First off, I'm doing this for myself so please don't suggest "use GMP / xint / bignum" (if it even applies).

I'm looking for a way to convert large integers (say, OVER 9000 digits) into a int32 array of 2^{32} representations. The numbers will start out as base 10 strings.

For example, if I wanted to convert `string a = "4294967300"`

(in base 10), which is just over `INT_MAX`

, to the new base 2^{32} array, it would be `int32_t b[] = {1,5}`

. If `int32_t b[] = {3,2485738}`

, the base 10 number would be `3 * 2^32 + 2485738`

. Obviously the numbers I'll be working with are beyond the range of even int64 so I can't exactly turn the string into an integer and mod my way to success.

I have a function that does subtraction in base 10. Right now I'm thinking I'll just do `subtraction(char* number, "2^32")`

and count how many times before I get a negative number, but that will probably take a long time for larger numbers.

Can someone suggest a different method of conversion? Thanks.

**EDIT**

Sorry in case you didn't see the tag, I'm working in **C++**

thattakes division. – Mooing Duck Nov 2 '11 at 21:33