If the underlying C standard library supports the "Floating-point extensions part 1" (ISO/IEC TS 18661-1:2014), then you have preprocessor macros available that can be used to identify the sizes of types:
#include<climits>
#include<cstdint>
void myfunc(unsigned o);
#if UINT_WIDTH != SIZE_WIDTH
void myfunc(size_t o);
#endif
This is supported e.g. by glibc. Beware that the test always fails if the macros are not defined, i.e. if the specification is not implemented, so you should probably check for that as well, i.e.
#if UINT_WIDTH != SIZE_WIDTH || !defined(UINT_WIDTH) || !defined(SIZE_WIDTH)
Without such implementation-defined macros, the preprocessor cannot be used to achieve what you want, as it doesn't actually know about C or C++ types.
Any solution at the C++ compilation level will require you to at least somewhat modify the function declarations.
I do not consider this solution particularly clean, but your current solution isn't either. Really, if as I suspect, the goal is to avoid certain implicit conversions, the method should be a template with a static_assert
limiting the type as appropriate.
Edit:
The code above works as is with a current glibc and gcc, but I am not sure whether technically this is correct behavior. This is a technical specification extending C11, not C++. I don't know how or whether C++ incorporates these or if they would be considered implementation-defined extensions.
Also according to the specification the macros should only be defined if you
#define __STDC_WANT_IEC_60559_BFP_EXT__
before the first #include<stdint.h>
or #include<limits.h>
. When compiling in C mode GCC with glibc does actually require this.
Whether the specification is implemented can be checked by comparing the macro __STDC_IEC_60559_BFP__
against 201ymmL
. However GCC with glibc does not seem to set this macro and the documentation notes that support of the specification is only partial.
Probably you should at least make sure that UINT_WIDTH
and SIZE_WIDTH
are set before trusting the comparison made above. If they are not, e.g. because the specification is not supported is will evaluate always to 0 != 0
, i.e. false
.
uint32_t
anduint64_t
overloads? The width of those won't vary depending on your platform.sizeof(unsigned) == nn
might work. Do you have anything against that? Otherwise, you could just rename__WORDSIZE
to__BITSIZE
or something in your current solution.unsigned
and calls the other variant. You can simply remove it.