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Java floats and doubles, how to avoid that 0.0 + 0.1 + … + 0.1 == 0.9000001?

How can I overcome the precision issue with double multiplication in java android??Please note that I am converting a string value into double value.

eg: when I multiply two double value:

double d1 = Double.valueOf("0.3").doubleValue() * Double.valueOf("3").doubleValue();
System.out.println("Result of multiplication : "+d1);

I am getting the following result : 0.8999999999999999

Some of the results that i am getting are.

0.6*3=1.7999999999999998;
0.2*0.2=0.04000000000000001;
etc.

Instead of the above results I would like to get the following results.

0.3*3=0.9;
0.6*3=1.8;
0.2*0.2=0.04;

Please remember that I am not trying to round it to the nearest integer.

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marked as duplicate by Mankarse, Carlos Heuberger, Prince John Wesley, jpalecek, ChrisF Nov 12 '11 at 21:47

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

    
have you tried DecimalFormat? Example: (new DecimalFormat("0.00").format(doubleValue*1.00000)); –  Neigyl R. Noval Nov 12 '11 at 10:55

3 Answers 3

up vote 9 down vote accepted

You should really be using java.math.BigDecimal to avoid any precision issues, and always use a BigDecimal(String) constructor.

BigDecimal result = new BigDecimal("0.3").multiply( new BigDecimal("3.0") );
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I don't think it's accurate to say using BigDecimal will avoid any precision issues. At the end of day we have to make some sacrifices to represent as large a possible range of numbers in a finite amount of memory. –  Adrian Mouat Nov 12 '11 at 11:29
1  
@AdrianMouat, I am pretty sure if you use BigDecimal the way I specified (constructing it using BigDecimal(String) constructor), you will avoid any precision issues without sacrifices. –  Strelok Nov 12 '11 at 11:37
1  
In the given examples, sure. There still have to be limits however. –  Adrian Mouat Nov 12 '11 at 12:25
2  
@AdrianMouat the only limit is available memory. BigDecimal doesn't use floating point so it doesn't have this problem the way a double does. –  EJP Nov 12 '11 at 14:21
    
@EJP, that doesn't contradict what I said. It seems BigDecimal throws exceptions when you're number can't be represented in decimal (e.g. 1/3). So you are sacrificing flexibility for precision here I suppose. –  Adrian Mouat Nov 13 '11 at 11:52

Unfortunately, I am not aware of a simple way of doing exactly what you ask for.

Like Strelok says, you should not be using a floating-point type if you need exact results. However, for most purposes, it is enough to just specify a rounding precision for output. The following code is close to, but not quite, what you want:

System.out.printf("Result of multiplication : %.1g\n", d1);

For more info on the syntax of printf, see the java.util.Formatter documentation.

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The problem isn't with multiplication. It starts with Double.valueOf("0.3"). That value can't be represented exactly in floating-point. You should use java.math.BigDecimal, and you should also Google for a page entitled "What every computer scientist should know about floating point".

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1  
@downvoter You are kidding. Kindly explain how 0.3 can be represented exactly in floating-point. –  EJP May 13 at 21:57

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