node_modules/when/lib/makePromise.js - nifi-fds - Git at Google

 /** @license MIT License (c) copyright 2010-2014 original author or authors */
 /** @author Brian Cavalier */
 /** @author John Hann */

 (function(define) { 'use strict';
 define(function() {

 	return function makePromise(environment) {

 		var tasks = environment.scheduler;
 		var emitRejection = initEmitRejection();

 		var objectCreate = Object.create ||
 			function(proto) {
 				function Child() {}
 				Child.prototype = proto;
 				return new Child();
 			};

 		/**
 		 * Create a promise whose fate is determined by resolver
 		 * @constructor
 		 * @returns {Promise} promise
 		 * @name Promise
 		 */
 		function Promise(resolver, handler) {
 			this._handler = resolver === Handler ? handler : init(resolver);
 		}

 		/**
 		 * Run the supplied resolver
 		 * @param resolver
 		 * @returns {Pending}
 		 */
 		function init(resolver) {
 			var handler = new Pending();

 			try {
 				resolver(promiseResolve, promiseReject, promiseNotify);
 			} catch (e) {
 				promiseReject(e);
 			}

 			return handler;

 			/**
 			 * Transition from pre-resolution state to post-resolution state, notifying
 			 * all listeners of the ultimate fulfillment or rejection
 			 * @param {*} x resolution value
 			 */
 			function promiseResolve (x) {
 				handler.resolve(x);
 			}
 			/**
 			 * Reject this promise with reason, which will be used verbatim
 			 * @param {Error|*} reason rejection reason, strongly suggested
 			 *   to be an Error type
 			 */
 			function promiseReject (reason) {
 				handler.reject(reason);
 			}

 			/**
 			 * @deprecated
 			 * Issue a progress event, notifying all progress listeners
 			 * @param {*} x progress event payload to pass to all listeners
 			 */
 			function promiseNotify (x) {
 				handler.notify(x);
 			}
 		}

 		// Creation

 		Promise.resolve = resolve;
 		Promise.reject = reject;
 		Promise.never = never;

 		Promise._defer = defer;
 		Promise._handler = getHandler;

 		/**
 		 * Returns a trusted promise. If x is already a trusted promise, it is
 		 * returned, otherwise returns a new trusted Promise which follows x.
 		 * @param  {*} x
 		 * @return {Promise} promise
 		 */
 		function resolve(x) {
 			return isPromise(x) ? x
 				: new Promise(Handler, new Async(getHandler(x)));
 		}

 		/**
 		 * Return a reject promise with x as its reason (x is used verbatim)
 		 * @param {*} x
 		 * @returns {Promise} rejected promise
 		 */
 		function reject(x) {
 			return new Promise(Handler, new Async(new Rejected(x)));
 		}

 		/**
 		 * Return a promise that remains pending forever
 		 * @returns {Promise} forever-pending promise.
 		 */
 		function never() {
 			return foreverPendingPromise; // Should be frozen
 		}

 		/**
 		 * Creates an internal {promise, resolver} pair
 		 * @private
 		 * @returns {Promise}
 		 */
 		function defer() {
 			return new Promise(Handler, new Pending());
 		}

 		// Transformation and flow control

 		/**
 		 * Transform this promise's fulfillment value, returning a new Promise
 		 * for the transformed result.  If the promise cannot be fulfilled, onRejected
 		 * is called with the reason.  onProgress *may* be called with updates toward
 		 * this promise's fulfillment.
 		 * @param {function=} onFulfilled fulfillment handler
 		 * @param {function=} onRejected rejection handler
 		 * @param {function=} onProgress @deprecated progress handler
 		 * @return {Promise} new promise
 		 */
 		Promise.prototype.then = function(onFulfilled, onRejected, onProgress) {
 			var parent = this._handler;
 			var state = parent.join().state();

 			if ((typeof onFulfilled !== 'function' && state > 0) ||
 				(typeof onRejected !== 'function' && state < 0)) {
 				// Short circuit: value will not change, simply share handler
 				return new this.constructor(Handler, parent);
 			}

 			var p = this._beget();
 			var child = p._handler;

 			parent.chain(child, parent.receiver, onFulfilled, onRejected, onProgress);

 			return p;
 		};

 		/**
 		 * If this promise cannot be fulfilled due to an error, call onRejected to
 		 * handle the error. Shortcut for .then(undefined, onRejected)
 		 * @param {function?} onRejected
 		 * @return {Promise}
 		 */
 		Promise.prototype['catch'] = function(onRejected) {
 			return this.then(void 0, onRejected);
 		};

 		/**
 		 * Creates a new, pending promise of the same type as this promise
 		 * @private
 		 * @returns {Promise}
 		 */
 		Promise.prototype._beget = function() {
 			return begetFrom(this._handler, this.constructor);
 		};

 		function begetFrom(parent, Promise) {
 			var child = new Pending(parent.receiver, parent.join().context);
 			return new Promise(Handler, child);
 		}

 		// Array combinators

 		Promise.all = all;
 		Promise.race = race;
 		Promise._traverse = traverse;

 		/**
 		 * Return a promise that will fulfill when all promises in the
 		 * input array have fulfilled, or will reject when one of the
 		 * promises rejects.
 		 * @param {array} promises array of promises
 		 * @returns {Promise} promise for array of fulfillment values
 		 */
 		function all(promises) {
 			return traverseWith(snd, null, promises);
 		}

 		/**
 		 * Array<Promise<X>> -> Promise<Array<f(X)>>
 		 * @private
 		 * @param {function} f function to apply to each promise's value
 		 * @param {Array} promises array of promises
 		 * @returns {Promise} promise for transformed values
 		 */
 		function traverse(f, promises) {
 			return traverseWith(tryCatch2, f, promises);
 		}

 		function traverseWith(tryMap, f, promises) {
 			var handler = typeof f === 'function' ? mapAt : settleAt;

 			var resolver = new Pending();
 			var pending = promises.length >>> 0;
 			var results = new Array(pending);

 			for (var i = 0, x; i < promises.length && !resolver.resolved; ++i) {
 				x = promises[i];

 				if (x === void 0 && !(i in promises)) {
 					--pending;
 					continue;
 				}

 				traverseAt(promises, handler, i, x, resolver);
 			}

 			if(pending === 0) {
 				resolver.become(new Fulfilled(results));
 			}

 			return new Promise(Handler, resolver);

 			function mapAt(i, x, resolver) {
 				if(!resolver.resolved) {
 					traverseAt(promises, settleAt, i, tryMap(f, x, i), resolver);
 				}
 			}

 			function settleAt(i, x, resolver) {
 				results[i] = x;
 				if(--pending === 0) {
 					resolver.become(new Fulfilled(results));
 				}
 			}
 		}

 		function traverseAt(promises, handler, i, x, resolver) {
 			if (maybeThenable(x)) {
 				var h = getHandlerMaybeThenable(x);
 				var s = h.state();

 				if (s === 0) {
 					h.fold(handler, i, void 0, resolver);
 				} else if (s > 0) {
 					handler(i, h.value, resolver);
 				} else {
 					resolver.become(h);
 					visitRemaining(promises, i+1, h);
 				}
 			} else {
 				handler(i, x, resolver);
 			}
 		}

 		Promise._visitRemaining = visitRemaining;
 		function visitRemaining(promises, start, handler) {
 			for(var i=start; i<promises.length; ++i) {
 				markAsHandled(getHandler(promises[i]), handler);
 			}
 		}

 		function markAsHandled(h, handler) {
 			if(h === handler) {
 				return;
 			}

 			var s = h.state();
 			if(s === 0) {
 				h.visit(h, void 0, h._unreport);
 			} else if(s < 0) {
 				h._unreport();
 			}
 		}

 		/**
 		 * Fulfill-reject competitive race. Return a promise that will settle
 		 * to the same state as the earliest input promise to settle.
 		 *
 		 * WARNING: The ES6 Promise spec requires that race()ing an empty array
 		 * must return a promise that is pending forever.  This implementation
 		 * returns a singleton forever-pending promise, the same singleton that is
 		 * returned by Promise.never(), thus can be checked with ===
 		 *
 		 * @param {array} promises array of promises to race
 		 * @returns {Promise} if input is non-empty, a promise that will settle
 		 * to the same outcome as the earliest input promise to settle. if empty
 		 * is empty, returns a promise that will never settle.
 		 */
 		function race(promises) {
 			if(typeof promises !== 'object' || promises === null) {
 				return reject(new TypeError('non-iterable passed to race()'));
 			}

 			// Sigh, race([]) is untestable unless we return *something*
 			// that is recognizable without calling .then() on it.
 			return promises.length === 0 ? never()
 				 : promises.length === 1 ? resolve(promises[0])
 				 : runRace(promises);
 		}

 		function runRace(promises) {
 			var resolver = new Pending();
 			var i, x, h;
 			for(i=0; i<promises.length; ++i) {
 				x = promises[i];
 				if (x === void 0 && !(i in promises)) {
 					continue;
 				}

 				h = getHandler(x);
 				if(h.state() !== 0) {
 					resolver.become(h);
 					visitRemaining(promises, i+1, h);
 					break;
 				} else {
 					h.visit(resolver, resolver.resolve, resolver.reject);
 				}
 			}
 			return new Promise(Handler, resolver);
 		}

 		// Promise internals
 		// Below this, everything is @private

 		/**
 		 * Get an appropriate handler for x, without checking for cycles
 		 * @param {*} x
 		 * @returns {object} handler
 		 */
 		function getHandler(x) {
 			if(isPromise(x)) {
 				return x._handler.join();
 			}
 			return maybeThenable(x) ? getHandlerUntrusted(x) : new Fulfilled(x);
 		}

 		/**
 		 * Get a handler for thenable x.
 		 * NOTE: You must only call this if maybeThenable(x) == true
 		 * @param {object|function|Promise} x
 		 * @returns {object} handler
 		 */
 		function getHandlerMaybeThenable(x) {
 			return isPromise(x) ? x._handler.join() : getHandlerUntrusted(x);
 		}

 		/**
 		 * Get a handler for potentially untrusted thenable x
 		 * @param {*} x
 		 * @returns {object} handler
 		 */
 		function getHandlerUntrusted(x) {
 			try {
 				var untrustedThen = x.then;
 				return typeof untrustedThen === 'function'
 					? new Thenable(untrustedThen, x)
 					: new Fulfilled(x);
 			} catch(e) {
 				return new Rejected(e);
 			}
 		}

 		/**
 		 * Handler for a promise that is pending forever
 		 * @constructor
 		 */
 		function Handler() {}

 		Handler.prototype.when
 			= Handler.prototype.become
 			= Handler.prototype.notify // deprecated
 			= Handler.prototype.fail
 			= Handler.prototype._unreport
 			= Handler.prototype._report
 			= noop;

 		Handler.prototype._state = 0;

 		Handler.prototype.state = function() {
 			return this._state;
 		};

 		/**
 		 * Recursively collapse handler chain to find the handler
 		 * nearest to the fully resolved value.
 		 * @returns {object} handler nearest the fully resolved value
 		 */
 		Handler.prototype.join = function() {
 			var h = this;
 			while(h.handler !== void 0) {
 				h = h.handler;
 			}
 			return h;
 		};

 		Handler.prototype.chain = function(to, receiver, fulfilled, rejected, progress) {
 			this.when({
 				resolver: to,
 				receiver: receiver,
 				fulfilled: fulfilled,
 				rejected: rejected,
 				progress: progress
 			});
 		};

 		Handler.prototype.visit = function(receiver, fulfilled, rejected, progress) {
 			this.chain(failIfRejected, receiver, fulfilled, rejected, progress);
 		};

 		Handler.prototype.fold = function(f, z, c, to) {
 			this.when(new Fold(f, z, c, to));
 		};

 		/**
 		 * Handler that invokes fail() on any handler it becomes
 		 * @constructor
 		 */
 		function FailIfRejected() {}

 		inherit(Handler, FailIfRejected);

 		FailIfRejected.prototype.become = function(h) {
 			h.fail();
 		};

 		var failIfRejected = new FailIfRejected();

 		/**
 		 * Handler that manages a queue of consumers waiting on a pending promise
 		 * @constructor
 		 */
 		function Pending(receiver, inheritedContext) {
 			Promise.createContext(this, inheritedContext);

 			this.consumers = void 0;
 			this.receiver = receiver;
 			this.handler = void 0;
 			this.resolved = false;
 		}

 		inherit(Handler, Pending);

 		Pending.prototype._state = 0;

 		Pending.prototype.resolve = function(x) {
 			this.become(getHandler(x));
 		};

 		Pending.prototype.reject = function(x) {
 			if(this.resolved) {
 				return;
 			}

 			this.become(new Rejected(x));
 		};

 		Pending.prototype.join = function() {
 			if (!this.resolved) {
 				return this;
 			}

 			var h = this;

 			while (h.handler !== void 0) {
 				h = h.handler;
 				if (h === this) {
 					return this.handler = cycle();
 				}
 			}

 			return h;
 		};

 		Pending.prototype.run = function() {
 			var q = this.consumers;
 			var handler = this.handler;
 			this.handler = this.handler.join();
 			this.consumers = void 0;

 			for (var i = 0; i < q.length; ++i) {
 				handler.when(q[i]);
 			}
 		};

 		Pending.prototype.become = function(handler) {
 			if(this.resolved) {
 				return;
 			}

 			this.resolved = true;
 			this.handler = handler;
 			if(this.consumers !== void 0) {
 				tasks.enqueue(this);
 			}

 			if(this.context !== void 0) {
 				handler._report(this.context);
 			}
 		};

 		Pending.prototype.when = function(continuation) {
 			if(this.resolved) {
 				tasks.enqueue(new ContinuationTask(continuation, this.handler));
 			} else {
 				if(this.consumers === void 0) {
 					this.consumers = [continuation];
 				} else {
 					this.consumers.push(continuation);
 				}
 			}
 		};

 		/**
 		 * @deprecated
 		 */
 		Pending.prototype.notify = function(x) {
 			if(!this.resolved) {
 				tasks.enqueue(new ProgressTask(x, this));
 			}
 		};

 		Pending.prototype.fail = function(context) {
 			var c = typeof context === 'undefined' ? this.context : context;
 			this.resolved && this.handler.join().fail(c);
 		};

 		Pending.prototype._report = function(context) {
 			this.resolved && this.handler.join()._report(context);
 		};

 		Pending.prototype._unreport = function() {
 			this.resolved && this.handler.join()._unreport();
 		};

 		/**
 		 * Wrap another handler and force it into a future stack
 		 * @param {object} handler
 		 * @constructor
 		 */
 		function Async(handler) {
 			this.handler = handler;
 		}

 		inherit(Handler, Async);

 		Async.prototype.when = function(continuation) {
 			tasks.enqueue(new ContinuationTask(continuation, this));
 		};

 		Async.prototype._report = function(context) {
 			this.join()._report(context);
 		};

 		Async.prototype._unreport = function() {
 			this.join()._unreport();
 		};

 		/**
 		 * Handler that wraps an untrusted thenable and assimilates it in a future stack
 		 * @param {function} then
 		 * @param {{then: function}} thenable
 		 * @constructor
 		 */
 		function Thenable(then, thenable) {
 			Pending.call(this);
 			tasks.enqueue(new AssimilateTask(then, thenable, this));
 		}

 		inherit(Pending, Thenable);

 		/**
 		 * Handler for a fulfilled promise
 		 * @param {*} x fulfillment value
 		 * @constructor
 		 */
 		function Fulfilled(x) {
 			Promise.createContext(this);
 			this.value = x;
 		}

 		inherit(Handler, Fulfilled);

 		Fulfilled.prototype._state = 1;

 		Fulfilled.prototype.fold = function(f, z, c, to) {
 			runContinuation3(f, z, this, c, to);
 		};

 		Fulfilled.prototype.when = function(cont) {
 			runContinuation1(cont.fulfilled, this, cont.receiver, cont.resolver);
 		};

 		var errorId = 0;

 		/**
 		 * Handler for a rejected promise
 		 * @param {*} x rejection reason
 		 * @constructor
 		 */
 		function Rejected(x) {
 			Promise.createContext(this);

 			this.id = ++errorId;
 			this.value = x;
 			this.handled = false;
 			this.reported = false;

 			this._report();
 		}

 		inherit(Handler, Rejected);

 		Rejected.prototype._state = -1;

 		Rejected.prototype.fold = function(f, z, c, to) {
 			to.become(this);
 		};

 		Rejected.prototype.when = function(cont) {
 			if(typeof cont.rejected === 'function') {
 				this._unreport();
 			}
 			runContinuation1(cont.rejected, this, cont.receiver, cont.resolver);
 		};

 		Rejected.prototype._report = function(context) {
 			tasks.afterQueue(new ReportTask(this, context));
 		};

 		Rejected.prototype._unreport = function() {
 			if(this.handled) {
 				return;
 			}
 			this.handled = true;
 			tasks.afterQueue(new UnreportTask(this));
 		};

 		Rejected.prototype.fail = function(context) {
 			this.reported = true;
 			emitRejection('unhandledRejection', this);
 			Promise.onFatalRejection(this, context === void 0 ? this.context : context);
 		};

 		function ReportTask(rejection, context) {
 			this.rejection = rejection;
 			this.context = context;
 		}

 		ReportTask.prototype.run = function() {
 			if(!this.rejection.handled && !this.rejection.reported) {
 				this.rejection.reported = true;
 				emitRejection('unhandledRejection', this.rejection) ||
 					Promise.onPotentiallyUnhandledRejection(this.rejection, this.context);
 			}
 		};

 		function UnreportTask(rejection) {
 			this.rejection = rejection;
 		}

 		UnreportTask.prototype.run = function() {
 			if(this.rejection.reported) {
 				emitRejection('rejectionHandled', this.rejection) ||
 					Promise.onPotentiallyUnhandledRejectionHandled(this.rejection);
 			}
 		};

 		// Unhandled rejection hooks
 		// By default, everything is a noop

 		Promise.createContext
 			= Promise.enterContext
 			= Promise.exitContext
 			= Promise.onPotentiallyUnhandledRejection
 			= Promise.onPotentiallyUnhandledRejectionHandled
 			= Promise.onFatalRejection
 			= noop;

 		// Errors and singletons

 		var foreverPendingHandler = new Handler();
 		var foreverPendingPromise = new Promise(Handler, foreverPendingHandler);

 		function cycle() {
 			return new Rejected(new TypeError('Promise cycle'));
 		}

 		// Task runners

 		/**
 		 * Run a single consumer
 		 * @constructor
 		 */
 		function ContinuationTask(continuation, handler) {
 			this.continuation = continuation;
 			this.handler = handler;
 		}

 		ContinuationTask.prototype.run = function() {
 			this.handler.join().when(this.continuation);
 		};

 		/**
 		 * Run a queue of progress handlers
 		 * @constructor
 		 */
 		function ProgressTask(value, handler) {
 			this.handler = handler;
 			this.value = value;
 		}

 		ProgressTask.prototype.run = function() {
 			var q = this.handler.consumers;
 			if(q === void 0) {
 				return;
 			}

 			for (var c, i = 0; i < q.length; ++i) {
 				c = q[i];
 				runNotify(c.progress, this.value, this.handler, c.receiver, c.resolver);
 			}
 		};

 		/**
 		 * Assimilate a thenable, sending it's value to resolver
 		 * @param {function} then
 		 * @param {object|function} thenable
 		 * @param {object} resolver
 		 * @constructor
 		 */
 		function AssimilateTask(then, thenable, resolver) {
 			this._then = then;
 			this.thenable = thenable;
 			this.resolver = resolver;
 		}

 		AssimilateTask.prototype.run = function() {
 			var h = this.resolver;
 			tryAssimilate(this._then, this.thenable, _resolve, _reject, _notify);

 			function _resolve(x) { h.resolve(x); }
 			function _reject(x)  { h.reject(x); }
 			function _notify(x)  { h.notify(x); }
 		};

 		function tryAssimilate(then, thenable, resolve, reject, notify) {
 			try {
 				then.call(thenable, resolve, reject, notify);
 			} catch (e) {
 				reject(e);
 			}
 		}

 		/**
 		 * Fold a handler value with z
 		 * @constructor
 		 */
 		function Fold(f, z, c, to) {
 			this.f = f; this.z = z; this.c = c; this.to = to;
 			this.resolver = failIfRejected;
 			this.receiver = this;
 		}

 		Fold.prototype.fulfilled = function(x) {
 			this.f.call(this.c, this.z, x, this.to);
 		};

 		Fold.prototype.rejected = function(x) {
 			this.to.reject(x);
 		};

 		Fold.prototype.progress = function(x) {
 			this.to.notify(x);
 		};

 		// Other helpers

 		/**
 		 * @param {*} x
 		 * @returns {boolean} true iff x is a trusted Promise
 		 */
 		function isPromise(x) {
 			return x instanceof Promise;
 		}

 		/**
 		 * Test just enough to rule out primitives, in order to take faster
 		 * paths in some code
 		 * @param {*} x
 		 * @returns {boolean} false iff x is guaranteed *not* to be a thenable
 		 */
 		function maybeThenable(x) {
 			return (typeof x === 'object' || typeof x === 'function') && x !== null;
 		}

 		function runContinuation1(f, h, receiver, next) {
 			if(typeof f !== 'function') {
 				return next.become(h);
 			}

 			Promise.enterContext(h);
 			tryCatchReject(f, h.value, receiver, next);
 			Promise.exitContext();
 		}

 		function runContinuation3(f, x, h, receiver, next) {
 			if(typeof f !== 'function') {
 				return next.become(h);
 			}

 			Promise.enterContext(h);
 			tryCatchReject3(f, x, h.value, receiver, next);
 			Promise.exitContext();
 		}

 		/**
 		 * @deprecated
 		 */
 		function runNotify(f, x, h, receiver, next) {
 			if(typeof f !== 'function') {
 				return next.notify(x);
 			}

 			Promise.enterContext(h);
 			tryCatchReturn(f, x, receiver, next);
 			Promise.exitContext();
 		}

 		function tryCatch2(f, a, b) {
 			try {
 				return f(a, b);
 			} catch(e) {
 				return reject(e);
 			}
 		}

 		/**
 		 * Return f.call(thisArg, x), or if it throws return a rejected promise for
 		 * the thrown exception
 		 */
 		function tryCatchReject(f, x, thisArg, next) {
 			try {
 				next.become(getHandler(f.call(thisArg, x)));
 			} catch(e) {
 				next.become(new Rejected(e));
 			}
 		}

 		/**
 		 * Same as above, but includes the extra argument parameter.
 		 */
 		function tryCatchReject3(f, x, y, thisArg, next) {
 			try {
 				f.call(thisArg, x, y, next);
 			} catch(e) {
 				next.become(new Rejected(e));
 			}
 		}

 		/**
 		 * @deprecated
 		 * Return f.call(thisArg, x), or if it throws, *return* the exception
 		 */
 		function tryCatchReturn(f, x, thisArg, next) {
 			try {
 				next.notify(f.call(thisArg, x));
 			} catch(e) {
 				next.notify(e);
 			}
 		}

 		function inherit(Parent, Child) {
 			Child.prototype = objectCreate(Parent.prototype);
 			Child.prototype.constructor = Child;
 		}

 		function snd(x, y) {
 			return y;
 		}

 		function noop() {}

 		function hasCustomEvent() {
 			if(typeof CustomEvent === 'function') {
 				try {
 					var ev = new CustomEvent('unhandledRejection');
 					return ev instanceof CustomEvent;
 				} catch (ignoredException) {}
 			}
 			return false;
 		}

 		function hasInternetExplorerCustomEvent() {
 			if(typeof document !== 'undefined' && typeof document.createEvent === 'function') {
 				try {
 					// Try to create one event to make sure it's supported
 					var ev = document.createEvent('CustomEvent');
 					ev.initCustomEvent('eventType', false, true, {});
 					return true;
 				} catch (ignoredException) {}
 			}
 			return false;
 		}

 		function initEmitRejection() {
 			/*global process, self, CustomEvent*/
 			if(typeof process !== 'undefined' && process !== null
 				&& typeof process.emit === 'function') {
 				// Returning falsy here means to call the default
 				// onPotentiallyUnhandledRejection API.  This is safe even in
 				// browserify since process.emit always returns falsy in browserify:
 				// https://github.com/defunctzombie/node-process/blob/master/browser.js#L40-L46
 				return function(type, rejection) {
 					return type === 'unhandledRejection'
 						? process.emit(type, rejection.value, rejection)
 						: process.emit(type, rejection);
 				};
 			} else if(typeof self !== 'undefined' && hasCustomEvent()) {
 				return (function (self, CustomEvent) {
 					return function (type, rejection) {
 						var ev = new CustomEvent(type, {
 							detail: {
 								reason: rejection.value,
 								key: rejection
 							},
 							bubbles: false,
 							cancelable: true
 						});

 						return !self.dispatchEvent(ev);
 					};
 				}(self, CustomEvent));
 			} else if(typeof self !== 'undefined' && hasInternetExplorerCustomEvent()) {
 				return (function(self, document) {
 					return function(type, rejection) {
 						var ev = document.createEvent('CustomEvent');
 						ev.initCustomEvent(type, false, true, {
 							reason: rejection.value,
 							key: rejection
 						});

 						return !self.dispatchEvent(ev);
 					};
 				}(self, document));
 			}

 			return noop;
 		}

 		return Promise;
 	};
 });
 }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(); }));
	/** @license MIT License (c) copyright 2010-2014 original author or authors */
	/** @author Brian Cavalier */
	/** @author John Hann */

	(function(define) { 'use strict';
	define(function() {

	return function makePromise(environment) {

	var tasks = environment.scheduler;
	var emitRejection = initEmitRejection();

	var objectCreate = Object.create \|\|
	function(proto) {
	function Child() {}
	Child.prototype = proto;
	return new Child();
	};

	/**
	* Create a promise whose fate is determined by resolver
	* @constructor
	* @returns {Promise} promise
	* @name Promise
	*/
	function Promise(resolver, handler) {
	this._handler = resolver === Handler ? handler : init(resolver);
	}

	/**
	* Run the supplied resolver
	* @param resolver
	* @returns {Pending}
	*/
	function init(resolver) {
	var handler = new Pending();

	try {
	resolver(promiseResolve, promiseReject, promiseNotify);
	} catch (e) {
	promiseReject(e);
	}

	return handler;

	/**
	* Transition from pre-resolution state to post-resolution state, notifying
	* all listeners of the ultimate fulfillment or rejection
	* @param {*} x resolution value
	*/
	function promiseResolve (x) {
	handler.resolve(x);
	}
	/**
	* Reject this promise with reason, which will be used verbatim
	* @param {Error\|*} reason rejection reason, strongly suggested
	* to be an Error type
	*/
	function promiseReject (reason) {
	handler.reject(reason);
	}

	/**
	* @deprecated
	* Issue a progress event, notifying all progress listeners
	* @param {*} x progress event payload to pass to all listeners
	*/
	function promiseNotify (x) {
	handler.notify(x);
	}
	}

	// Creation

	Promise.resolve = resolve;
	Promise.reject = reject;
	Promise.never = never;

	Promise._defer = defer;
	Promise._handler = getHandler;

	/**
	* Returns a trusted promise. If x is already a trusted promise, it is
	* returned, otherwise returns a new trusted Promise which follows x.
	* @param {*} x
	* @return {Promise} promise
	*/
	function resolve(x) {
	return isPromise(x) ? x
	: new Promise(Handler, new Async(getHandler(x)));
	}

	/**
	* Return a reject promise with x as its reason (x is used verbatim)
	* @param {*} x
	* @returns {Promise} rejected promise
	*/
	function reject(x) {
	return new Promise(Handler, new Async(new Rejected(x)));
	}

	/**
	* Return a promise that remains pending forever
	* @returns {Promise} forever-pending promise.
	*/
	function never() {
	return foreverPendingPromise; // Should be frozen
	}

	/**
	* Creates an internal {promise, resolver} pair
	* @private
	* @returns {Promise}
	*/
	function defer() {
	return new Promise(Handler, new Pending());
	}

	// Transformation and flow control

	/**
	* Transform this promise's fulfillment value, returning a new Promise
	* for the transformed result. If the promise cannot be fulfilled, onRejected
	* is called with the reason. onProgress may be called with updates toward
	* this promise's fulfillment.
	* @param {function=} onFulfilled fulfillment handler
	* @param {function=} onRejected rejection handler
	* @param {function=} onProgress @deprecated progress handler
	* @return {Promise} new promise
	*/
	Promise.prototype.then = function(onFulfilled, onRejected, onProgress) {
	var parent = this._handler;
	var state = parent.join().state();

	if ((typeof onFulfilled !== 'function' && state > 0) \|\|
	(typeof onRejected !== 'function' && state < 0)) {
	// Short circuit: value will not change, simply share handler
	return new this.constructor(Handler, parent);
	}

	var p = this._beget();
	var child = p._handler;

	parent.chain(child, parent.receiver, onFulfilled, onRejected, onProgress);

	return p;
	};

	/**
	* If this promise cannot be fulfilled due to an error, call onRejected to
	* handle the error. Shortcut for .then(undefined, onRejected)
	* @param {function?} onRejected
	* @return {Promise}
	*/
	Promise.prototype['catch'] = function(onRejected) {
	return this.then(void 0, onRejected);
	};

	/**
	* Creates a new, pending promise of the same type as this promise
	* @private
	* @returns {Promise}
	*/
	Promise.prototype._beget = function() {
	return begetFrom(this._handler, this.constructor);
	};

	function begetFrom(parent, Promise) {
	var child = new Pending(parent.receiver, parent.join().context);
	return new Promise(Handler, child);
	}

	// Array combinators

	Promise.all = all;
	Promise.race = race;
	Promise._traverse = traverse;

	/**
	* Return a promise that will fulfill when all promises in the
	* input array have fulfilled, or will reject when one of the
	* promises rejects.
	* @param {array} promises array of promises
	* @returns {Promise} promise for array of fulfillment values
	*/
	function all(promises) {
	return traverseWith(snd, null, promises);
	}

	/**
	* Array<Promise<X>> -> Promise<Array<f(X)>>
	* @private
	* @param {function} f function to apply to each promise's value
	* @param {Array} promises array of promises
	* @returns {Promise} promise for transformed values
	*/
	function traverse(f, promises) {
	return traverseWith(tryCatch2, f, promises);
	}

	function traverseWith(tryMap, f, promises) {
	var handler = typeof f === 'function' ? mapAt : settleAt;

	var resolver = new Pending();
	var pending = promises.length >>> 0;
	var results = new Array(pending);

	for (var i = 0, x; i < promises.length && !resolver.resolved; ++i) {
	x = promises[i];

	if (x === void 0 && !(i in promises)) {
	--pending;
	continue;
	}

	traverseAt(promises, handler, i, x, resolver);
	}

	if(pending === 0) {
	resolver.become(new Fulfilled(results));
	}

	return new Promise(Handler, resolver);

	function mapAt(i, x, resolver) {
	if(!resolver.resolved) {
	traverseAt(promises, settleAt, i, tryMap(f, x, i), resolver);
	}
	}

	function settleAt(i, x, resolver) {
	results[i] = x;
	if(--pending === 0) {
	resolver.become(new Fulfilled(results));
	}
	}
	}

	function traverseAt(promises, handler, i, x, resolver) {
	if (maybeThenable(x)) {
	var h = getHandlerMaybeThenable(x);
	var s = h.state();

	if (s === 0) {
	h.fold(handler, i, void 0, resolver);
	} else if (s > 0) {
	handler(i, h.value, resolver);
	} else {
	resolver.become(h);
	visitRemaining(promises, i+1, h);
	}
	} else {
	handler(i, x, resolver);
	}
	}

	Promise._visitRemaining = visitRemaining;
	function visitRemaining(promises, start, handler) {
	for(var i=start; i<promises.length; ++i) {
	markAsHandled(getHandler(promises[i]), handler);
	}
	}

	function markAsHandled(h, handler) {
	if(h === handler) {
	return;
	}

	var s = h.state();
	if(s === 0) {
	h.visit(h, void 0, h._unreport);
	} else if(s < 0) {
	h._unreport();
	}
	}

	/**
	* Fulfill-reject competitive race. Return a promise that will settle
	* to the same state as the earliest input promise to settle.
	*
	* WARNING: The ES6 Promise spec requires that race()ing an empty array
	* must return a promise that is pending forever. This implementation
	* returns a singleton forever-pending promise, the same singleton that is
	* returned by Promise.never(), thus can be checked with ===
	*
	* @param {array} promises array of promises to race
	* @returns {Promise} if input is non-empty, a promise that will settle
	* to the same outcome as the earliest input promise to settle. if empty
	* is empty, returns a promise that will never settle.
	*/
	function race(promises) {
	if(typeof promises !== 'object' \|\| promises === null) {
	return reject(new TypeError('non-iterable passed to race()'));
	}

	// Sigh, race([]) is untestable unless we return something
	// that is recognizable without calling .then() on it.
	return promises.length === 0 ? never()
	: promises.length === 1 ? resolve(promises[0])
	: runRace(promises);
	}

	function runRace(promises) {
	var resolver = new Pending();
	var i, x, h;
	for(i=0; i<promises.length; ++i) {
	x = promises[i];
	if (x === void 0 && !(i in promises)) {
	continue;
	}

	h = getHandler(x);
	if(h.state() !== 0) {
	resolver.become(h);
	visitRemaining(promises, i+1, h);
	break;
	} else {
	h.visit(resolver, resolver.resolve, resolver.reject);
	}
	}
	return new Promise(Handler, resolver);
	}

	// Promise internals
	// Below this, everything is @private

	/**
	* Get an appropriate handler for x, without checking for cycles
	* @param {*} x
	* @returns {object} handler
	*/
	function getHandler(x) {
	if(isPromise(x)) {
	return x._handler.join();
	}
	return maybeThenable(x) ? getHandlerUntrusted(x) : new Fulfilled(x);
	}

	/**
	* Get a handler for thenable x.
	* NOTE: You must only call this if maybeThenable(x) == true
	* @param {object\|function\|Promise} x
	* @returns {object} handler
	*/
	function getHandlerMaybeThenable(x) {
	return isPromise(x) ? x._handler.join() : getHandlerUntrusted(x);
	}

	/**
	* Get a handler for potentially untrusted thenable x
	* @param {*} x
	* @returns {object} handler
	*/
	function getHandlerUntrusted(x) {
	try {
	var untrustedThen = x.then;
	return typeof untrustedThen === 'function'
	? new Thenable(untrustedThen, x)
	: new Fulfilled(x);
	} catch(e) {
	return new Rejected(e);
	}
	}

	/**
	* Handler for a promise that is pending forever
	* @constructor
	*/
	function Handler() {}

	Handler.prototype.when
	= Handler.prototype.become
	= Handler.prototype.notify // deprecated
	= Handler.prototype.fail
	= Handler.prototype._unreport
	= Handler.prototype._report
	= noop;

	Handler.prototype._state = 0;

	Handler.prototype.state = function() {
	return this._state;
	};

	/**
	* Recursively collapse handler chain to find the handler
	* nearest to the fully resolved value.
	* @returns {object} handler nearest the fully resolved value
	*/
	Handler.prototype.join = function() {
	var h = this;
	while(h.handler !== void 0) {
	h = h.handler;
	}
	return h;
	};

	Handler.prototype.chain = function(to, receiver, fulfilled, rejected, progress) {
	this.when({
	resolver: to,
	receiver: receiver,
	fulfilled: fulfilled,
	rejected: rejected,
	progress: progress
	});
	};

	Handler.prototype.visit = function(receiver, fulfilled, rejected, progress) {
	this.chain(failIfRejected, receiver, fulfilled, rejected, progress);
	};

	Handler.prototype.fold = function(f, z, c, to) {
	this.when(new Fold(f, z, c, to));
	};

	/**
	* Handler that invokes fail() on any handler it becomes
	* @constructor
	*/
	function FailIfRejected() {}

	inherit(Handler, FailIfRejected);

	FailIfRejected.prototype.become = function(h) {
	h.fail();
	};

	var failIfRejected = new FailIfRejected();

	/**
	* Handler that manages a queue of consumers waiting on a pending promise
	* @constructor
	*/
	function Pending(receiver, inheritedContext) {
	Promise.createContext(this, inheritedContext);

	this.consumers = void 0;
	this.receiver = receiver;
	this.handler = void 0;
	this.resolved = false;
	}

	inherit(Handler, Pending);

	Pending.prototype._state = 0;

	Pending.prototype.resolve = function(x) {
	this.become(getHandler(x));
	};

	Pending.prototype.reject = function(x) {
	if(this.resolved) {
	return;
	}

	this.become(new Rejected(x));
	};

	Pending.prototype.join = function() {
	if (!this.resolved) {
	return this;
	}

	var h = this;

	while (h.handler !== void 0) {
	h = h.handler;
	if (h === this) {
	return this.handler = cycle();
	}
	}

	return h;
	};

	Pending.prototype.run = function() {
	var q = this.consumers;
	var handler = this.handler;
	this.handler = this.handler.join();
	this.consumers = void 0;

	for (var i = 0; i < q.length; ++i) {
	handler.when(q[i]);
	}
	};

	Pending.prototype.become = function(handler) {
	if(this.resolved) {
	return;
	}

	this.resolved = true;
	this.handler = handler;
	if(this.consumers !== void 0) {
	tasks.enqueue(this);
	}

	if(this.context !== void 0) {
	handler._report(this.context);
	}
	};

	Pending.prototype.when = function(continuation) {
	if(this.resolved) {
	tasks.enqueue(new ContinuationTask(continuation, this.handler));
	} else {
	if(this.consumers === void 0) {
	this.consumers = [continuation];
	} else {
	this.consumers.push(continuation);
	}
	}
	};

	/**
	* @deprecated
	*/
	Pending.prototype.notify = function(x) {
	if(!this.resolved) {
	tasks.enqueue(new ProgressTask(x, this));
	}
	};

	Pending.prototype.fail = function(context) {
	var c = typeof context === 'undefined' ? this.context : context;
	this.resolved && this.handler.join().fail(c);
	};

	Pending.prototype._report = function(context) {
	this.resolved && this.handler.join()._report(context);
	};

	Pending.prototype._unreport = function() {
	this.resolved && this.handler.join()._unreport();
	};

	/**
	* Wrap another handler and force it into a future stack
	* @param {object} handler
	* @constructor
	*/
	function Async(handler) {
	this.handler = handler;
	}

	inherit(Handler, Async);

	Async.prototype.when = function(continuation) {
	tasks.enqueue(new ContinuationTask(continuation, this));
	};

	Async.prototype._report = function(context) {
	this.join()._report(context);
	};

	Async.prototype._unreport = function() {
	this.join()._unreport();
	};

	/**
	* Handler that wraps an untrusted thenable and assimilates it in a future stack
	* @param {function} then
	* @param {{then: function}} thenable
	* @constructor
	*/
	function Thenable(then, thenable) {
	Pending.call(this);
	tasks.enqueue(new AssimilateTask(then, thenable, this));
	}

	inherit(Pending, Thenable);

	/**
	* Handler for a fulfilled promise
	* @param {*} x fulfillment value
	* @constructor
	*/
	function Fulfilled(x) {
	Promise.createContext(this);
	this.value = x;
	}

	inherit(Handler, Fulfilled);

	Fulfilled.prototype._state = 1;

	Fulfilled.prototype.fold = function(f, z, c, to) {
	runContinuation3(f, z, this, c, to);
	};

	Fulfilled.prototype.when = function(cont) {
	runContinuation1(cont.fulfilled, this, cont.receiver, cont.resolver);
	};

	var errorId = 0;

	/**
	* Handler for a rejected promise
	* @param {*} x rejection reason
	* @constructor
	*/
	function Rejected(x) {
	Promise.createContext(this);

	this.id = ++errorId;
	this.value = x;
	this.handled = false;
	this.reported = false;

	this._report();
	}

	inherit(Handler, Rejected);

	Rejected.prototype._state = -1;

	Rejected.prototype.fold = function(f, z, c, to) {
	to.become(this);
	};

	Rejected.prototype.when = function(cont) {
	if(typeof cont.rejected === 'function') {
	this._unreport();
	}
	runContinuation1(cont.rejected, this, cont.receiver, cont.resolver);
	};

	Rejected.prototype._report = function(context) {
	tasks.afterQueue(new ReportTask(this, context));
	};

	Rejected.prototype._unreport = function() {
	if(this.handled) {
	return;
	}
	this.handled = true;
	tasks.afterQueue(new UnreportTask(this));
	};

	Rejected.prototype.fail = function(context) {
	this.reported = true;
	emitRejection('unhandledRejection', this);
	Promise.onFatalRejection(this, context === void 0 ? this.context : context);
	};

	function ReportTask(rejection, context) {
	this.rejection = rejection;
	this.context = context;
	}

	ReportTask.prototype.run = function() {
	if(!this.rejection.handled && !this.rejection.reported) {
	this.rejection.reported = true;
	emitRejection('unhandledRejection', this.rejection) \|\|
	Promise.onPotentiallyUnhandledRejection(this.rejection, this.context);
	}
	};

	function UnreportTask(rejection) {
	this.rejection = rejection;
	}

	UnreportTask.prototype.run = function() {
	if(this.rejection.reported) {
	emitRejection('rejectionHandled', this.rejection) \|\|
	Promise.onPotentiallyUnhandledRejectionHandled(this.rejection);
	}
	};

	// Unhandled rejection hooks
	// By default, everything is a noop

	Promise.createContext
	= Promise.enterContext
	= Promise.exitContext
	= Promise.onPotentiallyUnhandledRejection
	= Promise.onPotentiallyUnhandledRejectionHandled
	= Promise.onFatalRejection
	= noop;

	// Errors and singletons

	var foreverPendingHandler = new Handler();
	var foreverPendingPromise = new Promise(Handler, foreverPendingHandler);

	function cycle() {
	return new Rejected(new TypeError('Promise cycle'));
	}

	// Task runners

	/**
	* Run a single consumer
	* @constructor
	*/
	function ContinuationTask(continuation, handler) {
	this.continuation = continuation;
	this.handler = handler;
	}

	ContinuationTask.prototype.run = function() {
	this.handler.join().when(this.continuation);
	};

	/**
	* Run a queue of progress handlers
	* @constructor
	*/
	function ProgressTask(value, handler) {
	this.handler = handler;
	this.value = value;
	}

	ProgressTask.prototype.run = function() {
	var q = this.handler.consumers;
	if(q === void 0) {
	return;
	}

	for (var c, i = 0; i < q.length; ++i) {
	c = q[i];
	runNotify(c.progress, this.value, this.handler, c.receiver, c.resolver);
	}
	};

	/**
	* Assimilate a thenable, sending it's value to resolver
	* @param {function} then
	* @param {object\|function} thenable
	* @param {object} resolver
	* @constructor
	*/
	function AssimilateTask(then, thenable, resolver) {
	this._then = then;
	this.thenable = thenable;
	this.resolver = resolver;
	}

	AssimilateTask.prototype.run = function() {
	var h = this.resolver;
	tryAssimilate(this._then, this.thenable, _resolve, _reject, _notify);

	function _resolve(x) { h.resolve(x); }
	function _reject(x) { h.reject(x); }
	function _notify(x) { h.notify(x); }
	};

	function tryAssimilate(then, thenable, resolve, reject, notify) {
	try {
	then.call(thenable, resolve, reject, notify);
	} catch (e) {
	reject(e);
	}
	}

	/**
	* Fold a handler value with z
	* @constructor
	*/
	function Fold(f, z, c, to) {
	this.f = f; this.z = z; this.c = c; this.to = to;
	this.resolver = failIfRejected;
	this.receiver = this;
	}

	Fold.prototype.fulfilled = function(x) {
	this.f.call(this.c, this.z, x, this.to);
	};

	Fold.prototype.rejected = function(x) {
	this.to.reject(x);
	};

	Fold.prototype.progress = function(x) {
	this.to.notify(x);
	};

	// Other helpers

	/**
	* @param {*} x
	* @returns {boolean} true iff x is a trusted Promise
	*/
	function isPromise(x) {
	return x instanceof Promise;
	}

	/**
	* Test just enough to rule out primitives, in order to take faster
	* paths in some code
	* @param {*} x
	* @returns {boolean} false iff x is guaranteed not to be a thenable
	*/
	function maybeThenable(x) {
	return (typeof x === 'object' \|\| typeof x === 'function') && x !== null;
	}

	function runContinuation1(f, h, receiver, next) {
	if(typeof f !== 'function') {
	return next.become(h);
	}

	Promise.enterContext(h);
	tryCatchReject(f, h.value, receiver, next);
	Promise.exitContext();
	}

	function runContinuation3(f, x, h, receiver, next) {
	if(typeof f !== 'function') {
	return next.become(h);
	}

	Promise.enterContext(h);
	tryCatchReject3(f, x, h.value, receiver, next);
	Promise.exitContext();
	}

	/**
	* @deprecated
	*/
	function runNotify(f, x, h, receiver, next) {
	if(typeof f !== 'function') {
	return next.notify(x);
	}

	Promise.enterContext(h);
	tryCatchReturn(f, x, receiver, next);
	Promise.exitContext();
	}

	function tryCatch2(f, a, b) {
	try {
	return f(a, b);
	} catch(e) {
	return reject(e);
	}
	}

	/**
	* Return f.call(thisArg, x), or if it throws return a rejected promise for
	* the thrown exception
	*/
	function tryCatchReject(f, x, thisArg, next) {
	try {
	next.become(getHandler(f.call(thisArg, x)));
	} catch(e) {
	next.become(new Rejected(e));
	}
	}

	/**
	* Same as above, but includes the extra argument parameter.
	*/
	function tryCatchReject3(f, x, y, thisArg, next) {
	try {
	f.call(thisArg, x, y, next);
	} catch(e) {
	next.become(new Rejected(e));
	}
	}

	/**
	* @deprecated
	* Return f.call(thisArg, x), or if it throws, return the exception
	*/
	function tryCatchReturn(f, x, thisArg, next) {
	try {
	next.notify(f.call(thisArg, x));
	} catch(e) {
	next.notify(e);
	}
	}

	function inherit(Parent, Child) {
	Child.prototype = objectCreate(Parent.prototype);
	Child.prototype.constructor = Child;
	}

	function snd(x, y) {
	return y;
	}

	function noop() {}

	function hasCustomEvent() {
	if(typeof CustomEvent === 'function') {
	try {
	var ev = new CustomEvent('unhandledRejection');
	return ev instanceof CustomEvent;
	} catch (ignoredException) {}
	}
	return false;
	}

	function hasInternetExplorerCustomEvent() {
	if(typeof document !== 'undefined' && typeof document.createEvent === 'function') {
	try {
	// Try to create one event to make sure it's supported
	var ev = document.createEvent('CustomEvent');
	ev.initCustomEvent('eventType', false, true, {});
	return true;
	} catch (ignoredException) {}
	}
	return false;
	}

	function initEmitRejection() {
	/global process, self, CustomEvent/
	if(typeof process !== 'undefined' && process !== null
	&& typeof process.emit === 'function') {
	// Returning falsy here means to call the default
	// onPotentiallyUnhandledRejection API. This is safe even in
	// browserify since process.emit always returns falsy in browserify:
	// https://github.com/defunctzombie/node-process/blob/master/browser.js#L40-L46
	return function(type, rejection) {
	return type === 'unhandledRejection'
	? process.emit(type, rejection.value, rejection)
	: process.emit(type, rejection);
	};
	} else if(typeof self !== 'undefined' && hasCustomEvent()) {
	return (function (self, CustomEvent) {
	return function (type, rejection) {
	var ev = new CustomEvent(type, {
	detail: {
	reason: rejection.value,
	key: rejection
	},
	bubbles: false,
	cancelable: true
	});

	return !self.dispatchEvent(ev);
	};
	}(self, CustomEvent));
	} else if(typeof self !== 'undefined' && hasInternetExplorerCustomEvent()) {
	return (function(self, document) {
	return function(type, rejection) {
	var ev = document.createEvent('CustomEvent');
	ev.initCustomEvent(type, false, true, {
	reason: rejection.value,
	key: rejection
	});

	return !self.dispatchEvent(ev);
	};
	}(self, document));
	}

	return noop;
	}

	return Promise;
	};
	});
	}(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(); }));