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llvm-project/clang/test/SemaCXX/builtins.cpp
Richard Smith b3f6e3d6d6 Improve recovery from invalid template-ids. 
Instead of bailing out of parsing when we encounter an invalid
template-name or template arguments in a template-id, produce an
annotation token describing the invalid construct.

This avoids duplicate errors and generally allows us to recover better.
In principle we should be able to extend this to store some kinds of
invalid template-id in the AST for tooling use, but that isn't handled
as part of this change.
2020-03-27 17:11:04 -07:00

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// RUN: %clang_cc1 %s -fsyntax-only -verify -std=c++11 -fcxx-exceptions
// RUN: %clang_cc1 %s -fsyntax-only -verify -std=c++1z -fcxx-exceptions
typedef const struct __CFString * CFStringRef;
#define CFSTR __builtin___CFStringMakeConstantString
void f() {
(void)CFStringRef(CFSTR("Hello"));
}
void a() { __builtin_va_list x, y; ::__builtin_va_copy(x, y); }
// <rdar://problem/10063539>
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}}
}
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_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 {{declared here}}
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 'test_launder::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
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