Often developers asking this kind of question are dealing with arranging a packed
struct to match a defined memory layout (as for a message protocol). The assumption is that the language should directly specify laying out 16-, 24-, 32-bit, etc. fields for the purpose.
That is routine and acceptable for assembly languages and other application-specific languages closely tied to a particular CPU architecture, but is sometimes a problem in a general purpose language which might be targeted at who-knows-what kind of architecture.
In fact, the C language was not intended for a particular hardware implementation. It was specified generally so a C compiler implementer could properly adapt to the realities of a particular CPU. A Frankenstein hardware architecture consisting of 9 bit bytes, 54 bit words, and 72 bit memory addresses is easily—and unambiguously—mapped to C features. (
char is 9 bits;
long int are 54 bits.)
This generality is why the C specification says something to the effect of "don't expect much about the sizes of ints beyond sizeof (char) <= sizeof (short int) <= sizeof (int) <= sizeof (long int)." That implies that chars could be the same size as longs!
The current reality is—and the future seems to hold—that software demands architectures provide 8-bit bytes and that memory words addressable as individual bytes. This wasn't always so. Not too long ago, I worked on an the CDC Cyber architecture which features 6 bit "bytes" and 60 bit words. A C implementation on that would be interesting. In fact, that architecture is responsible for the weird packing semantics of Pascal—if anyone remembers that.