The behaviour you point out is indeed, counter-intuitive. However, this behaviour is the one specified by the javadoc for Math.abs(int)
:
If the argument is not negative, the argument is returned.
If the argument is negative, the negation of the argument is returned.
That is, Math.abs(int)
should behave like the following Java code:
public static int abs(int x){
if (x >= 0) {
return x;
}
return -x;
}
That is, in the negative case, -x
.
According to the JLS section 15.15.4, the -x
is equal to (~x)+1
, where ~
is the bitwise complement operator.
To check whether this sounds right, let's take -1 as example.
The integer value -1
is can be noted as 0xFFFFFFFF
in hexadecimal in Java (check this out with a println
or any other method). Taking -(-1)
thus gives:
-(-1) = (~(0xFFFFFFFF)) + 1 = 0x00000000 + 1 = 0x00000001 = 1
So, it works.
Let us try now with Integer.MIN_VALUE
. Knowing that the lowest integer can be represented by 0x80000000
, that is, the first bit set to 1 and the 31 remaining bits set to 0, we have:
-(Integer.MIN_VALUE) = (~(0x80000000)) + 1 = 0x7FFFFFFF + 1
= 0x80000000 = Integer.MIN_VALUE
And this is why Math.abs(Integer.MIN_VALUE)
returns Integer.MIN_VALUE
. Also note that 0x7FFFFFFF
is Integer.MAX_VALUE
.
That said, how can we avoid problems due to this counter-intuitive return value in the future?
We could, as pointed out by @Bombe, cast our int
s to long
before. We, however, must either
- cast them back into
int
s, which does not work because
Integer.MIN_VALUE == (int) Math.abs((long)Integer.MIN_VALUE)
.
- Or continue with
long
s somehow hoping that we'll never call Math.abs(long)
with a value equal to Long.MIN_VALUE
, since we also have Math.abs(Long.MIN_VALUE) == Long.MIN_VALUE
.
We can use BigInteger
s everywhere, because BigInteger.abs()
does indeed always return a positive value. This is a good alternative, tough a bit slower than manipulating raw integer types.
We can write our own wrapper for Math.abs(int)
, like this:
/**
* Fail-fast wrapper for {@link Math#abs(int)}
* @param x
* @return the absolute value of x
* @throws ArithmeticException when a negative value would have been returned by {@link Math#abs(int)}
*/
public static int abs(int x) throws ArithmeticException {
if (x == Integer.MIN_VALUE) {
// fail instead of returning Integer.MAX_VALUE
// to prevent the occurrence of incorrect results in later computations
throw new ArithmeticException("Math.abs(Integer.MIN_VALUE)");
}
return Math.abs(x);
}
- Use a integer bitwise AND to clear the high bit, ensuring that the result is non-negative:
int positive = value & Integer.MAX_VALUE
(essentially overflowing from Integer.MAX_VALUE
to 0
instead of Integer.MIN_VALUE
)
As a final note, this problem seems to be known for some time. See for example this entry about the corresponding findbugs rule.