"use strict"; var __extends = (this && this.__extends) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; var Observable_1 = require('../Observable'); var tryCatch_1 = require('../util/tryCatch'); var errorObject_1 = require('../util/errorObject'); var AsyncSubject_1 = require('../AsyncSubject'); /** * We need this JSDoc comment for affecting ESDoc. * @extends {Ignored} * @hide true */ var BoundNodeCallbackObservable = (function (_super) { __extends(BoundNodeCallbackObservable, _super); function BoundNodeCallbackObservable(callbackFunc, selector, args, context, scheduler) { _super.call(this); this.callbackFunc = callbackFunc; this.selector = selector; this.args = args; this.context = context; this.scheduler = scheduler; } /* tslint:enable:max-line-length */ /** * Converts a Node.js-style callback API to a function that returns an * Observable. * * It's just like {@link bindCallback}, but the * callback is expected to be of type `callback(error, result)`. * * `bindNodeCallback` is not an operator because its input and output are not * Observables. The input is a function `func` with some parameters, but the * last parameter must be a callback function that `func` calls when it is * done. The callback function is expected to follow Node.js conventions, * where the first argument to the callback is an error object, signaling * whether call was successful. If that object is passed to callback, it means * something went wrong. * * The output of `bindNodeCallback` is a function that takes the same * parameters as `func`, except the last one (the callback). When the output * function is called with arguments, it will return an Observable. * If `func` calls its callback with error parameter present, Observable will * error with that value as well. If error parameter is not passed, Observable will emit * second parameter. If there are more parameters (third and so on), * Observable will emit an array with all arguments, except first error argument. * * Optionally `bindNodeCallback` accepts selector function, which allows you to * make resulting Observable emit value computed by selector, instead of regular * callback arguments. It works similarly to {@link bindCallback} selector, but * Node.js-style error argument will never be passed to that function. * * Note that `func` will not be called at the same time output function is, * but rather whenever resulting Observable is subscribed. By default call to * `func` will happen synchronously after subscription, but that can be changed * with proper {@link Scheduler} provided as optional third parameter. Scheduler * can also control when values from callback will be emitted by Observable. * To find out more, check out documentation for {@link bindCallback}, where * Scheduler works exactly the same. * * As in {@link bindCallback}, context (`this` property) of input function will be set to context * of returned function, when it is called. * * After Observable emits value, it will complete immediately. This means * even if `func` calls callback again, values from second and consecutive * calls will never appear on the stream. If you need to handle functions * that call callbacks multiple times, check out {@link fromEvent} or * {@link fromEventPattern} instead. * * Note that `bindNodeCallback` can be used in non-Node.js environments as well. * "Node.js-style" callbacks are just a convention, so if you write for * browsers or any other environment and API you use implements that callback style, * `bindNodeCallback` can be safely used on that API functions as well. * * Remember that Error object passed to callback does not have to be an instance * of JavaScript built-in `Error` object. In fact, it does not even have to an object. * Error parameter of callback function is interpreted as "present", when value * of that parameter is truthy. It could be, for example, non-zero number, non-empty * string or boolean `true`. In all of these cases resulting Observable would error * with that value. This means usually regular style callbacks will fail very often when * `bindNodeCallback` is used. If your Observable errors much more often then you * would expect, check if callback really is called in Node.js-style and, if not, * switch to {@link bindCallback} instead. * * Note that even if error parameter is technically present in callback, but its value * is falsy, it still won't appear in array emitted by Observable or in selector function. * * * @example Read a file from the filesystem and get the data as an Observable * import * as fs from 'fs'; * var readFileAsObservable = Rx.Observable.bindNodeCallback(fs.readFile); * var result = readFileAsObservable('./roadNames.txt', 'utf8'); * result.subscribe(x => console.log(x), e => console.error(e)); * * * @example Use on function calling callback with multiple arguments * someFunction((err, a, b) => { * console.log(err); // null * console.log(a); // 5 * console.log(b); // "some string" * }); * var boundSomeFunction = Rx.Observable.bindNodeCallback(someFunction); * boundSomeFunction() * .subscribe(value => { * console.log(value); // [5, "some string"] * }); * * * @example Use with selector function * someFunction((err, a, b) => { * console.log(err); // undefined * console.log(a); // "abc" * console.log(b); // "DEF" * }); * var boundSomeFunction = Rx.Observable.bindNodeCallback(someFunction, (a, b) => a + b); * boundSomeFunction() * .subscribe(value => { * console.log(value); // "abcDEF" * }); * * * @example Use on function calling callback in regular style * someFunction(a => { * console.log(a); // 5 * }); * var boundSomeFunction = Rx.Observable.bindNodeCallback(someFunction); * boundSomeFunction() * .subscribe( * value => {} // never gets called * err => console.log(err) // 5 *); * * * @see {@link bindCallback} * @see {@link from} * @see {@link fromPromise} * * @param {function} func Function with a Node.js-style callback as the last parameter. * @param {function} [selector] A function which takes the arguments from the * callback and maps those to a value to emit on the output Observable. * @param {Scheduler} [scheduler] The scheduler on which to schedule the * callbacks. * @return {function(...params: *): Observable} A function which returns the * Observable that delivers the same values the Node.js callback would * deliver. * @static true * @name bindNodeCallback * @owner Observable */ BoundNodeCallbackObservable.create = function (func, selector, scheduler) { if (selector === void 0) { selector = undefined; } return function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i - 0] = arguments[_i]; } return new BoundNodeCallbackObservable(func, selector, args, this, scheduler); }; }; /** @deprecated internal use only */ BoundNodeCallbackObservable.prototype._subscribe = function (subscriber) { var callbackFunc = this.callbackFunc; var args = this.args; var scheduler = this.scheduler; var subject = this.subject; if (!scheduler) { if (!subject) { subject = this.subject = new AsyncSubject_1.AsyncSubject(); var handler = function handlerFn() { var innerArgs = []; for (var _i = 0; _i < arguments.length; _i++) { innerArgs[_i - 0] = arguments[_i]; } var source = handlerFn.source; var selector = source.selector, subject = source.subject; var err = innerArgs.shift(); if (err) { subject.error(err); } else if (selector) { var result_1 = tryCatch_1.tryCatch(selector).apply(this, innerArgs); if (result_1 === errorObject_1.errorObject) { subject.error(errorObject_1.errorObject.e); } else { subject.next(result_1); subject.complete(); } } else { subject.next(innerArgs.length <= 1 ? innerArgs[0] : innerArgs); subject.complete(); } }; // use named function instance to avoid closure. handler.source = this; var result = tryCatch_1.tryCatch(callbackFunc).apply(this.context, args.concat(handler)); if (result === errorObject_1.errorObject) { subject.error(errorObject_1.errorObject.e); } } return subject.subscribe(subscriber); } else { return scheduler.schedule(dispatch, 0, { source: this, subscriber: subscriber, context: this.context }); } }; return BoundNodeCallbackObservable; }(Observable_1.Observable)); exports.BoundNodeCallbackObservable = BoundNodeCallbackObservable; function dispatch(state) { var self = this; var source = state.source, subscriber = state.subscriber, context = state.context; // XXX: cast to `any` to access to the private field in `source`. var _a = source, callbackFunc = _a.callbackFunc, args = _a.args, scheduler = _a.scheduler; var subject = source.subject; if (!subject) { subject = source.subject = new AsyncSubject_1.AsyncSubject(); var handler = function handlerFn() { var innerArgs = []; for (var _i = 0; _i < arguments.length; _i++) { innerArgs[_i - 0] = arguments[_i]; } var source = handlerFn.source; var selector = source.selector, subject = source.subject; var err = innerArgs.shift(); if (err) { self.add(scheduler.schedule(dispatchError, 0, { err: err, subject: subject })); } else if (selector) { var result_2 = tryCatch_1.tryCatch(selector).apply(this, innerArgs); if (result_2 === errorObject_1.errorObject) { self.add(scheduler.schedule(dispatchError, 0, { err: errorObject_1.errorObject.e, subject: subject })); } else { self.add(scheduler.schedule(dispatchNext, 0, { value: result_2, subject: subject })); } } else { var value = innerArgs.length <= 1 ? innerArgs[0] : innerArgs; self.add(scheduler.schedule(dispatchNext, 0, { value: value, subject: subject })); } }; // use named function to pass values in without closure handler.source = source; var result = tryCatch_1.tryCatch(callbackFunc).apply(context, args.concat(handler)); if (result === errorObject_1.errorObject) { self.add(scheduler.schedule(dispatchError, 0, { err: errorObject_1.errorObject.e, subject: subject })); } } self.add(subject.subscribe(subscriber)); } function dispatchNext(arg) { var value = arg.value, subject = arg.subject; subject.next(value); subject.complete(); } function dispatchError(arg) { var err = arg.err, subject = arg.subject; subject.error(err); } //# sourceMappingURL=BoundNodeCallbackObservable.js.map