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.

Note: This question is all about the signedness of the second operand of bit shift operators << and >>. Not at all about the first operand.

CERT INT34-C, in part: Do not shift a negative number of bits ...

Not that it needed justification, but they justify saying that it's undefined behavior.

I would have thought the rule made sense simply because if you want to shift the other way, shift by a positive number of bits using the appropriate shift operator for the other direction.

So if, in C, it is both unnecessary and undefined to shift by a negative number of bits, why is the second operand of << or >> even allowed to be signed?

MISRA-C:2004, for example (whatever you may think of MISRA like or dislike) in its section 6.10.2, as a side effect of explaining that the type of the result depends only on the first operand, says that "the second operand may be of any signed or unsigned integer type". [emphasis mine]

Why invite people to use signed second operand in bit shifting? Why allow it? Do any compilers warn against it?

share|improve this question
It's allowed to be a formally signed type. It's not allowed to be negative. It's also not allowed to be larger than the number of the bits in the type. Does that mean C should require using a 5-bit-wide bitfield types as the right-hand operand to shifts on a 32-bit integer? Of course that would be nonsense. If you don't want a language that "invites" you to do stupid things, you should probably start looking for a different language. But other languages "invite" you to do different stupid things (like string concatenation); you'll have a hard time finding a "perfect" one... –  R.. Apr 14 '11 at 15:15
@R true that I can't look for a perfect language, but there is a difference between the two requirements on the 2nd operand of bit shift: the nonnegative requirement can be enforced via the declared (and not casted) type of the operand, while the not-too-large requirement requires actually examining the value of the operand. –  talkaboutquality Apr 16 '11 at 19:20

1 Answer 1

I can't really say why things are as they are ... but I am glad I can shift by signed values:

3 in the expression a <<= 3; is an int.
If shifting by an int were illegal, you'd have to do a <<= 3U;.

Making it illegal to shift by signed values would break a lot (I do mean A LOT) of code!

share|improve this answer
Cost: perhaps less readability in complex shift expressions (but those should be avoided, for readability) Benefit: guarantees that shift count cannot be negative (prevents coding something whose behavior is undefined) So why would it be bad if signed shift count were forbidden? –  talkaboutquality Apr 14 '11 at 13:57
@talkaboutquality: Now, consider int a; ... b << a;. If a is negative, it's a problem. Changing it to (unsigned)a won't help anything, because (unsigned)a will be a very large number, and a left shift by (unsigned)a will result in undefined behavior anyway. –  David Thornley Apr 14 '11 at 14:15
@david-thornley of course I didn't mean to allow casting to unsigned, but just originally declaring second operand as unsigned. Not sure if compilers could warn and require just that. Maybe a better reference would be securecoding.cert.org/confluence/display/seccode/… particularly with, @pmg, its exception "INT13-EX2: If the right hand side operand to a shift operator is known at compile time, it is acceptable for the value to be represented with a signed type provided it is positive." –  talkaboutquality Apr 16 '11 at 19:17

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.