In this answer and the attached comments, Pavel Minaev makes the following argument that, in C, the only types to which
uint8_t can be typedef'd are
unsigned char. I'm looking at this draft of the C standard.
- The presence of
uint8_timplies the presence of a corresponding type
int8_tis 8 bits wide and has no padding bits (22.214.171.124p1).
- Corresponding types have the same width (6.2.5p6), so
uint8_tis also 8 bits wide.
CHAR_BITbits wide (126.96.36.199.1p2 and 188.8.131.52p3).
CHAR_BITis at least 8 (184.108.40.206.1p1).
CHAR_BITis at most 8, because either
unsigned char, or it's a non-
unsigned char, non-bit-field type whose width is a multiple of
Based on this argument, I agree that, if
uint8_t exists, then both it and
unsigned char have identical representations: 8 value bits and 0 padding bits. That doesn't seem to force them to be the same type (e.g., 6.2.5p14).
Is it allowed that
uint8_t is typedef'd to an extended unsigned integer type (6.2.5p6) with the same representation as
unsigned char? Certainly it must be typedef'd (220.127.116.11p2), and it cannot be any standard unsigned integer type other than
unsigned char (or
char if it happens to be unsigned). This hypothetical extended type would not be a character type (6.2.5p15) and thus would not qualify for aliased access to an object of an incompatible type (6.5p7), which strikes me as the reason a compiler writer would want to do such a thing.