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I need to extract the decimal part of a float number, but I get weird results:

float n = 22.65f;
// I want x = 0.65f, but...

x = n % 1; // x = 0.6499996

x = n - Math.floor(n); // x = 0.6499996185302734

x = n - (int)n; // x = 0.6499996

Why does this happen? Why do I get those values instead of 0.65?

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up vote 31 down vote accepted

float only has a few digit of precision so you should expect to see a round error fairly easily. try double this has more accuracy but still has rounding errors. You have to round any answer you get to have a sane output.

If this is not desireable you can use BigDecimal which does not have rounding errors, but has its own headaches IMHO.

EDIT: You may find this interesting. The default Float.toString() uses minimal rounding, but often its not enough.

System.out.println("With no rounding");
float n = 22.65f;
System.out.println("n= "+new BigDecimal(n));
float expected = 0.65f;
System.out.println("expected= "+new BigDecimal(expected));

System.out.println("n % 1= "+new BigDecimal(n % 1));
System.out.println("n - Math.floor(n) = "+new BigDecimal(n - Math.floor(n)));
System.out.println("n - (int)n= "+new BigDecimal(n - (int)n));

System.out.println("With rounding");
System.out.printf("n %% 1= %.2f%n", n % 1);
System.out.printf("n - Math.floor(n) = %.2f%n", n - Math.floor(n));
System.out.printf("n - (int)n= %.2f%n", n - (int)n);


With no rounding
n= 22.6499996185302734375
expected= 0.64999997615814208984375
n % 1= 0.6499996185302734375
n - Math.floor(n) = 0.6499996185302734375
n - (int)n= 0.6499996185302734375
With rounding
n % 1= 0.65
n - Math.floor(n) = 0.65
n - (int)n= 0.65
share|improve this answer
+1 Great stuff @Peter, thanks. Any idea if you are guaranteed that n - Math.floor(n) < 1.0? Any chance, because of floating point weirdness, that 1.99999999999... would give a >= 1? – Gray May 3 '13 at 19:09
@Gray You should only get weirdness if 1.9999999999999999999 is actually represented as 2. If you subtract the integer part of a floating point from a floating point, it shouldn't cause it to round up. It could expose the underlying representation error. By removing the integer part you are giving the result more precision than it needs to represent the value. Can you give an example of a value which gives weirdness? – Peter Lawrey May 4 '13 at 5:11
No, I can't @Peter. I was just writing some defensive code. I do so little with floating point numbers (luckily) and I was just wondering. Your explanation makes sense. Thanks. – Gray May 4 '13 at 13:14

I think this would be the most simple way :

float n = 22.65f;
float x = n - (int) n;
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This will give rounding errors try: float a = 22.3f; a - (int)(a) Result will be 0.29999924 instead of 0.3 – Bunny Jun 15 at 9:50

Because not all rational numbers can be represented as a floating point number and 0.6499996... is the closest approximation for 0.65.

E.g., try printing first 20 digits of the number 0.65:

 System.out.printf("%.20f\n", 0.65f);



Rounding errors, which accumulate during computations, also play a part in it, as others noted.

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I bit long but works:

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If you just want to print the number to 2dp you can use DecimalFormat.

DecimalFormat df= new DecimalFormat("#.##");

If you want fixed point numbers internally use BigDecimal

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Here is a good page that discusses Floating Points in Java.

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Short answer: You can't represent some numbers exactly in binary that are "exact" in decimal.

Long answer: http://www-users.math.umd.edu/~jkolesar/mait613/floating_point_math.pdf


Also an interesting read: http://www.cs.berkeley.edu/~wkahan/JAVAhurt.pdf

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Nice paper, thanks. – Cristian Feb 16 '11 at 13:51
Added another interesting one :) – Landei Feb 16 '11 at 13:56

Try this. If timer is 10.65 then h ends up as the first two decimal places * 100 = 65;

This is a quick and easy way to separate what you want without the rounding issues.

float h = (int)((timer % 1) * 100);
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Try java.math.BigDecimal.

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