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.

Often an object I use will have (signed) int parameters (e.g. int iSize) which eventually store how large something should be. At the same time, I will often initialize them to -1 to signify that the object (etc) hasn't been setup / hasn't been filled / isn't ready for use.

I often end up with the warning comparison between signed and unsigned integer, when I do something like if( iSize >= someVector.size() ) { ... }.

Thus, I nominally don't want to be using an unsigned int. Are there any situations where this will lead to an error or unexpected behavior?

If not: what is the best way to handle this? If I use the compiler flag -Wno-sign-compare I could (hypothetically) miss a situation in which I should be using an unsigned int (or something like that). So should I just use a cast when comparing with an unsigned int--e.g. if( iSize >= (int)someVector.size() ) { ... } ?

share|improve this question
Absolutely it can result it unexpected (but defined) results. –  WhozCraig Jan 27 '13 at 22:35

1 Answer 1

up vote 5 down vote accepted

Yes, there are, and very subtle ones. If you are curious, you can check this interesting presentation by Stephan T. Lavavej about arithmetic conversion and a bug in Microsoft's implementation of STL which was caused just by signed vs unsigned comparison.

In general, the problem is due to the fact that because of complement 2 arithmetic, a very small negative integral value has the same bit representation as a very big unsigned integral value (e.g. -1 = 0xFFFF = 65535).

In the specific case of checking size(), why not using type size_t for iSize in the first place? Unsigned values just give you greater expressivity, use it.

And if you do not want to declare iSize as size_t, just make it clear by using an explicit cast that you are aware of the nature of this comparison. The compiler is trying to do you a favor with those warnings and, as you correctly wrote, there might be situations where ignoring them would cause you a very bad headache.

Thus, if iSize is sometimes negative (and should be evaluated as less than all unsigned int values of size()), use the idiom: if ((iSize < 0) || ((unsigned)iSize < somevector.size())) ...

share|improve this answer
As I said, I use iSize for other purposes (with negative values). Thus it seems I explicitly don't want to cast it as an unsigned int (won't (unsigned int)-1 be > someVector.size() == true ?). That's why I explicitly asked if I should cast the .size() into a signed int --- are you saying that's the appropriate solution? –  zhermes Jan 27 '13 at 22:43
@zhermes: Yes, the appropriate solution is to cast the result of size() to a signed int: if (iSize < (int)v.size()) ... –  Andy Prowl Jan 27 '13 at 22:45
@AndyProwl It's almost always appropriate, as you generally don't want to use unsigned except in special cases. Depending on the platform (or to ensure portability later), you may want to write and use checked_cast, which will verify that the value you convert is in bounds. –  James Kanze Jan 27 '13 at 22:47
@zhermes: are you "absolutely" certain that casting the result of size() (which is probably unsigned long) to an signed int will not result in a negative number? How certain? Was that -1% certain? :) –  rici Jan 27 '13 at 22:59
@AndyProwl: does that lead you to re-evaluate the wisdom of "use the cast: if( iSize >= (int)someVector.size() )" ? I'd say that the correct expression, given your hypothesis "if iSize is sometimes negative (and should be evaluated as less than all unsigned int values of size())", would be if (iSize < 0 || (unsigned)iSize < somevector.size()), which is a precise statement of the stated goal. I stand by my claim that overloading iSize with an "unset" indicator is suboptimal. –  rici Jan 28 '13 at 15:34

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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