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i'm reading an article about integer security . here's the link: http://ptgmedia.pearsoncmg.com/images/0321335724/samplechapter/seacord_ch05.pdf

In page 166,there is said:

A computation involving unsigned operands can never overflow,because a result that cannot be represented by the resulting unsigned integer type is reduced modulo to the number that is one greater than the largest value that can be represented by the resulting type.

What does it mean? appreciate for reply.

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That's.. misleading. It overflows. But it does so in a defined way, namely by wrapping in the way they explain. –  harold Apr 17 '13 at 9:48
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@harold: That's a matter of semantics. For example, the authors of the C++ standard say that it doesn't overflow, because modular arithmetic keeps the result within range; they only use the term to describe signed overflow, which is an error giving undefined behaviour. –  Mike Seymour Apr 17 '13 at 9:57
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3 Answers

up vote 3 down vote accepted

It means the value "wraps around".

UINT_MAX + 1 == 0
UINT_MAX + 2 == 1
UINT_MAX + 3 == 2

.. and so on

As the link says, this is like the modulo operator: http://en.wikipedia.org/wiki/Modulo_operation

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I know signed overflow is undefined behavior, but wouldn't it too wrap around? –  0x499602D2 Apr 17 '13 at 12:16
    
@0x499602D2 On most hardware it does, although the compiler can make optimizations which won't. –  Pubby Apr 17 '13 at 12:30
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It means that you can't alter the sign of a unsigned calculation, but it can still produce unexpected results. Say we have an 8-bit unsigned value:

 uint8_t a = 42;

and we add 240 to that:

 a += 240;

it will not fit, so you get 26.

Unsigned math is clearly defined in C and C++, where signed math is technically either undefined or implementation dependent or some other "things that you wouldn't expect may happen" wording (I don't know the exact wording, but the conclusion is that "you shouldn't rely on the behaviour of overflow in signed integer values")

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Wording: "implementation defined behaviour", when a compiler shall document behaviour, and "undefined behaviour", where compilers can do what they want. edit: Oh and, "clearly defined" would be "well defined" in C++ parlance :) –  phresnel Apr 17 '13 at 9:58
    
I think there is (at least) a third one which is something like "implementation detail", but my point was rather that I don't know which level of "it's not certain what happens here" that signed integer math ends up under - does it allow just "strange results" or "anything could happen" (e.g. what happens if the processor has an overflow trap that fires on integer overflow?) –  Mats Petersson Apr 17 '13 at 10:01
    
"implementation detail" would be "implementation defined" in C++ parlance. Without reviewing the standard, I think overflowing signed values results in undefined behaviour. –  phresnel Apr 17 '13 at 10:09
    
I was under the impression there is a subtle difference: "implementation defined" means that the compiler producer has to tell you what they do. "implementation detail" means "it's up to the compiler producer, and there is no need to explain that it is". Either way, "don't overflow signed integers" is the conclusion. –  Mats Petersson Apr 17 '13 at 10:11
    
"no need to explain" would be the same as "undefined behaviour". Even though a compiler is allowed to explain how it acts on something that the standard declares undefined :) And agree on your conclusion. –  phresnel Apr 17 '13 at 10:15
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No overflow?

"Overflow" here means "producing a value that doesn't fit the operand". Because arithmetic modulo is applied, the value always fits the operand, therefore, no overflow.

In other words, before overflow can actually happen, C++ will already have truncated the value.

Modulo?

Taking a value modulo some other value means to apply a division, and taking the remainder.

For example:

0 % 3 = 0  (0 / 3 = 0, remainder 0)
1 % 3 = 1  (1 / 3 = 0, remainder 1) 
2 % 3 = 2  (2 / 3 = 0, remainder 2)
3 % 3 = 0  (3 / 3 = 1, remainder 0)
4 % 3 = 1  (4 / 3 = 1, remainder 1)
5 % 3 = 1  (4 / 3 = 1, remainder 2)
6 % 3 = 1  (4 / 3 = 1, remainder 3)
...

This modulo is applied to results of unsigned-only computations, with the divisor being the maximum value the type can hold. E.g., if the maximum is 2^16=32768, then 32760 + 9 = (32760 + 9) % (32768+1) = 0.

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