# Why may an overflow occur in the following program?

``````void main () {
int i;
if (i < 0) { i = -i; };
}
``````

Can anyone help me to understand why an overflow may occur in the above program?

• Undefined behaviour. The variable isn't initialized. And negating the most negative possible integer yields the same value in two's complement arithmetic – Jonathan Leffler Aug 12 '17 at 17:23
• In 2's complement, | INT_MIN | > INT_MAX – BLUEPIXY Aug 12 '17 at 17:23
• When `i == INT_MIN` in two's complement notation. – Weather Vane Aug 12 '17 at 17:23

## 3 Answers

An overflow may occur because the range of integer representation in two's complement is not symmetric: the magnitude of the smallest negative number that can be represented is the magnitude of the highest positive number that can be represented, plus one. For example, on a 32-bit system the values are `-2,147,483,648` and `2,147,483,647`. That's why negating `-2,147,483,648` would result in an overflow: the result of negation, a positive value `2,147,483,648`, cannot be represented in an `int` of the same size.

Note that the inverse of this problem is not true: negating a positive number would not result in an overflow:

``````if (i > 0) { i = -i; } // No overflow here
``````
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• @Tom please note that MSVC has `#define INT_MIN (-2147483647 - 1)` in `limits.h`. – Weather Vane Aug 12 '17 at 17:28

Your value of "i", in the stack, is undefined when main starts. The start-up code that runs before main() is called can leave anything there.

Addig to that what Kashif said, negative integers can go one value lower than non-negative integers as negatives don't need to leave room for zero. A "1" in the sign bit, with all remaining bits zero, causes an overflow when sign reversed.

In 16 bits: -0x8000 == ~0x8000 + 1 == 0x7FFF + 1 == 0x8000
// "-" negative value == invert + 1 == inverted + 1 == final is the same

The likely hood of this value is low, but present. It will not happen unless the stack just happens to contain the offending number.

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The cause for an integer overflow is when an arithmetic operation attempts to create a numeric value that is outside of the range that can be represented with a given number of bits, either larger than the maximum or lower than the minimum representable value.

• Well, in your case the variable `i` is not initialized. So what will happen here is that the memory space which is assigned to variable `i` of integer type will be containing some garbage value.
• If by any chance that memory address contains the maximum possible integer value which is `-2^31(-2,147,483,648)` then negating this value will result in integer overflow.

I hope this helps.

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