delight/src/io/events.d

module io.events;

import std.socket;
import std.outofmemory;

private struct evloop {
}

private struct ev_io {
}

enum Event {
	NONE = 0,
	READ = 1,
	WRITE = 2,
	TIMEOUT = 4,
	ERROR = 128,
}

private extern (C) void ioev_event_callback(Watcher watcher, int revents) {
	watcher.callback(revents);
}

private extern (C) evloop* ioev_ev_default_loop(uint flags); /* is a inline function... */
private extern (C) evloop* ev_loop_new(uint flags);
private extern (C) void ev_default_destroy(evloop *loop);
private extern (C) void ev_loop_destroy(evloop *loop);
private extern (C) void ev_loop(evloop *loop, int flags);

private extern (C) void ev_io_start(evloop *loop, ev_io *w);
private extern (C) void ev_io_stop(evloop *loop, ev_io *w);

private extern (C) ev_io* ioev_io_watcher_new(Watcher watcher);
private extern (C) void ioev_io_watcher_free(ev_io *w);
private extern (C) void ioev_io_set(ev_io *w, int fd, int events);

class Watcher {
	protected Loop m_cur_loop = null;
	protected bool m_active = false;

	protected final Loop loop(Loop l) {
		if (m_cur_loop is l) return l;
		if (m_cur_loop !is null) stop();
		return m_cur_loop = l;
	}

	~this() {
		loop = null;
	}

	abstract void callback(int revents);
	abstract protected void do_start();
	abstract protected void do_stop();
	
	final public Loop loop() {
		return m_cur_loop;
	}
	
	final public void start(Loop l) {
		if (l is null) throw new Exception("Cannot start on null loop");
		loop = l;
		do_start();
		m_active = true;
	}

	final public void start() {
		start(m_cur_loop);
	}

	final public void stop() {
		if (!m_active) return;
		if (m_cur_loop !is null && m_cur_loop.loop !is null)
			do_stop();
		m_active = false;
	}
}

class IOWatcher : Watcher {
	private ev_io *m_w;
	private Socket m_socket;
	private Event m_events;
	private int m_fd = -1;

	void delegate() read, write, error;

	this() {
		m_w = ioev_io_watcher_new(this);
		if (m_w is null) throw new OutOfMemoryException;
	}
	~this() {
		ioev_io_watcher_free(m_w);
	}

	override final void callback(int revents) {
		if (revents & Event.READ) read();
		if (revents & Event.WRITE) write();
		if (revents & Event.ERROR) error();
	}

	private final void set(int fd, int ev) {
		bool active = m_active;
		stop();
		m_fd = fd; m_events = cast(Event)(ev);
		ioev_io_set(m_w, m_fd, m_events);
		if (active) start();
	}

	final Socket socket(Socket s) {
		m_socket = s;
		if (m_fd != s.handle)
			set(s.handle, m_events);
		return m_socket;
	}

	final Event events() { return m_events; }

	final Event events(int ev) {
		if (m_events != ev) set(m_fd, ev);
		return m_events;
	}

	final void events(bool waitForRead, bool waitForWrite) {
		Event ev = Event.NONE;
		if (waitForRead) ev = ev | Event.READ;
		if (waitForWrite) ev = ev | Event.WRITE;
		events(ev);
	}

	override final protected void do_start() {
		ev_io_start(loop.loop, m_w);
	}
	
	override final protected void do_stop() {
		ev_io_stop(loop.loop, m_w);
	}
}

class Loop {
	protected evloop* loop;
	private bool default_loop;
	
	private static Loop def = null;

	private this(evloop* loop) {
		this.loop = loop;
		default_loop = true;
	}

	static synchronized Loop defaultloop() {
		if (def !is null) return def;
		evloop* l = ioev_ev_default_loop(0);
		if (l is null) throw new Exception("ev_default_loop failed");
		def = new Loop(l);
		return def;
	}

	this() {
		default_loop = false;
		loop = ev_loop_new(0);
		if (loop is null) throw new Exception("ev_loop_new failed");
	}

	~this() {
		if (loop !is null) {
			if (default_loop) {
				ev_default_destroy(loop);
			} else {
				ev_loop_destroy(loop);
			}
		}
	}
	
	final void run() {
		ev_loop(loop, 0);
	}
}