# Double subtraction precision issue

My coworker did this experiment:

``````public class DoubleDemo {

public static void main(String[] args) {
double a = 1.435;
double b = 1.43;
double c = a - b;
System.out.println(c);
}
}
``````

For this first-grade operation I expected this output:

``````0.005
``````

But unexpectedly the output was:

``````0.0050000000000001155
``````

Why does double fails in such a simple operation? And if double is not the datatype for this work, what should I use?

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Thanks for sharing your experiment. +1 – kasavbere Mar 28 '12 at 15:46
I'm sure this is a duplicate – Steve Kuo Mar 28 '12 at 15:47
possible duplicate of Retain precision with Doubles in java – Péter Török Mar 28 '12 at 15:49

`double` is internally stored as a fraction in binary -- like `1/4 + 1/8 + 1/16 + ...`

The value `0.005` -- or the value `1.435` -- cannot be stored as an exact fraction in binary, so `double` cannot store the exact value `0.005`, and the subtracted value isn't quite exact.

If you care about precise decimal arithmetic, use `BigDecimal`.

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+1 Use BigDecimal or round your result. – Peter Lawrey Mar 28 '12 at 17:59

`double` and `float` arithmetic are never going to be exactly correct because of the rounding that occurs "under the hood".

Essentially doubles and floats can have an infinite amount of decimals but in memory they must be represented by some real number of bits. So when you do this decimal arithmetic a rounding procedure occurs and is often off by a very small amount if you take all of the decimals into account.

As suggested earlier, if you need completely exact values then use `BigDecimal` which stores its values differently. Here's the API

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It's not accurate to say they'll "never" be exactly correct. It would be correct to say that they will never be exactly correct when representing anything other than fractions whose denominator is not a power of two. – supercat Feb 15 '15 at 17:36

double and float are not exactly real numbers.

There are infinite number of real numbers in any range, but only finite number of bits to represent them! for this reason, rounding errors is expected for double and floats.

The number you get is the closest number possible that can be represented by double in floating point representation.

You might want to use `BigDecimal` to get exactly a decimal number [but you will again encounter rounding errors when you try to get `1/3`].

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`````` //just try to make a quick example to make b to have the same precision as a has, by using BigDecimal

private double getDesiredPrecision(Double a, Double b){
String[] splitter = a.toString().split("\\.");
splitter[0].length();   // Before Decimal Count
int numDecimals = splitter[1].length(); //After Decimal Count

BigDecimal bBigDecimal = new BigDecimal(b);
bBigDecimal = bBigDecimal.setScale(numDecimals,BigDecimal.ROUND_HALF_EVEN);

return bBigDecimal.doubleValue();
}
``````
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That does not answer the question. – Baum mit Augen Aug 15 '14 at 14:08
well, you are right. Just try to make some small example on BigDecimal. There are already people answering the question. No need to be repetitive. – madmaximshen Aug 15 '14 at 15:21
On SO, answers are for providing a complete, self contained answer. If you feel something is missing in another answer, leave a comment once you have enough reputation. If you think you can write a better complete answer, do that. Do not post "half-answers" like this one. – Baum mit Augen Aug 15 '14 at 15:27
gotcha, thx, new to posting stuffs here – madmaximshen Aug 15 '14 at 15:39
this is not good because its just setting values its not working for negative values subtraction – Chandu D Dec 16 '15 at 5:50