// RUN: %clang_cc1 %s -fsyntax-only -verify -std=c++11 -fcxx-exceptions -fptrauth-intrinsics
// RUN: %clang_cc1 %s -fsyntax-only -verify -std=c++1z -fcxx-exceptions -fptrauth-intrinsics
typedef const struct __CFString * CFStringRef;
#define CFSTR __builtin___CFStringMakeConstantString
#define NSSTR __builtin___NSStringMakeConstantString
void f() {
#if !defined(__MVS__) && !defined(_AIX)
// Builtin function __builtin___CFStringMakeConstantString is currently
// unsupported on z/OS and AIX.
(void)CFStringRef(CFSTR("Hello"));
constexpr bool a = CFSTR("Hello") == CFSTR("Hello");
// expected-error@-1 {{constant expression}}
// expected-note@-2 {{comparison against opaque constant address '&__builtin___CFStringMakeConstantString("Hello")'}}
constexpr bool b = NSSTR("Hello") == NSSTR("Hello");
// expected-error@-1 {{constant expression}}
// expected-note@-2 {{comparison against opaque constant address '&__builtin___NSStringMakeConstantString("Hello")'}}
#endif
}
void a() { __builtin_va_list x, y; ::__builtin_va_copy(x, y); }
template<int (*Compare)(const char *s1, const char *s2)>
int equal(const char *s1, const char *s2) {
return Compare(s1, s2) == 0;
}
template int equal<&__builtin_strcmp>(const char*, const char*); // expected-error {{builtin functions must be directly called}}
// PR13195
void f2() {
__builtin_isnan; // expected-error {{builtin functions must be directly called}}
}
// pr14895
typedef __typeof(sizeof(int)) size_t;
extern "C" void *__builtin_alloca (size_t);
namespace addressof {
struct S {} s;
static_assert(__builtin_addressof(s) == &s, "");
struct T { constexpr T *operator&() const { return nullptr; } int n; } t;
constexpr T *pt = __builtin_addressof(t);
static_assert(&pt->n == &t.n, "");
struct U { int n : 5; } u;
int *pbf = __builtin_addressof(u.n); // expected-error {{address of bit-field requested}}
S *ptmp = __builtin_addressof(S{}); // expected-error {{taking the address of a temporary}} expected-warning {{temporary whose address is used as value of local variable 'ptmp' will be destroyed at the end of the full-expression}}
}
namespace function_start {
void a(void) {}
int n;
void *p = __builtin_function_start(n); // expected-error {{argument must be a function}}
static_assert(__builtin_function_start(a) == a, ""); // expected-error {{static assertion expression is not an integral constant expression}}
// expected-note@-1 {{comparison against opaque constant address '&__builtin_function_start(a)'}}
} // namespace function_start
void no_ms_builtins() {
__assume(1); // expected-error {{use of undeclared}}
__noop(1); // expected-error {{use of undeclared}}
__debugbreak(); // expected-error {{use of undeclared}}
}
struct FILE;
extern "C" int vfprintf(FILE *__restrict, const char *__restrict,
__builtin_va_list va);
void synchronize_args() {
__sync_synchronize(0); // expected-error {{too many arguments}}
}
namespace test_launder {
#define TEST_TYPE(Ptr, Type) \
static_assert(__is_same(decltype(__builtin_launder(Ptr)), Type), "expected same type")
struct Dummy {};
using FnType = int(char);
using MemFnType = int (Dummy::*)(char);
using ConstMemFnType = int (Dummy::*)() const;
void foo() {}
void test_builtin_empty_parentheses_diags() {
__is_trivially_copyable(); // expected-error {{expected a type}}
__is_trivially_copyable(1); // expected-error {{expected a type}}
}
void test_builtin_launder_diags(void *vp, const void *cvp, FnType *fnp,
MemFnType mfp, ConstMemFnType cmfp, int (&Arr)[5]) {
__builtin_launder(vp); // expected-error {{void pointer argument to '__builtin_launder' is not allowed}}
__builtin_launder(cvp); // expected-error {{void pointer argument to '__builtin_launder' is not allowed}}
__builtin_launder(fnp); // expected-error {{function pointer argument to '__builtin_launder' is not allowed}}
__builtin_launder(mfp); // expected-error {{non-pointer argument to '__builtin_launder' is not allowed}}
__builtin_launder(cmfp); // expected-error {{non-pointer argument to '__builtin_launder' is not allowed}}
(void)__builtin_launder(&fnp);
__builtin_launder(42); // expected-error {{non-pointer argument to '__builtin_launder' is not allowed}}
__builtin_launder(nullptr); // expected-error {{non-pointer argument to '__builtin_launder' is not allowed}}
__builtin_launder(foo); // expected-error {{function pointer argument to '__builtin_launder' is not allowed}}
(void)__builtin_launder(Arr);
}
void test_builtin_launder(char *p, const volatile int *ip, const float *&fp,
double *__restrict dp) {
int x;
__builtin_launder(x); // expected-error {{non-pointer argument to '__builtin_launder' is not allowed}}
TEST_TYPE(p, char*);
TEST_TYPE(ip, const volatile int*);
TEST_TYPE(fp, const float*);
TEST_TYPE(dp, double *__restrict);
char *d = __builtin_launder(p);
const volatile int *id = __builtin_launder(ip);
int *id2 = __builtin_launder(ip); // expected-error {{cannot initialize a variable of type 'int *' with an rvalue of type 'const volatile int *'}}
const float* fd = __builtin_launder(fp);
}
void test_launder_return_type(const int (&ArrayRef)[101], int (&MArrRef)[42][13],
void (**&FuncPtrRef)()) {
TEST_TYPE(ArrayRef, const int *);
TEST_TYPE(MArrRef, int(*)[13]);
TEST_TYPE(FuncPtrRef, void (**)());
}
template <class Tp>
constexpr Tp *test_constexpr_launder(Tp *tp) {
return __builtin_launder(tp);
}
constexpr int const_int = 42;
constexpr int const_int2 = 101;
constexpr const int *const_ptr = test_constexpr_launder(&const_int);
static_assert(&const_int == const_ptr, "");
static_assert(const_ptr != test_constexpr_launder(&const_int2), "");
void test_non_constexpr() {
constexpr int i = 42; // expected-note {{address of non-static constexpr variable 'i' may differ on each invocation}}
constexpr const int *ip = __builtin_launder(&i); // expected-error {{constexpr variable 'ip' must be initialized by a constant expression}}
// expected-note@-1 {{pointer to 'i' is not a constant expression}}
}
constexpr bool test_in_constexpr(const int &i) {
return (__builtin_launder(&i) == &i);
}
static_assert(test_in_constexpr(const_int), "");
void f() {
constexpr int i = 42;
static_assert(test_in_constexpr(i), "");
}
struct Incomplete; // expected-note {{forward declaration}}
struct IncompleteMember {
Incomplete &i;
};
void test_incomplete(Incomplete *i, IncompleteMember *im) {
// expected-error@+1 {{incomplete type 'Incomplete' where a complete type is required}}
__builtin_launder(i);
__builtin_launder(&i); // OK
__builtin_launder(im); // OK
}
void test_noexcept(int *i) {
static_assert(noexcept(__builtin_launder(i)), "");
}
#undef TEST_TYPE
} // end namespace test_launder
template<typename T> void test_builtin_complex(T v, double d) {
(void)__builtin_complex(v, d); // expected-error {{different types}} expected-error {{not a real floating}}
(void)__builtin_complex(d, v); // expected-error {{different types}} expected-error {{not a real floating}}
(void)__builtin_complex(v, v); // expected-error {{not a real floating}}
}
template void test_builtin_complex(double, double);
template void test_builtin_complex(float, double); // expected-note {{instantiation of}}
template void test_builtin_complex(int, double); // expected-note {{instantiation of}}
#ifdef __x86_64__
// This previously would cause an assertion when emitting the note diagnostic.
static void __builtin_cpu_init(); // expected-error {{static declaration of '__builtin_cpu_init' follows non-static declaration}} \
expected-note {{'__builtin_cpu_init' is a builtin with type 'void () noexcept'}}
#endif
#ifdef _MSC_VER
constexpr int x = [] {
__noop;
return 0;
}(); // expected-no-diagnostics
static_assert([] { return __noop; }() == 0);
static_assert([] { return __noop(4); }() == 0);
extern int not_accessed;
void not_called();
static_assert([] { return __noop(not_accessed *= 6); }() == 0);
static_assert([] { return __noop(not_called()); }() == 0);
static_assert([] { return __noop(throw ""); }() == 0);
static_assert([] { return __noop(throw "", throw ""); }() == 0);
static_assert([] {
int a = 5;
__noop(++a);
return a;
}() == 5);
#endif
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