# Factorizing largest number

here is sample code

``````public static decimal factorization(decimal num, decimal factor)
{

if (num == 1)
{
return 1;
}
if ((num % factor)!= 0)
{

while(num% factor != 0)
{
factor++;
}

}

return factor;

}
``````

Note : I have initialize factors as global.

Above code will work fine for sample inputs 90 , 18991325453139 but will not work for input 12745267386521023 ... so how can I do that ? How can I achieve this efficiently ... I know recursive call will consume memory that's why I have checked the last input using without recursion .. But its not working too

-
"But its not working too " - how is it not working? –  Mitch Wheat Jul 31 '11 at 12:36
Or System.Numerics.BigInt ? –  Henk Holterman Jul 31 '11 at 12:36

You can use that if

``````factor*factor > num
``````

then num is prime

It will decrease complexity from `O(n)` to `O(sqrt(n))`

EDIT

``````while(num% factor != 0)
{
factor++;
if(factor*factor>num){ // You can precalc sqrt(num) if use big arifmetic
factor=num; //skip factors between sqrt(num) and num;
}
}
``````
-
where to put this condition ? –  anasanjaria Aug 6 '11 at 12:02
@ RiaD : Its working fi9 ... –  anasanjaria Aug 6 '11 at 13:48
``````using System.Collections;

public static int[] PrimeFactors(int num)
{
ArrayList factors = new ArrayList();

while (num % 2 == 0)
{
{
}
num = num / 2;
}

int divisor = 3;
while (divisor <= num)
{
if (num % divisor == 0)
{
{
}
num = num / divisor;
}
else
{
divisor += 2;
}
}

int[] returnFactors = (int[])factors.ToArray(typeof(int));

return returnFactors;
}
``````

I just copied and posted some code from Smokey Cogs because this is a very common problem.

The code does some things better than yours.

First you divide by two until the number is no longer even. From there, you can start with 3 and increment by 2 (skip every even number) since all the 2's have been factored out.

Nonetheless, there are ways to improve. Think about the usage of "alreadyCounted" in the code. Is it absolutely essential? For example, using

``````    if (num % 2 == 0)
{
num = num/2;
}

while( num %2 == 0)
{num = num/2;}
``````

Allows you to skip the extra comparisons in the beginning.

RiaD also gave a great heuristic that `factor^2 > num` implies that num is prime. This is because `(sqrt(n))^2 = n`, so the only number after `sqrt(n)` that divides `num` will be `num` itself, once you've taken out the previous primes.

Hope it helps!

-
Good answer, but you should change "if (alreadyCounted == false)" into the more understandable "if (!alreadyCounted)". –  Dan Byström Jul 31 '11 at 20:46
The argument num is integer in above function and it will prompt me error when I pass this big number 18991325453139 .. that's y I have taken decimal as datatype ... –  anasanjaria Aug 6 '11 at 12:11

To see how to find the factors of a given number in C# see this (duplicate?) StackOverflow question.

A few points on your code:

• there is no need for recursion if using a naive search, just build a list of factors within the method and return it at the end (or use `yield`).
• your second if statement is redundant as it wraps a while loop with the same condition.
• you should use an integer type (and unsigned integer types will allow larger numbers than their signed counterparts, e.g. `uint` or `ulong`) rather than `decimal` as you are working with integers. For arbitrarily large integers, use `System.Numerics.BigInteger`.
• if you search incrementally upwards for a factor, you can stop looking when you have got as far as the square root of the original number, as no factor can be larger than that.

Also, note that there is no known efficient algorithm for factoring large numbers (see Wikipedia for a brief overview).

Here's example code, based on the above observations:

``````static IList<BigInteger> GetFactors(BigInteger n)
{
List<BigInteger> factors = new List<BigInteger>();
BigInteger x = 2;
while (x <= n)
{
if (n % x == 0)
{
n = n / x;
}
else
{
x++;
if (x * x >= n)
{
break;
}
}
}
return factors;
}
``````

Note that this is still a rather naive algorithm which could easily be further improved.

-
yes i agree with your 2nd point regarding redundant if statement .. I will do correction in my code ... If I use int as data type then it will not support this big number 18991325453139 .. that's why I have used decimal as data type ... –  anasanjaria Aug 6 '11 at 12:15
If you want to factorize number that high, you should use the integer type `ulong` (aka `UInt64`). For arbitrarily large integers, you can use `System.Numerics.BigInteger`. I've updated my answer to include sample code. –  Ergwun Aug 6 '11 at 16:09