// RUN: %clang_cc1 -std=c11 -fsyntax-only -verify %s void g(void); void foo(int n) { (void) _Generic(0, struct A: 0, // expected-error {{type 'struct A' in generic association incomplete}} void(): 0, // expected-error {{type 'void ()' in generic association not an object type}} int[n]: 0); // expected-error {{type 'int [n]' in generic association is a variably modified type}} (void) _Generic(0, void (*)(): 0, // expected-note {{compatible type 'void (*)()' specified here}} void (*)(void): 0); // expected-error {{type 'void (*)(void)' in generic association compatible with previously specified type 'void (*)()'}} (void) _Generic((void (*)()) 0, // expected-error {{controlling expression type 'void (*)()' compatible with 2 generic association types}} void (*)(int): 0, // expected-note {{compatible type 'void (*)(int)' specified here}} void (*)(void): 0); // expected-note {{compatible type 'void (*)(void)' specified here}} (void) _Generic(0, // expected-error {{controlling expression type 'int' not compatible with any generic association type}} char: 0, short: 0, long: 0); int a1[_Generic(0, int: 1, short: 2, float: 3, default: 4) == 1 ? 1 : -1]; int a2[_Generic(0, default: 1, short: 2, float: 3, int: 4) == 4 ? 1 : -1]; int a3[_Generic(0L, int: 1, short: 2, float: 3, default: 4) == 4 ? 1 : -1]; int a4[_Generic(0L, default: 1, short: 2, float: 3, int: 4) == 1 ? 1 : -1]; int a5[_Generic(0, int: 1, short: 2, float: 3) == 1 ? 1 : -1]; int a6[_Generic(0, short: 1, float: 2, int: 3) == 3 ? 1 : -1]; int a7[_Generic("test", char *: 1, default: 2) == 1 ? 1 : -1]; int a8[_Generic(g, void (*)(void): 1, default: 2) == 1 ? 1 : -1]; const int i = 12; int a9[_Generic(i, int: 1, default: 2) == 1 ? 1 : -1]; // This is expected to not trigger any diagnostics because the controlling // expression is not evaluated. (void)_Generic(*(int *)0, int: 1); } int __attribute__((overloadable)) test (int); double __attribute__((overloadable)) test (double); char testc(char); void PR30201(void) { _Generic(4, char:testc, default:test)(4); } |