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# Pow and mod function optimization

I need to create an optimized function to count Math.pow(a,b) % c; in Javascript;
There's no problems while counting small numbers like:
`Math.pow(2345,123) % 1234567;`
But if you try to count:
`Math.pow(2345678910, 123456789) % 1234567;`
you'll get incorrect result because of Math.pow() function result that cannot count up "big" numbers;
My solution was:

``````function powMod(base, pow, mod){
var i, result = 1;
for ( i = 0; i < pow; i++){
result *= base;
result %= mod;
}
return result;
``````

Though it needs a lot of time to be counted;
Is it possible to optimized it somehow or find more rational way to count up Math.pow(a, b) % c; for "big" numbers? (I wrote "big" because they are not really bigIntegers);

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Based on SICP.

``````function expmod( base, exp, mod ){
if (exp == 0) return 1;
if (exp % 2 == 0){
return Math.pow( expmod( base, (exp / 2), mod), 2) % mod;
}
else {
return (base * expmod( base, (exp - 1), mod)) % mod;
}
}
``````

This one should be quicker than first powering and then taking remainder, as it takes remainder every time you multiply, thus making actual numbers stay relatively small.

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Your method is good so far, but you will want to do http://en.wikipedia.org/wiki/Exponentiation_by_squaring also known as http://en.wikipedia.org/wiki/Modular_exponentiation#Right-to-left_binary_method

The idea is that `x^45` is the same as (expanded into binary) `x^(32+8+4+1)`, which is the same as `x^32 * x^8 * x^4 * x^1`

And you first calculate `x^1`, then `x^2 == (x^1)^2`, then `x^4 == (x^2)^2`, then `x^8 == (x^4)^2`, then...

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you can also use the mountgomery reduction in combination with exponentiation which is largely useful for large exponents > 256:

http://en.wikipedia.org/wiki/Montgomery_reduction#Modular_exponentiation

It has also been implemented in this BigInteger Library for RSA-encryption:

http://www-cs-students.stanford.edu/~tjw/jsbn/

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