Does anybody know how I can round a double value to 3 significant figures like the examples on this website


  • 13
    Not a duplicate. That mentioned question is about number of digits after decimal point. Not the same concept as significant figures. – ToolmakerSteve Aug 28 '15 at 0:56
double d = ...;
BigDecimal bd = new BigDecimal(d);
bd = bd.round(new MathContext(3));
double rounded = bd.doubleValue();
  • 2
    No. Or else print the value of rounded % 0.001 and explain the result. – user207421 Sep 26 '11 at 20:38
  • 4
    The value of the BigDecimal prints as "0.00100", which is exactly correct. I suggest you try it. MathContext here is nothing to do with radixes, and BigDecimal is an arbitrary-precision library. – Sean Owen Sep 27 '11 at 7:26
  • 2
    Of course the BigDecimal does that, for the reason I stated in my answer. Your code doesn't work, because your 'rounded' variable isn't rounded. My question was what is the value of 'rounded % 0.001'. The OP asked how to round a double value. You haven't answered either question. Please now explain why 'rounded % 0.001' doesn't print zero if 'rounded' has indeed been rounded. – user207421 Sep 27 '11 at 8:23
  • 6
    You're making a different point, which I don't think is helpful to the OP. The best answer is not, "no there's nothing that can be done in Java"; it's the above. 'rounded' is the closest double representation to the correct answer. If double precision is a problem, the whole question doesn't make sense, indeed! And then the answer is use BigDecimal anyway. – Sean Owen Sep 27 '11 at 9:16
  • 8
    I think you're reading the question as, "how can I represent a real exactly as a double, round it, and represent the answer exactly as a double?" You're right there: you can't. Surely, I think, the emphasis of the question was "how do I round to 3 significant figures in Java, since Math.round() rounds to nearest whole number?" I think it far more likely, and, the answer to that question is not "can't be done". – Sean Owen Sep 27 '11 at 11:15
    public String toSignificantFiguresString(BigDecimal bd, int significantFigures ){
    String test = String.format("%."+significantFigures+"G", bd);
    if (test.contains("E+")){
        test = String.format(Locale.US, "%.0f", Double.valueOf(String.format("%."+significantFigures+"G", bd)));
    return test;

If you want to do it by hand:

import java.lang.Math;

public class SigDig {

  public static void main(String[] args) {
    System.out.println("   -123.456   rounded up   to 2 sig figures is " + sigDigRounder(-123.456, 2,  1));
    System.out.println("     -0.03394 rounded down to 3 sig figures is " + sigDigRounder(-0.03394, 3, -1));
    System.out.println("    474       rounded up   to 2 sig figures is " + sigDigRounder(474, 2,  1));
    System.out.println("3004001       rounded down to 4 sig figures is " + sigDigRounder(3004001, 4, -1));

  public static double sigDigRounder(double value, int nSigDig, int dir) {

    double intermediate = value/Math.pow(10,Math.floor(Math.log10(Math.abs(value)))-(nSigDig-1));

    if(dir > 0)      intermediate = Math.ceil(intermediate);
    else if (dir< 0) intermediate = Math.floor(intermediate);
    else             intermediate = Math.round(intermediate);

    double result = intermediate * Math.pow(10,Math.floor(Math.log10(Math.abs(value)))-(nSigDig-1));



The above method rounds a double to a desired number of significant figures, handles negative numbers, and can be explicitly told to round up or down


how I can round a double value to 3 significant figures

You can't. Doubles are representing in binary. They do not have decimal places to be rounded to. The only way you can get a specific number of decimal places is to convert it to a decimal radix and leave it there. The moment you convert it back to double you have lost the decimal precision again.

For all the fans, here and elsewhere, of converting to other radixes and back, or multiplying and dividing by powers of ten, please display the resulting double value % 0.001 or whatever the required precision dictates, and explain the result.

EDIT: Specifically, the proponents of those techniques need to explain the 92% failure rate of the following code:

public class RoundingCounterExample
    static float roundOff(float x, int position)
        float a = x;
        double temp = Math.pow(10.0, position);
        a *= temp;
        a = Math.round(a);
        return (a / (float)temp);

    public static void main(String[] args)
        float a = roundOff(0.0009434f,3);
        System.out.println("a="+a+" (a % .0001)="+(a % 0.001));
        int count = 0, errors = 0;
        for (double x = 0.0; x < 1; x += 0.0001)
            double d = x;
            int scale = 2;
            double factor = Math.pow(10, scale);
            d = Math.round(d * factor) / factor;
            if ((d % 0.01) != 0.0)
                System.out.println(d + " " + (d % 0.01));
        System.out.println(count + " trials " + errors + " errors");
  • 2
    Well, no. You're conflating several things -- whether you can round to arbitrary places in Java (yes), represent arbitrary precision reals (yes), and represent arbitrary precision reals as double (no). I can most certainly round a double; whether or not there's something lost in translation is another question. I think the OP really wanted to know how to do rounding of reals (though it was said as doubles), and that is definitely possible in Java. See my answer. – Sean Owen Sep 27 '11 at 7:28
  • @Sean Owen you can round to arbitrary places in any language as long as the radix of the places is the same as the radix of the number. I am not conflating anything about arbitrary precision reals, as I didn't mention them. 'What is lost in translation' is the rounding. You cannot round a double to a specified number of decimal places. It is a contradiction in terms, as the simple test I suggested for your answer clearly shows. – user207421 Sep 27 '11 at 8:25
  • 4
    According to your logic, you can't add doubles either, because the sum isn't exactly right. In an abstract sense that's right, but, I would love to see you try this argument on in a software company. "Boss, I can't implement this. There is no way to add floating-point numbers on a computer!" – Sean Owen Sep 27 '11 at 9:20
  • 2
    It isn't zero, yes. I understand your point and explained why it does not seem helpful here. I don't think you addressed mine. SO seems to think my answer is better, but good that you brought more thinking. – Sean Owen Sep 27 '11 at 10:53
  • 3
    Well, I think what OP (and I) probably really wants is to get a String representation of a double to x significant figures, so in a way you're both wrong – Rhys Jones a.k.a. Luigi Jul 2 '13 at 0:00

I usually don't round the number itself but round the String representation of the number when I need to display it because usually it's the display that matters, that needs the rounding (although this may not be true in situations, and perhaps yours, but you need to elaborate on this if so). This way, my number retains its accuracy, but it's display is simplified and easier to read. To do this, one can use a DecimalFormat object, say initialzed with a "0.000" String (new DecimalFormat("0.000")), or use String.format("%.3f", myDouble), or several other ways.

For example:

// yeah, I know this is just Math.PI.
double myDouble = 3.141592653589793;
DecimalFormat myFormat = new DecimalFormat("0.000");
String myDoubleString = myFormat.format(myDouble);
System.out.println("My number is: " + myDoubleString);

// or you can use printf which works like String.format:
System.out.printf("My number is: %.3f%n", myDouble);
  • 23
    This is a wrong answer that confuses decimal digits with significant digits. @Sean Owen's answer is the correct one. – Geoffrey Zheng Mar 20 '12 at 16:49

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.