# Returning comparison in Python

I have this code:

``````def isPrime(nr):
"""
Verify if a number is prime
nr - integer number, nr>1
return True if nr is prime, False otherwise
"""
div = 2 #search for divider starting from 2
while div<nr and nr % div>0:
div=div+1
#if the first divider is the number itself
#then the number is prime
return div>=nr
``````

It's not written by me, so I'm trying to understand how the algorithm works, apparently it is using a form of divide & conquer.

What I don't understand is what the last line does:

``````return div>=nr
``````
-
I can't see any divide and conquer. –  Tim Jan 27 '14 at 16:28
No, there’s no divide and conquer. In addition, the algorithm highly unorthodox and inefficient. –  Konrad Rudolph Jan 27 '14 at 16:28
The fact that an algorithm using division does not mean that it uses the Divide and Conquer approach... –  Bakuriu Jan 27 '14 at 16:30
@John Ah. Hm. I’d just skimmed the comment, seen “divide[r]” and, together with OP’s assertion, assumed that this is what the comment said. I’ll leave my (changed) comment because I still think that this code is pretty appalling. Not so much in terms of performance but in terms of readability. –  Konrad Rudolph Jan 27 '14 at 16:31

``````return div>=nr
``````

...is equivalent to...

``````if div >= nr:
return True
else:
return False
``````

That is, it is not "returning a comparison" but returning the result of a comparison.

-
thanks a lot dudeski –  csergiu_ro Jan 27 '14 at 16:50

The algorithm is just testing every number from 2 up to `nr` to test if `nr` is divisible by the number. If at any point it is (`nr % div` is equal to 0), the loop breaks. This will return False if `div < nr`. If the loop gets to `nr`, then we know there is no number between 2 and `nr` that divides the `nr` and so it is prime, returning True. The other answer explains how the return works.

Definitely not using divide & conquer.

-

Python comes with an interactive environment where you can experiment with simple scripts like the one you posted.

``````\$ python                           # From the command line just run 'python'.

>>> nr = 13                        # Type in some code.
>>> div = 2
>>> while div<nr and nr % div>0:
...   div=div+1
...                                # Press 'Enter' here to end the indentation.
>>> div                            # Type a variable to see what it equals.
13
>>> nr                             # Again.
13