// RUN: %clang_cc1 -triple=x86_64-linux-gnu -emit-llvm -o - %s | FileCheck %s
// Builtins inside a namespace inside an extern "C" must be considered builtins.
extern "C" {
namespace X {
double __builtin_fabs(double);
float __builtin_fabsf(float) noexcept;
} // namespace X
}
int o = X::__builtin_fabs(-2.0);
// CHECK: @o ={{.*}} global i32 2, align 4
long p = X::__builtin_fabsf(-3.0f);
// CHECK: @p ={{.*}} global i64 3, align 8
// PR8839
extern "C" char memmove();
int main() {
// CHECK: call {{signext i8|i8}} @memmove()
return memmove();
}
struct S;
// CHECK: define {{.*}} @_Z9addressofbR1SS0_(
S *addressof(bool b, S &s, S &t) {
// CHECK: %[[LVALUE:.*]] = phi
// CHECK: ret ptr %[[LVALUE]]
return __builtin_addressof(b ? s : t);
}
namespace std { template<typename T> T *addressof(T &); }
// CHECK: define {{.*}} @_Z13std_addressofbR1SS0_(
S *std_addressof(bool b, S &s, S &t) {
// CHECK: %[[LVALUE:.*]] = phi
// CHECK: ret ptr %[[LVALUE]]
return std::addressof(b ? s : t);
}
namespace std { template<typename T> T *__addressof(T &); }
// CHECK: define {{.*}} @_Z15std___addressofbR1SS0_(
S *std___addressof(bool b, S &s, S &t) {
// CHECK: %[[LVALUE:.*]] = phi
// CHECK: ret ptr %[[LVALUE]]
return std::__addressof(b ? s : t);
}
extern "C" int __builtin_abs(int); // #1
long __builtin_abs(long); // #2
extern "C" int __builtin_abs(int); // #3
int x = __builtin_abs(-2);
// CHECK: [[X:%.+]] = call i32 @llvm.abs.i32(i32 -2, i1 true)
// CHECK-NEXT: store i32 [[X]], ptr @x, align 4
long y = __builtin_abs(-2l);
// CHECK: [[Y:%.+]] = call noundef i64 @_Z13__builtin_absl(i64 noundef -2)
// CHECK: store i64 [[Y]], ptr @y, align 8
extern const char char_memchr_arg[32];
char *memchr_result = __builtin_char_memchr(char_memchr_arg, 123, 32);
// CHECK: call ptr @memchr(ptr noundef @char_memchr_arg, i32 noundef 123, i64 noundef 32)
int constexpr_overflow_result() {
constexpr int x = 1;
// CHECK: alloca i32
constexpr int y = 2;
// CHECK: alloca i32
int z;
// CHECK: [[Z:%.+]] = alloca i32
__builtin_sadd_overflow(x, y, &z);
return z;
// CHECK: [[RET_PTR:%.+]] = extractvalue { i32, i1 } %0, 0
// CHECK: store i32 [[RET_PTR]], ptr [[Z]]
// CHECK: [[RET_VAL:%.+]] = load i32, ptr [[Z]]
// CHECK: ret i32 [[RET_VAL]]
}