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I am looking for the best way to convert a Number to a BigDecimal.

Is this good enough?

Number number;
BigDecimal big = new BigDecimal(number.toString());

Can we lose precision with the toString() method ?

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2  
your code may throw NumberFormatException - if number is a Double that is Infinity or NaN docs.oracle.com/javase/1.5.0/docs/api/java/lang/… –  Ahmed KRAIEM Apr 25 '13 at 13:41
    
Thanks for the tip ! I forgot to check this –  Nestor Pigrounet Apr 25 '13 at 13:43

2 Answers 2

up vote 5 down vote accepted

This is fine, remember that using the constructor of BigDecimal to declare a value can be dangerous when it's not of type String. Consider the below...

BigDecimal valDouble = new BigDecimal(0.35);
System.out.println(valDouble);

This will not print 0.35, it will infact be...

0.34999999999999997779553950749686919152736663818359375

I'd say your solution is probably the safest because of that.

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Yep, I've noticed that. My worries are about toString() method for the Double, I was wondering if we can loose precision with this method. –  Nestor Pigrounet Apr 25 '13 at 13:42
    
No, although you will naturally have more precision if it was a BigDecimal in the first place. If it's dealing with currency, you should always make everything BigDecimal. If it was declared as BigDecimal before being cast from a Double, that would be the best solution in my opinion and take Double out of the equation altogether. –  david99world Apr 25 '13 at 13:49

Can we lose precision with toString() method ?

Kind of ... Both Float.toString() and Double.toString() only output the number of digits after the decimal separator, which is required for the output uniquely to correspond to a float or double value.

To use the 0.35 example in david99world's answer, consider the following code:

BigDecimal bd1 = new BigDecimal(0.35);

Number n = 0.35;
BigDecimal bd2 = new BigDecimal(n.toString());

System.out.println(bd1);
System.out.println(bd2);

An intuitive expectation may be that the two BigDecimal instances are identical, but the output shows that they are not:

0.34999999999999997779553950749686919152736663818359375
0.35

The first line is the exact value of the double, since 0.35 cannot be represented exactly. The second line is 0.35, since no more fractional digits are required to represent the distinct value. E.g. the statement 0.34999999999999997779553950749686919152736663818359375 == 0.35 will evaluate to true.

This is actually not a loss of precision when creating the BigDecimal, the uncertainty is already there in your "source" value. The problem is rather that the discrete values possible using e.g. a float or double value as source not necessarily will be represented by the exact equivalent in the BigDecimal instance.

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