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floating point - losing precision converting from java BigDecimal to double

I am working with an application that is based entirely on doubles, and am having trouble in one utility method that parses a string into a double. I've found a fix where using BigDecimal for the conversion solves the issue, but raises another problem when I go to convert the BigDecimal back to a double: I'm losing several places of precision. For example:

import java.math.BigDecimal;
import java.text.DecimalFormat;

public class test {
    public static void main(String [] args){
        String num = "299792.457999999984";
        BigDecimal val = new BigDecimal(num);
        System.out.println("big decimal: " + val.toString());
        DecimalFormat nf = new DecimalFormat("#.0000000000");
        System.out.println("double: "+val.doubleValue());
        System.out.println("double formatted: "+nf.format(val.doubleValue()));
    }
}

This produces the following output:

$ java test
big decimal: 299792.457999999984
double: 299792.458
double formatted: 299792.4580000000

The formatted double demonstrates that it's lost the precision after the third place (the application requires those lower places of precision).

How can I get BigDecimal to preserve those additional places of precision?

Thanks!


Update after catching up on this post. Several people mention this is exceeding the precision of the double data type. Unless I'm reading this reference incorrectly: http://java.sun.com/docs/books/jls/third_edition/html/typesValues.html#4.2.3 then the double primitive has a maximum exponential value of Emax = 2K-1-1, and the standard implementation has K=11. So, the max exponent should be 511, no?

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You've reached the maximum precision for a double with that number. It can't be done. The value gets rounded up in this case. The conversion from BigDecimal is unrelated and the precision problem is the same either way. See this for example:

System.out.println(Double.parseDouble("299792.4579999984"));
System.out.println(Double.parseDouble("299792.45799999984"));
System.out.println(Double.parseDouble("299792.457999999984"));

Output is:

299792.4579999984
299792.45799999987
299792.458

For these cases double has more than 3 digits of precision after the decimal point. They just happen to be zeros for your number and that's the closest representation you can fit into a double. It's closer for it to round up in this case, so your 9's seem to disappear. If you try this:

System.out.println(Double.parseDouble("299792.457999999924"));

You'll notice that it keeps your 9's because it was closer to round down:

299792.4579999999

If you require that all of the digits in your number be preserved then you'll have to change your code that operates on double. You could use BigDecimal in place of them. If you need performance then you might want to explore BCD as an option, although I'm not aware of any libraries offhand.


In response to your update: the maximum exponent for a double-precision floating-point number is actually 1023. That's not your limiting factor here though. Your number exceeds the precision of the 52 fractional bits that represent the significand, see IEEE 754-1985.

Use this floating-point conversion to see your number in binary. The exponent is 18 since 262144 (2^18) is nearest. If you take the fractional bits and go up or down one in binary, you can see there's not enough precision to represent your number:

299792.457999999900 // 0010010011000100000111010100111111011111001110110101
299792.457999999984 // here's your number that doesn't fit into a double
299792.458000000000 // 0010010011000100000111010100111111011111001110110110
299792.458000000040 // 0010010011000100000111010100111111011111001110110111

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