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I'm implementing a faster BigInt implementation and I'm not sure on how far I should go to provide interop with the underlying platform.

Today BigInt just wraps a BigInteger and the value bigInteger just returns the wrapped value:

class BigInt(val bigInteger: BigInteger) ...

Because I'm not wrapping a Java type, I would have to do something like

final class BigInt private(final val signum: Int,
                           final private[math] val arr: Array[Int])
  def bigInteger: java.math.BigInteger = {
    // Avoid copying of potentially large arrays.
    val ctor = classOf[java.math.BigInteger]
                 .getDeclaredConstructor(classOf[Array[Int]], classOf[Int])
    ctor setAccessible true
    ctor.newInstance(arr, signum.asInstanceOf[Object])
  }
...
}

Can this cause trouble or is there a better way to do it?

share|improve this question
    
I don't know how big are the number, but copying a small array of ints could be faster than using reflection... –  paradigmatic Apr 7 '12 at 16:12
    
Yes, sure. It doesn't matter for small arrays, but the size of the numbers is only limited by the RAM. I just don't want to eat memory when moving data from a immutable data structure to another. –  soc Apr 7 '12 at 20:25
    
The number of atoms in the whole universe is commonly estimated to be 10^80. With only 9*32 bits, you can assign a unique index to each one. I strongly believe that if you need a natural number bigger than that, it's probably a bug or an design error... –  paradigmatic Apr 9 '12 at 7:59

1 Answer 1

up vote 3 down vote accepted

In general when I've seen people use private (or otherwise undocumented) constructors or methods like this, they catch NoSuchMethodException and provide an alternative:

object BigInt {
  import java.math.BigInteger

  private val toBigInteger: (Array[Int], Int) => BigInteger = try {
    val ctor = classOf[BigInteger].getDeclaredConstructor(
      classOf[Array[Int]], classOf[Int]
    )
    ctor.setAccessible(true)

    (arr, signum) => ctor.newInstance(arr, signum.asInstanceOf[Object])
  } catch { case _: NoSuchMethodException =>
    (arr, signum) =>
      val buffer = java.nio.ByteBuffer.allocate(arr.length * 4)
      buffer.asIntBuffer.put(arr)
      new BigInteger(signum, buffer.array)
  }
}

final class BigInt(final val signum: Int, final val arr: Array[Int]) {
  def bigInteger = BigInt.toBigInteger(arr, signum)
}

I've also moved the reflection business off to a companion object in order to avoid paying for most of it every time you call bigInteger.

share|improve this answer
    
Interesting approach, thanks! –  soc Apr 7 '12 at 20:14
    
Wouldn't I have to look out for SecurityException instead of NoSuchMethodException? The amusing thing is that JavaDoc even mentions this constructor as being public, so I don't think it will ever disappear. –  soc Apr 7 '12 at 20:23

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