Asumming a=1
1+(-1) =0
but with 4 bit binary ,using 2's complement
0001+1111=10000 ~ 0000
Isn't signed integer overflow undefined behavior ?
Do we depend on undefined behavior for such trivial result or I am missing something .
from wikipedia: If the left two carry bits (the ones on the far left of the top row in these examples) are both 1s or both 0s, the result is valid; if the left two carry bits are "1 0" or "0 1", a sign overflow has occurred.
Adding signed numbers with opposite signs never generate overflow. Indeed, hardware usually has two flag bits related to addition, i.e., overflow bit and carry bit.
Overflow bit is only set if the container is not large enough to represent the number correctly. For signed number the hardware set this bit after analyzing the sign bit of each operand and the sign of the results. If the signs of operands are differents, it will never set this bit. Otherwise, if the signals of operands are equals, it analyses the sign of result. If it is different from the operands, it set this flag, indicating that the result is in overflow.
In your example, the sign of each operand is different, so there no overflow, but this operation generate a carry bit if you want to use large container to keep operation correct.
Signed integer overflow is undefined, but I fail to see how this would be an issue here, since you are adding two signed numbers and the result does fall within range.
For a 4 bit integer type, overflow would be adding 7+7, where the result should be 14 that does not fit in the range -2^3..2^3-1
int are promoted to int and int is at least 16 bits wide. For smaller types/bit-fields, there is only an implementation-defined conversion from int to the destination type/bit-field.
Jul 16, 2013 at 20:03
int might be just 4 bits (to avoid having to pull large numbers). But yes, integral types are promoted to int before the operation is performed.
Jul 16, 2013 at 20:06
The underlying representation may internally use overflow to get the correct result, but that is irrelevant. The behavior is only undefined if the result of an operation exceeds the range of the type.
It is undefined behavior but I'm not sure I understand your question. Are you asking why it works in that example? Because those values are within range and the result is in range. Consider
-8 + -1
In 4 bit
1000 + 1111 -> 10111 -> 0111 -> 7. Here we no longer have the correct answer
000...01to111...11you get000...00.11111 111 (carry)