I'm working hard in order to translate many macros into (scoped, type-safe) const values. My goal is to use them, if necessary, with if constexpr
.
For now I've managed to have satisfactory results with some macros using stringify macros and template functions:
#define STRINGIFY(X) #X
#define TO_STRING(X) STRINGIFY(X)
The macros above have a surprising different behaviour depending on the given parameter:
std::cout << TO_STRING(_DEBUG) << '\n';
Shows _DEBUG
if (and only if) the macro _DEBUG
is NOT defined, but if defined it shows the macro value (or an empty string if defined but without value).
Anyway, the macro result would always be a text literal so I'm using a constexpr
function to check the result:
template <int SIZE>
constexpr bool b(const char (&definition)[SIZE])
{
return definition[0] != '_';
}
And now combining STRINGIFY
and b
, it is possible to create enumerations and use them in if constexpr
(instead of using #ifdef
chains):
enum operating_system : bool
{
iOS = b(TO_STRING(__APPLE__)),
Windows = b(TO_STRING(__MINGW32__)),
Linux = b(TO_STRING(__linux__)),
};
int main()
{
if constexpr (operating_system::Windows)
{
// Specific Windows stuff.
}
else if constexpr (operating_system::iOS)
{
// Specific iOS stuff.
}
// Platform-independent sutff.
return 0;
}
I'm not happy using a helper function to translate the literals to bool values (b
function) but isn't a big deal. The real problem is that it relies on detecting the starting underscore (_
) in order to detect the non-existent macros. So an existing macro with a value starting with underscore would be a false positive. Also, the real value of the macro is lost, let's see an example:
#define _DEBUG 0
#define DRIVERS _09072007
template <int SIZE>
constexpr int i(const char (&definition)[SIZE])
{
return definition[0] != '_'; // what shall I put here?...
}
enum stuff : int
{
cpp_version = i(TO_STRING(__cplusplus)),
debug_enabled = i(TO_STRING(_DEBUG)),
drivers_version = i(TO_STRING(DRIVERS)),
};
int main()
{
std::cout << "C++ version: " << stuff::cpp_version << '\n'
<< "Debug mode: " << stuff::debug_enabled << '\n'
<< "Drivers version: " << stuff::drivers_version << '\n';
return 0;
}
The code above shows:
C++ version: 1 Debug mode: 1 Divers version: 0
Expected, but not satisfactory. I need a way to translate those string literals to the real value (at compile time) and a workaround of the naive approach of the "it exists if not starts with underscore" problem that the DRIVERS
macro is showing (maybe ignoring non numeric values until a numeric value is found?).
I've tried with recursive approach but indexing a string literal is not a constant expression:
constexpr int power10(int n)
{
if (n == 0)
return 1;
return 10 * power10(n - 1);
}
template <int SIZE>
constexpr int v(const char (&definition)[SIZE], int INDEX)
{
// error: 'definition' is not a constant expression
constexpr char c = definition[INDEX];
if (INDEX >= 0)
{
if constexpr (c >= '0' && c <= '9')
{
return v(definition, INDEX - 1) + (power10(SIZE - INDEX - 2) * (c - '0'));
}
else
{
return 0 + v(definition, INDEX - 1);
}
}
return 0;
}
template <int SIZE>
constexpr int f(const char (&definition)[SIZE])
{
return v(definition, SIZE - 2);
}
enum operating_system : bool
{
// error: enumerator value for 'iOS' is not an integer constant
iOS = f(TO_STRING(__APPLE__)),
// error: enumerator value for 'Windows' is not an integer constant
Windows = f(TO_STRING(__MINGW32__)),
// error: enumerator value for 'Linux' is not an integer constant
Linux = f(TO_STRING(__linux__)),
};
for
loop inside the constexpr function and the result is still constexpr (as long as c++14 is available, and asif constexpr
is in a game I assume it is)for
loop like a charm! Thank you! Would you be so kind to write an answer in order to accept it?STRINGIFY(MACRO)
is"MACRO"
only whenMACRO
is undefined but#MACRO
is always"MACRO"
. You can possibly use that to decide if a macro is defined or not. This approach is probably not suitable for you (introduces Boost dependencies and complexity) but it shows that it is possible to do what you want.