Working with BigInteger bypassing Integer.toString()

I want to get a remainder of a fourth power of a number. Here is my code:

``````static int testMod(int a, int mod) {

/*  //This looks clear
BigInteger a4 = a;
return (a4.pow(4))%mod;
*/

//This works
String a2String = Integer.toString(a);
String mod2String = Integer.toString(mod);
BigInteger a4 = new BigInteger(a2String);
BigInteger modBigInt = new BigInteger(mod2String);
a4 = a4.pow(4);

return a4.remainder(modBigInt).intValue();
}
``````

It works fine, but the conversion to String seems unnecessary, and using the `%` operator would be more concise than `a.remainder(b)`. Is it possible to rewrite it to make it more clear?

You can get rid of the conversions through `String` by using `BigInteger.valueOf(long)` to convert your `int`s to `BigInteger`. You cannot apply the `%` operator to `BigInteger` operands, however. If you could, then `BigInteger.remainder()` would not exist. On the other hand, as @LouisWasserman observes, there is `BigInteger.modPow()` to perform the exponentiation and remainder in one call.

Additionally, `BigInteger` supports method chaining, as you recognize. You could do the whole thing in one statement if you wanted, but I think this is a good compromise between concision and readability:

``````static int testMod(int a, int mod) {
BigInteger bigA = BigInteger.valueOf(a);
BigInteger bigMod = BigInteger.valueOf(mod);

return bigA.modPow(BigInteger.valueOf(4), bigMod).intValue();
}
``````
• Why not use `BigInteger.modPow`? – Louis Wasserman Jun 29 '16 at 21:46
• @LouisWasserman, indeed why not? I have no good response. Updated. – John Bollinger Jun 29 '16 at 21:53
• Hmm. I think you might actually have to do `bigA.modPow(BigInteger.valueOf(4), bigMod)`, which is a shame, but I suspect still worth it. – Louis Wasserman Jun 29 '16 at 21:53
• @LouisWasserman, yes, you're right. It's not as pretty, but one `modPow()` is much better than chaining `pow()` and `remainder()`. – John Bollinger Jun 29 '16 at 21:56
• FWIW: Actually, `remainder()` could still exist, even if there were operator overloading. My (Delphi) BigInteger implementation has operator overloading as well as full function names. – Rudy Velthuis Jun 30 '16 at 10:34

I don't know if this is any better or not, but it gets rid of the unnecessary conversion to `String` and back:

``````static int testMod(int a, int mod)
{
BigInteger a4 = BigInteger.valueOf(a).pow(4);

return a4.remainder(BigInteger.valueOf(mod)).intValue();
}
``````

It has not been proposed but you may also think of using the `import static` to lighten up your code and also the method `BigInteger#mod` instead of `#remainder`

``````import java.math.BigInteger;
import static java.math.BigInteger.valueOf;

public class BigInt {
public static void main(String[] args) {
System.out.println(testMod(5,36)); // 13
System.out.println(testMod(250, 999)); // 160
}

public static int testMod(int a, int mod) {
return valueOf(a).pow(4).mod(valueOf(mod)).intValue();
}
}
``````