Can anyone provide code for a BigInteger
implementation in objective-c that provides a PowMod function ?
5 Answers
I hope it's not too late to answer this thread.
You can try "LibTomMath" which is opensource and free (the author give away this project as public domain). It works out of the box without any configuration, just put all bn_*.c and tommath*.h to your Xcode project and you are ready to go.
#import "tommath.h"
mp_int number1, number2, number3;
mp_init(&number1);
mp_init(&number2);
mp_init(&number3);
mp_read_radix(&number1, "0a120edfff558c98a73015d5d67e8990", 16);
mp_read_radix(&number2, "12e6f45d698c7b7009a841c1348d6ff4", 16);
mp_mul(&number1, &number2, &number3);
char output[1000];
mp_toradix(&number3, output, 16);
NSLog(@"number3:%s", output);
mp_div(&number3, &number1, &number2, NULL);
mp_toradix(&number2, output, 16);
NSLog(@"number2:%s", output);
-
TomMath doesn't appear to have a pow() function, it can square or square root, but if you want to raise to the power of n it isn't simple.– MuskieFeb 2, 2013 at 6:36
-
1
As plain C library, openssl's BN should be able to do it.
BN_mod_exp()
computes a to the p-th power modulo m (r=a^p % m). This function uses less time and space than BN_exp().
You can try https://github.com/kirsteins/JKBigInteger It is similar to Java's BigInteger
class. It has mod and pow methods that you can combine.
-
-
It seems, that internally "LibTomMath" is used (see iwat's answer). May 20, 2016 at 8:56
The closest builtin class in the Cocoa libraries is NSDecimalNumber
which provides base-10 arithmetic (and so can handle integer-only arithmetic) for the range mantissa x 10^exponent where mantissa is a 38-bit float and exponent is -128 to 128. If that covers the range you need, there are multiplication and power methods. Otherwise, since Objective-C is a superset of C, any C implementation of bigint that you can find will suffice.
-
This is almost certainly not what the author is looking for.
NSDecimalNumber
uses a base-10 numbering system to encode and manipulate numbers, not the (much) more common base-2. A base-10 number system is typically used whenever currency is involved. In fact, it may be unlawful to process currency related numbers in a non-base-10 numbering systems, depending on your jurisdiction.– johneAug 4, 2009 at 20:33