// RUN: %clang_cc1 -std=c++2a -verify %s
namespace usage_invalid {
// FIXME: Should we diagnose a void return type?
void voidreturn(int ¶m [[clang::lifetimebound]]);
int *not_class_member() [[clang::lifetimebound]]; // expected-error {{non-member function has no implicit object parameter}}
struct A {
A() [[clang::lifetimebound]]; // expected-error {{cannot be applied to a constructor}}
~A() [[clang::lifetimebound]]; // expected-error {{cannot be applied to a destructor}}
static int *static_class_member() [[clang::lifetimebound]]; // expected-error {{static member function has no implicit object parameter}}
int not_function [[clang::lifetimebound]]; // expected-error {{only applies to parameters and implicit object parameters}}
int [[clang::lifetimebound]] also_not_function; // expected-error {{cannot be applied to types}}
};
int *attr_with_param(int ¶m [[clang::lifetimebound(42)]]); // expected-error {{takes no arguments}}
}
namespace usage_ok {
struct IntRef { int *target; };
int &refparam(int ¶m [[clang::lifetimebound]]);
int &classparam(IntRef param [[clang::lifetimebound]]);
// Do not diagnose non-void return types; they can still be lifetime-bound.
long long ptrintcast(int ¶m [[clang::lifetimebound]]) {
return (long long)¶m;
}
// Likewise.
int &intptrcast(long long param [[clang::lifetimebound]]) {
return *(int*)param;
}
struct A {
A();
A(int);
int *class_member() [[clang::lifetimebound]];
operator int*() [[clang::lifetimebound]];
};
int *p = A().class_member(); // expected-warning {{temporary whose address is used as value of local variable 'p' will be destroyed at the end of the full-expression}}
int *q = A(); // expected-warning {{temporary whose address is used as value of local variable 'q' will be destroyed at the end of the full-expression}}
int *r = A(1); // expected-warning {{temporary whose address is used as value of local variable 'r' will be destroyed at the end of the full-expression}}
}
# 1 "<std>" 1 3
namespace std {
using size_t = __SIZE_TYPE__;
struct string {
string();
string(const char*);
char &operator[](size_t) const [[clang::lifetimebound]];
};
string operator""s(const char *, size_t);
struct string_view {
string_view();
string_view(const char *p [[clang::lifetimebound]]);
string_view(const string &s [[clang::lifetimebound]]);
};
string_view operator""sv(const char *, size_t);
struct vector {
int *data();
size_t size();
};
template<typename K, typename V> struct map {};
}
# 68 "attr-lifetimebound.cpp" 2
using std::operator""s;
using std::operator""sv;
namespace p0936r0_examples {
std::string_view s = "foo"s; // expected-warning {{temporary}}
std::string operator+(std::string_view s1, std::string_view s2);
void f() {
std::string_view sv = "hi";
std::string_view sv2 = sv + sv; // expected-warning {{temporary}}
sv2 = sv + sv; // FIXME: can we infer that we should warn here too?
}
struct X { int a, b; };
const int &f(const X &x [[clang::lifetimebound]]) { return x.a; }
const int &r = f(X()); // expected-warning {{temporary}}
char &c = std::string("hello my pretty long strong")[0]; // expected-warning {{temporary}}
struct reversed_range {
int *begin();
int *end();
int *p;
std::size_t n;
};
template <typename R> reversed_range reversed(R &&r [[clang::lifetimebound]]) {
return reversed_range{r.data(), r.size()};
}
std::vector make_vector();
void use_reversed_range() {
// FIXME: Don't expose the name of the internal range variable.
for (auto x : reversed(make_vector())) {} // expected-warning {{temporary implicitly bound to local reference will be destroyed at the end of the full-expression}}
}
template <typename K, typename V>
const V &findOrDefault(const std::map<K, V> &m [[clang::lifetimebound]],
const K &key,
const V &defvalue [[clang::lifetimebound]]);
// FIXME: Maybe weaken the wording here: "local reference 'v' could bind to temporary that will be destroyed at end of full-expression"?
std::map<std::string, std::string> m;
const std::string &v = findOrDefault(m, "foo"s, "bar"s); // expected-warning {{temporary bound to local reference 'v'}}
}