Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I experimented a little bit with list comprehensions and the filter() function today, because I was interested to see if there are significant efficiency improvements if using one over the other. The results are a little bit confusing. When I filtered for even numbers, list comprehensions outperformed the traditional nested structure and the filter() function by ~1.5x (i.e., it was ~1.5x faster).
But when I was using a function to check if a number was a prime number or not, the filter() function was suddenly the fastest.

I posted more details below, and I uploaded the code at github if you want to try it out yourself: https://github.com/rasbt/list_comprehension_test

I tested the code with different range maximum values n multiple times to make sure that the results are consistent and not affected by some temporary background process on my machine.

My questions:

  • Any idea why filter function is so slow when filtering for even numbers? Could it be, because of the lambda function or because I am converting the generator object into a list?
  • why are the results for the is_prime function so similar, and why is the filter function the fastest here?

1st Part: collecting even numbers

a) loop and else-if

even_nums = []
for i in range(1, n):
    if i % 2 == 0:

b) list comprehension:

even = [i for i in range(1, n) if i % 2 == 0]

c) filter() function

even_nums = list(filter((lambda x: x%2 != 0), range(1, n)))

results for is_even

  • loop and else-if: 1x (reference)
  • list comprehension: 1.5x faster
  • filter() function: 0.9x faster

2nd Part: Collecting Prime Numbers

def is_prime(num):
    """ Returns True if input integer is a prime number. """
    prime = True
    if num < 2:
        prime = False

    elif num == 2:
        prime = True
        for i in range(2, num):
            if num % i == 0:
                prime = False    
    return prime

a) loop and else-if

primes = []
for i in range(1, n):
    if is_prime(i):

b) list comprehension:

primes = [i for i in range(1, n) if is_prime(i)]

c) filter() function

primes = list(filter(is_prime, range(1, n)))

results for is_prime

  • loop and else-if: 1x (reference)
  • list comprehension: 0.98x faster
  • filter() function: 1.13x faster
share|improve this question
I guess it depends what dominates, checking the value or appending to the existing list. In Python 2 you could see if itertools.ifilter makes any difference. –  jonrsharpe Jan 13 at 0:13
Thanks, that's a good point –  Sebastian Raschka Jan 13 at 0:14
possible duplicate of List filtering: list comprehension vs. lambda + filter –  jonrsharpe Jan 13 at 0:19
Have you tried doing performance analysis? Docs for profiling are here and there is an existing SO question here –  sleepycal Jan 13 at 0:19
Haven't heard of it, yet. But looks very very useful to me, I will use it to do a more comprehensive analysis/check in the next couple of days. –  Sebastian Raschka Jan 13 at 0:27

1 Answer 1

up vote 2 down vote accepted

If you implement the first test this way, the results should be consistent with the second test:

is_even = lambda i: i % 2 == 0
even = [i for i in range(1, n) if is_even(i)]

In the filter implementation, there is a function call once per iteration (the lambda), which is an extra step. This difference is not present in the second test because in that case both implementations already consist of a call (is_prime) once per iteration.

As for why filter is slightly faster, I suspect it's related to filter being native rather than python code. Consider that the list comprehension still has an additional evaluation of python code per iteration: namely, the i before the for. This evaluation step would not be necessary in filter which could directly yield the value in the native implementation.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.