Below is a loop to find smallest common multiple of the numbers 1-20:


while not all(count % 1 == 0,  count % 2 == 0,
              count % 3 == 0,  count % 4 == 0,
                ...            count % 20 ==0):

print count

It's quite tedious to type out so many conditions. This needs improvement, especially if the number is bigger than 20. However, being new to python, my knee-jerk reaction was:

while not all(count % range(1,21)==0):

...which doesn't work because python can't read minds. I've thought about putting a list inside the all(), but I'm not sure how to generate a list with variables in it.


Is there a shorthand to input a pattern of conditions like these, or is there a smarter way to do this that I'm missing?


Generator expressions:

while not all(count % i == 0 for i in range(1,21)):

Incidentally, this is pretty easy to work out by hand if you factorize the numbers 1..20 into prime factors. It's on the order of 200 million so the loop might take a while.

  • It just prints '0' I substitute your line into the above code. – user3123966 Dec 20 '13 at 22:20
  • 1
    @user3123966: count should start at 1. – Blender Dec 20 '13 at 22:22
  • @Blender it doesn't print anything at all if I start with count = 1 :S – user3123966 Dec 20 '13 at 22:26
  • @user3123966: Your solution is really inefficient, so it'll take a long, long time. Try it with a much smaller number like 10. – Blender Dec 20 '13 at 22:28
  • Like I said, it's not very fast. I started it off at 200,000,000 and it still took longer than I was willing to wait. Yours might print something in a year or so. (Python isn't really good at such number crunching. In C I'd expect it to run in a second...) – Thomas Dec 20 '13 at 22:28

Use a generator expression:

while not all(count % x == 0 for x in range(1,21)):

You could also use any here:

while any(count % x for x in range(1,21)):

since 0 evaluates to False in Python.


A better solution to your current problem is to use a useful property of the least common multiple function (assuming you implemented it correctly):

lcm(a, b, c) == lcm(lcm(a, b), c)

It runs pretty quickly, even for fairly large inputs (the least common multiple of the first 20,000 numbers has 8,676 digits):

>>> %timeit reduce(lcm, range(1, 20001))
1 loops, best of 3: 240 ms per loop
  • This still depends on a useful implementation of lcm for two numbers. If you try it with the OP's current implementation, it'll only make it even slower. – user2357112 supports Monica Dec 20 '13 at 22:55
  • @user2357112: I think that's a valid assumption. Euclid's algorithm is outlined in the Wikipedia article. – Blender Dec 20 '13 at 23:21
  • Yeah, but you didn't provide a 2-integer algorithm or a link to one. Trying to apply this directly to the OP's code is useless; this is only half an answer. – user2357112 supports Monica Dec 20 '13 at 23:43

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