Since nobody has been trying to hack this with old nice `reduce`

method, I'm going to take this occupation. This method isn't flexible for problems like this because it performs loop of repeated actions over array of arguments and there's no way how to interrupt this loop by default. The door open after we have implemented our own `interupted reduce`

for interrupted loops like this:

```
from functools import reduce
def inner_func(func, cond, x, y):
res = func(x, y)
if not cond(res):
raise StopIteration(x, y)
return res
def ireducewhile(func, cond, iterable):
# generates intermediary results of args while reducing
iterable = iter(iterable)
x = next(iterable)
yield x
for y in iterable:
try:
x = inner_func(func, cond, x, y)
except StopIteration:
break
yield x
```

After that we are able to use some `func`

that is the same as an input of standard Python reduce method. Let this `func`

be defined in a following way:

```
def division(c):
num, start = c
for i in range(start, int(num**0.5)+1):
if num % i == 0:
return (num//i, i)
return None
```

Assuming we want to factor a number 600851475143, an expected output of this function after repeated use of this function should be this:

```
(600851475143, 2) -> (8462696833 -> 71), (10086647 -> 839), (6857, 1471) -> None
```

The first item of tuple is a number that `division`

method takes and tries to divide by the smallest divisor starting from second item and finishing with square root of this number. If no divisor exists, None is returned.
Now we need to start with iterator defined like this:

```
def gener(prime):
# returns and infinite generator (600851475143, 2), 0, 0, 0...
yield (prime, 2)
while True:
yield 0
```

Finally, the result of looping is:

```
result = list(ireducewhile(lambda x,y: div(x), lambda x: x is not None, iterable=gen(600851475143)))
#result: [(600851475143, 2), (8462696833, 71), (10086647, 839), (6857, 1471)]
```

And outputting prime divisors can be captured by:

```
if len(result) == 1: output = result[0][0]
else: output = list(map(lambda x: x[1], result[1:]))+[result[-1][0]]
#output: [2, 71, 839, 1471]
```

# Note:

In order to make it more efficient, you might like to use pregenerated primes that lies in specific range instead of all the values of this range.

`15.3 us`

on my system. – Ashwini Chaudhary Mar 11 '13 at 19:49