rpcs3/Utilities/event.h

#pragma once

#include <functional>
#include <deque>
#include <list>

#include "Atomic.h"

template <typename T, T Mod = T::__state_enum_max, typename Under = std::underlying_type_t<T>>
T operator ++(T& value, int)
{
	return std::exchange(value, static_cast<T>(value < T{} || value >= Mod ? static_cast<Under>(0) : static_cast<Under>(value) + 1));
}

template <typename T, T Mod = T::__state_enum_max, typename Under = std::underlying_type_t<T>>
T operator --(T& value, int)
{
	return std::exchange(value, static_cast<T>(value <= T{} || value >= static_cast<Under>(Mod) - 1 ? static_cast<Under>(Mod) - 1 : static_cast<Under>(value) - 1));
}

template <typename T, typename CRT, std::size_t Size = static_cast<std::underlying_type_t<T>>(T::__state_enum_max)>
class state_machine
{
	using under = std::underlying_type_t<T>;
	using ftype = void(CRT::*)(T);

	atomic_t<T> m_value;

	template <std::size_t... Ind>
	static inline ftype transition_map(std::integer_sequence<std::size_t, Ind...>, T state)
	{
		// Constantly initialized list of functions
		static constexpr ftype map[Size]{&CRT::template transition<static_cast<T>(Ind)>...};

		// Unsafe table lookup (TODO)
		return map[static_cast<under>(state)];
	}

	// "Convert" variable argument to template argument
	static inline ftype transition_get(T state)
	{
		return transition_map(std::make_index_sequence<Size>(), state);
	}

public:
	constexpr state_machine()
		: m_value{T{}}
	{
	}

	constexpr state_machine(T state)
		: m_value{state}
	{
	}

	// Get current state
	T state_get() const
	{
		return m_value;
	}

	// Unconditionally set state
	void state_set(T state)
	{
		T _old = m_value.exchange(state);

		if (_old != state)
		{
			(static_cast<CRT*>(this)->*transition_get(state))(_old);
		}
	}

	// Conditionally set state (optimized)
	explicit_bool_t state_test_and_set(T expected, T state)
	{
		if (m_value == expected && m_value.compare_and_swap_test(expected, state))
		{
			(static_cast<CRT*>(this)->*transition_get(state))(expected);
			return true;
		}

		return false;
	}

	// Conditionally set state (list version)
	explicit_bool_t state_test_and_set(std::initializer_list<T> expected, T state)
	{
		T _old;

		if (m_value.atomic_op([&](T& value)
		{
			for (T x : expected)
			{
				if (value == x)
				{
					_old = std::exchange(value, state);
					return true;
				}
			}

			return false;
		}))
		{
			(static_cast<CRT*>(this)->*transition_get(state))(_old);
			return true;
		}

		return false;
	}

	// Unconditionally set next state
	void state_next()
	{
		T _old, state = m_value.op_fetch([&](T& value)
		{
			_old = value++;
		});

		(static_cast<CRT*>(this)->*transition_get(state))(_old);
	}

	// Unconditionally set previous state
	void state_prev()
	{
		T _old, state = m_value.op_fetch([&](T& value)
		{
			_old = value--;
		});

		(static_cast<CRT*>(this)->*transition_get(state))(_old);
	}

	// Get number of states
	static constexpr std::size_t size()
	{
		return Size;
	}
};

//enum class test_state
//{
//	on,
//	off,
//	la,
//
//	__state_enum_max // 3
//};
//
//struct test_machine final : state_machine<test_state, test_machine>
//{
//	template <test_state>
//	void transition(test_state old_state);
//
//	void on()
//	{
//		state_set(test_state::on);
//	}
//
//	void off()
//	{
//		state_set(test_state::off);
//	}
//
//	void test()
//	{
//		state_next();
//	}
//};
//
//template <>
//void test_machine::transition<test_state::on>(test_state)
//{
//	LOG_SUCCESS(GENERAL, "ON");
//}
//
//template <>
//void test_machine::transition<test_state::off>(test_state)
//{
//	LOG_SUCCESS(GENERAL, "OFF");
//}
//
//
//template <>
//void test_machine::transition<test_state::la>(test_state)
//{
//	on();
//	off();
//	test();
//}

enum class event_result
{
	skip,
	handled
};

class events_queue
{
	std::deque<std::function<void()>> m_queue;

public:
	/*template<typename Type>
	events_queue& operator += (event<Type> &evt)
	{
		evt.set_queue(this);
		return *this;
	}
*/
	void invoke(std::function<void()> function)
	{
		m_queue.push_back(function);
	}

	void flush()
	{
		while (!m_queue.empty())
		{
			std::function<void()> function = m_queue.front();
			function();
			m_queue.pop_front();
		}
	}
};

template<typename ...AT>
class event
{
	using func_t = std::function<event_result(AT...)>;
	using entry_t = typename std::list<func_t>::iterator;

	std::list<func_t> handlers;
	events_queue& m_queue;

public:
	event(events_queue* queue = nullptr) : m_queue(*queue)
	{
	}

	void invoke(AT... args)
	{
		m_queue.invoke(std::bind([&](AT... eargs)
		{
			for (auto &&handler : handlers)
			{
				if (handler(eargs...) == event_result::handled)
					break;
			}
		}, args...));
	}

	void operator()(AT... args)
	{
		invoke(args...);
	}

	entry_t bind(func_t func)
	{
		handlers.push_front(func);
		return handlers.begin();
	}

	template<typename T>
	entry_t bind(T *caller, event_result(T::*callback)(AT...))
	{
		return bind([=](AT... args) { return (caller->*callback)(args...); });
	}

	template<typename T>
	entry_t bind(T *caller, void(T::*callback)(AT...))
	{
		return bind([=](AT... args) { (caller->*callback)(args...); return event_result::skip; });
	}

	void unbind(entry_t entry)
	{
		handlers.erase(entry);
	}

	entry_t operator +=(func_t func)
	{
		return bind(func);
	}

	void operator -=(entry_t what)
	{
		return unbind(what);
	}
};

template<>
class event<void>
{
	using func_t = std::function<event_result()>;
	using entry_t = std::list<func_t>::iterator;

	std::list<func_t> m_listeners;
	events_queue* m_queue;

	void invoke_listeners()
	{
		for (auto &&listener : m_listeners)
		{
			if (listener() == event_result::handled)
				break;
		}
	}

public:
	event(events_queue* queue = nullptr) : m_queue(queue)
	{
	}

	void invoke()
	{
		if (m_queue)
			m_queue->invoke([=]() { invoke_listeners(); });
		else
			invoke_listeners();
	}

	void operator()()
	{
		invoke();
	}

	entry_t bind(func_t func)
	{
		m_listeners.push_front(func);
		return m_listeners.begin();
	}

	template<typename T>
	entry_t bind(T *caller, event_result(T::*callback)())
	{
		return bind([=]() { return (caller->*callback)(); });
	}

	template<typename T>
	entry_t bind(T *caller, void(T::*callback)())
	{
		return bind([=]() { (caller->*callback)(); return event_result::skip; });
	}

	void unbind(entry_t what)
	{
		m_listeners.erase(what);
	}

	entry_t operator +=(func_t func)
	{
		return bind(func);
	}

	void operator -=(entry_t what)
	{
		return unbind(what);
	}
};

class event_binder_t
{
	template<typename Type>
	class binder_impl_t
	{
		event_binder_t *m_binder;
		event<Type> *m_event;

	public:
		binder_impl_t(event_binder_t *binder, event<Type> *evt)
			: m_binder(binder)
			, m_event(evt)
		{
		}
	};

public:
	template<typename Type>
	binder_impl_t<Type> operator()(event<Type>& evt) const
	{
		return{ this, &evt };
	}
};

template<typename T>
class combined_data;

template<typename T>
class local_data
{
public:
	using type = T;

protected:
	type m_data;

	void set(type value)
	{
		m_data = value;
	}

	type get() const
	{
		return m_data;
	}

	bool equals(T value) const
	{
		return get() == value;
	}

	bool invoke_event(type value)
	{
		return false;
	}

	friend combined_data<T>;
};

template<typename T>
class combined_data
{
public:
	using type = T;

protected:
	local_data<type> m_local_data;
	std::function<void(type)> m_invoke_event_function;
	std::function<type()> m_get_function;

	bool invoke_event(type value)
	{
		if (m_invoke_event_function)
		{
			m_invoke_event_function(value);
			return true;
		}

		return false;
	}

	void set(type value)
	{
		m_local_data.set(value);
	}

	type get() const
	{
		if (m_get_function)
		{
			return m_get_function();
		}

		return m_local_data.get();
	}

	type get_local() const
	{
		return m_local_data.get();
	}

	bool equals(T value) const
	{
		return get_local() == value;
	}

public:
	void invoke_event_function(std::function<void(type)> function)
	{
		m_invoke_event_function = function;
	}

	void get_function(std::function<type()> function)
	{
		m_get_function = function;
	}
};

template<typename T, typename base_type_ = local_data<T>>
class data_event : public base_type_
{
public:
	using type = T;
	using base_type = base_type_;

protected:
	event_result dochange(type new_value)
	{
		auto old_value = get();
		base_type::set(new_value);
		onchanged(old_value);
		return event_result::handled;
	}

public:
	event<type> onchange;
	event<type> onchanged;

	data_event(events_queue *queue = nullptr)
		: onchange(queue)
		, onchanged(queue)
	{
		onchange.bind(this, &data_event::dochange);
		base_type::set({});
	}

	type get() const
	{
		return base_type::get();
	}

	type operator()() const
	{
		return get();
	}

	void change(type value, bool use_custom_invoke_event = true)
	{
		if (!base_type::equals(value))
		{
			if (!use_custom_invoke_event || !base_type::invoke_event(value))
			{
				onchange(value);
			}
		}
	}

	operator const type() const
	{
		return get();
	}

	operator type()
	{
		return get();
	}

	data_event& operator = (type value)
	{
		change(value);
		return *this;
	}

	template<typename aType> auto operator + (aType value) const { return get() + value; }
	template<typename aType> auto operator - (aType value) const { return get() - value; }
	template<typename aType> auto operator * (aType value) const { return get() * value; }
	template<typename aType> auto operator / (aType value) const { return get() / value; }
	template<typename aType> auto operator % (aType value) const { return get() % value; }
	template<typename aType> auto operator & (aType value) const { return get() & value; }
	template<typename aType> auto operator | (aType value) const { return get() | value; }
	template<typename aType> auto operator ^ (aType value) const { return get() ^ value; }

	template<typename aType> data_event& operator += (aType value) { return *this = get() + value; }
	template<typename aType> data_event& operator -= (aType value) { return *this = get() - value; }
	template<typename aType> data_event& operator *= (aType value) { return *this = get() * value; }
	template<typename aType> data_event& operator /= (aType value) { return *this = get() / value; }
	template<typename aType> data_event& operator %= (aType value) { return *this = get() % value; }
	template<typename aType> data_event& operator &= (aType value) { return *this = get() & value; }
	template<typename aType> data_event& operator |= (aType value) { return *this = get() | value; }
	template<typename aType> data_event& operator ^= (aType value) { return *this = get() ^ value; }

	data_event& operator ++()
	{
		type value = get();
		return *this = ++value;
	}

	type operator ++(int)
	{
		type value = get();
		type result = value;
		*this = value++;
		return result;
	}

	data_event& operator --()
	{
		type value = get();
		return *this = --value;
	}

	type operator --(int)
	{
		type value = get();
		type result = value;
		*this = value--;
		return result;
	}
};

struct with_event_binder
{
	event_binder_t event_binder;
};

struct test_obj
{
	void test(int)
	{
		event<int> i;
		auto it = i.bind(this, &test_obj::test);
		i(5);
		i.unbind(it);
		i(6);
	}
};