# Fastest way to get sorted unique list in python?

What is the fasted way to get a sorted, unique list in python? (I have a list of hashable things, and want to have something I can iterate over - doesn't matter whether the list is modified in place, or I get a new list, or an iterable. In my concrete use case, I'm doing this with a throwaway list, so in place would be more memory efficient.)

I've seen solutions like

``````input = [5, 4, 2, 8, 4, 2, 1]
sorted(set(input))
``````

but it seems to me that first checking for uniqueness and then sorting is wasteful (since when you sort the list, you basically have to determine insertion points, and thus get the uniqueness test as a side effect). Maybe there is something more along the lines of unix's

``````cat list | sort | uniq
``````

that just picks out consecutive duplications in an already sorted list?

Note in the question ' Fastest way to uniqify a list in Python ' the list is not sorted, and ' What is the cleanest way to do a sort plus uniq on a Python list? ' asks for the cleanest / most pythonic way, and the accepted answer suggests `sorted(set(input))`, which I'm trying to improve on.

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Does `sorted(set(input))` not meet your speed requirements in some way? –  Aesthete Nov 28 '12 at 10:38
What does `timeit` tell you is fastest? –  Martijn Pieters Nov 28 '12 at 10:40
Asking for the fastest is really not very meaningful, unless you tell us about your data (how many elements in the list, what fraction are duplicates, how much does it cost to compare two elements, how good and expensive is the hash function, etc) –  NPE Nov 28 '12 at 10:42
@MartijnPieters: I haven't tested it yet. I could come up with two or three alternatives, but maybe there is a brilliant uniq-sort function in the standard library that I don't know of. That's what I'm looking for, approaches that I wouldn't think of myself. –  jdm Nov 28 '12 at 10:47
@jdm - `sorted(set(input))` is pretty damn aesthetically pleasing IMHO, but I appreciate your quest, and wish you well with it. I'm interested to see the results. –  Aesthete Nov 28 '12 at 10:47

I believe `sorted(set(sequence))` is the fastest way of doing it. Yes, `set` iterates over the sequence but that's a C-level loop, which is a lot faster than any looping you would do at python level.

Note that even with `groupby` you still have `O(n) + O(nlogn) = O(nlogn)` and what's worst is that `groupby` will require a python-level loop, which increases dramatically the constants in that `O(n)` thus in the end you obtain worst results.

When speaking of CPython the way to optimize things is to do as much as you can at C-level (see this answer to have an other example of counter-intuitive performance). To have a faster solution you must reimplement a sort, in a C-extensions. And even then, good luck with obtaining something as fast as python's Timsort!

A small comparison of the "canonical solution" versus the `groupby` solution:

``````>>> import timeit
>>> sequence = list(range(500)) + list(range(700)) + list(range(1000))
>>> timeit.timeit('sorted(set(sequence))', 'from __main__ import sequence', number=1000)
0.11532402038574219
>>> import itertools
>>> def my_sort(seq):
...     return list(k for k,_ in itertools.groupby(sorted(seq)))
...
>>> timeit.timeit('my_sort(sequence)', 'from __main__ import sequence, my_sort', number=1000)
0.3162040710449219
``````

As you can see it's 3 times slower.

The version provided by jdm is actually even worse:

``````>>> def make_unique(lst):
...     if len(lst) <= 1:
...         return lst
...     last = lst[-1]
...     for i in range(len(lst) - 2, -1, -1):
...         item = lst[i]
...         if item == last:
...             del lst[i]
...         else:
...             last = item
...
>>> def my_sort2(seq):
...     make_unique(sorted(seq))
...
>>> timeit.timeit('my_sort2(sequence)', 'from __main__ import sequence, my_sort2', number=1000)
0.46814608573913574
``````

Almost 5 times slower. Note that using `seq.sort()` and then `make_unique(seq)` and `make_unique(sorted(seq))` are actually the same thing, since Timsort uses `O(n)` space you always have some reallocation, so using `sorted(seq)` does not actually change much the timings.

The jdm's benchmarks give different results because the input he is using are way too small and thus all the time is taken by the `time.clock()` calls.

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Maybe this is not the answer you are searching for, but anyway, you should take this into your consideration.

Basically, you have 2 operations on a list:

``````unique_list = set(your_list)       # O(n) complexity
sorted_list = sorted(unique_list)  # O(nlogn) complexity
``````

Now, you say "it seems to me that first checking for uniqueness and then sorting is wasteful", and you are right. But, how bad really is that redundant step? Take n = 1000000:

``````# sorted(set(a_list))
O(n) => 1000000
o(nlogn) => 1000000 * 20 = 20000000
Total => 21000000

O(nlogn) => 20000000
Total: 20000000
``````

Speed gain: (1 - 20000000/21000000) * 100 = 4.76 %

For n = 5000000, speed gain: ~1.6 %

Now, is that optimization worth it?

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I would not actually substitute numbers into an O(n) expression. The results are largely meaningless. –  Waleed Khan Nov 28 '12 at 11:38
Ideally, it is not meaningless, but in most cases, you are right. I just intended to make some comparisons. I wanted to show that the bottleneck here was sort, not the set creation, so optimizing the sort function would be much more productive than getting rid of eliminating the set creation redundance. –  gg.kaspersky Nov 28 '12 at 11:46
You could demonstrate it without the numbers as well: O(n) + O(nlogn) = O(n+nlogn) = O(n(1+logn)) = O(nlogn) which means that the complexity remains the same. –  GaretJax Nov 28 '12 at 11:57
``````>>> import itertools
>>> a=[2,3,4,1,2,7,8,3]
>>> list(k for k,_ in itertools.groupby(sorted(a)))
[1, 2, 3, 4, 7, 8]
``````
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I believe sorted(set(alist)) is actually faster. –  gg.kaspersky Nov 28 '12 at 11:53

This is just something I whipped up in a couple minutes. The function modifies a list in place, and removes consecutive repeats:

``````def make_unique(lst):
if len(lst) <= 1:
return lst
last = lst[-1]
for i in range(len(lst) - 2, -1, -1):
item = lst[i]
if item == last:
del lst[i]
else:
last = item
``````

Some representative input data:

``````inp = [
(u"Tomato", "de"), (u"Cherry", "en"), (u"Watermelon", None), (u"Apple", None),
(u"Cucumber", "de"), (u"Lettuce", "de"), (u"Tomato", None), (u"Banana", None),
(u"Squash", "en"), (u"Rubarb", "de"), (u"Lemon", None),
]
``````

Make sure both variants work as wanted:

``````print inp
print sorted(set(inp))
# copy because we want to modify it in place
inp1 = inp[:]
inp1.sort()
make_unique(inp1)
print inp1
``````

Now to the testing. I'm not using timeit, since I don't want to time the copying of the list, only the sorting. `time1` is `sorted(set(...)`, `time2` is `list.sort()` followed by `make_unique`, and `time3` is the solution with `itertools.groupby` by Avinash Y.

``````import time
def time1(number):
total = 0
for i in range(number):
start = time.clock()
sorted(set(inp))
total += time.clock() - start

def time2(number):
total = 0
for i in range(number):
inp1 = inp[:]
start = time.clock()
inp1.sort()
make_unique(inp1)
total += time.clock() - start

import itertools

def time3(number):
total = 0
for i in range(number):
start = time.clock()
list(k for k,_ in itertools.groupby(sorted(inp)))
total += time.clock() - start
``````

`sort + make_unique` is approximately as fast as `sorted(set(...))`. I'd have to do a couple more iterations to see which one is potentially faster, but within the variations they are very similar. The `itertools` version is a bit slower.

``````# done each 3 times
print time1(100000)
# 2.38, 3.01, 2.59
print time2(100000)
# 2.88, 2.37, 2.6
print time3(100000)
# 4.18, 4.44, 4.67
``````

Now with a larger list (the `+ str(i)` is to prevent duplicates):

``````old_inp = inp[:]
inp = []
for i in range(100):
for j in old_inp:
inp.append((j[0] + str(i), j[1]))

print time1(10000)
# 40.37
print time2(10000)
# 35.09
print time3(10000)
# 40.0
``````

Note that if there are a lot of duplicates in the list, the first version is much faster (since it does less sorting).

``````inp = []
for i in range(100):
for j in old_inp:
#inp.append((j[0] + str(i), j[1]))
inp.append((j[0], j[1]))

print time1(10000)
# 3.52
print time2(10000)
# 26.33
print time3(10000)
# 20.5
``````
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Really bad example for the timings. With an input so small you have problems with granularity. –  Bakuriu Nov 28 '12 at 13:01
``````import numpy as np
np.unique(...)
``````

it returns an array unique and sorted.

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Does this work for any objects providing method `__cmp__(self, other)`? –  wberry Nov 4 '13 at 18:46