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An 64-bit double can represent integer +/- 253 exactly

Given this fact I choose to use a double type as a single type for all my types, since my largest integer is unsigned 32-bit.

But now I have to print these pseudo integers, but the problem is they are also mixed in with actual doubles.

So how do I print these doubles nicely in Java?

I have tried String.format("%f", value), which is close, except I get a lot of trailing zeros for small values.

Here's an example output of of %f

232.00000000
0.18000000000
1237875192.0
4.5800000000
0.00000000
1.23450000

What I want is:

232
0.18
1237875192
4.58
0
1.2345

Sure I can write a function to trim those zeros, but that's lot of performance loss due to String manipulation. Can I do better with another format code?

EDIT

The answers by Tom E. and Jeremy S. are unacceptable as they both arbitrarily rounds to 2 decimal places. Please understand the problem before answering.

share|improve this question
    
If all you want are integers, why not use a long? You get more bang at 2^63-1, no awkward formatting, and better performance. –  basszero Mar 31 '09 at 23:11
4  
Because some values are actually doubles –  Pyrolistical Mar 31 '09 at 23:12
    
Some cases where this problem occured was a bug fixed in JDK 7: stackoverflow.com/questions/7564525/… –  Pyrolistical Oct 22 '11 at 8:18

12 Answers 12

up vote 94 down vote accepted

If the idea is to print integers stored as doubles as if they are integers, and otherwise print the doubles with the minimum necessary precision:

public static String fmt(double d)
{
    if(d == (long) d)
        return String.format("%d",(long)d);
    else
        return String.format("%s",d);
}

Produces:

232
0.18
1237875192
4.58
0
1.2345

And does not rely on string manipulation.

share|improve this answer
7  
Nice trick with d == (int) d –  Pyrolistical Feb 20 '13 at 19:04
4  
Will not work for values larger than max int. –  Pshemo Jan 4 at 22:47
1  
Agreed, this is a bad answer, do not use it. It fails to work with a double larger than the maximum int value. Even with long it would still fail for huge numbers. Further it will return a String in exponential form, e.g. "1.0E10", for large values, which is probably not what the asker wants. Use %f instead of %s in the second format string to fix that. –  jlh Feb 3 at 12:48
6  
The OP stated explicitly that they did not want the output formatted using %f. The answer is specific to the situation described, and the desired output. The OP suggested their maximum value was a 32-bit unsigned int, which I took to mean that int was acceptable (unsigned not actually existing in Java, and no exemplar was problematic), but changing int to long is a trivial fix if the situation is different. –  JasonD Feb 3 at 14:26
    
It formats "0.00028571" in scientific notation. –  Timuçin Feb 18 at 17:15
new DecimalFormat("#.##").format(1.199); //"1.2"
share|improve this answer
11  
An important note here is that 1.1 would properly be formatted as "1.1" without any trailing zeros. –  Steve Pomeroy Apr 27 '11 at 7:10
24  
And if you happen to want a specific number of trailing zeroes (e.g. if you are printing money amounts) then you can use '0' instead of '#' (i.e. new DecimalFormat("0.00").format(amount);) this isn't what OP wanted, but may be useful for reference. –  TJ Ellis Oct 19 '11 at 19:31
3  
Yes, as the original author of the question this is the WRONG answer. Funny how many up votes there are. The problem with this solution is it arbitrarily rounds to 2 decimal places. –  Pyrolistical Dec 10 '12 at 18:00
3  
@Pyrolistical I don't get why you can't just use: new DecimalFormat("#.##########").format(1.199); ??? –  Mazyod Jan 26 '13 at 7:44
4  
@Mazyod because you can always pass in a floating pointing with more decimals than the format. That is writing code that will work most of the time but not cover all the edge cases. –  Pyrolistical Feb 15 '13 at 17:15
String.format("%.2f", value) ;
share|improve this answer
4  
That's correct but always prints trailing zeros even if there is no fractional part. String.format("%.2f, 1.0005) prints 1.00 and not 1. Is there any format specifier for not to print fractional part if it does not exist? –  Emre Yazıcı Feb 5 '10 at 20:45
13  
Down voted since the question is asking to strip all trailing zeros and this answer will always leave two floating points regardless of being zero. –  Zulaxia Apr 30 '11 at 9:48
    
The DecimalFormat was a nice trick -- although I ended up using this one for my situation (game level timer) as the trailing zeros looked better. –  Timothy Lee Russell Oct 8 '11 at 3:59
    
I think you can handle the trailing zeroes correctly by using g instead of f. –  Peter Ajtai Jan 4 '12 at 0:36
1  
I used this solution in a production system with "%.5f", and it is really really bad, do not use it... because it printed this: 5.12E-4 instead of 0.000512 –  hamish Jul 8 at 11:21

Naw, never mind.

Performance loss due to String manipulation is zero.

And here's the code to trim the end after %f

private static String trimTrailingZeros(String number) {
    if(!number.contains(".")) {
        return number;
    }

    return number.replaceAll("\\.?0*$", "");
}
share|improve this answer
6  
I downvoted because your solution is not the best way to go. Have a look at String.format. You need to use the correct format type, float in this instance. Look at my above answer. –  jjnguy Apr 1 '09 at 2:28
3  
I voted up because I am having the same problem, and nobody here seems to understand the problem. –  Obay Jan 19 '11 at 10:38
1  
Downvoted as the DecimalFormat mentioned in Tom's post is exactly what you were looking for. It strips zeros quite effectively. –  Steve Pomeroy Apr 27 '11 at 7:15
2  
To the above, maybe he wants to trim the zeros WITHOUT rounding? P.S. @Pyrolistical, surely you can just use number.replaceAll(".?0*$", ""); (after contains(".") of course) –  Rehno Lindeque Oct 6 '11 at 10:49
1  
Ok, then how would you be able to achieve my objective with the DecimalFormat? –  Pyrolistical Jan 18 '12 at 6:59

I made a DoubleFormatter to efficiently convert a great numbers of double values to a nice/presentable String:

double horribleNumber = 3598945.141658554548844; 
DoubleFormatter df = new DoubleFormatter(4,6); //4 = MaxInteger, 6 = MaxDecimal
String beautyDisplay = df.format(horribleNumber);
  • If the integer part of V has more than MaxInteger => display V in scientist format (1.2345e+30) otherwise display in normal format 124.45678.
  • the MaxDecimal decide numbers of decimal digits (trim with banker's rounding)

Here the code:

import java.math.RoundingMode;
import java.text.DecimalFormat;
import java.text.DecimalFormatSymbols;
import java.text.NumberFormat;
import java.util.Locale;

import com.google.common.base.Preconditions;
import com.google.common.base.Strings;

/**
 * Convert a double to a beautiful String (US-local):
 * 
 * double horribleNumber = 3598945.141658554548844; 
 * DoubleFormatter df = new DoubleFormatter(4,6);
 * String beautyDisplay = df.format(horribleNumber);
 * String beautyLabel = df.formatHtml(horribleNumber);
 * 
 * Manipulate 3 instances of NumberFormat to efficiently format a great number of double values.
 * (avoid to create an object NumberFormat each call of format()).
 * 
 * 3 instances of NumberFormat will be reused to format a value v:
 * 
 * if v < EXP_DOWN, uses nfBelow
 * if EXP_DOWN <= v <= EXP_UP, uses nfNormal
 * if EXP_UP < v, uses nfAbove
 * 
 * nfBelow, nfNormal and nfAbove will be generated base on the precision_ parameter.
 * 
 * @author: DUONG Phu-Hiep
 */
public class DoubleFormatter
{
    private static final double EXP_DOWN = 1.e-3;
    private double EXP_UP; // always = 10^maxInteger
    private int maxInteger_;
    private int maxFraction_;
    private NumberFormat nfBelow_; 
    private NumberFormat nfNormal_;
    private NumberFormat nfAbove_;

    private enum NumberFormatKind {Below, Normal, Above}

    public DoubleFormatter(int maxInteger, int maxFraction)
    {
        setPrecision(maxInteger, maxFraction);
    }

    public void setPrecision(int maxInteger, int maxFraction)
    {
        Preconditions.checkArgument(maxFraction>=0);
        Preconditions.checkArgument(maxInteger>0 && maxInteger<17);

        if (maxFraction == maxFraction_ && maxInteger_ == maxInteger) {
            return;
        }

        maxFraction_ = maxFraction;
        maxInteger_ = maxInteger;
        EXP_UP =  Math.pow(10, maxInteger);
        nfBelow_ = createNumberFormat(NumberFormatKind.Below);
        nfNormal_ = createNumberFormat(NumberFormatKind.Normal);
        nfAbove_ = createNumberFormat(NumberFormatKind.Above);
    }

    private NumberFormat createNumberFormat(NumberFormatKind kind) {
        final String sharpByPrecision = Strings.repeat("#", maxFraction_); //if you do not use Guava library, replace with createSharp(precision);
        NumberFormat f = NumberFormat.getInstance(Locale.US);

        //Apply banker's rounding:  this is the rounding mode that statistically minimizes cumulative error when applied repeatedly over a sequence of calculations
        f.setRoundingMode(RoundingMode.HALF_EVEN);

        if (f instanceof DecimalFormat) {
            DecimalFormat df = (DecimalFormat) f;
            DecimalFormatSymbols dfs = df.getDecimalFormatSymbols();

            //set group separator to space instead of comma

            //dfs.setGroupingSeparator(' ');

            //set Exponent symbol to minus 'e' instead of 'E'
            if (kind == NumberFormatKind.Above) {
                dfs.setExponentSeparator("e+"); //force to display the positive sign in the exponent part
            }
            else {
                dfs.setExponentSeparator("e");
            }

            df.setDecimalFormatSymbols(dfs);

            //use exponent format if v is out side of [EXP_DOWN,EXP_UP]

            if (kind == NumberFormatKind.Normal) {
                if (maxFraction_ == 0) {
                    df.applyPattern("#,##0");
                }
                else {
                    df.applyPattern("#,##0."+sharpByPrecision);
                }
            }
            else {
                if (maxFraction_ == 0) {
                    df.applyPattern("0E0");
                }
                else {
                    df.applyPattern("0."+sharpByPrecision+"E0");
                }
            }
        }

        return f;
    } 

    public String format(double v) {
        if (Double.isNaN(v)) {
            return "-";
        }
        if (v==0) {
            return "0"; 
        }
        final double absv = Math.abs(v);

        if (absv<EXP_DOWN) {
            return nfBelow_.format(v);
        }

        if (absv>EXP_UP) {
            return nfAbove_.format(v);
        }

        return nfNormal_.format(v);
    }

    /**
     * format and higlight the important part (integer part & exponent part) 
     */
    public String formatHtml(double v) {
        if (Double.isNaN(v)) {
            return "-";
        }
        return htmlize(format(v));
    }

    /**
     * This is the base alogrithm: create a instance of NumberFormat for the value, then format it. It should
     * not be used to format a great numbers of value 
     * 
     * We will never use this methode, it is here only to understanding the Algo principal:
     * 
     * format v to string. precision_ is numbers of digits after decimal. 
     * if EXP_DOWN <= abs(v) <= EXP_UP, display the normal format: 124.45678
     * otherwise display scientist format with: 1.2345e+30 
     * 
     * pre-condition: precision >= 1
     */
    @Deprecated
    public String formatInefficient(double v) {

        final String sharpByPrecision = Strings.repeat("#", maxFraction_); //if you do not use Guava library, replace with createSharp(precision);

        final double absv = Math.abs(v);

        NumberFormat f = NumberFormat.getInstance(Locale.US);

        //Apply banker's rounding:  this is the rounding mode that statistically minimizes cumulative error when applied repeatedly over a sequence of calculations
        f.setRoundingMode(RoundingMode.HALF_EVEN);

        if (f instanceof DecimalFormat) {
            DecimalFormat df = (DecimalFormat) f;
            DecimalFormatSymbols dfs = df.getDecimalFormatSymbols();

            //set group separator to space instead of comma

            dfs.setGroupingSeparator(' ');

            //set Exponent symbol to minus 'e' instead of 'E'

            if (absv>EXP_UP) {
                dfs.setExponentSeparator("e+"); //force to display the positive sign in the exponent part
            }
            else {
                dfs.setExponentSeparator("e");
            }
            df.setDecimalFormatSymbols(dfs);

            //use exponent format if v is out side of [EXP_DOWN,EXP_UP]

            if (absv<EXP_DOWN || absv>EXP_UP) {
                df.applyPattern("0."+sharpByPrecision+"E0");
            }
            else {
                df.applyPattern("#,##0."+sharpByPrecision);
            }
        }

        return f.format(v);
    }

    /**
     * Convert "3.1416e+12" to "<b>3</b>.1416e<b>+12</b>"
     * It is a html format of a number which highlight the integer and exponent part
     */
    private static String htmlize(String s)
    {
        StringBuilder resu = new StringBuilder("<b>");
        int p1 = s.indexOf('.');

        if (p1>0) {
            resu.append(s.substring(0, p1));
            resu.append("</b>");
        }
        else {
            p1 = 0;
        }

        int p2 = s.lastIndexOf('e');
        if (p2>0)
        {
            resu.append(s.substring(p1, p2));
            resu.append("<b>");
            resu.append(s.substring(p2, s.length()));
            resu.append("</b>");
        }
        else
        {
            resu.append(s.substring(p1, s.length()));
            if (p1==0)
            {
                resu.append("</b>");
            }
        }

        return resu.toString();
    }
}

Note: I used 2 functions from GUAVA library. If you don't use GUAVA, code it yourself:

/**
 * Equivalent to Strings.repeat("#", n) of the Guava library: 
 */
private static String createSharp(int n) {
    StringBuilder sb = new StringBuilder(); 
    for (int i=0;i<n;i++) {
        sb.append('#');
    }
    return sb.toString();
}
share|improve this answer
    
If you know the precision, then use a BigDecimal. See docs.oracle.com/javase/1.5.0/docs/api/java/math/… –  Pyrolistical Dec 10 '12 at 19:28
String s = String.valueof("your int variable");
while (g.endsWith("0") && g.contains(".")) {
    g = g.substring(0, g.length() - 1);
    if (g.endsWith("."))
    {
        g = g.substring(0, g.length() - 1);
    }
}
share|improve this answer
    
you should instead just search for the first non-zero-digit from the right and then use the subString ( and also verify that the string contains "." of course). this way, you won't come into creating so many temporary strings on the way. –  android developer May 18 '13 at 22:25

here are 2 ways to achieve it:

the short (and probably better) way:

public static String formatFloatToString(final float f)
  {
  final int i=(int)f;
  if(f==i)
    return Integer.toString(i);
  return Float.toString(f);
  }

the long and probably worse way:

public static String formatFloatToString(final float f)
  {
  final String s=Float.toString(f);
  int dotPos=-1;
  for(int i=0;i<s.length();++i)
    if(s.charAt(i)=='.')
      {
      dotPos=i;
      break;
      }
  if(dotPos==-1)
    return s;
  int end=dotPos;
  for(int i=dotPos+1;i<s.length();++i)
    {
    final char c=s.charAt(i);
    if(c!='0')
      end=i+1;
    }
  final String result=s.substring(0,end);
  return result;
  }
share|improve this answer
    
formatFloatToString can be vastly simplified with docs.oracle.com/javase/6/docs/api/java/lang/… and docs.oracle.com/javase/6/docs/api/java/lang/…, int) –  Pyrolistical May 21 '13 at 18:51
    
sometimes, when you make things more simple, the code behind is more complex and less optimized... but yes, you can use plenty of built in API functions... –  android developer May 21 '13 at 22:16
    
You should start with simple and once you have determined you have a performance problem, then and only then should you optimize. Code is for the human to read again and again. Making it run fast is secondary. By not using the standard API whenever possible you are more likely to introduce bugs and only makes it more difficult to change in the future. –  Pyrolistical May 21 '13 at 23:02
    
I disagree. Base code should run as fast as possible, as many others might use it. Performance is a huge concern and this is something people are taught about a lot at the university. You can't predict how much you function will be used. Only the most higher functions can be exactly as you say. As an example, think what would a delay of 1 second be for each time you use internet connection. would you agree to those who made the class if they told you that their code is slow because it's a simple code? –  android developer May 22 '13 at 5:18
2  
I would argue code you write like that is NOT going to be any faster. The JVM is very smart and you don't actually know how fast or slow something is until you profile it. Performance problems can be detected and fixed when it becomes a problem. You should not prematurely optimize for it. Write code for people to read, not for how you imagine the machine is going to run it. Once it becomes a performance problem, rewrite code with a profiler. –  Pyrolistical May 22 '13 at 17:41

In short:

If you want to get rid of trailing zeros and Locale problems, then you should use :

double myValue = 0.00000021d;

DecimalFormat df = new DecimalFormat("#.", DecimalFormatSymbols.getInstance(Locale.ENGLISH));
df.setMaximumFractionDigits(340); //340 = DecimalFormat.DOUBLE_FRACTION_DIGITS

System.out.println(df.format(myValue)); //output: 0.00000021

Explanation:

Why other answers did not suit me :

  • Double.toString() or System.out.println or FloatingDecimal.toJavaFormatString uses scientific notations if double is less than 10^-3 or greater than or equal to 10^7

    double myValue = 0.00000021d;
    String.format("%s", myvalue); //output: 2.1E-7
    
  • by using %f, the default decimal precision is 6, otherwise you can hardcode it but it results in extra zeros added if you have less decimals. Example :

    double myValue = 0.00000021d;
    String.format("%.12f", myvalue); //output: 0.000000210000
    
  • by using setMaximumFractionDigits(0); or %.0f you remove any decimal precision, which is fine for integers/longs but not for double

    double myValue = 0.00000021d;
    System.out.println(String.format("%.0f", myvalue)); //output: 0
    DecimalFormat df = new DecimalFormat("#");
    System.out.println(df.format(myValue)); //output: 0
    
  • by using DecimalFormat, you are local dependent. In French locale, the decimal separator is a comma, not a point :

    double myValue = 0.00000021d;
    DecimalFormat df = new DecimalFormat("#.");
    df.setMaximumFractionDigits(340);
    System.out.println(df.format(myvalue));//output: 0,00000021
    

    Using the ENGLISH locale makes sure you get a point for decimal separator, wherever your program will run

Why using 340 then for setMaximumFractionDigits ?

Two reasons :

  • setMaximumFractionDigits accepts an integer but its implementation has a maximum digits allowed of DecimalFormat.DOUBLE_FRACTION_DIGITS which equals 340
  • Double.MIN_VALUE = 4.9E-324 so with 340 digits you are sure not to round your double and loose precision
share|improve this answer

Here is an answer that actually works (combination of different answers here)

public static String removeTrailingZeros(double f)
{
    if(f == (int)f) {
        return String.format("%d", (int)f);
    }
    return String.format("%f", f).replaceAll("0*$", "");
}
share|improve this answer
1  
you did not replace the POINT, for example, "100.0" will be convert to "100." –  VinceStyling Nov 15 '13 at 3:05
    
if(f == (int)f) takes care of that. –  Martin Klosi Dec 3 '13 at 2:38
1  
Fails on f = 9999999999.00 –  David Wallace Jan 4 at 23:10

On my machine, the following function is roughly 7 times faster than the function provided by JasonD's answer, since it avoids String.format:

public static String prettyPrint(double d) {
  int i = (int) d;
  return d == i ? String.valueOf(i) : String.valueOf(d);
}
share|improve this answer

I know this is a really old thread.. But I think the best way to do this is as below:

public class Test {

    public static void main(String args[]){
        System.out.println(String.format("%s something",new Double(3.456)));
        System.out.println(String.format("%s something",new Double(3.456234523452)));
        System.out.println(String.format("%s something",new Double(3.45)));
        System.out.println(String.format("%s something",new Double(3)));
    }
}

Output:

3.456 something
3.456234523452 something
3.45 something
3.0 something

The only issue is the last one where .0 doesn't get removed. But if you are able to live with that then this works best. %.2f will round it to the last 2 decimal digits. So will DecimalFormat. If you need all the decimal places but not the trailing zeros then this works best.

share|improve this answer
2  
DecimalFormat with format of "#.##" will not keep extra 0 if they are not needed: System.out.println(new java.text.DecimalFormat("#.##").format(1.0005)); will print 1 –  Aleks G May 9 '12 at 9:19
    
thats my point. What if you want the 0.0005 displayed if there is any. You will be rounding it 2 decimal digits. –  sethu May 9 '12 at 11:33
    
The OP is asking how to print integer values stored in doubles :) –  Aleks G May 9 '12 at 11:35
    
oh yeah :) just saw that.. I was thinking of my own problem.. Sorry about that.. –  sethu May 9 '12 at 11:40
    
It formats "0.00028571" in scientific notation. –  Timuçin Feb 18 at 17:08
String s = "1.210000";
while (s.endsWith("0")){
    s = (s.substring(0, s.length() - 1));
}

This will make the string to drop the tailing 0-s.

share|improve this answer
1  
This is a good solution to the question, if they were only interested in trailing zeroes being dropped, how would you change your code to also trim a trailing decimal point? i.e. "1." –  bakoyaro Oct 26 '11 at 16:32
19  
Be careful, your solution will convert 1000 into 1, which is wrong. –  Aleks G May 9 '12 at 9:16

protected by Gilbert Le Blanc Feb 15 '13 at 17:18

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