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I am sure this question has been ask a lot, but I have checked other forums and have tried addressing the issue, which doesn't seem to help. I am thinking there is an overflow problem, but I can't remember on how to fix it. I took a long break from coding (my fault there) so I am trying some problems to help get me back in the swing of things. So, just wondering as to what is going wrong. When I try n = 1000 the answer is wrong but numbers smaller than that seem to work out right. Since large numbers won't work I think it's an integer overflow.

def n_number():
    n = raw_input("Enter a max number: ")
        return n

    except ValueError:
        print 'Value is not an integer'

# 'function that will add multiples of 3 and 5 that are less than the given value, n.'
def sum_multiplies(n):
    sum = long(0)
    counter3, counter5 = int(1),int(1)

    value3 = 3*counter3
    value5 = 5*counter5

    while True:
        # 'sums of multiples of 5\'s less than n'
        if value5<int(n):
            sum+= value5
            value5 = 5*counter5

        # 'sums of multiples of 3\'s less than n'
        if value3<int(n):
            sum+= value3
            value3 = 3*counter3


    print "sum: %s" %sum
    print "counter3: %s" %counter3
    print "counter5: %s" %counter5

def main():
    'max number is in n'
    n = n_number()


if __name__ == "__main__":
share|improve this question
You cannot overflow ints in Python, they are arbitrary precision (modulo the long implementation detail in Python 2, and the fact that some crazy builtin functions like range actually will throw OverflowErrors since they only can do C doubles). –  Julian Jul 27 '12 at 20:52
There's no problem with overflow, use the mod (%) operator to determine if a given number is divisible by some other. Eg. n%3 == 0 means n is divisible by 3 etc. –  Levon Jul 27 '12 at 20:53
This can be done a lot easier: sum( (x for x in range(1000) if x%3==0 or x%5==0) ) –  mgilson Jul 27 '12 at 20:53
@Levon -- Yeah, I know, but then it starts to be harder for a beginner to read. –  mgilson Jul 27 '12 at 20:55
@zyeek -- Also, you may want to get the indenting of your code correct. It's always nice to have something that we can copy/paste and play around with. –  mgilson Jul 27 '12 at 20:56

5 Answers 5

The problem is that you're counting numbers which are multiples of both 3 and 5 (like 15) twice.

One way to solve it would be to add:

if counter3%5 == 0: continue

to skip the double counting.

share|improve this answer
ah ok. I get it completely now. Not sure why I didn't even bother to think of that. Thanks –  zyeek Jul 27 '12 at 20:55

You're currently doing this in O(n) time - you can do it in constant time!

' sum values from 1 to m'
def unitSum(m):
    return (m * (m + 1)) / 2

def sum_multiplies(n):
    threes = int(n / 3)
    fives = int(n / 5)
    fifteens = int(n / 15)
    threesum = unitSum(threes) * 3
    fivesum = unitSum(fives) * 5
    fifteensum = unitSum(fifteens) * 15
    return threesum + fivesum - fifteensum

You'll have to forgive my lack of python knowledge, I'm a java guy. There might be some casual syntax errors. But the idea here is that, for the example of n = 40, you're adding up 3 5 6 9 10 12 15 18 20 21 24 25 27 30 33 35 36 39 40. This is the same as 3 6 9 12 15 18 21 24 27 30 33 36 39 UNION 5 10 15 20 25 30 35 40 Now recognizing that 3 6 9 12 ... is the same as 3 * (1 2 3 4...), and the same with the fives, we can take the "unit sum" (1 2 3 4) up to the number of terms, which is n / mult, and multiply that sum by the mult, as we do with 3 * (1 2 3 4). The good news is the unit sum can be computed in constant time, as n * (n + 1) The only catch is that the ones that are a mult of 15 will be in there twice (counted in both the 5s and the 3s) so we have to subtract them out as well.

share|improve this answer
yes thank you. I just was lazy to look up the formula for finding the sum formula of a given range of values from 1 to x. Remember that from my concrete mathematics class. I am just trying to practice up on my python. Also, thank you for reminding me to alway look for a better way to get things done for optimization. In python, which i just recently read up on, I could do this sum([i in for i in range(1,1000) if i%3 == 0 or i%5 == 0]), but I am pretty sure this is a O(n) –  zyeek Jul 27 '12 at 21:09
it is O(n) - and i believe I have a small bug in that code, but the idea is there –  corsiKa Jul 27 '12 at 21:16
Looks like I didn't have a bug, aside from the /2 mistake I omitted before. Here's a sample run of it: ideone.com/YQ4M4 –  corsiKa Jul 27 '12 at 21:20

It looks like you are double counting the multiples of 15.

share|improve this answer

It should be pretty fast, pretty readable, and run on CPython 2.x and 3.x. I've #!'d it to pypy, but that's not out of necessity. Note that range() is eager on 2.x, lazy on 3.x:


divisible_by_3 = set(range(0, 1000, 3))
divisible_by_5 = set(range(0, 1000, 5))

divisible_by_either = divisible_by_3 | divisible_by_5

share|improve this answer

Using generators expressions, here's a one-liner

result = sum(num for num in xrange(1000) if (num % 5 ==0) or (num % 3 == 0))
share|improve this answer

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