# Any trap which we should beware of Integer.MIN_VALUE == -Integer.MIN_VALUE == Math.abs(Integer.MIN_VALUE)

I realize the below code holds true

``````Integer.MIN_VALUE == -Integer.MIN_VALUE == Math.abs(Integer.MIN_VALUE)
``````

This is because when we negate `-2147483648`, it should become `+2147483648`. Since the maximum positive integer can be represented in Java is `+2147483647`, integer overflow will occur. When overflow occur, it becomes `-2147483648` again.

I was wondering, is there any trap we should keep an eye on it, for the above situation?

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For what situation, exactly? –  Oli Charlesworth Feb 23 '11 at 15:47
As if silent overflow isn't a trap enough in itself. –  Erik Feb 23 '11 at 16:03
You know, it gives the expected output in all but one of 4 billion cases. I wish I could say the same for my code, and I bet we all could. –  corsiKa Feb 23 '11 at 16:05

The biggest trap is the slient overflow of which this is an example.

Similar examples.

``````Long.MIN_VALUE == -Long.MIN_VALUE;
0.0d == -0.0d
0.0f == -0.0f
Double.NaN != Double.NaN
Float.NaN != Float.NaN
Double.compare(Double.NaN, 0) == 1 but Double.NaN > 0 is false
Float.compare(Float.NaN, 0) == 1 but Float.NaN > 0 is false
``````

FYI

``````Byte.MIN_VALUE != -Byte.MIN_VALUE;
Short.MIN_VALUE != -Short.MIN_VALUE;
Character.MIN_VALUE == -Character.MIN_VALUE;
``````
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I can't imagine a good reason for writing any code that depends on overflow. I'd describe anything that actually worked that way as a trap in itself, because it's functioning is dependent on shortcomings in the system (i.e. numeric size limits) rather than the clear and explicit meaning of the code (largest or smallest value).

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There are plenty of applications that take advantage of the wrapping behaviour of two's-complement in low-level systems. CIC filters and Viterbi decoders are two, just off the top of my head. –  Oli Charlesworth Feb 23 '11 at 15:56
/agree with oli - If you've written any decent hashCode in Java, you're depending on overflow... –  corsiKa Feb 23 '11 at 16:02

Every function, mechanism, feature, gadget, widget, fidget, and blidget in the history of programming has input and and output limitations.

The trap to avoid for this, and for all features, is do not assume there are no limits.

Edit: This doesn't mean you can't use these limits to your advantage, because you most certainly can. Just make sure that anything 'tricky', 'cool', or 'hackish' gets it's share of documentation, or they next guy to come into the code (or even you) is going to wonder wtf is going on.

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The only one I can come up with, is if you end up writing your own absolute-value implementation, where you (naively) do

``````return i < 0 ? -i : i;
``````

(Note however, that `Math.abs(Integer.MIN_VALUE)` indeed returns a negative result (`Integer.MIN_VALUE`), so what is the correct behavior is up for discussion when writing an abs-method.)

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That too returns `Integer.MIN_VALUE` for `Integer.MIN_VALUE` as an input. –  corsiKa Feb 23 '11 at 15:55
The Math.abs(feature) is implmented thusly (letter for letter): `public static int abs(int a) { return (a < 0) ? -a : a; }` –  corsiKa Feb 23 '11 at 15:56
``````a.compareTo(b) === -b.compareTo(a)  // INCORRECT
Is it incorrect because of the logic, or incorrect because it's javascript `===`? :-) –  corsiKa Feb 23 '11 at 16:47