# Store and work with Big numbers in C

I need help working with very big numbers. According to Windows calc, the exponent

``````174^55 = 1.6990597648061509725749329578093e+123
``````

How would I store this using C (c99 standard)?

``````int main(){
long long int x = 174^55; //result is 153
printf("%lld\n", x);
}
``````

This is for a school project where we are implementing the RSA cryptographic algorithm, which deals with the exponentiation of large numbers with large powers for encryption/decryption.

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In C, `^` is binary XOR, not exponentation. You need to use the `pow()` function for that. –  Matti Virkkunen Apr 14 '10 at 20:05
The `^` operator means XOR, not exponentiation, in C. –  Eduardo León Apr 14 '10 at 20:05

Normal types in C can usually only store up to 64 bits, so you'll have to store big numbers in an array, for example, and write mathematical operations yourself. But you shouldn't reinvent the wheel here - you could try the GNU Multiple Precision Arithmetic Library for this purpose.

And as the comments already pointed out, the `^` operation is binary XOR. For exponentiation, you will have to use mathematical functions like `pow`.

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You could store it in an array of integers. A 64-bit integer is just 2 32-bit integers. A 1024 bit integer could also be seen as 32 32-bit integers.

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If approximation is OK, you can use floating-point (`float` or `double`) numbers. And you need `pow`, not `^`, as the commenters said.

However, for cryptography, approximation doesn't work. You need support for arithmetic with very large integers. GMP provides general multiple-precision arithmetic support. Many cryptographic packages will also have such algorithms in their code, either through a third-party library or built-in; PuTTY has a bignum library for large integers, and OpenSSL probably has something similar.

Basic C data types are not enough.

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