The main question has been answered several times: the
unsigned keyword can only be used as a type-specifier for an integral type.
As for why
unsigned is a separate keyword, rather than having, say, a
uint keyword, the reasons for that are historical.
The earliest versions of C (pre-K&R) had only four fundamental types:
char (8 bits, signed, 2's-complement)
int (16 bits, signed, 2's-complement)
float (32 bits)
double (64 bits, same range as
float but greater precision)
Note what's missing: no
unsigned keywords, no
long double; all those were added later. (Programmers who needed unsigned arithmetic commonly used pointers, which were freely interchangeable with
Each fundamental type had a name that was a single keyword, which made the grammar straightforward.
When other types were added later, it made sense to add specifiers like
long to the existing type names rather than introducing new keywords (which might have broken existing code). When the ANSI C committee standardized the language in 1989, they had to make a coherent structure out of the existing not-quite-formal definitions while remaining consistent with existing implementations. The result is what we have now, where
int long unsigned long is a valid type name (more commonly written as
unsigned long long).
If the language were being designed from scratch now, I suspect that a different approach would have been taken. Perhaps there would be a single keyword for each fundamental type (that's the approach taken by C#, for example), or perhaps the fundamental type names would use some more coherent scheme rather than a jumble of keywords (say,
int:2 for a 2-byte integer,
unsigned:4 for a 4-byte unsigned integer). But both C and C++ are stuck with the current approach.