Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

could someone please tell me what I'm doing wrong with this code. It is just printing 'count' anyway. I just want a very simple prime generator (nothing fancy). Thanks a lot. lincoln.

import math

def main():
    count = 3
    one = 1
    while one == 1:
    	for x in range(2, int(math.sqrt(count) + 1)):
    		if count % x == 0: 
    		if count % x != 0:
    			print count

    	count += 1
share|improve this question
can you post some output? – Jason Punyon Feb 19 '09 at 21:26
Does it not terminate? Not surprising with a "while one == 1:" in it. Does it not produce any output at all? Does it produce non-prime numbers? Is it too slow? Is it not C#? What is the problem? – S.Lott Feb 19 '09 at 21:31
If this isn't homework you might want to look into the Sieve of Eratosthenes: en.wikipedia.org/wiki/Sieve_of_Eratosthenes – CTT Feb 19 '09 at 21:34
I second CTT's comment. It will be just as easy, if not easier to code too. – Himadri Choudhury Feb 19 '09 at 21:36
for simple implementations of Sieve of Eratosthenes see: stackoverflow.com/questions/2068372/… – Robert William Hanks Jul 16 '10 at 18:22

18 Answers 18

up vote 106 down vote accepted

There are some problems:

  • Why do you print out count when it didn't divide by x? It doesn't mean it's prime, it means only that this particular x doesn't divide it
  • continue moves to the next loop iteration - but you really want to stop it using break

Here's your code with a few fixes, it prints out only primes:

import math

def main():
    count = 3
    while True:
        isprime = True
        for x in range(2, int(math.sqrt(count) + 1)):
            if count % x == 0: 
                isprime = False
        if isprime:
            print count
        count += 1

For much more efficient prime generation, see the Sieve of Erastothenes, as others have suggested. Here's a nice, optimized implementation with many comments:

# Sieve of Eratosthenes
# Code by David Eppstein, UC Irvine, 28 Feb 2002
# http://code.activestate.com/recipes/117119/

def gen_primes():
    """ Generate an infinite sequence of prime numbers.
    # Maps composites to primes witnessing their compositeness.
    # This is memory efficient, as the sieve is not "run forward"
    # indefinitely, but only as long as required by the current
    # number being tested.
    D = {}
    # The running integer that's checked for primeness
    q = 2
    while True:
        if q not in D:
            # q is a new prime.
            # Yield it and mark its first multiple that isn't
            # already marked in previous iterations
            yield q
            D[q * q] = [q]
            # q is composite. D[q] is the list of primes that
            # divide it. Since we've reached q, we no longer
            # need it in the map, but we'll mark the next 
            # multiples of its witnesses to prepare for larger
            # numbers
            for p in D[q]:
                D.setdefault(p + q, []).append(p)
            del D[q]
        q += 1

Note that it returns a generator.

share|improve this answer
This sieve is very terse. Where did it come from? – SingleNegationElimination Jul 4 '09 at 5:51
I am also curious. – Brandon Jul 5 '09 at 17:46
That's a really excellent implementation of the Sieve. I've never seen it applied to indefinite ranges before, but it's obvious in retrospect. – Nick Johnson Nov 22 '09 at 16:29
The dictionary operation is time-consuming, if you have enough memory, you had better save all the numbers in the memory instead of use a dictionary to add and remove elements dynamically. – xiao 啸 May 16 '11 at 6:17
@xiao I thought "in" operation was on average constant in time and at worst linear – yati sagade Oct 9 '11 at 8:48
def is_prime(num):
    """Returns True if the number is prime
    else False."""
    if num == 0 or num == 1:
        return False
    for x in range(2, num):
        if num % x == 0:
            return False
        return True

>> filter(is_prime, range(1, 20))
  [2, 3, 5, 7, 11, 13, 17, 19]

We will get all the prime numbers upto 20 in a list. I could have used Sieve of Eratosthenes but you said you want something very simple. ;)

share|improve this answer
1 isn't a prime number. 2 and 3 are prime numbers and are missing. So this already doesn't work for the first three numbers. – unbeknown Feb 20 '09 at 9:38
@heikogerlach Very true.. I have fixed this...Now please vote me up :) – aatifh Feb 21 '09 at 10:12
If you go all the way up to the number it will mod to 0 and return false. – humble_coder Mar 26 '11 at 2:25
print [x for x in range(2,100) if not [t for t in range(2,x) if not x%t]]
share|improve this answer
it is quite simple, but not efficient. on a typical pc, it takes several seconds to work in range(10000) – kmonsoor Dec 23 '13 at 10:15
def primes(n): # simple Sieve of Eratosthenes 
   odds = range(3, n+1, 2)
   sieve = set(sum([range(q*q, n+1, q+q) for q in odds],[]))
   return [2] + [p for p in odds if p not in sieve]

>>> primes(50)
[2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47]

To test if a number is prime:

>>> 541 in primes(541)
>>> 543 in primes(543)
share|improve this answer

Here's a simple (Python 2.6.2) solution... which is in-line with the OP's original request (now six-months old); and should be a perfectly acceptable solution in any "programming 101" course... Hence this post.

import math

def isPrime(n):
    for i in range(2, int(math.sqrt(n)+1)):
        if n % i == 0: 
            return False;
    return n>1;

print 2
for n in range(3, 50):
    if isPrime(n):
        print n

This simple "brute force" method is "fast enough" for numbers upto about about 16,000 on modern PC's (took about 8 seconds on my 2GHz box).

Obviously, this could be done much more efficiently, by not recalculating the primeness of every even number, or every multiple of 3, 5, 7, etc for every single number... See the Sieve of Eratosthenes (see eliben's implementation above), or even the Sieve of Atkin if you're feeling particularly brave and/or crazy.

Caveat Emptor: I'm a python noob. Please don't take anything I say as gospel.

share|improve this answer

To my opinion it is always best to take the functional approach,

So I create a function first to find out if the number is prime or not then use it in loop or other place as necessary.

def isprime(n):
      for x in range(2,n):
        if n%x == 0:
            return False
    return True

Then run a simple list comprehension or generator expression to get your list of prime,

[x for x in range(1,100) if isprime(x)]
share|improve this answer

This seems homework-y, so I'll give a hint rather than a detailed explanation. Correct me if I've assumed wrong.

You're doing fine as far as bailing out when you see an even divisor.

But you're printing 'count' as soon as you see even one number that doesn't divide into it. 2, for instance, does not divide evenly into 9. But that doesn't make 9 a prime. You might want to keep going until you're sure no number in the range matches.

(as others have replied, a Sieve is a much more efficient way to go... just trying to help you understand why this specific code isn't doing what you want)

share|improve this answer

How about this if you want to compute the prime directly:

def oprime(n):
counter = 0
b = 1
if n == 1:
    print 2
while counter < n-1:
    b = b + 2
    for a in range(2,b):
        if b % a == 0:
        counter = counter + 1
        if counter == n-1:
            print b
share|improve this answer

re is powerful:

import re

def isprime(n):
    return re.compile(r'^1?$|^(11+)\1+$').match('1' * n) is None

print [x for x in range(100) if isprime(x)]

[2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89, 97]
share|improve this answer
  • The continue statement looks wrong.

  • You want to start at 2 because 2 is the first prime number.

  • You can write "while True:" to get an infinite loop.

share|improve this answer

You need to make sure that all possible divisors don't evenly divide the number you're checking. In this case you'll print the number you're checking any time just one of the possible divisors doesn't evenly divide the number.

Also you don't want to use a continue statement because a continue will just cause it to check the next possible divisor when you've already found out that the number is not a prime.

share|improve this answer

Here is what I have:

def is_prime(num):
    if num < 2:         return False
    elif num < 4:       return True
    elif not num % 2:   return False
    elif num < 9:       return True
    elif not num % 3:   return False
        for n in range(5, int(math.sqrt(num) + 1), 6):
            if not num % n:
                return False
            elif not num % (n + 2):
                return False

    return True

It's pretty fast for large numbers, as it only checks against already prime numbers for divisors of a number.

Now if you want to generate a list of primes, you can do:

# primes up to 'max'
def primes_max(max):
    yield 2
    for n in range(3, max, 2):
        if is_prime(n):
            yield n

# the first 'count' primes
def primes_count(count):
    counter = 0
    num = 3

    yield 2

    while counter < count:
        if is_prime(num):
            yield num
            counter += 1
        num += 2

using generators here might be desired for efficiency.

And just for reference, instead of saying:

one = 1
while one == 1:
    # do stuff

you can simply say:

while 1:
    #do stuff
share|improve this answer

You can create a list of primes using list comprehensions in a fairly elegant manner. Taken from here:

>>> noprimes = [j for i in range(2, 8) for j in range(i*2, 50, i)]
>>> primes = [x for x in range(2, 50) if x not in noprimes]
>>> print primes
>>> [2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47]
share|improve this answer
def genPrimes():
    primes = []   # primes generated so far
    last = 1      # last number tried
    while True:
        last += 1
        for p in primes:
            if last % p == 0:
            yield last
share|improve this answer
do we really need to test divide 101 by 97, to find out whether 101 is prime? – Will Ness Apr 7 '13 at 19:25

Another simple example, with a simple optimization of only considering odd numbers. Everything done with lazy streams (python generators).

Usage: primes = list(create_prime_iterator(1, 30))

import math
import itertools

def create_prime_iterator(rfrom, rto):
    """Create iterator of prime numbers in range [rfrom, rto]"""
    prefix = [2] if rfrom < 3 and rto > 1 else [] # include 2 if it is in range separately as it is a "weird" case of even prime
    odd_rfrom = 3 if rfrom < 3 else make_odd(rfrom) # make rfrom an odd number so that  we can skip all even nubers when searching for primes, also skip 1 as a non prime odd number.
    odd_numbers = (num for num in xrange(odd_rfrom, rto + 1, 2))
    prime_generator = (num for num in odd_numbers if not has_odd_divisor(num))
    return itertools.chain(prefix, prime_generator)

def has_odd_divisor(num):
    """Test whether number is evenly divisable by odd divisor."""
    maxDivisor = int(math.sqrt(num))
    for divisor in xrange(3, maxDivisor + 1, 2):
        if num % divisor == 0:
            return True
    return False

def make_odd(number):
    """Make number odd by adding one to it if it was even, otherwise return it unchanged"""
    return number | 1
share|improve this answer

Similar to user107745, but using 'all' instead of double negation (a little bit more readable, but I think same performance):

import math
[x for x in xrange(2,10000) if all(x%t for t in xrange(2,int(math.sqrt(x))+1))]

Basically it iterates over the x in range of (2, 100) and picking only those that do not have mod == 0 for all t in range(2,x)

Another way is probably just populating the prime numbers as we go:

primes = set()
def isPrime(x):
  if x in primes:
    return x
  for i in primes:
    if not x % i:
      return None
    return x

filter(isPrime, range(2,10000))
share|improve this answer
def check_prime(x):
    if (x < 2): 
       return 0
    elif (x == 2): 
       return 1
    t = range(x)
    for i in t[2:]:
       if (x % i == 0):
            return 0
    return 1
share|improve this answer
import time

maxnum=input("You want the prime number of 1 through....")


while n<=maxnum:


    while d<n**.5:

        if n%d==0:

    if cntr==0:

        #print n


print "Total time:",time.time()-start
share|improve this answer

protected by Will Ness Oct 23 '14 at 9:54

Thank you for your interest in this question. Because it has attracted low-quality or spam answers that had to be removed, posting an answer now requires 10 reputation on this site (the association bonus does not count).

Would you like to answer one of these unanswered questions instead?

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