Consider the following code to set all bits of x
unsigned int x = 1;
Is this portable ? It seems to work on at least Visual Studio 20052010
Consider the following code to set all bits of x
Is this portable ? It seems to work on at least Visual Studio 20052010 


The citationheavy answer: I know there are plenty of correct answers in here, but I'd like to add a few citations to the mix. I'll cite two standards: C99 n1256 draft (freely available) and C++ n1905 draft (also freely available). There's nothing special about these particular standards, they're just both freely available and whatever happened to be easiest to find at the moment. The C++ version: §5.3.2 ¶9: According to this paragraph, the value
§3.9.1 ¶4: This explains how overflow works with unsigned numbers.
§3.9.1 ¶7, plus footnote 49: This explains that numbers must be binary. From this, we can infer that
Since arithmetic is done modulo 2^{n}, it is guaranteed that The C99 version: The C99 version spells it out in a much more compact, explicit way. §6.5.3 ¶3:
As in C++, unsigned arithmetic is guaranteed to be modular (I think I've done enough digging through standards for now), so the C99 standard definitely guarantees that The summary: Yes, it is portable. Footnote: Yes, we are talking about value bits and not padding bits. I doubt that you need to set padding bits to one, however. You can see from a recent Stack Overflow question (link) that GCC was ported to the PDP10 where the 


Apparently it is:
It is guaranteed to be the largest amount possible for that type due to the properties of modulo. C99 also allows it:
Which wold also be the largest amount possible. Largest amount possible may not be all bits set. Use 


I was sloppy in reading the question, and made several comments that might be misleading because of that. I'll try to clear up the confusion in this answer. The declaration
is guaranteed to set (It happens that the semantics of the conversion are optimized for two'scomplement systems; for other schemes, the conversion might involve something more than just copying the bits.) But the question referred to setting all bits of There are several possible representations for signed integers (two'scomplement is most common, but ones'complement and signandmagnitude are also possible). But we're dealing with an unsigned integer type, so the way that signed integers are represented is irrelevant. Unsigned integers are required to be represented in a pure binary format. Assuming that all the bits of the representation contribute to the value of an On the other hand, integer types are allowed to have padding bits, bits that don't contribute to the representation. For example, it's legal for
sets all the value bits of In practice, very very few systems have padding bits in integer types. So on the vast majority of systems, This:
will also set 


Beware! This is implementationdefined, as how a negative integer shall be represented, whether two's complement or what, is not defined by the C++ Standard. It is up to the compiler which makes the decision, and has to document it properly. In short, it is not portable. It may not set all bits of x. 

