# Math.abs returns wrong value for Integer.Min_VALUE

This code:

``````System.out.println(Math.abs(Integer.MIN_VALUE));
``````

Returns `-2147483648`

Should it not return the absolute value as `2147483648` ?

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`Integer.MIN_VALUE` is `-2147483648`, but the highest value a 32 bit integer can contain is `+2147483647`. Attempting to represent `+2147483648` in a 32 bit int will effectively "roll over" to `-2147483648`. This is because, when using signed integers, the two's complement binary representations of `+2147483648` and `-2147483648` are identical. This is not a problem, however, as `+2147483648` is considered out of range.

For a little more reading on this matter, you might want to check out the Wikipedia article on Two's complement.

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Well, not a problem is underestimating the impact, it could very well mean problems. Personally I would rather have an exception or a number system that grows dynamically in a higher level language. – Maarten Bodewes Dec 19 '12 at 23:47

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.

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Here is what Java doc says for Math.abs() in javadoc:

Note that if the argument is equal to the value of Integer.MIN_VALUE, the most negative representable int value, the result is that same value, which is negative.

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To see the result that you are expecting, cast `Integer.MIN_VALUE` to `long`:

``````System.out.println(Math.abs((long) Integer.MIN_VALUE));
``````
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A possible fix, indeed! However, this does not solve the fact that `Math.abs` is being counterintuitive by returning a negative number: `Math.abs(Long.MIN_VALUE) == Long.MIN_VALUE` – bernard paulus Jun 17 '13 at 9:38
@bernardpaulus, well, what is it supposed to do, besides throwing an `ArithmeticException`? Also, the behaviour is clearly documented in the API documentation. – Bombe Jun 21 '13 at 8:39
there is no good answer to your question... I just wanted to point out that this behaviour, which is a source of bugs, is not fixed by the use of `Math.abs(long)`. I apologise for my mistake here: I tought that you proposed the use of `Math.abs(long)` as a fix, when you showed it as a simple way to "see the result the asker is expecting". Sorry. – bernard paulus Jun 22 '13 at 23:19

2147483648 cannot be stored in an integer in java, its binary representation is the same as -2147483648.

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But `(int) 2147483648L == -2147483648` There is one negative number which has no positive equivalent so there is not positive value for it. You will see the same behaviour with Long.MAX_VALUE.

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