#include const int a = 0; struct a { int a; }; struct b { int a; }; int a_f() { return 20; } int b_f() { return 10; } typedef int (*fptr)(int); int foo(int i) { return i; } typedef int int_type1; #define gen_sw(a) _Generic(a, const char *: 1, default: 8, int: 123); int main() { int i = 0; signed long int l = 2; struct b titi; const int * const ptr; const char *ti; int_type1 i2; i = _Generic(a, int: a_f, const int: b_f)(); printf("%d\n", i); i = _Generic(a, int: a_f() / 2, const int: b_f() / 2); printf("%d\n", i); i = _Generic(ptr, int *:1, int * const:2, default:20); printf("%d\n", i); i = gen_sw(a); printf("%d\n", i); i = _Generic(titi, struct a:1, struct b:2, default:20); printf("%d\n", i); i = _Generic(i2, char: 1, int : 0); printf("%d\n", i); i = _Generic(a, char:1, int[4]:2, default:5); printf("%d\n", i); i = _Generic(17, int :1, int **:2); printf("%d\n", i); i = _Generic(17L, int :1, long :2, long long : 3); printf("%d\n", i); i = _Generic("17, io", char *: 3, const char *: 1); printf("%d\n", i); i = _Generic(ti, const unsigned char *:1, const char *:4, char *:3, const signed char *:2); printf("%d\n", i); printf("%s\n", _Generic(i + 2L, long: "long", int: "int", long long: "long long")); i = _Generic(l, long: 1, int: 2); printf("%d\n", i); i = _Generic(foo, fptr: 3, int: 4); printf("%d\n", i); (void)_Generic((int(*)[2]){0}, int(*)[2]:0, int(*)[4]:0); //shouldn't match twice //should accept ({ }) in the controlling expr of _Generic even in const_wanted contexts struct { _Bool x_0: _Generic(({0;}),default:1); } my_x; _Generic((__typeof((float const)((float const){42}))*){0}, float*: 0); //casts lose top-level qualifiers int const x = 42; __typeof((__typeof(x))x) *xp = 0; (void)_Generic(xp, int*: 0); //casts lose top-level qualifiers //TEST TERNARY: //Same type _Generic( 0?(long*)0:(long*)0, long*: (void)0); //combining of qualifiers _Generic( 0?(long volatile*)0:(long const*)0, long const volatile*: (void)0); //nul-ptr constant selects other type _Generic( 0?(long*)0:0, long*: (void)0); _Generic( 0?(long*)0:(void*)0, long*: (void)0); //void ptrs get chosen preferentially; qualifs still combine _Generic( 0?(int volatile*)0: (void const*)1, void volatile const*: (void)0); //like gcc but not clang, don't treat (void* const as the null-ptr constant) _Generic( 0?(int volatile*)0: (void const*)0, void volatile const*: (void)0); //ptrs to incomplete types get completed (void)(sizeof(struct { int x:_Generic( 0?(int (*)[4])0 : (int (*)[])0, int (*)[4]:+1, int (*)[5]:(void)0); })); (void)(sizeof(struct { int x:_Generic( 0?(int (*)[])0 : (int (*)[4])0, int (*)[4]:+1, int (*)[5]:(void)0); })); { /* completion shouldn't affect the type of decl */ char **argv; _Generic(argv, char**: (void)0); _Generic(0?(char const*)0:argv[0], char const*: (void)0); _Generic(argv, char**: (void)0); } { extern int (*ar)[]; (void)(sizeof(struct { int x:_Generic( 0?(int (*)[4])0 : (int (*)[])0, int (*)[4]:+1, int (*)[5]:(void)0); })); (void)(sizeof(struct { int x:_Generic( 0?(int (*)[])0 : (int (*)[4])0, int (*)[4]:+1, int (*)[5]:(void)0); })); (void)(sizeof(struct { int x:_Generic( 0?ar : (int (*)[4])0, int (*)[4]:+1, int (*)[5]:(void)0); })); (void)(sizeof(struct { int x:_Generic( 0?(int (*)[4])0 : ar, int (*)[4]:+1, int (*)[5]:(void)0); })); (void)(sizeof(struct { int x:_Generic( 0?(int (*)[5])0 : ar, int (*)[5]:+1, int (*)[4]:(void)0); })); } return 0; }