807 lines
29 KiB
JavaScript
807 lines
29 KiB
JavaScript
// Copyright (c) Microsoft, All rights reserved. See License.txt in the project root for license information.
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;(function (factory) {
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var objectTypes = {
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'function': true,
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'object': true
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};
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function checkGlobal(value) {
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return (value && value.Object === Object) ? value : null;
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}
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var freeExports = (objectTypes[typeof exports] && exports && !exports.nodeType) ? exports : null;
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var freeModule = (objectTypes[typeof module] && module && !module.nodeType) ? module : null;
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var freeGlobal = checkGlobal(freeExports && freeModule && typeof global === 'object' && global);
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var freeSelf = checkGlobal(objectTypes[typeof self] && self);
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var freeWindow = checkGlobal(objectTypes[typeof window] && window);
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var moduleExports = (freeModule && freeModule.exports === freeExports) ? freeExports : null;
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var thisGlobal = checkGlobal(objectTypes[typeof this] && this);
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var root = freeGlobal || ((freeWindow !== (thisGlobal && thisGlobal.window)) && freeWindow) || freeSelf || thisGlobal || Function('return this')();
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// Because of build optimizers
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if (typeof define === 'function' && define.amd) {
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define(['./rx.lite.compat'], function (Rx, exports) {
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return factory(root, exports, Rx);
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});
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} else if (typeof module === 'object' && module && module.exports === freeExports) {
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module.exports = factory(root, module.exports, require('rx-lite-compat'));
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} else {
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root.Rx = factory(root, {}, root.Rx);
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}
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}.call(this, function (root, exp, Rx, undefined) {
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// References
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var Observable = Rx.Observable,
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observableProto = Observable.prototype,
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observableNever = Observable.never,
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observableThrow = Observable['throw'],
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AnonymousObservable = Rx.AnonymousObservable,
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ObservableBase = Rx.ObservableBase,
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AnonymousObserver = Rx.AnonymousObserver,
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notificationCreateOnNext = Rx.Notification.createOnNext,
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notificationCreateOnError = Rx.Notification.createOnError,
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notificationCreateOnCompleted = Rx.Notification.createOnCompleted,
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Observer = Rx.Observer,
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observerCreate = Observer.create,
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AbstractObserver = Rx.internals.AbstractObserver,
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Subject = Rx.Subject,
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internals = Rx.internals,
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helpers = Rx.helpers,
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ScheduledObserver = internals.ScheduledObserver,
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SerialDisposable = Rx.SerialDisposable,
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SingleAssignmentDisposable = Rx.SingleAssignmentDisposable,
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CompositeDisposable = Rx.CompositeDisposable,
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BinaryDisposable = Rx.BinaryDisposable,
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RefCountDisposable = Rx.RefCountDisposable,
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disposableEmpty = Rx.Disposable.empty,
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immediateScheduler = Rx.Scheduler.immediate,
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defaultKeySerializer = helpers.defaultKeySerializer,
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addRef = Rx.internals.addRef,
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identity = helpers.identity,
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isPromise = helpers.isPromise,
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isFunction = helpers.isFunction,
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inherits = internals.inherits,
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bindCallback = internals.bindCallback,
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noop = helpers.noop,
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isScheduler = Rx.Scheduler.isScheduler,
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observableFromPromise = Observable.fromPromise,
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ArgumentOutOfRangeError = Rx.ArgumentOutOfRangeError;
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var errorObj = {e: {}};
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function tryCatcherGen(tryCatchTarget) {
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return function tryCatcher() {
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try {
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return tryCatchTarget.apply(this, arguments);
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} catch (e) {
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errorObj.e = e;
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return errorObj;
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}
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};
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}
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var tryCatch = Rx.internals.tryCatch = function tryCatch(fn) {
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if (!isFunction(fn)) { throw new TypeError('fn must be a function'); }
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return tryCatcherGen(fn);
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};
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function thrower(e) {
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throw e;
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}
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function ScheduledDisposable(scheduler, disposable) {
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this.scheduler = scheduler;
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this.disposable = disposable;
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this.isDisposed = false;
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}
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function scheduleItem(s, self) {
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if (!self.isDisposed) {
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self.isDisposed = true;
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self.disposable.dispose();
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}
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}
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ScheduledDisposable.prototype.dispose = function () {
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this.scheduler.schedule(this, scheduleItem);
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};
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var CheckedObserver = (function (__super__) {
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inherits(CheckedObserver, __super__);
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function CheckedObserver(observer) {
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__super__.call(this);
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this._observer = observer;
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this._state = 0; // 0 - idle, 1 - busy, 2 - done
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}
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var CheckedObserverPrototype = CheckedObserver.prototype;
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CheckedObserverPrototype.onNext = function (value) {
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this.checkAccess();
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var res = tryCatch(this._observer.onNext).call(this._observer, value);
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this._state = 0;
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res === errorObj && thrower(res.e);
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};
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CheckedObserverPrototype.onError = function (err) {
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this.checkAccess();
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var res = tryCatch(this._observer.onError).call(this._observer, err);
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this._state = 2;
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res === errorObj && thrower(res.e);
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};
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CheckedObserverPrototype.onCompleted = function () {
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this.checkAccess();
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var res = tryCatch(this._observer.onCompleted).call(this._observer);
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this._state = 2;
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res === errorObj && thrower(res.e);
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};
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CheckedObserverPrototype.checkAccess = function () {
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if (this._state === 1) { throw new Error('Re-entrancy detected'); }
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if (this._state === 2) { throw new Error('Observer completed'); }
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if (this._state === 0) { this._state = 1; }
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};
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return CheckedObserver;
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}(Observer));
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var ObserveOnObserver = (function (__super__) {
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inherits(ObserveOnObserver, __super__);
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function ObserveOnObserver(scheduler, observer, cancel) {
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__super__.call(this, scheduler, observer);
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this._cancel = cancel;
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}
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ObserveOnObserver.prototype.next = function (value) {
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__super__.prototype.next.call(this, value);
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this.ensureActive();
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};
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ObserveOnObserver.prototype.error = function (e) {
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__super__.prototype.error.call(this, e);
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this.ensureActive();
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};
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ObserveOnObserver.prototype.completed = function () {
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__super__.prototype.completed.call(this);
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this.ensureActive();
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};
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ObserveOnObserver.prototype.dispose = function () {
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__super__.prototype.dispose.call(this);
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this._cancel && this._cancel.dispose();
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this._cancel = null;
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};
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return ObserveOnObserver;
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})(ScheduledObserver);
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/**
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* Checks access to the observer for grammar violations. This includes checking for multiple OnError or OnCompleted calls, as well as reentrancy in any of the observer methods.
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* If a violation is detected, an Error is thrown from the offending observer method call.
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*
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* @returns An observer that checks callbacks invocations against the observer grammar and, if the checks pass, forwards those to the specified observer.
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*/
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Observer.prototype.checked = function () { return new CheckedObserver(this); };
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/**
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* Schedules the invocation of observer methods on the given scheduler.
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* @param {Scheduler} scheduler Scheduler to schedule observer messages on.
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* @returns {Observer} Observer whose messages are scheduled on the given scheduler.
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*/
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Observer.notifyOn = function (scheduler) {
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return new ObserveOnObserver(scheduler, this);
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};
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/**
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* Creates an observer from a notification callback.
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* @param {Function} handler Action that handles a notification.
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* @returns The observer object that invokes the specified handler using a notification corresponding to each message it receives.
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*/
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Observer.fromNotifier = function (handler, thisArg) {
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var handlerFunc = bindCallback(handler, thisArg, 1);
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return new AnonymousObserver(function (x) {
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return handlerFunc(notificationCreateOnNext(x));
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}, function (e) {
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return handlerFunc(notificationCreateOnError(e));
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}, function () {
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return handlerFunc(notificationCreateOnCompleted());
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});
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};
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/**
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* Creates a notification callback from an observer.
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* @returns The action that forwards its input notification to the underlying observer.
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*/
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Observer.prototype.toNotifier = function () {
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var observer = this;
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return function (n) { return n.accept(observer); };
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};
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/**
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* Hides the identity of an observer.
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* @returns An observer that hides the identity of the specified observer.
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*/
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Observer.prototype.asObserver = function () {
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var source = this;
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return new AnonymousObserver(
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function (x) { source.onNext(x); },
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function (e) { source.onError(e); },
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function () { source.onCompleted(); }
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);
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};
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var ObserveOnObservable = (function (__super__) {
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inherits(ObserveOnObservable, __super__);
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function ObserveOnObservable(source, s) {
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this.source = source;
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this._s = s;
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__super__.call(this);
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}
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ObserveOnObservable.prototype.subscribeCore = function (o) {
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return this.source.subscribe(new ObserveOnObserver(this._s, o));
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};
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return ObserveOnObservable;
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}(ObservableBase));
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/**
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* Wraps the source sequence in order to run its observer callbacks on the specified scheduler.
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*
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* This only invokes observer callbacks on a scheduler. In case the subscription and/or unsubscription actions have side-effects
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* that require to be run on a scheduler, use subscribeOn.
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*
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* @param {Scheduler} scheduler Scheduler to notify observers on.
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* @returns {Observable} The source sequence whose observations happen on the specified scheduler.
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*/
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observableProto.observeOn = function (scheduler) {
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return new ObserveOnObservable(this, scheduler);
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};
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var SubscribeOnObservable = (function (__super__) {
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inherits(SubscribeOnObservable, __super__);
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function SubscribeOnObservable(source, s) {
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this.source = source;
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this._s = s;
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__super__.call(this);
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}
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function scheduleMethod(scheduler, state) {
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var source = state[0], d = state[1], o = state[2];
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d.setDisposable(new ScheduledDisposable(scheduler, source.subscribe(o)));
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}
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SubscribeOnObservable.prototype.subscribeCore = function (o) {
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var m = new SingleAssignmentDisposable(), d = new SerialDisposable();
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d.setDisposable(m);
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m.setDisposable(this._s.schedule([this.source, d, o], scheduleMethod));
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return d;
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};
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return SubscribeOnObservable;
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}(ObservableBase));
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/**
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* Wraps the source sequence in order to run its subscription and unsubscription logic on the specified scheduler. This operation is not commonly used;
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* see the remarks section for more information on the distinction between subscribeOn and observeOn.
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* This only performs the side-effects of subscription and unsubscription on the specified scheduler. In order to invoke observer
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* callbacks on a scheduler, use observeOn.
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* @param {Scheduler} scheduler Scheduler to perform subscription and unsubscription actions on.
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* @returns {Observable} The source sequence whose subscriptions and unsubscriptions happen on the specified scheduler.
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*/
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observableProto.subscribeOn = function (scheduler) {
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return new SubscribeOnObservable(this, scheduler);
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};
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var GenerateObservable = (function (__super__) {
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inherits(GenerateObservable, __super__);
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function GenerateObservable(state, cndFn, itrFn, resFn, s) {
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this._initialState = state;
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this._cndFn = cndFn;
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this._itrFn = itrFn;
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this._resFn = resFn;
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this._s = s;
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__super__.call(this);
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}
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function scheduleRecursive(state, recurse) {
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if (state.first) {
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state.first = false;
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} else {
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state.newState = tryCatch(state.self._itrFn)(state.newState);
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if (state.newState === errorObj) { return state.o.onError(state.newState.e); }
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}
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var hasResult = tryCatch(state.self._cndFn)(state.newState);
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if (hasResult === errorObj) { return state.o.onError(hasResult.e); }
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if (hasResult) {
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var result = tryCatch(state.self._resFn)(state.newState);
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if (result === errorObj) { return state.o.onError(result.e); }
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state.o.onNext(result);
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recurse(state);
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} else {
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state.o.onCompleted();
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}
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}
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GenerateObservable.prototype.subscribeCore = function (o) {
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var state = {
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o: o,
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self: this,
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first: true,
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newState: this._initialState
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};
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return this._s.scheduleRecursive(state, scheduleRecursive);
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};
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return GenerateObservable;
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}(ObservableBase));
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/**
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* Generates an observable sequence by running a state-driven loop producing the sequence's elements, using the specified scheduler to send out observer messages.
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*
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* @example
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* var res = Rx.Observable.generate(0, function (x) { return x < 10; }, function (x) { return x + 1; }, function (x) { return x; });
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* var res = Rx.Observable.generate(0, function (x) { return x < 10; }, function (x) { return x + 1; }, function (x) { return x; }, Rx.Scheduler.timeout);
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* @param {Mixed} initialState Initial state.
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* @param {Function} condition Condition to terminate generation (upon returning false).
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* @param {Function} iterate Iteration step function.
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* @param {Function} resultSelector Selector function for results produced in the sequence.
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* @param {Scheduler} [scheduler] Scheduler on which to run the generator loop. If not provided, defaults to Scheduler.currentThread.
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* @returns {Observable} The generated sequence.
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*/
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Observable.generate = function (initialState, condition, iterate, resultSelector, scheduler) {
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isScheduler(scheduler) || (scheduler = currentThreadScheduler);
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return new GenerateObservable(initialState, condition, iterate, resultSelector, scheduler);
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};
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var UsingObservable = (function (__super__) {
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inherits(UsingObservable, __super__);
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function UsingObservable(resFn, obsFn) {
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this._resFn = resFn;
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this._obsFn = obsFn;
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__super__.call(this);
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}
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UsingObservable.prototype.subscribeCore = function (o) {
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var disposable = disposableEmpty;
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var resource = tryCatch(this._resFn)();
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if (resource === errorObj) {
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return new BinaryDisposable(observableThrow(resource.e).subscribe(o), disposable);
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}
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resource && (disposable = resource);
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var source = tryCatch(this._obsFn)(resource);
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if (source === errorObj) {
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return new BinaryDisposable(observableThrow(source.e).subscribe(o), disposable);
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}
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return new BinaryDisposable(source.subscribe(o), disposable);
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};
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return UsingObservable;
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}(ObservableBase));
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/**
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* Constructs an observable sequence that depends on a resource object, whose lifetime is tied to the resulting observable sequence's lifetime.
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* @param {Function} resourceFactory Factory function to obtain a resource object.
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* @param {Function} observableFactory Factory function to obtain an observable sequence that depends on the obtained resource.
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* @returns {Observable} An observable sequence whose lifetime controls the lifetime of the dependent resource object.
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*/
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Observable.using = function (resourceFactory, observableFactory) {
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return new UsingObservable(resourceFactory, observableFactory);
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};
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/**
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* Propagates the observable sequence or Promise that reacts first.
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* @param {Observable} rightSource Second observable sequence or Promise.
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* @returns {Observable} {Observable} An observable sequence that surfaces either of the given sequences, whichever reacted first.
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*/
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observableProto.amb = function (rightSource) {
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var leftSource = this;
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return new AnonymousObservable(function (observer) {
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var choice,
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leftChoice = 'L', rightChoice = 'R',
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leftSubscription = new SingleAssignmentDisposable(),
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rightSubscription = new SingleAssignmentDisposable();
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isPromise(rightSource) && (rightSource = observableFromPromise(rightSource));
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function choiceL() {
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if (!choice) {
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choice = leftChoice;
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rightSubscription.dispose();
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}
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}
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function choiceR() {
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if (!choice) {
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choice = rightChoice;
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leftSubscription.dispose();
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}
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}
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var leftSubscribe = observerCreate(
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function (left) {
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choiceL();
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choice === leftChoice && observer.onNext(left);
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},
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function (e) {
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choiceL();
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choice === leftChoice && observer.onError(e);
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},
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function () {
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choiceL();
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choice === leftChoice && observer.onCompleted();
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}
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);
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var rightSubscribe = observerCreate(
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function (right) {
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choiceR();
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choice === rightChoice && observer.onNext(right);
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},
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function (e) {
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choiceR();
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choice === rightChoice && observer.onError(e);
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},
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function () {
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choiceR();
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choice === rightChoice && observer.onCompleted();
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}
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);
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leftSubscription.setDisposable(leftSource.subscribe(leftSubscribe));
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rightSubscription.setDisposable(rightSource.subscribe(rightSubscribe));
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return new BinaryDisposable(leftSubscription, rightSubscription);
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});
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};
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function amb(p, c) { return p.amb(c); }
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/**
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* Propagates the observable sequence or Promise that reacts first.
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* @returns {Observable} An observable sequence that surfaces any of the given sequences, whichever reacted first.
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*/
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Observable.amb = function () {
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var acc = observableNever(), items;
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if (Array.isArray(arguments[0])) {
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items = arguments[0];
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} else {
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var len = arguments.length;
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items = new Array(items);
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for(var i = 0; i < len; i++) { items[i] = arguments[i]; }
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}
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for (var i = 0, len = items.length; i < len; i++) {
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acc = amb(acc, items[i]);
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}
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return acc;
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};
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/**
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* Continues an observable sequence that is terminated normally or by an exception with the next observable sequence.
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* @param {Observable} second Second observable sequence used to produce results after the first sequence terminates.
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* @returns {Observable} An observable sequence that concatenates the first and second sequence, even if the first sequence terminates exceptionally.
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*/
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observableProto.onErrorResumeNext = function (second) {
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if (!second) { throw new Error('Second observable is required'); }
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return onErrorResumeNext([this, second]);
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};
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var OnErrorResumeNextObservable = (function(__super__) {
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inherits(OnErrorResumeNextObservable, __super__);
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function OnErrorResumeNextObservable(sources) {
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this.sources = sources;
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__super__.call(this);
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}
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function scheduleMethod(state, recurse) {
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if (state.pos < state.sources.length) {
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var current = state.sources[state.pos++];
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isPromise(current) && (current = observableFromPromise(current));
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var d = new SingleAssignmentDisposable();
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state.subscription.setDisposable(d);
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d.setDisposable(current.subscribe(new OnErrorResumeNextObserver(state, recurse)));
|
|
} else {
|
|
state.o.onCompleted();
|
|
}
|
|
}
|
|
|
|
OnErrorResumeNextObservable.prototype.subscribeCore = function (o) {
|
|
var subscription = new SerialDisposable(),
|
|
state = {pos: 0, subscription: subscription, o: o, sources: this.sources },
|
|
cancellable = immediateScheduler.scheduleRecursive(state, scheduleMethod);
|
|
|
|
return new BinaryDisposable(subscription, cancellable);
|
|
};
|
|
|
|
return OnErrorResumeNextObservable;
|
|
}(ObservableBase));
|
|
|
|
var OnErrorResumeNextObserver = (function(__super__) {
|
|
inherits(OnErrorResumeNextObserver, __super__);
|
|
function OnErrorResumeNextObserver(state, recurse) {
|
|
this._state = state;
|
|
this._recurse = recurse;
|
|
__super__.call(this);
|
|
}
|
|
|
|
OnErrorResumeNextObserver.prototype.next = function (x) { this._state.o.onNext(x); };
|
|
OnErrorResumeNextObserver.prototype.error = function () { this._recurse(this._state); };
|
|
OnErrorResumeNextObserver.prototype.completed = function () { this._recurse(this._state); };
|
|
|
|
return OnErrorResumeNextObserver;
|
|
}(AbstractObserver));
|
|
|
|
/**
|
|
* Continues an observable sequence that is terminated normally or by an exception with the next observable sequence.
|
|
* @returns {Observable} An observable sequence that concatenates the source sequences, even if a sequence terminates exceptionally.
|
|
*/
|
|
var onErrorResumeNext = Observable.onErrorResumeNext = function () {
|
|
var sources = [];
|
|
if (Array.isArray(arguments[0])) {
|
|
sources = arguments[0];
|
|
} else {
|
|
var len = arguments.length;
|
|
sources = new Array(len);
|
|
for(var i = 0; i < len; i++) { sources[i] = arguments[i]; }
|
|
}
|
|
return new OnErrorResumeNextObservable(sources);
|
|
};
|
|
|
|
function toArray(x) { return x.toArray(); }
|
|
function notEmpty(x) { return x.length > 0; }
|
|
|
|
/**
|
|
* Projects each element of an observable sequence into zero or more buffers which are produced based on element count information.
|
|
* @param {Number} count Length of each buffer.
|
|
* @param {Number} [skip] Number of elements to skip between creation of consecutive buffers. If not provided, defaults to the count.
|
|
* @returns {Observable} An observable sequence of buffers.
|
|
*/
|
|
observableProto.bufferWithCount = observableProto.bufferCount = function (count, skip) {
|
|
typeof skip !== 'number' && (skip = count);
|
|
return this.windowWithCount(count, skip)
|
|
.flatMap(toArray)
|
|
.filter(notEmpty);
|
|
};
|
|
|
|
/**
|
|
* Projects each element of an observable sequence into zero or more windows which are produced based on element count information.
|
|
* @param {Number} count Length of each window.
|
|
* @param {Number} [skip] Number of elements to skip between creation of consecutive windows. If not specified, defaults to the count.
|
|
* @returns {Observable} An observable sequence of windows.
|
|
*/
|
|
observableProto.windowWithCount = observableProto.windowCount = function (count, skip) {
|
|
var source = this;
|
|
+count || (count = 0);
|
|
Math.abs(count) === Infinity && (count = 0);
|
|
if (count <= 0) { throw new ArgumentOutOfRangeError(); }
|
|
skip == null && (skip = count);
|
|
+skip || (skip = 0);
|
|
Math.abs(skip) === Infinity && (skip = 0);
|
|
|
|
if (skip <= 0) { throw new ArgumentOutOfRangeError(); }
|
|
return new AnonymousObservable(function (observer) {
|
|
var m = new SingleAssignmentDisposable(),
|
|
refCountDisposable = new RefCountDisposable(m),
|
|
n = 0,
|
|
q = [];
|
|
|
|
function createWindow () {
|
|
var s = new Subject();
|
|
q.push(s);
|
|
observer.onNext(addRef(s, refCountDisposable));
|
|
}
|
|
|
|
createWindow();
|
|
|
|
m.setDisposable(source.subscribe(
|
|
function (x) {
|
|
for (var i = 0, len = q.length; i < len; i++) { q[i].onNext(x); }
|
|
var c = n - count + 1;
|
|
c >= 0 && c % skip === 0 && q.shift().onCompleted();
|
|
++n % skip === 0 && createWindow();
|
|
},
|
|
function (e) {
|
|
while (q.length > 0) { q.shift().onError(e); }
|
|
observer.onError(e);
|
|
},
|
|
function () {
|
|
while (q.length > 0) { q.shift().onCompleted(); }
|
|
observer.onCompleted();
|
|
}
|
|
));
|
|
return refCountDisposable;
|
|
}, source);
|
|
};
|
|
|
|
var TakeLastBufferObserver = (function (__super__) {
|
|
inherits(TakeLastBufferObserver, __super__);
|
|
function TakeLastBufferObserver(o, c) {
|
|
this._o = o;
|
|
this._c = c;
|
|
this._q = [];
|
|
__super__.call(this);
|
|
}
|
|
|
|
TakeLastBufferObserver.prototype.next = function (x) {
|
|
this._q.push(x);
|
|
this._q.length > this._c && this._q.shift();
|
|
};
|
|
|
|
TakeLastBufferObserver.prototype.error = function (e) {
|
|
this._o.onError(e);
|
|
};
|
|
|
|
TakeLastBufferObserver.prototype.completed = function () {
|
|
this._o.onNext(this._q);
|
|
this._o.onCompleted();
|
|
};
|
|
|
|
return TakeLastBufferObserver;
|
|
}(AbstractObserver));
|
|
|
|
/**
|
|
* Returns an array with the specified number of contiguous elements from the end of an observable sequence.
|
|
*
|
|
* @description
|
|
* This operator accumulates a buffer with a length enough to store count elements. Upon completion of the
|
|
* source sequence, this buffer is produced on the result sequence.
|
|
* @param {Number} count Number of elements to take from the end of the source sequence.
|
|
* @returns {Observable} An observable sequence containing a single array with the specified number of elements from the end of the source sequence.
|
|
*/
|
|
observableProto.takeLastBuffer = function (count) {
|
|
if (count < 0) { throw new ArgumentOutOfRangeError(); }
|
|
var source = this;
|
|
return new AnonymousObservable(function (o) {
|
|
return source.subscribe(new TakeLastBufferObserver(o, count));
|
|
}, source);
|
|
};
|
|
|
|
var DefaultIfEmptyObserver = (function (__super__) {
|
|
inherits(DefaultIfEmptyObserver, __super__);
|
|
function DefaultIfEmptyObserver(o, d) {
|
|
this._o = o;
|
|
this._d = d;
|
|
this._f = false;
|
|
__super__.call(this);
|
|
}
|
|
|
|
DefaultIfEmptyObserver.prototype.next = function (x) {
|
|
this._f = true;
|
|
this._o.onNext(x);
|
|
};
|
|
|
|
DefaultIfEmptyObserver.prototype.error = function (e) {
|
|
this._o.onError(e);
|
|
};
|
|
|
|
DefaultIfEmptyObserver.prototype.completed = function () {
|
|
!this._f && this._o.onNext(this._d);
|
|
this._o.onCompleted();
|
|
};
|
|
|
|
return DefaultIfEmptyObserver;
|
|
}(AbstractObserver));
|
|
|
|
/**
|
|
* Returns the elements of the specified sequence or the specified value in a singleton sequence if the sequence is empty.
|
|
*
|
|
* var res = obs = xs.defaultIfEmpty();
|
|
* 2 - obs = xs.defaultIfEmpty(false);
|
|
*
|
|
* @memberOf Observable#
|
|
* @param defaultValue The value to return if the sequence is empty. If not provided, this defaults to null.
|
|
* @returns {Observable} An observable sequence that contains the specified default value if the source is empty; otherwise, the elements of the source itself.
|
|
*/
|
|
observableProto.defaultIfEmpty = function (defaultValue) {
|
|
var source = this;
|
|
defaultValue === undefined && (defaultValue = null);
|
|
return new AnonymousObservable(function (o) {
|
|
return source.subscribe(new DefaultIfEmptyObserver(o, defaultValue));
|
|
}, source);
|
|
};
|
|
|
|
// Swap out for Array.findIndex
|
|
function arrayIndexOfComparer(array, item, comparer) {
|
|
for (var i = 0, len = array.length; i < len; i++) {
|
|
if (comparer(array[i], item)) { return i; }
|
|
}
|
|
return -1;
|
|
}
|
|
|
|
function HashSet(comparer) {
|
|
this.comparer = comparer;
|
|
this.set = [];
|
|
}
|
|
HashSet.prototype.push = function(value) {
|
|
var retValue = arrayIndexOfComparer(this.set, value, this.comparer) === -1;
|
|
retValue && this.set.push(value);
|
|
return retValue;
|
|
};
|
|
|
|
var DistinctObservable = (function (__super__) {
|
|
inherits(DistinctObservable, __super__);
|
|
function DistinctObservable(source, keyFn, cmpFn) {
|
|
this.source = source;
|
|
this._keyFn = keyFn;
|
|
this._cmpFn = cmpFn;
|
|
__super__.call(this);
|
|
}
|
|
|
|
DistinctObservable.prototype.subscribeCore = function (o) {
|
|
return this.source.subscribe(new DistinctObserver(o, this._keyFn, this._cmpFn));
|
|
};
|
|
|
|
return DistinctObservable;
|
|
}(ObservableBase));
|
|
|
|
var DistinctObserver = (function (__super__) {
|
|
inherits(DistinctObserver, __super__);
|
|
function DistinctObserver(o, keyFn, cmpFn) {
|
|
this._o = o;
|
|
this._keyFn = keyFn;
|
|
this._h = new HashSet(cmpFn);
|
|
__super__.call(this);
|
|
}
|
|
|
|
DistinctObserver.prototype.next = function (x) {
|
|
var key = x;
|
|
if (isFunction(this._keyFn)) {
|
|
key = tryCatch(this._keyFn)(x);
|
|
if (key === errorObj) { return this._o.onError(key.e); }
|
|
}
|
|
this._h.push(key) && this._o.onNext(x);
|
|
};
|
|
|
|
DistinctObserver.prototype.error = function (e) { this._o.onError(e); };
|
|
DistinctObserver.prototype.completed = function () { this._o.onCompleted(); };
|
|
|
|
return DistinctObserver;
|
|
}(AbstractObserver));
|
|
|
|
/**
|
|
* Returns an observable sequence that contains only distinct elements according to the keySelector and the comparer.
|
|
* Usage of this operator should be considered carefully due to the maintenance of an internal lookup structure which can grow large.
|
|
*
|
|
* @example
|
|
* var res = obs = xs.distinct();
|
|
* 2 - obs = xs.distinct(function (x) { return x.id; });
|
|
* 2 - obs = xs.distinct(function (x) { return x.id; }, function (a,b) { return a === b; });
|
|
* @param {Function} [keySelector] A function to compute the comparison key for each element.
|
|
* @param {Function} [comparer] Used to compare items in the collection.
|
|
* @returns {Observable} An observable sequence only containing the distinct elements, based on a computed key value, from the source sequence.
|
|
*/
|
|
observableProto.distinct = function (keySelector, comparer) {
|
|
comparer || (comparer = defaultComparer);
|
|
return new DistinctObservable(this, keySelector, comparer);
|
|
};
|
|
|
|
/**
|
|
* Returns an observable sequence that shares a single subscription to the underlying sequence. This observable sequence
|
|
* can be resubscribed to, even if all prior subscriptions have ended. (unlike `.publish().refCount()`)
|
|
* @returns {Observable} An observable sequence that contains the elements of a sequence produced by multicasting the source.
|
|
*/
|
|
observableProto.singleInstance = function() {
|
|
var source = this, hasObservable = false, observable;
|
|
|
|
function getObservable() {
|
|
if (!hasObservable) {
|
|
hasObservable = true;
|
|
observable = source['finally'](function() { hasObservable = false; }).publish().refCount();
|
|
}
|
|
return observable;
|
|
}
|
|
|
|
return new AnonymousObservable(function(o) {
|
|
return getObservable().subscribe(o);
|
|
});
|
|
};
|
|
|
|
return Rx;
|
|
}));
|