Few months ago I had asked a question on an "Algorithm to find factors for primes in linear time" in StackOverflow.

In the replies i was clear that my assumptions where wrong and the Algorithm cannot find factors in linear time.

However I would like to know if the algorithm is an unique way to do division and find factors; that is do any similar/same way to do division is known? I am posting the algorithm here again:

```
Input: A Number (whose factors is to be found)
Output: The two factor of the Number. If the one of the factor found is 1 then it can be concluded that the
Number is prime.
Integer N, mL, mR, r;
Integer temp1; // used for temporary data storage
mR = mL = square root of (N);
/*Check if perfect square*/
temp1 = mL * mR;
if temp1 equals N then
{
r = 0; //answer is found
End;
}
mR = N/mL; (have the value of mL less than mR)
r = N%mL;
while r not equals 0 do
{
mL = mL-1;
r = r+ mR;
temp1 = r/mL;
mR = mR + temp1;
r = r%mL;
}
End; //mR and mL has answer
```

Let me know your inputs/ The question is purely out of personal interest to know if a similar algorithm exists to do division and find factors, which I am not able to find.

I understand and appreciate thay you may require to understand my *funny* algorithm to give answers! :)

*Further explanation: Yes, it does work on numbers above 10 (which i tested) and all positive integers. The algorithm depends on remainder r to proceed further.I basically formed the idea that for a number, its factors gives us the sides of the rectangles whose area is the number itself. For all other numbers which are not factors there would be a remainder left, or consequently the rectangle cannot be formed in complete. Thus idea is for each decrease of mL, we can increase r = mR+r (basically shifting one mR from mR*mL to r) and then this large r is divided by mL to see how much we can increase mR (how many times we can increase mR for one decrease of mL). Thus remaining r is r mod mL. I have calculated the number of while loop it takes to find the factors and it comes below or equal 5*N for all numbers. Trial division will take more.*

Thanks for your time, Harish