# Why does Math.round(0.49999999999999994) return 1

In the following program you can see that for each value slightly less that .5 is rounded down, except for 0.5.

for (int i = 10; i >= 0; i--) {
long l = Double.doubleToLongBits(i + 0.5);
double x;
do {
x = Double.longBitsToDouble(l);
System.out.println(x + " rounded is " + Math.round(x));
l--;
} while (Math.round(x) > i);
}

prints

10.5 rounded is 11
10.499999999999998 rounded is 10
9.5 rounded is 10
9.499999999999998 rounded is 9
8.5 rounded is 9
8.499999999999998 rounded is 8
7.5 rounded is 8
7.499999999999999 rounded is 7
6.5 rounded is 7
6.499999999999999 rounded is 6
5.5 rounded is 6
5.499999999999999 rounded is 5
4.5 rounded is 5
4.499999999999999 rounded is 4
3.5 rounded is 4
3.4999999999999996 rounded is 3
2.5 rounded is 3
2.4999999999999996 rounded is 2
1.5 rounded is 2
1.4999999999999998 rounded is 1
0.5 rounded is 1
0.49999999999999994 rounded is 1
0.4999999999999999 rounded is 0

I am using Java 6 update 31.

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In my case the answer is 0 and not 1 and the last line it is not printing as it breaks the loop there. Here is my output ...... 8.499999999999998 rounded is 8 7.5 rounded is 8 7.499999999999999 rounded is 7 6.5 rounded is 7 6.499999999999999 rounded is 6 5.5 rounded is 6 5.499999999999999 rounded is 5 4.5 rounded is 5 4.499999999999999 rounded is 4 3.5 rounded is 4 3.4999999999999996 rounded is 3 2.5 rounded is 3 2.4999999999999996 rounded is 2 1.5 rounded is 2 1.4999999999999998 rounded is 1 0.5 rounded is 1 0.49999999999999994 rounded is 0 –  Chandra Sekhar Mar 28 '12 at 7:34
On java 1.7.0 it works ok i.imgur.com/hZeqx.png –  Coffee Mar 28 '12 at 7:44
@Adel: See my comment on Oli's answer, looks like Java 6 implements this (and documents that it does) in a way that can cause a further loss of precision by adding 0.5 to the number and then using floor; Java 7 no longer documents it that way (presumably/hopefully because they fixed it). –  T.J. Crowder Mar 28 '12 at 7:53
How you found that? Was a bug in your program? –  Rodrigo Mar 28 '12 at 14:44
It was a bug in a test program I wrote. ;) –  Peter Lawrey Mar 28 '12 at 17:32
show 1 more comment

According to the Java 6 docs, round(x) is implemented as floor(x+0.5).1 But 0.5+0.49999999999999994 is exactly 1 in double precision:

static void print(double d) {
System.out.printf("%016x\n", Double.doubleToLongBits(d));
}

public static void main(String args[]) {
double a = 0.5;
double b = 0.49999999999999994;

print(a);
print(b);
print(a+b);
print(1.0);
}

gives:

3fe0000000000000
3fdfffffffffffff
3ff0000000000000
3ff0000000000000

This is because 0.49999999999999994 has a smaller exponent than 0.5, so when they're added, its mantissa is shifted, and the ULP gets bigger.

1. At least, this is the definition given in the Java 6 docs. It's not given in the Java 7 docs, which may explain why people are seeing different behaviour when they run in Java 7. UPDATE: According to Simon Nickerson's answer, it's a known bug, so this almost certainly explains the difference in the docs and the observed behaviour between versions.

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I don't see that definition of round in the Javadoc for Math.round or in the overview of the Math class. –  T.J. Crowder Mar 28 '12 at 7:44
@T.J Crowder: It's definitely there in the SE6 docs. –  Oli Charlesworth Mar 28 '12 at 7:45
@ Oli: Oh now that's interesting, they took that bit out for Java 7 (the docs I linked to) -- maybe in order to avoid causing this sort of odd behavior by triggering a (further) loss of precision. –  T.J. Crowder Mar 28 '12 at 7:46
It's Oracle's attempt to insert subtle bugs into Java to discredit it, so they can release and license their own language develop pack, O++. –  Chloe Mar 29 '12 at 1:47
@MohammadFadin: Take a look at e.g. en.wikipedia.org/wiki/Single_precision and en.wikipedia.org/wiki/Unit_in_the_last_place. –  Oli Charlesworth Apr 2 '12 at 22:27

The answer hereafter is an excerpt of an oracle bug report at http://bugs.sun.com/bugdatabase/view_bug.do?bug_id=6430675. Visit the link for the full explanation.

The methods {Math, StrictMath.round are operationally defined as

(long)Math.floor(a + 0.5d)

for double arguments. While this definition usually works as expected, it gives the surprising result of 1, rather than 0, for 0x1.fffffffffffffp-2 (0.49999999999999994).

The value 0.49999999999999994 is the greatest floating-point value less than 0.5. As a hexadecimal floating-point literal its value is 0x1.fffffffffffffp-2, which is equal to (2 - 2^52) * 2^-2. == (0.5 - 2^54). Therefore, the exact value of the sum

(0.5 - 2^54) + 0.5

is 1 - 2^54. This is halfway between the two adjacent floating-point numbers (1 - 2^53) and 1. In the IEEE 754 arithmetic round to nearest even rounding mode used by Java, when a floating-point results is inexact, the closer of the two representable floating-point values which bracket the exact result must be returned; if both values are equally close, the one which its last bit zero is returned. In this case the correct return value from the add is 1, not the greatest value less than 1.

While the method is operating as defined, the behavior on this input is very surprising; the specification coudl be ameneded to something more like "Round to the closest long, rounding ties up," which would allow the behavior on this input to be changed.

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source code in JDK 6

public static long round(double a) {
return (long)Math.floor(a + 0.5d);
}

source code in JDK 7

public static long round(double a) {
if (a != 0x1.fffffffffffffp-2) {
// a is not the greatest double value less than 0.5
return (long)Math.floor(a + 0.5d);
} else {
return 0;
}
}

When the value is 0.49999999999999994d, in JDK 6, it will call floor and hence returns 1 but in JDK 7, the if condition is checking whether the number is greatest double value less than 0.5 or not. As in this case the number is not the greatest double value less than 0.5, so else block returns 0.

You can try 0.49999999999999999d, which will return 1 but not 0, because this is the greatest double value less than 0.5.

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what happens with 1.499999999999999994 here then? returns 2 ? it should return 1, but this should get you the same error as earlier, but with a 1. ? –  SecretService Mar 28 '12 at 13:53
1.499999999999999994 cannot be represented in double-precision floating-point. 1.4999999999999998 is the smallest double less than 1.5. As you can see from the question, the floor method rounds it correctly. –  OrangeDog Mar 29 '12 at 11:12
The key is that the doubles are not uniformly-distributed. –  OrangeDog Mar 29 '12 at 20:10

This appears to be a known bug (Java bug 6430675: Math.round has surprising behavior for 0x1.fffffffffffffp-2) which has been fixed in Java 7.

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+1: Nice find! Ties in with the differences in documentation between Java 6 and 7 as explained in my answer. –  Oli Charlesworth Mar 28 '12 at 7:56

I've got the same on jdk 1.6 32bit, but on java 7 64bit I've go 0 for 0.49999999999999994 rounded is 0 and the last line is not printed. It seems to be VM issue, however, using floating points, you should expect the results to differ a bit on various environments (CPU, 33- or 64-bit mode)

And, when using round or inverting matrixes or etc., this bits can make a huge difference.

x64 output:

10.5 rounded is 11
10.499999999999998 rounded is 10
9.5 rounded is 10
9.499999999999998 rounded is 9
8.5 rounded is 9
8.499999999999998 rounded is 8
7.5 rounded is 8
7.499999999999999 rounded is 7
6.5 rounded is 7
6.499999999999999 rounded is 6
5.5 rounded is 6
5.499999999999999 rounded is 5
4.5 rounded is 5
4.499999999999999 rounded is 4
3.5 rounded is 4
3.4999999999999996 rounded is 3
2.5 rounded is 3
2.4999999999999996 rounded is 2
1.5 rounded is 2
1.4999999999999998 rounded is 1
0.5 rounded is 1
0.49999999999999994 rounded is 0
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