If there's some cross-platform C/C++ code that should be compiled on Mac OS X, iOS, Linux, Windows, how can I detect them reliably during preprocessor process?
#if defined(WIN32) || defined(_WIN32) || defined(__WIN32__) || defined(__NT__) //define something for Windows (32-bit and 64-bit, this part is common) #ifdef _WIN64 //define something for Windows (64-bit only) #else //define something for Windows (32-bit only) #endif #elif __APPLE__ #include <TargetConditionals.h> #if TARGET_IPHONE_SIMULATOR // iOS Simulator #elif TARGET_OS_IPHONE // iOS device #elif TARGET_OS_MAC // Other kinds of Mac OS #else # error "Unknown Apple platform" #endif #elif __linux__ // linux #elif __unix__ // all unices not caught above // Unix #elif defined(_POSIX_VERSION) // POSIX #else # error "Unknown compiler" #endif
The defined macros depend on the compiler that you are going to use.
#ifdef can be nested into the
_WIN32 is even defined when targeting the Windows x64 version. This prevents code duplication if some header includes are common to both
WIN32 without underscore allows IDE to highlight the right partition of code).
As Jake points out,
TARGET_IPHONE_SIMULATOR is a subset of
TARGET_OS_IPHONE is a subset of
So a better approach might be:
#ifdef _WIN64 //define something for Windows (64-bit) #elif _WIN32 //define something for Windows (32-bit) #elif __APPLE__ #include "TargetConditionals.h" #if TARGET_OS_IPHONE && TARGET_IPHONE_SIMULATOR // define something for simulator #elif TARGET_OS_IPHONE // define something for iphone #else #define TARGET_OS_OSX 1 // define something for OSX #endif #elif __linux // linux #elif __unix // all unices not caught above // Unix #elif __posix // POSIX #endif
Kind of a corollary answer: the people on [this site] have taken the time to make tables of macros defined for every OS/compiler pair.
For example, you can see that
_WIN32 is NOT defined on Windows with Cygwin (POSIX), while it IS defined for compilation on Windows, Cygwin (non-POSIX), and MinGW with every available compiler (Clang, GNU, Intel, etc.).
Anyway, I found the tables quite informative and thought I'd share here.