grade', True, lambda s:None if s is None else s.upper()),
'attend',
], reverse=True)
However, for developers who come in from Java, here is an example that is similar to java.util.Comparator for use in Python 3:
from multisort import cmp_func
def cmp_student(a,b):
k='grade'; va=a[k]; vb=b[k]
if va != vb:
if va is None: return -1
if vb is None: return 1
return -1 if va > vb else 1
k='attend'; va=a[k]; vb=b[k];
if va != vb:
return -1 if va < vb else 1
return 0
students_sorted = sorted(students, key=cmp_func(cmp_student))
Method 6
maybe elegant but not efficient way:
reverse_key = functools.cmp_to_key(lambda a, b: (a < b) - (a > b))
sortedList = sorted(myList, key = lambda y: (reverse_key(y[0].lower()), y[1]))
All methods was sourced from stackoverflow.com or stackexchange.com, is licensed under cc by-sa 2.5, cc by-sa 3.0 and cc by-sa 4.0