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Consider this code:

import java.math.BigDecimal;
import java.math.RoundingMode;

public class RoundingTests {

    public static void main(String[] args) {
        BigDecimal bd1 = new BigDecimal(265.345d);
        BigDecimal bd2 = new BigDecimal(265.335d);

        System.out.println("Setting scale 265.345: " + bd1.setScale(2, RoundingMode.HALF_EVEN));
        System.out.println("Setting scale 265.335: " + bd2.setScale(2, RoundingMode.HALF_EVEN));

The output is:

Setting scale 265.345: 265.35
Setting scale 265.335: 265.33

Now this is exactly the opposite of what I was expecting. With RoundingMode.HALF_EVEN (also called Bankers rounding) I was expecting both these values to become the value 265.34

Note that I am not using the BigDecimal.round method on purpose because it also does not what I need. If I add this code (and import java.math.MathContext) :

System.out.println("Rounding 265.345: " + bd1.round(new MathContext(2, RoundingMode.HALF_EVEN)));
System.out.println("Rounding 265.335: " + bd2.round(new MathContext(2, RoundingMode.HALF_EVEN)));

Then the output is:

Rounding 265.345: 2.7E+2
Rounding 265.335: 2.7E+2

This is expected and also explained in BigDecimal setScale and round, but means it's basically useless for my purpose.

Can someone explain the issue with setScale here?

Update: So it was just another floating point problem, with no easy way to fix it instead of using BigDecimals from the start.

share|improve this question
The problem is the floating-point constants. Try it with quoted strings instead of floating-point constants as constructor arguments. – EJP Nov 8 '13 at 12:53
Ugh indeed... that is annoying. In my actual application they are not literals but double variables, but I guess the same applies. So it might just be a coincidence that it's doing the opposite of what I am expecting, for other values it might accidentally work correctly. It's weird that something so simple becomes so hard. I really don't want to convert things to a String and back again but it seems to be the only working solution. – Sebastiaan van den Broek Nov 8 '13 at 12:58
Floating point will always be a pain to work with to represent monetary values. – Jonathan Drapeau Nov 8 '13 at 13:01
Where are you getting those values and are they really just 3 digits? – Jonathan Drapeau Nov 8 '13 at 13:04
They could be coming from many places. In this case they really are just 3 digits because this is a testcase I made myself. It's a java.lang.Double with that exact value. But we are developing a generic application development platform so it could mean anything. I will update my answer with my actual solution. – Sebastiaan van den Broek Nov 8 '13 at 13:10

You might want to change your code to use BigDecimal.valueOf() instead of new BigDecimal().

The code

  Double dValue = 265.345d;
  Double dValue2 = 265.335d;
  BigDecimal value = BigDecimal.valueOf(dValue);
  BigDecimal bd1 = new BigDecimal(265.345d);
  BigDecimal bd2 = new BigDecimal(265.335d);
  BigDecimal value2 = BigDecimal.valueOf(dValue2);
  value = value.setScale(2, BigDecimal.ROUND_HALF_EVEN);
  value2 = value2.setScale(2, BigDecimal.ROUND_HALF_EVEN);
  System.out.println("BigDecimal bd1 = new BigDecimal(265.345d);");
  System.out.println(bd1.setScale(2, BigDecimal.ROUND_HALF_EVEN));
  System.out.println("BigDecimal bd2 = new BigDecimal(265.335d);");
  System.out.println(bd2.setScale(2, BigDecimal.ROUND_HALF_EVEN));

outputs :

BigDecimal bd1 = new BigDecimal(265.345d);
BigDecimal value2 = BigDecimal.valueOf(dValue2);
share|improve this answer
Thanks, that works better than my way without having to use string values of things. However, the actual implementation seems to use the string representation of the double value as well. From the Javadoc at : valueOf(double val) Translates a double into a BigDecimal, using the double's canonical string representation provided by the Double.toString(double) method.. So basically this does not solve an issue with floating point numbers either. – Sebastiaan van den Broek Nov 8 '13 at 14:08

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