# Why doesn't this Python code give me a solution even with a large range?

Below is the problem I'm trying to solve:

2520 is the smallest number that can be divided by each of the numbers from 1 to 10 without any remainder. What is the smallest positive number that is evenly divisible by all of the numbers from 1 to 20?

It is the 5th problem from Project Euler (http://projecteuler.net/problem=5). I wrote a code in Python to find out the number, but I'm unable to obtain a solution.

My code is:

``````def smallestNumber():
smallest=0 ## Initializing the smallest number
end=False ## Initializing the break condition for lower level For loop
found=False ## Initializing the break condition for upper level For loop
for i in range(21,10000000): ## Upper level for loop
if i==10000000 and found==False: break ## This will break upper loop when range is satisfied
for k in range(1,20): ## Lower level for loop
if end==True: break ## This will break lower loop when range is satisfied
if i%k==0: ## If condition to check whether current i value is divisible evenly by current k value
if k==20: ## If k==20, this will make smallest equal to current i value and make both break conditions True
smallest=i
end=True
found=True
k=k+1
else: ## if not divisible, this will increment upper level loop
break
i=i+1

if found==False: print 'No value exists in this range'
else: return smallest
``````

(I'm new to stackoverflow and was unable to paste the actual code without messing up the formatting. I apologize for any inconvenience due to that).

I keep getting the output 'No value exists in this range' regardless of how big I make my range. I'm guessing that although my logic is alright, I have messed up the code somewhere since I'm a Python beginner.

It'd be great if someone can help me.

Thanks

• There are a lot of things wrong with your code, not the least of which being that the formating makes it nearly unreadable. Please fix your indentation. – Adam Smith Jan 16 '14 at 0:29
• You may want to google for "least common multiple". – DSM Jan 16 '14 at 0:50

Some things that are wrong:

1. The answer is greater than your upper limit of 10000000
2. Your should use `xrange` in Python 2, otherwise you'll have memory errors if you increase the upper limit
3. If you want all of the numbers from 1 to 20, you should use `range(1, 21)`
4. You should not manually increase loop counters, `range` or `xrange` do it for you
• Thank you. I made all the changes in my code, plus a few more, and it gives me the answer in 1.283E-06 seconds. – small_world Jan 17 '14 at 19:58

First of all, what you need is LCM of the numbers from 1 to 20. You can find better ways to find LCM than the one you've implemented in this code.

Next, there are a few mistakes here. I've edited your code to illustrate. Please see my code bellow, this shows the changes I had to make in order to make your code produce the correct result for finding the smallest number divisible by all numbers from 1 to 10:

``````def smallestNumber():
smallest=0
end=False
found=False
for i in range(21,1000000):
if found==True: break # This will break upper loop when number is found
for k in range(1,11): # the range is up to 11 here because we need to check numbers 1-10
if end==True: break
if i%k==0:
if k==10: ##
smallest=i
end=True
found=True
#k=k+1 # not necessary
else:
break
#i=i+1 # not necessary

if found==False: print 'No value exists in this range'
else: return smallest
``````

As you can see, I had to comment out lines like `i=i+1` because that is already being taken care of by using `for i in range(21,10000000)`. You would also notice that I had to change `if i==10000000 and found==False: break` to `if found==True: break` because checking for i=10000000 is not necessary and you should actually stop searching when your found is true. And that was the real bug in your code. Hope this helps.

• Thank you. After editing the code as per your suggestions, it was running fine for range(1,11) but was taking too much time for range(1,21). I guessed that it was not going to end any time soon and exited the program. I made a few changes after that to optimize the code and it gave me the solution in less than 1/10th of a second. – small_world Jan 17 '14 at 20:01