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I wrote a piece of code to generate primes using the sieve of Eratosthenes:

def prime_list(N):
    p = 2
    l = [x for x in range(p,N)]
    new_l = [p]
    while p**2 < N:
        l = [l[x] for x in range(1,len(l)) if not l[x]%p == 0]
        p = l[0]
    [l.insert(0,x) for x in new_l[len(new_l)-2::-1]]
    return l

Can someone check if this code is correct? I think it is because it's way faster than the code I used to generate primes before:

for x in range(2,N):
    for y in range(2,x):
        if x%y == 0:
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Duplicate: stackoverflow.com/questions/3939660/… –  meawoppl Mar 11 '14 at 23:32
...does it give the right answer? –  jonrsharpe Mar 11 '14 at 23:33
yes it does give the right answer –  Ol' Reliable Mar 11 '14 at 23:33
You won't find any better authority on finding primes in Python than this question and its answers: stackoverflow.com/questions/2068372/… –  Andrew Clark Mar 11 '14 at 23:37
If your code has division then it is not the Sieve of Eratosthenes. See The Genuine Sieve of Eratosthenes –  J.F. Sebastian Mar 11 '14 at 23:50

1 Answer 1

Here is the other code I wrote. I will now check if this one or the other is better.

import math
def primes(N):
    number_list, limit = [x for x in range(2,N+1)], int(math.sqrt(N))
    for n in range(0, limit):
        if number_list[n] != -1:
            for y in range(number_list.index(number_list[n])+1, len(number_list)):
                if number_list[y] != -1:
                    if number_list[y]%number_list[n] == 0:
                        number_list[y] = -1
    number_list = list(set(number_list))
    return number_list

Ok, so this piece of code took 15.90 seconds to compute primes up to 1,000,000. The first one that I posted took only 4.71 seconds to computer primes up to 1,000,000. J.F. Sebastian said that if your code has division, then it's not the SOE but in order to see if each number is a multiple of the remaining numbers, you need to use the modulus operator (which basically is like division), is it not?

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Look at sieve_of_eratosthenes(limit) function to see how to implement it without division (or modulo). To improve time performance, see Speed up bitstring/bit operations in Python? and Most efficient code for the first 10000 prime numbers? in addition to Fastest way to list all primes below N in python linked by @F.J –  J.F. Sebastian Mar 14 '14 at 8:51
a proper speed comparison is never at one size-point; use two or three size points and calculate the empirical orders of growth. -- It is even possible to define infinite generation of primes without any modulus operations. –  Will Ness Mar 14 '14 at 14:33
@J.F.Sebastian - ok, thanks for that, It makes sense that he's not using division because he's not using numbers –  Ol' Reliable Mar 14 '14 at 17:19
@Ol'Reliable: Incorrect. There is no division because the algorithm doesn't require it. If you want to get "numbers" from the sieve: primes = [i for i, isprime in enumerate(is_prime) if isprime] or use a generator –  J.F. Sebastian Mar 14 '14 at 17:27

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