# Is there an equivalent for toPrecision() in Java?

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In porting an algorithm from JavaScript to Java, I've run into the problem that I need a replacement for JavaScript's toPrecision(). The problem is that I don't have a clue how small or large the numbers will be, so I can't use a simple NumberFormat with the right format.

Is there a standard class that offers a similar functionality?

EDIT Here is what I came up with:

``````   double toPrecision(double n, double p) {
if (n==0) return 0;

double e = Math.floor(Math.log10(Math.abs(n)));
double f = Math.exp((e-p+1)*Math.log(10));

return Math.round(n/f)*f;
}
``````

In principle, it does the right thing, but rounding errors completely ruin it. For example, `toPrecision(12.34567, 3)` returns `12.299999999999997`

EDIT 2 This version works perfectly for 11 out of 12 test cases...

``````   double toPrecision(double n, double p) {
if (n==0) return 0;

double e = Math.floor(Math.log10(Math.abs(n)));
double f = Math.round(Math.exp((Math.abs(e-p+1))*Math.log(10)));
if (e-p+1<0) {
f = 1/f;
}

return Math.round(n/f)*f;
}
``````

But `toPrecision(0.00001234567, 3)` still returns `1.2299999999999999E-5` instead of `1.23E-5`

-

Use `BigDecimal` and `setScale()` method to set the precision

``````BigDecimal bd = new BigDecimal("1.23456789");
System.out.println(bd.setScale(3,BigDecimal.ROUND_HALF_UP));
``````

Output

``````1.235
``````

See

-
 Finding the right scale is something that is missing in your solution, but the use of BigDecimal seems like a good idea. – ammoQ Aug 21 '12 at 12:15 This doesn't show three significant digits e.g. "12345678.9 and should return 12300000" – Peter Lawrey Aug 21 '12 at 12:17

The simplest solution I came up with for this uses a combination of `java.math.BigDecimal` and `java.math.MathContext` like so.

``````String toPrecision(double number, int precision) {
return new BigDecimal(number, new MathContext(precision)).toString();
}
``````

I'm using this in the dynjs implementation of Number.prototype.toPrecision.

-

You can use `double` with

``````double d = 1.23456789;
System.out.println(Math.round(d * 1e3) / 1e3);
``````

prints

``````1.235
``````

or

``````System.out.printf("%.3f%n", d);
``````

does the same.

``````public static void main(String... args) {
System.out.println(round3significant(12345678.9));
System.out.println(round3significant(0.0000012345));
}

public static double round3significant(double d) {
if (d < 100) {
double divide = 1;
while(d < 100) {
d *= 10;
divide *= 10;
}
return Math.round(d) / divide;
} else {
double multi = 1;
while(d > 1000) {
d /= 10;
multi *= 10;
}
return Math.round(d) * multi;
}
}
``````

prints

``````1.23E7
1.23E-6
``````

You can use NumberFormat to only display as a decimal.

-
 Doesn't meet my requirements. I don't know the scale of the numbers in advance, so in one case, the input might be 12345678.9 and should return 12300000; in another case, 0.00000012345 should return 000000123. There are also rounding problems, see my edited post. – ammoQ Aug 21 '12 at 12:08 @ammoQ The code I gave doesn't have rounding issues and gives the same answer as Jigar's. Will revise to handle N significant digits. – Peter Lawrey Aug 21 '12 at 12:10
``````    import java.text.*;
Class Decimals
{
public static void main(String[] args)
{
float f = 125.069f;
DecimalFormat form = new DecimalFormat("#.##");
System.out.println(form.format(f));
}
}
``````

.## represents upto what decimal places you want I hope this suits your requirement.

-
 Not really, see my comment on Peter's answer. – ammoQ Aug 21 '12 at 12:10

This finally works...

``````double toPrecision(double n, double p) {
if (n==0) return 0;

double e = Math.floor(Math.log10(Math.abs(n)));
double f = Math.round(Math.exp((Math.abs(e-p+1))*Math.log(10)));

if (e-p+1<0) {
return Math.round(n*f)/f;
}

return Math.round(n/f)*f;
}
``````
-

Here's a java solution using String.format.

``````public static String toPrecision(double d, int digits) {
s = String.format("%."+((digits>0)?digits:16)+"g",d).replace("e+0","e+").replace("e-0","e-");
return s;
}
``````

The .replace is only needed if you want to mimic javascript where it has no leading zero on exponents. If you are just using it for a rounding then return the value as

``````return Double.parseDouble(s);
``````

Here is some unit test code:

``````public void testToPrecision() {
String s = NumberFormat.toPrecision(1234567.0,5);
assertEquals("1.2346e+6",s);
s = NumberFormat.toPrecision(12.34567,5);
assertEquals("12.346",s);
s = NumberFormat.toPrecision(0.1234567,5);
assertEquals("0.12346",s);
s = NumberFormat.toPrecision(0.1234567e20,5);
assertEquals("1.2346e+19",s);
s = NumberFormat.toPrecision(-0.1234567e-8,5);
assertEquals("-1.2346e-9",s);
s = NumberFormat.toPrecision(1.0/3.0,5);
assertEquals("0.33333",s);
s = NumberFormat.toPrecision(1.0/3.0,0);
assertEquals("0.3333333333333333",s);
}
``````
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