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	/*
	* libev simple C++ wrapper classes
	*
	* Copyright (c) 2007,2008,2010,2018,2020 Marc Alexander Lehmann <[email protected]>
	* All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without modifica-
	* tion, are permitted provided that the following conditions are met:
	*
	* 1. Redistributions of source code must retain the above copyright notice,
	* this list of conditions and the following disclaimer.
	*
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
	* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MER-
	* CHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
	* EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPE-
	* CIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
	* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
	* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
	* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTH-
	* ERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
	* OF THE POSSIBILITY OF SUCH DAMAGE.
	*
	* Alternatively, the contents of this file may be used under the terms of
	* the GNU General Public License ("GPL") version 2 or any later version,
	* in which case the provisions of the GPL are applicable instead of
	* the above. If you wish to allow the use of your version of this file
	* only under the terms of the GPL and not to allow others to use your
	* version of this file under the BSD license, indicate your decision
	* by deleting the provisions above and replace them with the notice
	* and other provisions required by the GPL. If you do not delete the
	* provisions above, a recipient may use your version of this file under
	* either the BSD or the GPL.
	*/

	#ifndef EVPP_H__
	#define EVPP_H__

	#ifdef EV_H
	# include EV_H
	#else
	# include "ev.h"
	#endif

	#ifndef EV_USE_STDEXCEPT
	# define EV_USE_STDEXCEPT 1
	#endif

	#if EV_USE_STDEXCEPT
	# include <stdexcept>
	#endif

	namespace ev {

	typedef ev_tstamp tstamp;

	enum {
	UNDEF = EV_UNDEF,
	NONE = EV_NONE,
	READ = EV_READ,
	WRITE = EV_WRITE,
	#if EV_COMPAT3
	TIMEOUT = EV_TIMEOUT,
	#endif
	TIMER = EV_TIMER,
	PERIODIC = EV_PERIODIC,
	SIGNAL = EV_SIGNAL,
	CHILD = EV_CHILD,
	STAT = EV_STAT,
	IDLE = EV_IDLE,
	CHECK = EV_CHECK,
	PREPARE = EV_PREPARE,
	FORK = EV_FORK,
	ASYNC = EV_ASYNC,
	EMBED = EV_EMBED,
	# undef ERROR // some systems stupidly #define ERROR
	ERROR = EV_ERROR
	};

	enum
	{
	AUTO = EVFLAG_AUTO,
	NOENV = EVFLAG_NOENV,
	FORKCHECK = EVFLAG_FORKCHECK,

	SELECT = EVBACKEND_SELECT,
	POLL = EVBACKEND_POLL,
	EPOLL = EVBACKEND_EPOLL,
	KQUEUE = EVBACKEND_KQUEUE,
	DEVPOLL = EVBACKEND_DEVPOLL,
	PORT = EVBACKEND_PORT
	};

	enum
	{
	#if EV_COMPAT3
	NONBLOCK = EVLOOP_NONBLOCK,
	ONESHOT = EVLOOP_ONESHOT,
	#endif
	NOWAIT = EVRUN_NOWAIT,
	ONCE = EVRUN_ONCE
	};

	enum how_t
	{
	ONE = EVBREAK_ONE,
	ALL = EVBREAK_ALL
	};

	struct bad_loop
	#if EV_USE_STDEXCEPT
	: std::exception
	#endif
	{
	#if EV_USE_STDEXCEPT
	const char *what () const EV_NOEXCEPT
	{
	return "libev event loop cannot be initialized, bad value of LIBEV_FLAGS?";
	}
	#endif
	};

	#ifdef EV_AX
	# undef EV_AX
	#endif

	#ifdef EV_AX_
	# undef EV_AX_
	#endif

	#if EV_MULTIPLICITY
	# define EV_AX raw_loop
	# define EV_AX_ raw_loop,
	#else
	# define EV_AX
	# define EV_AX_
	#endif

	struct loop_ref
	{
	loop_ref (EV_P) EV_NOEXCEPT
	#if EV_MULTIPLICITY
	: EV_AX (EV_A)
	#endif
	{
	}

	bool operator == (const loop_ref &other) const EV_NOEXCEPT
	{
	#if EV_MULTIPLICITY
	return EV_AX == other.EV_AX;
	#else
	return true;
	#endif
	}

	bool operator != (const loop_ref &other) const EV_NOEXCEPT
	{
	#if EV_MULTIPLICITY
	return ! (*this == other);
	#else
	return false;
	#endif
	}

	#if EV_MULTIPLICITY
	bool operator == (const EV_P) const EV_NOEXCEPT
	{
	return this->EV_AX == EV_A;
	}

	bool operator != (const EV_P) const EV_NOEXCEPT
	{
	return ! (*this == EV_A);
	}

	operator struct ev_loop * () const EV_NOEXCEPT
	{
	return EV_AX;
	}

	operator const struct ev_loop * () const EV_NOEXCEPT
	{
	return EV_AX;
	}

	bool is_default () const EV_NOEXCEPT
	{
	return EV_AX == ev_default_loop (0);
	}
	#endif

	#if EV_COMPAT3
	void loop (int flags = 0)
	{
	ev_run (EV_AX_ flags);
	}

	void unloop (how_t how = ONE) EV_NOEXCEPT
	{
	ev_break (EV_AX_ how);
	}
	#endif

	void run (int flags = 0)
	{
	ev_run (EV_AX_ flags);
	}

	void break_loop (how_t how = ONE) EV_NOEXCEPT
	{
	ev_break (EV_AX_ how);
	}

	void post_fork () EV_NOEXCEPT
	{
	ev_loop_fork (EV_AX);
	}

	unsigned int backend () const EV_NOEXCEPT
	{
	return ev_backend (EV_AX);
	}

	tstamp now () const EV_NOEXCEPT
	{
	return ev_now (EV_AX);
	}

	void ref () EV_NOEXCEPT
	{
	ev_ref (EV_AX);
	}

	void unref () EV_NOEXCEPT
	{
	ev_unref (EV_AX);
	}

	#if EV_FEATURE_API
	unsigned int iteration () const EV_NOEXCEPT
	{
	return ev_iteration (EV_AX);
	}

	unsigned int depth () const EV_NOEXCEPT
	{
	return ev_depth (EV_AX);
	}

	void set_io_collect_interval (tstamp interval) EV_NOEXCEPT
	{
	ev_set_io_collect_interval (EV_AX_ interval);
	}

	void set_timeout_collect_interval (tstamp interval) EV_NOEXCEPT
	{
	ev_set_timeout_collect_interval (EV_AX_ interval);
	}
	#endif

	// function callback
	void once (int fd, int events, tstamp timeout, void (cb)(int, void ), void *arg = 0) EV_NOEXCEPT
	{
	ev_once (EV_AX_ fd, events, timeout, cb, arg);
	}

	// method callback
	template<class K, void (K::*method)(int)>
	void once (int fd, int events, tstamp timeout, K *object) EV_NOEXCEPT
	{
	once (fd, events, timeout, method_thunk<K, method>, object);
	}

	// default method == operator ()
	template<class K>
	void once (int fd, int events, tstamp timeout, K *object) EV_NOEXCEPT
	{
	once (fd, events, timeout, method_thunk<K, &K::operator ()>, object);
	}

	template<class K, void (K::*method)(int)>
	static void method_thunk (int revents, void *arg)
	{
	(static_cast<K >(arg)->method)
	(revents);
	}

	// no-argument method callback
	template<class K, void (K::*method)()>
	void once (int fd, int events, tstamp timeout, K *object) EV_NOEXCEPT
	{
	once (fd, events, timeout, method_noargs_thunk<K, method>, object);
	}

	template<class K, void (K::*method)()>
	static void method_noargs_thunk (int revents, void *arg)
	{
	(static_cast<K >(arg)->method)
	();
	}

	// simpler function callback
	template<void (*cb)(int)>
	void once (int fd, int events, tstamp timeout) EV_NOEXCEPT
	{
	once (fd, events, timeout, simpler_func_thunk<cb>);
	}

	template<void (*cb)(int)>
	static void simpler_func_thunk (int revents, void *arg)
	{
	(*cb)
	(revents);
	}

	// simplest function callback
	template<void (*cb)()>
	void once (int fd, int events, tstamp timeout) EV_NOEXCEPT
	{
	once (fd, events, timeout, simplest_func_thunk<cb>);
	}

	template<void (*cb)()>
	static void simplest_func_thunk (int revents, void *arg)
	{
	(*cb)
	();
	}

	void feed_fd_event (int fd, int revents) EV_NOEXCEPT
	{
	ev_feed_fd_event (EV_AX_ fd, revents);
	}

	void feed_signal_event (int signum) EV_NOEXCEPT
	{
	ev_feed_signal_event (EV_AX_ signum);
	}

	#if EV_MULTIPLICITY
	struct ev_loop* EV_AX;
	#endif

	};

	#if EV_MULTIPLICITY
	struct dynamic_loop : loop_ref
	{

	dynamic_loop (unsigned int flags = AUTO)
	: loop_ref (ev_loop_new (flags))
	{
	if (!EV_AX)
	throw bad_loop ();
	}

	~dynamic_loop () EV_NOEXCEPT
	{
	ev_loop_destroy (EV_AX);
	EV_AX = 0;
	}

	private:

	dynamic_loop (const dynamic_loop &);

	dynamic_loop & operator= (const dynamic_loop &);

	};
	#endif

	struct default_loop : loop_ref
	{
	default_loop (unsigned int flags = AUTO)
	#if EV_MULTIPLICITY
	: loop_ref (ev_default_loop (flags))
	#endif
	{
	if (
	#if EV_MULTIPLICITY
	!EV_AX
	#else
	!ev_default_loop (flags)
	#endif
	)
	throw bad_loop ();
	}

	private:
	default_loop (const default_loop &);
	default_loop &operator = (const default_loop &);
	};

	inline loop_ref get_default_loop () EV_NOEXCEPT
	{
	#if EV_MULTIPLICITY
	return ev_default_loop (0);
	#else
	return loop_ref ();
	#endif
	}

	#undef EV_AX
	#undef EV_AX_

	#undef EV_PX
	#undef EV_PX_
	#if EV_MULTIPLICITY
	# define EV_PX loop_ref EV_A
	# define EV_PX_ loop_ref EV_A_
	#else
	# define EV_PX
	# define EV_PX_
	#endif

	template<class ev_watcher, class watcher>
	struct base : ev_watcher
	{
	// scoped pause/unpause of a watcher
	struct freeze_guard
	{
	watcher &w;
	bool active;

	freeze_guard (watcher *self) EV_NOEXCEPT
	: w (*self), active (w.is_active ())
	{
	if (active) w.stop ();
	}

	~freeze_guard ()
	{
	if (active) w.start ();
	}
	};

	#if EV_MULTIPLICITY
	EV_PX;

	// loop set
	void set (EV_P) EV_NOEXCEPT
	{
	this->EV_A = EV_A;
	}
	#endif

	base (EV_PX) EV_NOEXCEPT
	#if EV_MULTIPLICITY
	: EV_A (EV_A)
	#endif
	{
	ev_init (this, 0);
	}

	void set_ (const void data, void (cb)(EV_P_ ev_watcher *w, int revents)) EV_NOEXCEPT
	{
	this->data = (void *)data;
	ev_set_cb (static_cast<ev_watcher *>(this), cb);
	}

	// function callback
	template<void (*function)(watcher &w, int)>
	void set (void *data = 0) EV_NOEXCEPT
	{
	set_ (data, function_thunk<function>);
	}

	template<void (*function)(watcher &w, int)>
	static void function_thunk (EV_P_ ev_watcher *w, int revents)
	{
	function
	(static_cast<watcher >(w), revents);
	}

	// method callback
	template<class K, void (K::*method)(watcher &w, int)>
	void set (K *object) EV_NOEXCEPT
	{
	set_ (object, method_thunk<K, method>);
	}

	// default method == operator ()
	template<class K>
	void set (K *object) EV_NOEXCEPT
	{
	set_ (object, method_thunk<K, &K::operator ()>);
	}

	template<class K, void (K::*method)(watcher &w, int)>
	static void method_thunk (EV_P_ ev_watcher *w, int revents)
	{
	(static_cast<K >(w->data)->method)
	(static_cast<watcher >(w), revents);
	}

	// no-argument callback
	template<class K, void (K::*method)()>
	void set (K *object) EV_NOEXCEPT
	{
	set_ (object, method_noargs_thunk<K, method>);
	}

	template<class K, void (K::*method)()>
	static void method_noargs_thunk (EV_P_ ev_watcher *w, int revents)
	{
	(static_cast<K >(w->data)->method)
	();
	}

	void operator ()(int events = EV_UNDEF)
	{
	return
	ev_cb (static_cast<ev_watcher *>(this))
	(static_cast<ev_watcher *>(this), events);
	}

	bool is_active () const EV_NOEXCEPT
	{
	return ev_is_active (static_cast<const ev_watcher *>(this));
	}

	bool is_pending () const EV_NOEXCEPT
	{
	return ev_is_pending (static_cast<const ev_watcher *>(this));
	}

	void feed_event (int revents) EV_NOEXCEPT
	{
	ev_feed_event (EV_A_ static_cast<ev_watcher *>(this), revents);
	}
	};

	inline tstamp now (EV_P) EV_NOEXCEPT
	{
	return ev_now (EV_A);
	}

	inline void delay (tstamp interval) EV_NOEXCEPT
	{
	ev_sleep (interval);
	}

	inline int version_major () EV_NOEXCEPT
	{
	return ev_version_major ();
	}

	inline int version_minor () EV_NOEXCEPT
	{
	return ev_version_minor ();
	}

	inline unsigned int supported_backends () EV_NOEXCEPT
	{
	return ev_supported_backends ();
	}

	inline unsigned int recommended_backends () EV_NOEXCEPT
	{
	return ev_recommended_backends ();
	}

	inline unsigned int embeddable_backends () EV_NOEXCEPT
	{
	return ev_embeddable_backends ();
	}

	inline void set_allocator (void (cb)(void *ptr, long size) EV_NOEXCEPT) EV_NOEXCEPT
	{
	ev_set_allocator (cb);
	}

	inline void set_syserr_cb (void (cb)(const char msg) EV_NOEXCEPT) EV_NOEXCEPT
	{
	ev_set_syserr_cb (cb);
	}

	#if EV_MULTIPLICITY
	#define EV_CONSTRUCT(cppstem,cstem) \
	(EV_PX = get_default_loop ()) EV_NOEXCEPT \
	: base<ev_ ## cstem, cppstem> (EV_A) \
	{ \
	}
	#else
	#define EV_CONSTRUCT(cppstem,cstem) \
	() EV_NOEXCEPT \
	{ \
	}
	#endif

	/* using a template here would require quite a few more lines,
	* so a macro solution was chosen */
	#define EV_BEGIN_WATCHER(cppstem,cstem) \
	\
	struct cppstem : base<ev_ ## cstem, cppstem> \
	{ \
	void start () EV_NOEXCEPT \
	{ \
	ev_ ## cstem ## _start (EV_A_ static_cast<ev_ ## cstem *>(this)); \
	} \
	\
	void stop () EV_NOEXCEPT \
	{ \
	ev_ ## cstem ## _stop (EV_A_ static_cast<ev_ ## cstem *>(this)); \
	} \
	\
	cppstem EV_CONSTRUCT(cppstem,cstem) \
	\
	~cppstem () EV_NOEXCEPT \
	{ \
	stop (); \
	} \
	\
	using base<ev_ ## cstem, cppstem>::set; \
	\
	private: \
	\
	cppstem (const cppstem &o); \
	\
	cppstem &operator =(const cppstem &o); \
	\
	public:

	#define EV_END_WATCHER(cppstem,cstem) \
	};

	EV_BEGIN_WATCHER (io, io)
	void set (int fd, int events) EV_NOEXCEPT
	{
	freeze_guard freeze (this);
	ev_io_set (static_cast<ev_io *>(this), fd, events);
	}

	void set (int events) EV_NOEXCEPT
	{
	freeze_guard freeze (this);
	ev_io_modify (static_cast<ev_io *>(this), events);
	}

	void start (int fd, int events) EV_NOEXCEPT
	{
	set (fd, events);
	start ();
	}
	EV_END_WATCHER (io, io)

	EV_BEGIN_WATCHER (timer, timer)
	void set (ev_tstamp after, ev_tstamp repeat = 0.) EV_NOEXCEPT
	{
	freeze_guard freeze (this);
	ev_timer_set (static_cast<ev_timer *>(this), after, repeat);
	}

	void start (ev_tstamp after, ev_tstamp repeat = 0.) EV_NOEXCEPT
	{
	set (after, repeat);
	start ();
	}

	void again () EV_NOEXCEPT
	{
	ev_timer_again (EV_A_ static_cast<ev_timer *>(this));
	}

	ev_tstamp remaining ()
	{
	return ev_timer_remaining (EV_A_ static_cast<ev_timer *>(this));
	}
	EV_END_WATCHER (timer, timer)

	#if EV_PERIODIC_ENABLE
	EV_BEGIN_WATCHER (periodic, periodic)
	void set (ev_tstamp at, ev_tstamp interval = 0.) EV_NOEXCEPT
	{
	freeze_guard freeze (this);
	ev_periodic_set (static_cast<ev_periodic *>(this), at, interval, 0);
	}

	void start (ev_tstamp at, ev_tstamp interval = 0.) EV_NOEXCEPT
	{
	set (at, interval);
	start ();
	}

	void again () EV_NOEXCEPT
	{
	ev_periodic_again (EV_A_ static_cast<ev_periodic *>(this));
	}
	EV_END_WATCHER (periodic, periodic)
	#endif

	#if EV_SIGNAL_ENABLE
	EV_BEGIN_WATCHER (sig, signal)
	void set (int signum) EV_NOEXCEPT
	{
	freeze_guard freeze (this);
	ev_signal_set (static_cast<ev_signal *>(this), signum);
	}

	void start (int signum) EV_NOEXCEPT
	{
	set (signum);
	start ();
	}
	EV_END_WATCHER (sig, signal)
	#endif

	#if EV_CHILD_ENABLE
	EV_BEGIN_WATCHER (child, child)
	void set (int pid, int trace = 0) EV_NOEXCEPT
	{
	freeze_guard freeze (this);
	ev_child_set (static_cast<ev_child *>(this), pid, trace);
	}

	void start (int pid, int trace = 0) EV_NOEXCEPT
	{
	set (pid, trace);
	start ();
	}
	EV_END_WATCHER (child, child)
	#endif

	#if EV_STAT_ENABLE
	EV_BEGIN_WATCHER (stat, stat)
	void set (const char *path, ev_tstamp interval = 0.) EV_NOEXCEPT
	{
	freeze_guard freeze (this);
	ev_stat_set (static_cast<ev_stat *>(this), path, interval);
	}

	void start (const char *path, ev_tstamp interval = 0.) EV_NOEXCEPT
	{
	stop ();
	set (path, interval);
	start ();
	}

	void update () EV_NOEXCEPT
	{
	ev_stat_stat (EV_A_ static_cast<ev_stat *>(this));
	}
	EV_END_WATCHER (stat, stat)
	#endif

	#if EV_IDLE_ENABLE
	EV_BEGIN_WATCHER (idle, idle)
	void set () EV_NOEXCEPT { }
	EV_END_WATCHER (idle, idle)
	#endif

	#if EV_PREPARE_ENABLE
	EV_BEGIN_WATCHER (prepare, prepare)
	void set () EV_NOEXCEPT { }
	EV_END_WATCHER (prepare, prepare)
	#endif

	#if EV_CHECK_ENABLE
	EV_BEGIN_WATCHER (check, check)
	void set () EV_NOEXCEPT { }
	EV_END_WATCHER (check, check)
	#endif

	#if EV_EMBED_ENABLE
	EV_BEGIN_WATCHER (embed, embed)
	void set_embed (struct ev_loop *embedded_loop) EV_NOEXCEPT
	{
	freeze_guard freeze (this);
	ev_embed_set (static_cast<ev_embed *>(this), embedded_loop);
	}

	void start (struct ev_loop *embedded_loop) EV_NOEXCEPT
	{
	set (embedded_loop);
	start ();
	}

	void sweep ()
	{
	ev_embed_sweep (EV_A_ static_cast<ev_embed *>(this));
	}
	EV_END_WATCHER (embed, embed)
	#endif

	#if EV_FORK_ENABLE
	EV_BEGIN_WATCHER (fork, fork)
	void set () EV_NOEXCEPT { }
	EV_END_WATCHER (fork, fork)
	#endif

	#if EV_ASYNC_ENABLE
	EV_BEGIN_WATCHER (async, async)
	void send () EV_NOEXCEPT
	{
	ev_async_send (EV_A_ static_cast<ev_async *>(this));
	}

	bool async_pending () EV_NOEXCEPT
	{
	return ev_async_pending (static_cast<ev_async *>(this));
	}
	EV_END_WATCHER (async, async)
	#endif

	#undef EV_PX
	#undef EV_PX_
	#undef EV_CONSTRUCT
	#undef EV_BEGIN_WATCHER
	#undef EV_END_WATCHER
	}

	#endif