# Getting the lesser n elements of a list in Python

I need to get the lesser n numbers of a list in Python. I need this to be really fast because it's in a critical part for performance and it needs to be repeated a lot of times.

n is usually no greater than 10 and the list usually has around 20000 elements. The list is always different each time I call the function. Sorting can't be made in place.

Initially, I have written this function:

``````def mins(items, n):
mins = [float('inf')]*n
for item in items:
for i, min in enumerate(mins):
if item < min:
mins.insert(i, item)
mins.pop()
break
return mins
``````

But this function can't beat a simple sorted(items)[:n] which sort the entire list. Here is my test:

``````from random import randint, random
import time

test_data = [randint(10, 50) + random() for i in range(20000)]

init = time.time()
mins = mins(test_data, 8)
print 'mins(items, n):', time.time() - init

init = time.time()
mins = sorted(test_data)[:8]
print 'sorted(items)[:n]:', time.time() - init
``````

Results:

``````mins(items, n): 0.0632939338684
sorted(items)[:n]: 0.0231449604034
``````

sorted()[:n] is three times faster. I believe this is because:

1. insert() operation is costly because Python lists are not linked lists.
2. sorted() is an optimized c function and mine is pure python.

Is there any way to beat sorted()[:n] ? Should I use a C extension, or Pyrex or Psyco or something like that?

-

You actually want a sorted sequence of mins.

``````mins = items[:n]
mins.sort()
for i in items[n:]:
if i < mins[-1]:
mins.append(i)
mins.sort()
mins= mins[:n]
``````

This runs much faster because you aren't even looking at mins unless it's provably got a value larger than the given item. About 1/10th the time of the original algorithm.

This ran in zero time on my Dell. I had to run it 10 times to get a measurable run time.

``````mins(items, n): 0.297000169754
sorted(items)[:n]: 0.109999895096
mins2(items)[:n]: 0.0309998989105
``````

Using `bisect.insort` instead of append and sort may speed this up a hair further.

-
This is super fast! –  Manuel Ceron Dec 8 '08 at 19:53
A heap would be better; no need to fully sort the whole list for each insert, just a cheaper reheap. –  erickson Dec 8 '08 at 19:54
@erickson: Just edited to add that bisect.insort may have the same effect. –  S.Lott Dec 8 '08 at 19:55
You're right. using bisect speeds up the algorithm. It's the fastest at the moment. And it's pure python. –  Manuel Ceron Dec 8 '08 at 20:03
Cool; sorry I don't know python but I figured it would have something along these lines. –  erickson Dec 8 '08 at 20:04
``````import heapq

nlesser_items = heapq.nsmallest(n, items)
``````

Here's a correct version of S.Lott's algorithm:

``````from bisect    import insort
from itertools import islice

def nsmallest_slott_bisect(n, iterable, insort=insort):
it   = iter(iterable)
mins = sorted(islice(it, n))
for el in it:
if el <= mins[-1]: #NOTE: equal sign is to preserve duplicates
insort(mins, el)
mins.pop()

return mins
``````

Performance:

``````\$ python -mtimeit -s "import marshal; from nsmallest import nsmallest\$label as nsmallest; items = marshal.load(open('items.marshal','rb')); n = 10"\
"nsmallest(n, items)"
``````
```nsmallest_heapq
100 loops, best of 3: 12.9 msec per loop
nsmallest_slott_list
100 loops, best of 3: 4.37 msec per loop
nsmallest_slott_bisect
100 loops, best of 3: 3.95 msec per loop
```

`nsmallest_slott_bisect` is 3 times faster than `heapq`'s `nsmallest` (for n=10, len(items)=20000). `nsmallest_slott_list` is only marginally slower. It is unclear why heapq's nsmallest is so slow; its algorithm is almost identical to the presented above (for small n).

-
Yes, this is the faster one. Thanks for the corrections. And thanks S.Lott too. This answer is the new chosen one :) –  Manuel Ceron Dec 8 '08 at 21:48
@Manuel: I think the main credit should go to S.Lott and his answer should be accepted when he corrects his version (it is still incorrect at the time of this comment). –  J.F. Sebastian Dec 8 '08 at 22:19
I agree. I'm going to give him back the selection when he updates the algorithm –  Manuel Ceron Dec 8 '08 at 22:45

I like erickson's heap idea. I don't know Python either, but there appears to be a canned solution here: heapq — Heap queue algorithm

-
have tried heapq.nsmallest, but even when is a bit faster that sorted(items)[:n] is not faster than S.Lott's algorithm –  Manuel Ceron Dec 8 '08 at 20:08

A possibility is to use the bisect module:

``````import bisect

def mins(items, n):
mins = [float('inf')]*n
for item in items:
bisect.insort(mins, item)
mins.pop()
return mins
``````

However, it's just a bit faster for me:

``````mins(items, n): 0.0892250537872
sorted(items)[:n]: 0.0990262031555
``````

Using psyco does speed it up a bit more:

``````import bisect
import psyco
psyco.full()

def mins(items, n):
mins = [float('inf')]*n
for item in items:
bisect.insort(mins, item)
mins.pop()
return mins
``````

Result:

``````mins(items, n): 0.0431621074677
sorted(items)[:n]: 0.0859830379486
``````
-

If speed is of utmost concern, the fastest method is going to be with c. Psyco has an upfront cost, but may prove to be pretty fast. I would recommend Cython for python -> c compilation (a more up to date for pf Pyrex).

Hand coding it in c would be the best, and allow you to use data structures specific to your problem domain.

But note:

"Compiling the wrong algorithm in C may not be any faster than the right algorithm in Python" @S.Lott

I wanted to add S.Lott's comment so it gets noticed. Python make an excellent prototype language, where you can iron out an algorithm that you intend to later translate to a lower level language.

-
Compiling the wrong algorithm in C may not be any faster than the right algorithm in Python. –  S.Lott Dec 8 '08 at 19:47
@S.Lott, I absolutely agree :) - Since you had a better algorithm, all I could do was to offer up a language alternative, (plus I wanted to mention Cython, as opposed to Pyrex) –  JimB Dec 8 '08 at 20:02

why not just call the select_n_th element in O(N) time and then divide the array into two parts by the n_th element, this should be the fastest one.

ps: This O(N) algorithm works if you don't specify the order of the n-smallest elements The link below seems to do the selection algorithm. http://code.activestate.com/recipes/269554-select-the-nth-smallest-element/

Assuming the array doesn't have duplicate elements, the code works for me. The efficiency still depends on the problem scale, if n<10, probably an O(logn*N) algorithm is enough.

``````import random
import numpy as np
def select(data, n):
"Find the nth rank ordered element (the least value has rank 0)."
data = list(data)
if not 0 <= n < len(data):
raise ValueError('not enough elements for the given rank')
while True:
pivot = random.choice(data)
pcount = 0
under, over = [], []
uappend, oappend = under.append, over.append
for elem in data:
if elem < pivot:
uappend(elem)
elif elem > pivot:
oappend(elem)
else:
pcount += 1
if n < len(under):
data = under
elif n < len(under) + pcount:
return pivot
else:
data = over
n -= len(under) + pcount

def n_lesser(data,n):
data_nth = select(data,n)
ind = np.where(data<data_nth)
return data[ind]
``````
-
Is this a comment or an answer? –  Simple Psycho Mar 12 '14 at 16:20
Can you improve your answer? Given the fact, it's about an algo, it is recommended to at least show a basic pseudo code. –  bonCodigo Mar 12 '14 at 16:21
I am new to stack overflow editor, here now I attach the code –  qdpercy Mar 12 '14 at 21:35