# Java Integer.MIN_VALUE's negative then compare yields two negatives

I have a test tomorrow and I can't understand my books explanation, I appreciate the help:

``````public class TestClass{
public static void main(String[] args) throws Exception{
int a = Integer.MIN_VALUE;
int b = -a;
System.out.println( a+ "   "+b);
}
}
``````

Output: `-2147483648 -2147483648`

Why does this print 2 negative numbers of the same magnitude and not a positive and negative?

Because of silent integer overflow: `Integer.MIN_VALUE` is `-2^31` and `Integer.MAX_VALUE` is `2^31-1`, so `-Integer.MIN_VALUE` is `2^31`, which is `Integer.MAX_VALUE + 1`, which by definition is too large for an integer. So it overflows and becomes `Integer.MIN_VALUE`...

You can also check that:

``````System.out.println(Integer.MAX_VALUE + 1);
``````

prints the same thing.

More technically, the result is defined by the Java Language Specification #15.18.2:

If an integer addition overflows, then the result is the low-order bits of the mathematical sum as represented in some sufficiently large two's-complement format. If overflow occurs, then the sign of the result is not the same as the sign of the mathematical sum of the two operand values.

• Ah my book gave me an explanation in binary, I much prefer this explanation that I can understand easier. Much appreciated. Commented Sep 21, 2012 at 17:23
• Another way to realize this issue is when using `Math.abs()`. `Math.abs(Integer.MIN_VALUE) == Integer.MIN_VALUE` Commented Sep 21, 2012 at 21:55

Basically, because `Integer.MAX_VALUE` is actually only 2147483647, so `-Integer.MIN_VALUE`, which would be +2147483648, actually overflows the capacity of the internal binary representation of integers. Thus, the result "loops around" back to `Integer.MIN_VALUE`, or -2147483648.

If you did `long b = -((long)a);` instead, you would get the expected result.

To show this even more clearly:

``````Integer.MIN_VALUE is -2^31 = -2147483648
Integer.MAX_VALUE is 2^31-1 = 2147483647
/*notice this is 1 less than the negative value above*/
``````

`Integer.MAX_VALUE` can not take `2147483648`. This is too large number for Integer by exactly 1. This causes the number to go back on the scale from max value back to starting poing which is the min value.

A fixed number of binary bits can encode an even number of things. That means that you can't have a sequence that's exactly centered on zero, since that would require an is number of things to be symmetrical. The closest thing you can get to having zero in the middle of the sentence is to split it as either negative and non-negative, or positive and non-positive. Normal twos complement encoding does the former. So 32 bits span the range from -2^31 to 2^31-1. Zero is in the non-negative half of the sequence, and you have one negative number that can not be properly negated.

Java ints are stored in a 32-bit two's compliment form. Similar results applies for all two's compliment representations. The anomalous behavior is due to the extra negative integer which is an artifat of two's compliment.

`-2147483748` has a leadbitwise representation of

``````10000000 00000000 00000000 00000000
``````

and the negative of a number is achieved by flipping all the bits and adding one to it. The largest positive int will have a bitwise representation of

``````01111111 11111111 11111111 11111111
``````

which is `2147483647`. We then add one more, so bitwise, we have

``````10000000 00000000 00000000 00000000 == -2147483648
``````

This extra integer is an artifact of the two's compliment representation and operations with this number can have undesirable consequences. `-2147483748` is indeed unique among the ints!