Actually, I've found possible solution
//returns true
new BigDecimal("5.50").doubleValue() == new BigDecimal("5.5").doubleValue()
Of course, it can be improved with something like Math.abs (v1 - v2) < EPS to make the comparison more robust, but the question is whether this technique acceptable or is there a better solution?
If someone knows why java designers decided to implement BigDecimal's equals in that way, it would be interesting to read.
From the javadoc of BigDecimal
equals
public boolean equals(Object x)Compares this
BigDecimalwith the specifiedObjectfor equality. UnlikecompareTo, this method considers twoBigDecimalobjects equal only if they are equal in value and scale (thus 2.0 is not equal to 2.00 when compared by this method).
Simply use compareTo() == 0
Using == to compare doubles seems like a bad idea in general.
You could call setScale to the same thing on the numbers you're comparing:
new BigDecimal ("5.50").setScale(2).equals(new BigDecimal("5.5").setScale (2))
where you would be setting the scale to the larger of the two:
BigDecimal a1 = new BigDecimal("5.051");
BigDecimal b1 = new BigDecimal("5.05");
// wow, this is awkward in Java
int maxScale = Collections.max(new ArrayList() {{ a1.scale(), b1.scale()}});
System.out.println(
a1.setScale(maxScale).equals(b1.setScale(maxScale))
? "are equal"
: "are different" );
Using compareTo() == 0 is the best answer, though. The increasing of the scale of one of the numbers in my approach above is likely the "unnecessary inflation" that the compareMagnitude method documentation is mentioning when it says:
/**
* Version of compareTo that ignores sign.
*/
private int compareMagnitude(BigDecimal val) {
// Match scales, avoid unnecessary inflation
long ys = val.intCompact;
long xs = this.intCompact;
and of course compareTo is a lot easier to use since it's already implemented for you.
the simplest expression to compare ignoring leading zeros is since Java 1.5:
bd1.stripTrailingZeros().equals(bd2.stripTrailingZeros())
