// RUN: %clang_cc1 -triple x86_64-apple-darwin9 %s -std=c++20 -fsyntax-only -verify -Wall -Wextra -Wno-c++23-lambda-attributes
#include "Inputs/std-coroutine.h"
using std::suspend_always;
using std::suspend_never;
namespace std {
struct nothrow_t {};
constexpr nothrow_t nothrow = {};
}
using SizeT = decltype(sizeof(int));
void* operator new(SizeT __sz, const std::nothrow_t&) noexcept;
template <typename T> struct [[clang::coro_return_type]] Gen {
struct promise_type {
Gen<T> get_return_object() {
return {};
}
static Gen<T> get_return_object_on_allocation_failure() {
return {};
}
suspend_always initial_suspend();
suspend_always final_suspend() noexcept;
void unhandled_exception();
void return_value(T t);
template <typename U>
auto await_transform(const Gen<U> &) {
struct awaitable {
bool await_ready() noexcept { return false; }
void await_suspend(std::coroutine_handle<>) noexcept {}
U await_resume() noexcept { return {}; }
};
return awaitable{};
}
};
};
Gen<int> foo_coro(int b);
Gen<int> foo_coro(int b) { co_return b; }
[[clang::coro_wrapper]] Gen<int> marked_wrapper1(int b) { return foo_coro(b); }
// expected-error@+1 {{neither a coroutine nor a coroutine wrapper}}
Gen<int> non_marked_wrapper(int b) { return foo_coro(b); }
namespace using_decl {
template <typename T> using Co = Gen<T>;
[[clang::coro_wrapper]] Co<int> marked_wrapper1(int b) { return foo_coro(b); }
// expected-error@+1 {{neither a coroutine nor a coroutine wrapper}}
Co<int> non_marked_wrapper(int b) { return foo_coro(b); }
} // namespace using_decl
namespace lambdas {
void foo() {
auto coro_lambda = []() -> Gen<int> {
co_return 1;
};
// expected-error@+1 {{neither a coroutine nor a coroutine wrapper}}
auto not_allowed_wrapper = []() -> Gen<int> {
return foo_coro(1);
};
auto allowed_wrapper = [] [[clang::coro_wrapper]] () -> Gen<int> {
return foo_coro(1);
};
}
Gen<int> coro_containing_lambda() {
// expected-error@+1 {{neither a coroutine nor a coroutine wrapper}}
auto wrapper_lambda = []() -> Gen<int> {
return foo_coro(1);
};
co_return co_await wrapper_lambda();
}
} // namespace lambdas
namespace std_function {
namespace std {
template <typename> class function;
template <typename ReturnValue, typename... Args>
class function<ReturnValue(Args...)> {
public:
template <typename T> function &operator=(T) {}
template <typename T> function(T) {}
// expected-error@+1 {{neither a coroutine nor a coroutine wrapper}}
ReturnValue operator()(Args... args) const {
return callable_->Invoke(args...); // expected-note {{in instantiation of member}}
}
private:
class Callable {
public:
// expected-error@+1 {{neither a coroutine nor a coroutine wrapper}}
ReturnValue Invoke(Args...) const { return {}; }
};
Callable* callable_;
};
} // namespace std
void use_std_function() {
std::function<int(bool)> foo = [](bool b) { return b ? 1 : 2; };
// expected-error@+1 {{neither a coroutine nor a coroutine wrapper}}
std::function<Gen<int>(bool)> test1 = [](bool b) {
return foo_coro(b);
};
std::function<Gen<int>(bool)> test2 = [](bool) -> Gen<int> {
co_return 1;
};
std::function<Gen<int>(bool)> test3 = foo_coro;
foo(true); // Fine.
test1(true); // expected-note 2 {{in instantiation of member}}
test2(true);
test3(true);
}
} // namespace std_function
// different_promise_type
class [[clang::coro_return_type]] Task{};
struct my_promise_type {
Task get_return_object() {
return {};
}
suspend_always initial_suspend();
suspend_always final_suspend() noexcept;
void unhandled_exception();
};
namespace std {
template<> class coroutine_traits<Task, int> {
using promise_type = my_promise_type;
};
} // namespace std
// expected-error@+1 {{neither a coroutine nor a coroutine wrapper}}
Task foo(int) { return Task{}; }