Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I was reading about techniques to detect overflow in C . one of the examples to show incorrect solution to detect overflow in addition was this one :

/* Determine whether arguments can be added without overflow */
int tadd_ok(int x, int y) {
    int sum = x+y;
    return (sum-x == y) && (sum-y == x);

and it said it doesn't work because :

two’s-complement addition forms an abelian group, and so the expression (x+y)-x will evaluate to y regardless of whether or not the addition overflows, and that (x+y)-y will always evaluate to x

What does it exactly mean ? Does it mean that C compiler replace sum with x+y ?
To figure out what is it saying I even traced assembly code of the program, but there was no sign of replacement .

Update : The essence of my question is, does GCC evaluates an expression without calculating it ?
This is NOT a question about two's complement.
You can see a sample output in here .

share|improve this question

closed as not a real question by Oli Charlesworth, Niet the Dark Absol, Monolo, Eitan T, Graviton Jul 16 '12 at 2:49

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

"Abelian group" is just a fancy mathematical term for a "ring". Two's complement integers with the usual overflow behavior forms a "ring" of integers. When you add/subtract, you shift along the ring. So regardless of overflow, you can always shift back in the opposite direction. –  Mysticial Jul 13 '12 at 18:45
Do you mean to ask that, seeing as signed overflow gives unspecified results, this "broken overflow detection method" might accidentally be made to work due to an optimization that uses the unspecifiedness? –  harold Jul 13 '12 at 19:14
@ArashThr: then I'm not sure what you're asking here! Compilers may simplify arithmetic expressions, but they're not obliged to. I'm not sure what this has to do with abelian groups. –  Oli Charlesworth Jul 13 '12 at 19:34
as Oli says, they are not required or obliged, but since you asked about gcc, it typically does and I have seen it replace many lines of code and a very long loop with a single result. because it was all static stuff, it precomputed the result and simply filled the register with a result, tons of code removed. –  dwelch Jul 13 '12 at 21:04
The question update deserves a change of the title, tags and a better wording as the question starts talking about 2's complement overflow and ends up asking about gcc behavior. –  Alexey Frunze Jul 13 '12 at 21:40
show 6 more comments

5 Answers

up vote 2 down vote accepted

If you take a trivial example of 4 (0b0100) + 5 (0b0101) you can see that the unsigned sum should be 9 (1001) which is actually -7 in two's complement. If you then take that sum (0b1001) and subtract 4 from it using two's complement arithmetic:

    0b1001 - 0b0100 = 0b1001 + 2s_complement(0b0100) = 0b1001 + 0b1100 = 0b1_0101 

you end up with 0101 which is 5 (you drop the overflowing most significant 1 during a 2's complement operation). Subtracting 5 from the sum equals 4:

    0b1001 - 0b0101 = 0b1001 + 2s_complement(0b0101) = 0b1001 + 0b1011 = 0b1_0100

This satisfies the c code you provided but still resulted in an overflow.

From wikipedia's article on two's complement:

Two's complement    Decimal
0111                 7
0110                 6
0101                 5
0100                 4
0011                 3
0010                 2
0001                 1
0000                 0
1111                −1
1110                −2
1101                −3
1100                −4
1011                −5
1010                −6
1001                −7
1000                −8

To demonstrate your INT_MAX example using my trivial 4 bit integer system with INT_MAX = 7 we can see the same result as your c code.

    7 + 7 (0b0111 + 0b0111) = 0b1110 (-2 in two's complement)

Just like my example above, subtracting, sum - 7 will equal 7.

    0b1110 - 0b0111 = 0b1110 + 2s_complement(0b0111) = 0b1110 + 0b1001 = 0b1_0111
share|improve this answer
add comment

Looks like the error that would cause an incorrect result would also affect both sides of the subsequent test, and so the test would never fail.

share|improve this answer
add comment

It's possible that if there is optimization on your compiler (i.e. -02) then this function would not work. However, if there is no optimization, I believe this would work correctly.

share|improve this answer
The reverse actually. This almost certainly won't work (assuming sane hardware), unless the compiler did something funny. –  harold Jul 13 '12 at 19:25
add comment

I might be wrong, but this seems to me like a simple overflow check... if sum had overflowed, sum-x could not be equal to y

something more: parameters are passed in the stack to the function, sum is a local variable and it's on the stack too. The compiler is likely to put sum=0, sum+x and them sum+y (stack location + another stack location) into the sum location. For the return statement it's likely to put the result into another temporary location by duplicating the sum variable

share|improve this answer
I believe the OP is well aware of that. –  Mysticial Jul 13 '12 at 18:43
Then I'm sorry I didn't understand the question –  Johnny Pauling Jul 13 '12 at 18:44
add comment

With respect to your posted code, it will not work on all platforms because some platforms will implicitly wrap around overflows. The expression will evaluate in the following way:

int x    = 0xFFFFFFF0;
int y    = 0x00000020;

int sum  = x + y;   // value of sum is 0x00000010
                    // would be 0x100000010, but highest order bit is dropped

int diff = sum - y; // value of diff is 0xFFFFFFF0
                    // equal to x

The domain is closed, i.e. an overflow will wrap around in a predictable and reversible way. You cannot rely on this method to check for an overflow.

That said, this behavior is platform specific. Some processors will do it this way, and others will return the closest possible representable value (i.e. sum would equal 0xFFFFFFFF), and in this case, it would work as expected.

The best way to check for an overflow in C would be to use an inline assembly statement to push the flags onto the stack, pop them into a register, and return the value. One of the flags will be set if an overflow occurred on the last mathematical operation. I have done it this way before but don't remember how to do it. See the following pages for resources and help:


Read flag register

share|improve this answer
add comment

Not the answer you're looking for? Browse other questions tagged or ask your own question.