# Any neat way to limit significant figures with BigDecimal

I want to round a Java BigDecimal to a certain number of significant digits (NOT decimal places) eg to 4 digits:

12.3456 => 12.35

123.456 => 123.5

123456 => 123500

etc. The basic problem is how to find the order of magnitude of the BigDecimal, so I can then decide how many place to use after the decimal point.

All I can think of is some horrible loop, dividing by 10 until the result is <1, I am hoping there is a better way.

BTW, the number might be very big (or very small) so I can't convert it to double to use Log on it.

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The easierst solution is:

``````  int newScale = 4-bd.precision()+bd.scale();
BigDecimal bd2 = bd1.setScale(newScale, RoundingMode.HALF_UP);
``````

No String conversion is necessary, it is based purely on `BigDecimal` arithmetic and therefore as efficient as possible, you can choose the `RoundingMode` and it is small. If the output should be a `String`, simply append `.toPlainString()`.

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This seems to work well in all cases, even when scientific notation kicks in for large and small values. The only minor problem is that if the result has no fractional part it converts to a string like 123 rather than 123.0 (which I prefer for my application) but that is extremely easy to fix of course. Thanks. – Martin Sep 27 '11 at 17:23
Thanks for accepting my answer. On my machine the output for "123" and "4 digits" is "123.0". What could be the difference? – A.H. Sep 27 '11 at 17:48
Oh I just noticed my code also uses stripTrailingZeros() - sorry for the confusion. – Martin Sep 27 '11 at 20:25
Because '123' to two sig figs is 1.2 x 10, and so is '120'. '120.0' is 4 significant figures. – Anti Earth Jun 3 '12 at 7:08
another way of doing it using built in method: stackoverflow.com/questions/5474742/… – JackDev Oct 21 '13 at 23:54

Why not just use `round(MathContext)`?

``````BigDecimal value = BigDecimal.valueOf(123456);
BigDecimal wantedValue = value.round(new MathContext(4, RoundingMode.HALF_UP));
``````
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`MathContext` is kind of a blind spot for me, but here it is a good match. – A.H. Sep 28 '11 at 9:16
Well, it just encapsulates the wanted precision and the rounding mode, nothing more. – Kru Sep 28 '11 at 18:32
I never had the need for that but I'm craving for a built-in encapsulation of scale and rounding mode. – A.H. Sep 28 '11 at 18:43
@A.H. you haven't had a need until you try to divide 1/3 and have an exception thrown as it repeats forever. As just happened with me :) Though that default behavior makes sense as it's supposed to be infinite precision. – Kenny Cason Apr 20 '13 at 3:07
@KennyCason: I don't understand what you mean. If I use `divide(divisor, scale, ROUNDING_MODE)` then there is a defined end. In this case the end of computation is defined by scale, not by precision. My statement is, that `MathContext` does not allow easy encapsualation of scale and rounding mode, only for precision and rounding mode. – A.H. Apr 21 '13 at 17:30

You can use the following lines:

``````int digitsRemain = 4;

BigDecimal bd = new BigDecimal("12.3456");
int power = bd.precision() - digitsRemain;
BigDecimal unit = bd.ulp().scaleByPowerOfTen(power);
BigDecimal result = bd.divideToIntegralValue(unit).multiply(unit);
``````

Note: this solution always rounds down to the last digit.

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Did not know that BigDecimal did this. Nice solution. – mcfinnigan Sep 27 '11 at 16:24
How did I miss that? Thanks. – Martin Sep 27 '11 at 16:32

Someone will probably come up with a better solution, but the first thing that comes to mind is chuck it in to a StringBuilder, check whether it contains a '.' and return an appropriate length substring. E.g.:

``````int n = 5;
StringBuilder sb = new StringBuilder();
sb.append("" + number);
if (sb.indexOf(".") > 0)
{
n++;
}
BigDecimal result = new BigDecimal(sb.substring(0, n));
``````
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This seems good, though some rounding off will be required too. – Miserable Variable Sep 27 '11 at 16:19
Thanks, that's better than my idea. – Martin Sep 27 '11 at 16:27

To me this seems as simple as: Given N = 5, D = 123.456789

1. get the string representation of the number, "123.456789"
2. retrieve the first N-1 digits of the number, "123.4"
3. evaluate D[N] and D[N+1], in this case "5" and "6"
4. 6 meets the criteria for rounding up (6 > 4), therefore carry 1 and make D[N] = 5+1 = 6
5. D post rounding is now 123.46

Order can be calculated using Math.floor(Math.log(D)).

hope this helps.

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He specifically said he couldn't use Math.log(). – Thor84no Sep 27 '11 at 16:29
@Thor84no - argh, missed that. – mcfinnigan Sep 27 '11 at 16:32

Since BigDecimal is basically a string, perhaps this:

``````import java.math.BigDecimal;

public class Silly {
public static void main( String[] args ) {
BigDecimal value = new BigDecimal("1.23238756843723E+5");
String valueString = value.toPlainString();
int decimalIndex = valueString.indexOf( '.' );
System.out.println( value + " has " +
(decimalIndex < 0 ? valueString.length() : decimalIndex) +
" digits to the left of the decimal" );
}
}
``````

Which produces this:

``````123238.756843723 has 6 digits to the left of the decimal
``````
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