thirdparty/civetweb-1.9.1/src/third_party/duktape-1.5.2/examples/eventloop/ecma_eventloop.js - nifi-minifi-cpp - Git at Google

 /*
  *  Pure Ecmascript eventloop example.
  *
  *  Timer state handling is inefficient in this trivial example.  Timers are
  *  kept in an array sorted by their expiry time which works well for expiring
  *  timers, but has O(n) insertion performance.  A better implementation would
  *  use a heap or some other efficient structure for managing timers so that
  *  all operations (insert, remove, get nearest timer) have good performance.
  *
  *  https://developer.mozilla.org/en-US/docs/Web/JavaScript/Timers
  */

 /*
  *  Event loop
  *
  *  Timers are sorted by 'target' property which indicates expiry time of
  *  the timer.  The timer expiring next is last in the array, so that
  *  removals happen at the end, and inserts for timers expiring in the
  *  near future displace as few elements in the array as possible.
  */

 EventLoop = {
     // timers
     timers: [],         // active timers, sorted (nearest expiry last)
     expiring: null,     // set to timer being expired (needs special handling in clearTimeout/clearInterval)
     nextTimerId: 1,
     minimumDelay: 1,
     minimumWait: 1,
     maximumWait: 60000,
     maxExpirys: 10,

     // sockets
     socketListening: {},  // fd -> callback
     socketReading: {},    // fd -> callback
     socketConnecting: {}, // fd -> callback

     // misc
     exitRequested: false
 };

 EventLoop.dumpState = function() {
     print('TIMER STATE:');
     this.timers.forEach(function(t) {
         print('    ' + Duktape.enc('jx', t));
     });
     if (this.expiring) {
         print('    EXPIRING: ' + Duktape.enc('jx', this.expiring));
     }
 }

 // Get timer with lowest expiry time.  Since the active timers list is
 // sorted, it's always the last timer.
 EventLoop.getEarliestTimer = function() {
     var timers = this.timers;
     n = timers.length;
     return (n > 0 ? timers[n - 1] : null);
 }

 EventLoop.getEarliestWait = function() {
     var t = this.getEarliestTimer();
     return (t ? t.target - Date.now() : null);
 }

 EventLoop.insertTimer = function(timer) {
     var timers = this.timers;
     var i, n, t;

     /*
      *  Find 'i' such that we want to insert *after* timers[i] at index i+1.
      *  If no such timer, for-loop terminates with i-1, and we insert at -1+1=0.
      */

     n = timers.length;
     for (i = n - 1; i >= 0; i--) {
         t = timers[i];
         if (timer.target <= t.target) {
             // insert after 't', to index i+1
             break;
         }
     }

     timers.splice(i + 1 /*start*/, 0 /*deleteCount*/, timer);
 }

 // Remove timer/interval with a timer ID.  The timer/interval can reside
 // either on the active list or it may be an expired timer (this.expiring)
 // whose user callback we're running when this function gets called.
 EventLoop.removeTimerById = function(timer_id) {
     var timers = this.timers;
     var i, n, t;

     t = this.expiring;
     if (t) {
         if (t.id === timer_id) {
             // Timer has expired and we're processing its callback.  User
             // callback has requested timer deletion.  Mark removed, so
             // that the timer is not reinserted back into the active list.
             // This is actually a common case because an interval may very
             // well cancel itself.
             t.removed = true;
             return;
         }
     }

     n = timers.length;
     for (i = 0; i < n; i++) {
         t = timers[i];
         if (t.id === timer_id) {
             // Timer on active list: mark removed (not really necessary, but
             // nice for dumping), and remove from active list.
             t.removed = true;
             this.timers.splice(i /*start*/, 1 /*deleteCount*/);
             return;
         }
     }

    // no such ID, ignore
 }

 EventLoop.processTimers = function() {
     var now = Date.now();
     var timers = this.timers;
     var sanity = this.maxExpirys;
     var n, t;

     /*
      *  Here we must be careful with mutations: user callback may add and
      *  delete an arbitrary number of timers.
      *
      *  Current solution is simple: check whether the timer at the end of
      *  the list has expired.  If not, we're done.  If it has expired,
      *  remove it from the active list, record it in this.expiring, and call
      *  the user callback.  If user code deletes the this.expiring timer,
      *  there is special handling which just marks the timer deleted so
      *  it won't get inserted back into the active list.
      *
      *  This process is repeated at most maxExpirys times to ensure we don't
      *  get stuck forever; user code could in principle add more and more
      *  already expired timers.
      */

     while (sanity-- > 0) {
         // If exit requested, don't call any more callbacks.  This allows
         // a callback to do cleanups and request exit, and can be sure that
         // no more callbacks are processed.

         if (this.exitRequested) {
             //print('exit requested, exit');
             break;
         }

         // Timers to expire?

         n = timers.length;
         if (n <= 0) {
             break;
         }
         t = timers[n - 1];
         if (now <= t.target) {
             // Timer has not expired, and no other timer could have expired
             // either because the list is sorted.
             break;
         }
         timers.pop();

         // Remove the timer from the active list and process it.  The user
         // callback may add new timers which is not a problem.  The callback
         // may also delete timers which is not a problem unless the timer
         // being deleted is the timer whose callback we're running; this is
         // why the timer is recorded in this.expiring so that clearTimeout()
         // and clearInterval() can detect this situation.

         if (t.oneshot) {
             t.removed = true;  // flag for removal
         } else {
             t.target = now + t.delay;
         }
         this.expiring = t;
         try {
             t.cb();
         } catch (e) {
             print('timer callback failed, ignored: ' + e);
         }
         this.expiring = null;

         // If the timer was one-shot, it's marked 'removed'.  If the user callback
         // requested deletion for the timer, it's also marked 'removed'.  If the
         // timer is an interval (and is not marked removed), insert it back into
         // the timer list.

         if (!t.removed) {
             // Reinsert interval timer to correct sorted position.  The timer
             // must be an interval timer because one-shot timers are marked
             // 'removed' above.
             this.insertTimer(t);
         }
     }
 }

 EventLoop.run = function() {
     var wait;
     var POLLIN = Poll.POLLIN;
     var POLLOUT = Poll.POLLOUT;
     var poll_set;
     var poll_count;
     var fd;
     var t, rev;
     var rc;
     var acc_res;

     for (;;) {
         /*
          *  Process expired timers.
          */

         this.processTimers();
         //this.dumpState();

         /*
          *  Exit check (may be requested by a user callback)
          */

         if (this.exitRequested) {
             //print('exit requested, exit');
             break;
         }

         /*
          *  Create poll socket list.  This is a very naive approach.
          *  On Linux, one could use e.g. epoll() and manage socket lists
          *  incrementally.
          */

         poll_set = {};
         poll_count = 0;
         for (fd in this.socketListening) {
             poll_set[fd] = { events: POLLIN, revents: 0 };
             poll_count++;
         }
         for (fd in this.socketReading) {
             poll_set[fd] = { events: POLLIN, revents: 0 };
             poll_count++;
         }
         for (fd in this.socketConnecting) {
             poll_set[fd] = { events: POLLOUT, revents: 0 };
             poll_count++;
         }
         //print(new Date(), 'poll_set IN:', Duktape.enc('jx', poll_set));

         /*
          *  Wait timeout for timer closest to expiry.  Since the poll
          *  timeout is relative, get this as close to poll() as possible.
          */

         wait = this.getEarliestWait();
         if (wait === null) {
             if (poll_count === 0) {
                 print('no active timers and no sockets to poll, exit');
                 break;
             } else {
                 wait = this.maximumWait;
             }
         } else {
             wait = Math.min(this.maximumWait, Math.max(this.minimumWait, wait));
         }

         /*
          *  Do the actual poll.
          */

         try {
             Poll.poll(poll_set, wait);
         } catch (e) {
             // Eat errors silently.  When resizing curses window an EINTR
             // happens now.
         }

         /*
          *  Process all sockets so that nothing is left unhandled for the
          *  next round.
          */

         //print(new Date(), 'poll_set OUT:', Duktape.enc('jx', poll_set));
         for (fd in poll_set) {
             t = poll_set[fd];
             rev = t.revents;

             if (rev & POLLIN) {
                 cb = this.socketReading[fd];
                 if (cb) {
                     data = Socket.read(fd);  // no size control now
                     //print('READ', Duktape.enc('jx', data));
                     if (data.length === 0) {
                         //print('zero read for fd ' + fd + ', closing forcibly');
                         rc = Socket.close(fd);  // ignore result
                         delete this.socketListening[fd];
                         delete this.socketReading[fd];
                     } else {
                         cb(fd, data);
                     }
                 } else {
                     cb = this.socketListening[fd];
                     if (cb) {
                         acc_res = Socket.accept(fd);
                         //print('ACCEPT:', Duktape.enc('jx', acc_res));
                         cb(acc_res.fd, acc_res.addr, acc_res.port);
                     } else {
                         //print('UNKNOWN');
                     }
                 }
             }

             if (rev & POLLOUT) {
                 cb = this.socketConnecting[fd];
                 if (cb) {
                     delete this.socketConnecting[fd];
                     cb(fd);
                 } else {
                     //print('UNKNOWN POLLOUT');
                 }
             }

             if ((rev & ~(POLLIN | POLLOUT)) !== 0) {
                 //print('revents ' + t.revents + ' for fd ' + fd + ', closing forcibly');
                 rc = Socket.close(fd);  // ignore result
                 delete this.socketListening[fd];
                 delete this.socketReading[fd];
             }
         }
     }
 }

 EventLoop.requestExit = function() {
     this.exitRequested = true;
 }

 EventLoop.server = function(address, port, cb_accepted) {
     var fd = Socket.createServerSocket(address, port);
     this.socketListening[fd] = cb_accepted;
 }

 EventLoop.connect = function(address, port, cb_connected) {
     var fd = Socket.connect(address, port);
     this.socketConnecting[fd] = cb_connected;
 }

 EventLoop.close = function(fd) {
     delete this.socketReading[fd];
     delete this.socketListening[fd];
 }

 EventLoop.setReader = function(fd, cb_read) {
     this.socketReading[fd] = cb_read;
 }

 EventLoop.write = function(fd, data) {
     // This simple example doesn't have support for write blocking / draining
     var rc = Socket.write(fd, Duktape.Buffer(data));
 }

 /*
  *  Timer API
  *
  *  These interface with the singleton EventLoop.
  */

 function setTimeout(func, delay) {
     var cb_func;
     var bind_args;
     var timer_id;
     var evloop = EventLoop;

     if (typeof delay !== 'number') {
         throw new TypeError('delay is not a number');
     }
     delay = Math.max(evloop.minimumDelay, delay);

     if (typeof func === 'string') {
         // Legacy case: callback is a string.
         cb_func = eval.bind(this, func);
     } else if (typeof func !== 'function') {
         throw new TypeError('callback is not a function/string');
     } else if (arguments.length > 2) {
         // Special case: callback arguments are provided.
         bind_args = Array.prototype.slice.call(arguments, 2);  // [ arg1, arg2, ... ]
         bind_args.unshift(this);  // [ global(this), arg1, arg2, ... ]
         cb_func = func.bind.apply(func, bind_args);
     } else {
         // Normal case: callback given as a function without arguments.
         cb_func = func;
     }

     timer_id = evloop.nextTimerId++;

     evloop.insertTimer({
         id: timer_id,
         oneshot: true,
         cb: cb_func,
         delay: delay,
         target: Date.now() + delay
     });

     return timer_id;
 }

 function clearTimeout(timer_id) {
     var evloop = EventLoop;

     if (typeof timer_id !== 'number') {
         throw new TypeError('timer ID is not a number');
     }
     evloop.removeTimerById(timer_id);
 }

 function setInterval(func, delay) {
     var cb_func;
     var bind_args;
     var timer_id;
     var evloop = EventLoop;

     if (typeof delay !== 'number') {
         throw new TypeError('delay is not a number');
     }
     delay = Math.max(evloop.minimumDelay, delay);

     if (typeof func === 'string') {
         // Legacy case: callback is a string.
         cb_func = eval.bind(this, func);
     } else if (typeof func !== 'function') {
         throw new TypeError('callback is not a function/string');
     } else if (arguments.length > 2) {
         // Special case: callback arguments are provided.
         bind_args = Array.prototype.slice.call(arguments, 2);  // [ arg1, arg2, ... ]
         bind_args.unshift(this);  // [ global(this), arg1, arg2, ... ]
         cb_func = func.bind.apply(func, bind_args);
     } else {
         // Normal case: callback given as a function without arguments.
         cb_func = func;
     }

     timer_id = evloop.nextTimerId++;

     evloop.insertTimer({
         id: timer_id,
         oneshot: false,
         cb: cb_func,
         delay: delay,
         target: Date.now() + delay
     });

     return timer_id;
 }

 function clearInterval(timer_id) {
     var evloop = EventLoop;

     if (typeof timer_id !== 'number') {
         throw new TypeError('timer ID is not a number');
     }
     evloop.removeTimerById(timer_id);
 }

 /* custom call */
 function requestEventLoopExit() {
     EventLoop.requestExit();
 }
	/*
	* Pure Ecmascript eventloop example.
	*
	* Timer state handling is inefficient in this trivial example. Timers are
	* kept in an array sorted by their expiry time which works well for expiring
	* timers, but has O(n) insertion performance. A better implementation would
	* use a heap or some other efficient structure for managing timers so that
	* all operations (insert, remove, get nearest timer) have good performance.
	*
	* https://developer.mozilla.org/en-US/docs/Web/JavaScript/Timers
	*/

	/*
	* Event loop
	*
	* Timers are sorted by 'target' property which indicates expiry time of
	* the timer. The timer expiring next is last in the array, so that
	* removals happen at the end, and inserts for timers expiring in the
	* near future displace as few elements in the array as possible.
	*/

	EventLoop = {
	// timers
	timers: [], // active timers, sorted (nearest expiry last)
	expiring: null, // set to timer being expired (needs special handling in clearTimeout/clearInterval)
	nextTimerId: 1,
	minimumDelay: 1,
	minimumWait: 1,
	maximumWait: 60000,
	maxExpirys: 10,

	// sockets
	socketListening: {}, // fd -> callback
	socketReading: {}, // fd -> callback
	socketConnecting: {}, // fd -> callback

	// misc
	exitRequested: false
	};

	EventLoop.dumpState = function() {
	print('TIMER STATE:');
	this.timers.forEach(function(t) {
	print(' ' + Duktape.enc('jx', t));
	});
	if (this.expiring) {
	print(' EXPIRING: ' + Duktape.enc('jx', this.expiring));
	}
	}

	// Get timer with lowest expiry time. Since the active timers list is
	// sorted, it's always the last timer.
	EventLoop.getEarliestTimer = function() {
	var timers = this.timers;
	n = timers.length;
	return (n > 0 ? timers[n - 1] : null);
	}

	EventLoop.getEarliestWait = function() {
	var t = this.getEarliestTimer();
	return (t ? t.target - Date.now() : null);
	}

	EventLoop.insertTimer = function(timer) {
	var timers = this.timers;
	var i, n, t;

	/*
	* Find 'i' such that we want to insert after timers[i] at index i+1.
	* If no such timer, for-loop terminates with i-1, and we insert at -1+1=0.
	*/

	n = timers.length;
	for (i = n - 1; i >= 0; i--) {
	t = timers[i];
	if (timer.target <= t.target) {
	// insert after 't', to index i+1
	break;
	}
	}

	timers.splice(i + 1 /start/, 0 /deleteCount/, timer);
	}

	// Remove timer/interval with a timer ID. The timer/interval can reside
	// either on the active list or it may be an expired timer (this.expiring)
	// whose user callback we're running when this function gets called.
	EventLoop.removeTimerById = function(timer_id) {
	var timers = this.timers;
	var i, n, t;

	t = this.expiring;
	if (t) {
	if (t.id === timer_id) {
	// Timer has expired and we're processing its callback. User
	// callback has requested timer deletion. Mark removed, so
	// that the timer is not reinserted back into the active list.
	// This is actually a common case because an interval may very
	// well cancel itself.
	t.removed = true;
	return;
	}
	}

	n = timers.length;
	for (i = 0; i < n; i++) {
	t = timers[i];
	if (t.id === timer_id) {
	// Timer on active list: mark removed (not really necessary, but
	// nice for dumping), and remove from active list.
	t.removed = true;
	this.timers.splice(i /start/, 1 /deleteCount/);
	return;
	}
	}

	// no such ID, ignore
	}

	EventLoop.processTimers = function() {
	var now = Date.now();
	var timers = this.timers;
	var sanity = this.maxExpirys;
	var n, t;

	/*
	* Here we must be careful with mutations: user callback may add and
	* delete an arbitrary number of timers.
	*
	* Current solution is simple: check whether the timer at the end of
	* the list has expired. If not, we're done. If it has expired,
	* remove it from the active list, record it in this.expiring, and call
	* the user callback. If user code deletes the this.expiring timer,
	* there is special handling which just marks the timer deleted so
	* it won't get inserted back into the active list.
	*
	* This process is repeated at most maxExpirys times to ensure we don't
	* get stuck forever; user code could in principle add more and more
	* already expired timers.
	*/

	while (sanity-- > 0) {
	// If exit requested, don't call any more callbacks. This allows
	// a callback to do cleanups and request exit, and can be sure that
	// no more callbacks are processed.

	if (this.exitRequested) {
	//print('exit requested, exit');
	break;
	}

	// Timers to expire?

	n = timers.length;
	if (n <= 0) {
	break;
	}
	t = timers[n - 1];
	if (now <= t.target) {
	// Timer has not expired, and no other timer could have expired
	// either because the list is sorted.
	break;
	}
	timers.pop();

	// Remove the timer from the active list and process it. The user
	// callback may add new timers which is not a problem. The callback
	// may also delete timers which is not a problem unless the timer
	// being deleted is the timer whose callback we're running; this is
	// why the timer is recorded in this.expiring so that clearTimeout()
	// and clearInterval() can detect this situation.

	if (t.oneshot) {
	t.removed = true; // flag for removal
	} else {
	t.target = now + t.delay;
	}
	this.expiring = t;
	try {
	t.cb();
	} catch (e) {
	print('timer callback failed, ignored: ' + e);
	}
	this.expiring = null;

	// If the timer was one-shot, it's marked 'removed'. If the user callback
	// requested deletion for the timer, it's also marked 'removed'. If the
	// timer is an interval (and is not marked removed), insert it back into
	// the timer list.

	if (!t.removed) {
	// Reinsert interval timer to correct sorted position. The timer
	// must be an interval timer because one-shot timers are marked
	// 'removed' above.
	this.insertTimer(t);
	}
	}
	}

	EventLoop.run = function() {
	var wait;
	var POLLIN = Poll.POLLIN;
	var POLLOUT = Poll.POLLOUT;
	var poll_set;
	var poll_count;
	var fd;
	var t, rev;
	var rc;
	var acc_res;

	for (;;) {
	/*
	* Process expired timers.
	*/

	this.processTimers();
	//this.dumpState();

	/*
	* Exit check (may be requested by a user callback)
	*/

	if (this.exitRequested) {
	//print('exit requested, exit');
	break;
	}

	/*
	* Create poll socket list. This is a very naive approach.
	* On Linux, one could use e.g. epoll() and manage socket lists
	* incrementally.
	*/

	poll_set = {};
	poll_count = 0;
	for (fd in this.socketListening) {
	poll_set[fd] = { events: POLLIN, revents: 0 };
	poll_count++;
	}
	for (fd in this.socketReading) {
	poll_set[fd] = { events: POLLIN, revents: 0 };
	poll_count++;
	}
	for (fd in this.socketConnecting) {
	poll_set[fd] = { events: POLLOUT, revents: 0 };
	poll_count++;
	}
	//print(new Date(), 'poll_set IN:', Duktape.enc('jx', poll_set));

	/*
	* Wait timeout for timer closest to expiry. Since the poll
	* timeout is relative, get this as close to poll() as possible.
	*/

	wait = this.getEarliestWait();
	if (wait === null) {
	if (poll_count === 0) {
	print('no active timers and no sockets to poll, exit');
	break;
	} else {
	wait = this.maximumWait;
	}
	} else {
	wait = Math.min(this.maximumWait, Math.max(this.minimumWait, wait));
	}

	/*
	* Do the actual poll.
	*/

	try {
	Poll.poll(poll_set, wait);
	} catch (e) {
	// Eat errors silently. When resizing curses window an EINTR
	// happens now.
	}

	/*
	* Process all sockets so that nothing is left unhandled for the
	* next round.
	*/

	//print(new Date(), 'poll_set OUT:', Duktape.enc('jx', poll_set));
	for (fd in poll_set) {
	t = poll_set[fd];
	rev = t.revents;

	if (rev & POLLIN) {
	cb = this.socketReading[fd];
	if (cb) {
	data = Socket.read(fd); // no size control now
	//print('READ', Duktape.enc('jx', data));
	if (data.length === 0) {
	//print('zero read for fd ' + fd + ', closing forcibly');
	rc = Socket.close(fd); // ignore result
	delete this.socketListening[fd];
	delete this.socketReading[fd];
	} else {
	cb(fd, data);
	}
	} else {
	cb = this.socketListening[fd];
	if (cb) {
	acc_res = Socket.accept(fd);
	//print('ACCEPT:', Duktape.enc('jx', acc_res));
	cb(acc_res.fd, acc_res.addr, acc_res.port);
	} else {
	//print('UNKNOWN');
	}
	}
	}

	if (rev & POLLOUT) {
	cb = this.socketConnecting[fd];
	if (cb) {
	delete this.socketConnecting[fd];
	cb(fd);
	} else {
	//print('UNKNOWN POLLOUT');
	}
	}

	if ((rev & ~(POLLIN \| POLLOUT)) !== 0) {
	//print('revents ' + t.revents + ' for fd ' + fd + ', closing forcibly');
	rc = Socket.close(fd); // ignore result
	delete this.socketListening[fd];
	delete this.socketReading[fd];
	}
	}
	}
	}

	EventLoop.requestExit = function() {
	this.exitRequested = true;
	}

	EventLoop.server = function(address, port, cb_accepted) {
	var fd = Socket.createServerSocket(address, port);
	this.socketListening[fd] = cb_accepted;
	}

	EventLoop.connect = function(address, port, cb_connected) {
	var fd = Socket.connect(address, port);
	this.socketConnecting[fd] = cb_connected;
	}

	EventLoop.close = function(fd) {
	delete this.socketReading[fd];
	delete this.socketListening[fd];
	}

	EventLoop.setReader = function(fd, cb_read) {
	this.socketReading[fd] = cb_read;
	}

	EventLoop.write = function(fd, data) {
	// This simple example doesn't have support for write blocking / draining
	var rc = Socket.write(fd, Duktape.Buffer(data));
	}

	/*
	* Timer API
	*
	* These interface with the singleton EventLoop.
	*/

	function setTimeout(func, delay) {
	var cb_func;
	var bind_args;
	var timer_id;
	var evloop = EventLoop;

	if (typeof delay !== 'number') {
	throw new TypeError('delay is not a number');
	}
	delay = Math.max(evloop.minimumDelay, delay);

	if (typeof func === 'string') {
	// Legacy case: callback is a string.
	cb_func = eval.bind(this, func);
	} else if (typeof func !== 'function') {
	throw new TypeError('callback is not a function/string');
	} else if (arguments.length > 2) {
	// Special case: callback arguments are provided.
	bind_args = Array.prototype.slice.call(arguments, 2); // [ arg1, arg2, ... ]
	bind_args.unshift(this); // [ global(this), arg1, arg2, ... ]
	cb_func = func.bind.apply(func, bind_args);
	} else {
	// Normal case: callback given as a function without arguments.
	cb_func = func;
	}

	timer_id = evloop.nextTimerId++;

	evloop.insertTimer({
	id: timer_id,
	oneshot: true,
	cb: cb_func,
	delay: delay,
	target: Date.now() + delay
	});

	return timer_id;
	}

	function clearTimeout(timer_id) {
	var evloop = EventLoop;

	if (typeof timer_id !== 'number') {
	throw new TypeError('timer ID is not a number');
	}
	evloop.removeTimerById(timer_id);
	}

	function setInterval(func, delay) {
	var cb_func;
	var bind_args;
	var timer_id;
	var evloop = EventLoop;

	if (typeof delay !== 'number') {
	throw new TypeError('delay is not a number');
	}
	delay = Math.max(evloop.minimumDelay, delay);

	if (typeof func === 'string') {
	// Legacy case: callback is a string.
	cb_func = eval.bind(this, func);
	} else if (typeof func !== 'function') {
	throw new TypeError('callback is not a function/string');
	} else if (arguments.length > 2) {
	// Special case: callback arguments are provided.
	bind_args = Array.prototype.slice.call(arguments, 2); // [ arg1, arg2, ... ]
	bind_args.unshift(this); // [ global(this), arg1, arg2, ... ]
	cb_func = func.bind.apply(func, bind_args);
	} else {
	// Normal case: callback given as a function without arguments.
	cb_func = func;
	}

	timer_id = evloop.nextTimerId++;

	evloop.insertTimer({
	id: timer_id,
	oneshot: false,
	cb: cb_func,
	delay: delay,
	target: Date.now() + delay
	});

	return timer_id;
	}

	function clearInterval(timer_id) {
	var evloop = EventLoop;

	if (typeof timer_id !== 'number') {
	throw new TypeError('timer ID is not a number');
	}
	evloop.removeTimerById(timer_id);
	}

	/* custom call */
	function requestEventLoopExit() {
	EventLoop.requestExit();
	}