test/CodeGenCoroutines/pr59723.cpp - llvm-project/clang - Git at Google

 // This is reduced test case from https://github.com/llvm/llvm-project/issues/59723.
 // This is not a minimal reproducer intentionally to check the compiler's ability.
 // RUN: %clang_cc1 -triple x86_64-unknown-linux-gnu -std=c++20 -fcxx-exceptions\
 // RUN:     -fexceptions -O2 -emit-llvm %s -o - | FileCheck %s

 #include "Inputs/coroutine.h"

 // executor and operation base

 class bug_any_executor;

 struct bug_async_op_base
 {
 	void invoke();

 protected:

 	~bug_async_op_base() = default;
 };

 class bug_any_executor
 {
 	using op_type = bug_async_op_base;

 public:

 	virtual ~bug_any_executor() = default;

 	// removing noexcept enables clang to find that the pointer has escaped
 	virtual void post(op_type& op) noexcept = 0;

 	virtual void wait() noexcept = 0;
 };

 class bug_thread_executor : public bug_any_executor
 {

 public:

 	void start()
 	{

 	}

 	~bug_thread_executor()
 	{
 	}

 	// although this implementation is not realy noexcept due to allocation but I have a real one that is and required to be noexcept
 	virtual void post(bug_async_op_base& op) noexcept override;

 	virtual void wait() noexcept override
 	{

 	}
 };

 // task and promise

 struct bug_final_suspend_notification
 {
 	virtual std::coroutine_handle<> get_waiter() = 0;
 };

 class bug_task;

 class bug_task_promise
 {
 	friend bug_task;
 public:

 	bug_task get_return_object() noexcept;

 	constexpr std::suspend_always initial_suspend() noexcept { return {}; }

 	std::suspend_always final_suspend() noexcept
 	{
 		return {};
 	}

 	void unhandled_exception() noexcept;

 	constexpr void return_void() const noexcept {}

 	void get_result() const
 	{

 	}
 };

 template <class T, class U>
 T exchange(T &&t, U &&u) {
     T ret = t;
     t = u;
     return ret;
 }

 class bug_task
 {
 	friend bug_task_promise;
 	using handle = std::coroutine_handle<>;
 	using promise_t = bug_task_promise;

 	bug_task(handle coro, promise_t* p) noexcept : this_coro{ coro }, this_promise{ p }
 	{

 	}

 public:
 	using promise_type = bug_task_promise;

     bug_task(bug_task&& other) noexcept
 		: this_coro{ exchange(other.this_coro, nullptr) }, this_promise{ exchange(other.this_promise, nullptr) } {

 	}

 	~bug_task()
 	{
 		if (this_coro)
 			this_coro.destroy();
 	}

 	constexpr bool await_ready() const noexcept
 	{
 		return false;
 	}

 	handle await_suspend(handle waiter) noexcept
 	{
 		return this_coro;
 	}

 	void await_resume()
 	{
 		return this_promise->get_result();
 	}

 	handle this_coro;
 	promise_t* this_promise;
 };

 bug_task bug_task_promise::get_return_object() noexcept
 {
 	return { std::coroutine_handle<bug_task_promise>::from_promise(*this), this };
 }

 // spawn operation and spawner

 template<class Handler>
 class bug_spawn_op final : public bug_async_op_base, bug_final_suspend_notification
 {
 	Handler handler;
 	bug_task task_;

 public:

 	bug_spawn_op(Handler handler, bug_task&& t)
 		: handler { handler }, task_{ static_cast<bug_task&&>(t) } {}

 	virtual std::coroutine_handle<> get_waiter() override
 	{
 		handler();
 		return std::noop_coroutine();
 	}
 };

 class bug_spawner;

 struct bug_spawner_awaiter
 {
 	bug_spawner& s;
 	std::coroutine_handle<> waiter;

 	bug_spawner_awaiter(bug_spawner& s) : s{ s } {}

 	bool await_ready() const noexcept;

 	void await_suspend(std::coroutine_handle<> coro);

 	void await_resume() {}
 };

 class bug_spawner
 {
 	friend bug_spawner_awaiter;

 	struct final_handler_t
 	{
 		bug_spawner& s;

 		void operator()()
 		{
 			s.awaiter_->waiter.resume();
 		}
 	};

 public:

 	bug_spawner(bug_any_executor& ex) : ex_{ ex } {}

 	void spawn(bug_task&& t) {
 		using op_t = bug_spawn_op<final_handler_t>;
 		// move task into ptr
 		op_t* ptr = new op_t(final_handler_t{ *this }, static_cast<bug_task&&>(t));
 		++count_;
 		ex_.post(*ptr); // ptr escapes here thus task escapes but clang can't deduce that unless post() is not noexcept
 	}

 	bug_spawner_awaiter wait() noexcept { return { *this }; }

 private:
 	bug_any_executor& ex_; // if bug_thread_executor& is used instead enables clang to detect the escape of the promise
 	bug_spawner_awaiter* awaiter_ = nullptr;
 	unsigned count_ = 0;
 };

 // test case

 bug_task bug_spawned_task(int id, int inc)
 {
 	co_return;
 }

 struct A {
     A();
 };

 void throwing_fn(bug_spawner& s) {
 	s.spawn(bug_spawned_task(1, 2));
     throw A{};
 }

 // Check that the coroutine frame of bug_spawned_task are allocated from operator new.
 // CHECK: define{{.*}}@_Z11throwing_fnR11bug_spawner
 // CHECK-NOT: alloc
 // CHECK: %[[CALL:.+]] = {{.*}}@_Znwm(i64{{.*}} 24)
 // CHECK: store ptr @_Z16bug_spawned_taskii.resume, ptr %[[CALL]]
	// This is reduced test case from https://github.com/llvm/llvm-project/issues/59723.
	// This is not a minimal reproducer intentionally to check the compiler's ability.
	// RUN: %clang_cc1 -triple x86_64-unknown-linux-gnu -std=c++20 -fcxx-exceptions\
	// RUN: -fexceptions -O2 -emit-llvm %s -o - \| FileCheck %s

	#include "Inputs/coroutine.h"

	// executor and operation base

	class bug_any_executor;

	struct bug_async_op_base
	{
	void invoke();

	protected:

	~bug_async_op_base() = default;
	};

	class bug_any_executor
	{
	using op_type = bug_async_op_base;

	public:

	virtual ~bug_any_executor() = default;

	// removing noexcept enables clang to find that the pointer has escaped
	virtual void post(op_type& op) noexcept = 0;

	virtual void wait() noexcept = 0;
	};

	class bug_thread_executor : public bug_any_executor
	{

	public:

	void start()
	{

	}

	~bug_thread_executor()
	{
	}

	// although this implementation is not realy noexcept due to allocation but I have a real one that is and required to be noexcept
	virtual void post(bug_async_op_base& op) noexcept override;

	virtual void wait() noexcept override
	{

	}
	};

	// task and promise

	struct bug_final_suspend_notification
	{
	virtual std::coroutine_handle<> get_waiter() = 0;
	};

	class bug_task;

	class bug_task_promise
	{
	friend bug_task;
	public:

	bug_task get_return_object() noexcept;

	constexpr std::suspend_always initial_suspend() noexcept { return {}; }

	std::suspend_always final_suspend() noexcept
	{
	return {};
	}

	void unhandled_exception() noexcept;

	constexpr void return_void() const noexcept {}

	void get_result() const
	{

	}
	};

	template <class T, class U>
	T exchange(T &&t, U &&u) {
	T ret = t;
	t = u;
	return ret;
	}

	class bug_task
	{
	friend bug_task_promise;
	using handle = std::coroutine_handle<>;
	using promise_t = bug_task_promise;

	bug_task(handle coro, promise_t* p) noexcept : this_coro{ coro }, this_promise{ p }
	{

	}

	public:
	using promise_type = bug_task_promise;

	bug_task(bug_task&& other) noexcept
	: this_coro{ exchange(other.this_coro, nullptr) }, this_promise{ exchange(other.this_promise, nullptr) } {

	}

	~bug_task()
	{
	if (this_coro)
	this_coro.destroy();
	}

	constexpr bool await_ready() const noexcept
	{
	return false;
	}

	handle await_suspend(handle waiter) noexcept
	{
	return this_coro;
	}

	void await_resume()
	{
	return this_promise->get_result();
	}

	handle this_coro;
	promise_t* this_promise;
	};

	bug_task bug_task_promise::get_return_object() noexcept
	{
	return { std::coroutine_handle<bug_task_promise>::from_promise(*this), this };
	}

	// spawn operation and spawner

	template<class Handler>
	class bug_spawn_op final : public bug_async_op_base, bug_final_suspend_notification
	{
	Handler handler;
	bug_task task_;

	public:

	bug_spawn_op(Handler handler, bug_task&& t)
	: handler { handler }, task_{ static_cast<bug_task&&>(t) } {}

	virtual std::coroutine_handle<> get_waiter() override
	{
	handler();
	return std::noop_coroutine();
	}
	};

	class bug_spawner;

	struct bug_spawner_awaiter
	{
	bug_spawner& s;
	std::coroutine_handle<> waiter;

	bug_spawner_awaiter(bug_spawner& s) : s{ s } {}

	bool await_ready() const noexcept;

	void await_suspend(std::coroutine_handle<> coro);

	void await_resume() {}
	};

	class bug_spawner
	{
	friend bug_spawner_awaiter;

	struct final_handler_t
	{
	bug_spawner& s;

	void operator()()
	{
	s.awaiter_->waiter.resume();
	}
	};

	public:

	bug_spawner(bug_any_executor& ex) : ex_{ ex } {}

	void spawn(bug_task&& t) {
	using op_t = bug_spawn_op<final_handler_t>;
	// move task into ptr
	op_t* ptr = new op_t(final_handler_t{ *this }, static_cast<bug_task&&>(t));
	++count_;
	ex_.post(*ptr); // ptr escapes here thus task escapes but clang can't deduce that unless post() is not noexcept
	}

	bug_spawner_awaiter wait() noexcept { return { *this }; }

	private:
	bug_any_executor& ex_; // if bug_thread_executor& is used instead enables clang to detect the escape of the promise
	bug_spawner_awaiter* awaiter_ = nullptr;
	unsigned count_ = 0;
	};

	// test case

	bug_task bug_spawned_task(int id, int inc)
	{
	co_return;
	}

	struct A {
	A();
	};

	void throwing_fn(bug_spawner& s) {
	s.spawn(bug_spawned_task(1, 2));
	throw A{};
	}

	// Check that the coroutine frame of bug_spawned_task are allocated from operator new.
	// CHECK: define{{.*}}@_Z11throwing_fnR11bug_spawner
	// CHECK-NOT: alloc
	// CHECK: %[[CALL:.+]] = {{.}}@_Znwm(i64{{.}} 24)
	// CHECK: store ptr @_Z16bug_spawned_taskii.resume, ptr %[[CALL]]