# Improve performance on BigDecimal to double conversion

This is the Jdk7-b147 version of `BigDecimal.doubleValue()`

``````public double doubleValue(){
if (scale == 0 && intCompact != INFLATED)
return (double)intCompact;
// Somewhat inefficient, but guaranteed to work.
return Double.parseDouble(this.toString());
}
``````

They admit that this way is inefficient! Is there a better/faster way than to use this method?

• Accuracy is pretty crucial, and the logic to convert a `BigDecimal` to a `double` is hard. (That said, I've got a JDK patch pending review to speed up `BigInteger.doubleValue()` by a little over two orders of magnitude.) Feb 6, 2013 at 22:40
• Awesome! Do you have a link to the patch? Feb 6, 2013 at 22:42
• bugs.openjdk.java.net/attachment.cgi?id=254&action=diff is the patch to optimize `BigInteger.{float,double}Value()`. The logic for `Double.parseDouble`, which is nearly the same as what you'd need to convert `BigDecimal` to `double`, is in `sun.misc.FloatingDecimal` -- you can see how messy it is there. Feb 6, 2013 at 22:43
• Louis, this is exactly what I was looking for. If you make these comments into an answer, I'll checkmark you. Feb 6, 2013 at 22:47

There isn't a much better way to convert a `BigDecimal` to a `double`. This is because the algorithms to convert `foo * 10^bar` to `baz * 2^quux` efficiently, while keeping very specific rounding semantics, are extremely nasty and unpleasant -- see `sun.misc.FloatingDecimal` for details, or read this paper.
`BigInteger.doubleValue()`, on the other hand, does have lots of opportunities for optimization, since it needn't deal with decimal fractions, but only integers. I have a JDK patch pending that optimizes `BigInteger.doubleValue()` by slightly more than two orders of magnitude, though it's still awaiting review.