It's actually quite common to store a number without needing to know the exact size of the type. There are plenty of quantities in my programs that I can reasonably assume won't exceed 2 billion, or enforce that they don't. But that doesn't mean I need an exact 32 bit type to store them, any type that can count to at least 2 billion is fine by me.
If you're trying to write very portable code, you must bear in mind that the fixed-width types are all optional.
On a C99 implementation where CHAR_BIT
is greater than 8
there is no int8_t
. The standard forbids it to exist because it would have to have padding bits, and intN_t
types are defined to have no padding bits (7.18.1.1/1). uint8_t
therefore also forbidden because (thanks, ouah) an implementation is not permitted to define uint8_t
without int8_t
.
So, in very portable code, if you need a signed type capable of holding values up to 127 then you should use one of signed char
, int
, int_least8_t
or int_fast8_t
according to whether you want to ask the compiler to make it:
- work in C89 (
signed char
or int
)
- avoid surprising integer promotions in arithmetic expressions (
int
)
- small (
int_least8_t
or signed char
)
- fast (
int_fast8_t
or int
)
The same goes for an unsigned type up to 255, with unsigned char
, unsigned int
, uint_least8_t
and uint_fast8_t
.
If you need modulo-256 arithmetic in very portable code, then you can either take the modulus yourself, mask bits, or play games with bitfields.
In practice, most people never need to write code that portable. At the moment CHAR_BIT > 8
only comes up on special-purpose hardware, and your general-purpose code won't get used on it. Of course that could change in future, but if it does I suspect that there is so much code that makes assumptions about Posix and/or Windows (both of which guarantee CHAR_BIT == 8
), that dealing with your code's non-portability will be one small part of a big effort to port code to that new platform. Any such implementation is probably going to have to worry about how to connect to the internet (which deals in octets), long before it worries how to get your code up and running :-)
If you're assuming that CHAR_BIT == 8
anyway then I don't think there's any particular reason to avoid (u)int8_t
other than if you want the code to work in C89. Even in C89 it's not that difficult to find or write a version of stdint.h
for a particular implementation. But if you can easily write your code to only require that the type can hold 255
, rather than requiring that it can't hold 256
, then you might as well avoid the dependency on CHAR_BIT == 8
.
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