# java double calculation

I understand that computer can not represent non-integral numbers precisely. so when I add 2 doubles in java for example:

``````724.64d + 1000d
``````

the console print out 1724.6399999999999

but why for `724.64d + 100d` and `724.64d + 10000d`

the console print out 824.64 and 10724.64 separately?

is there a way to know at what condition when I add the 2 doubles, the sum is the exact number ?

The reason why I ask is because that our old program use double to do calculation. and use double comparison to validate the numbers. for example: let us say the total is `1849.64`, all the inputs amounts added up must be equals to total which is `1849.64`

``````input 1: 724.64
input 2: 1125
``````

will not work, because the sum will be 1849.6399999999999

but if we input like this below will work, and the sum is 1849.64

``````input 1: 24.64
input 2: 1825
``````

so how to find those combinations that work? Note, I do not have access to this specific very old program. when the validation failed, we have to manually find a walk around like the second inputs combination. Thanks.

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You will have to accept certain amount of error here I think. –  Zavior Oct 26 '12 at 20:30
if you wish to know for which numbers there's exact representation in Java, you will have to understand Java Language Spec, item 4.5.3 which points to IEEE 754. Lots of concrete undergrad math there. But it makes little sense, unless you going to develop your own programming language. –  Victor Sorokin Oct 26 '12 at 20:37
I am trying to figure out a quick way to manually change the inputs combination for our customers to pass the validation. I do not have access to change the code to the old program. –  huahua Oct 26 '12 at 20:45
@huahua You need to choose numbers whose mantissas in IEEE 754 representation have lots of trailing zeroes. Reasonably small integers such as 100d and 1000d are such numbers. 724.64d isn't but 724.5d and 724.75d and 724.625d are. –  Pascal Cuoq Oct 26 '12 at 21:17
@PascalCuoq In fact, all integers up to 2^54 are exactly representable in a `double`. –  Marko Topolnik Oct 27 '12 at 6:44

Floating-point numbers don't represent numbers in the decimal, but in binary system and obviously they are of only finite precision, so there is a mismatch between the exact values a decimal system represents and those a floating-point number can represent. You must not expect it to do so.

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I know some number can not be represented exactly by binary just like some number can not be represented by decimal exactly such as π . The only choice I have right now is to guess what other combination to pass the validation. I am wondering is there a guild line to do such guess? sometimes we got customer call, they complain about such validation failure stuff, we just need to tell them to try to input this number and that number instead. –  huahua Oct 28 '12 at 20:15
Go to this page where they have a Java applet to set each individual bit in a `double`. All numbers that have zeros in the right part of the mantissa will be easier to represent in decimal form. Play around with it a bit to see how it works. –  Marko Topolnik Oct 28 '12 at 20:39
good reference. Thanks –  huahua Oct 29 '12 at 12:48
``````BigDecimal bigDecimal = new BigDecimal(724.64);
System.out.println(bigDecimal.floatValue());<--Works fine
System.out.println(bigDecimal.doubleValue());<--Works as mentioned in Question
``````

Output:

``````1724.64
1724.6399999999999
``````

In the first case it works because of `narrowing primitive conversion` happens. But with Floating-Point numbers you will have to accept and live with it.

As I stated the reason it is valid for primitives

``````double d = 724.64;
double d1 = 1000.0;
System.out.println(d + d1);
System.out.println((float) (d + d1));
``````

Output:

``````1724.64
1724.6399999999999
``````
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thanks sorry forget to mention I do not have access to the code of the old program –  huahua Oct 26 '12 at 20:47
I think this line: System.out.println((float) (d + d1)); is narrowing primitive conversion. it convert double to float which narrows the precision. –  huahua Oct 28 '12 at 19:54

To answer your final question, a double is exact if the fractional part is a negative power of two, for example zero, 1/2, 1/4, 1/16, ..., It will appear to be exact in some other cases, like the ones you posted, if the API you use to convert them to decimal (for example System.out.println()) does rounding or truncation and the value is close enough that the rounding or truncation yields the expected answer.

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so how to locate some other combination quickly to make the sum is 1849.64. such as: input 1: 24.64 input 2: 1825 . or we can only do a random guess? –  huahua Oct 28 '12 at 20:04

Rather than try to determine what conditions result in exact or inexact calculations consider using BigDecimal for these situations.

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it is production support stuff, I can not change the code. –  huahua Oct 28 '12 at 20:16

If comparison is the issue, as a workaround, I would advice to format the numbers in string with 2 decimal places and rounding done and then compare the strings:

``````        double expectNum = 1849.64;
double resultNum = 1849.639999;

String expectedString = String.format("%.2g%n", expectNum);
String resultString = String.format("%.2g%n", resultNum);

if(expectedString.equals(resultString)){
//result matched
//return true;
}else{
//return false;
}
``````
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Doesn't answer the question. –  EJP Oct 26 '12 at 20:59
@EJP: I mentioned in the beginning itself. Its work around solution for comparison. –  Yogendra Singh Oct 26 '12 at 21:05
He doesn't have control of the source code. He is looking for test data that will work with the existing comparison. Not an answer. –  EJP Oct 26 '12 at 22:07
my question is not to fix the program, but find a way to give customer a walk around to pass the validation. –  huahua Oct 28 '12 at 20:17