!function(e){"object"==typeof exports?module.exports=e():"function"==typeof define&&define.amd?define(e):"undefined"!=typeof window?window.when=e():"undefined"!=typeof global?global.when=e():"undefined"!=typeof self&&(self.when=e())}(function(){var define,module,exports;return (function e(t,n,r){function s(o,u){if(!n[o]){if(!t[o]){var a=typeof require=="function"&&require;if(!u&&a)return a(o,!0);if(i)return i(o,!0);throw new Error("Cannot find module '"+o+"'")}var f=n[o]={exports:{}};t[o][0].call(f.exports,function(e){var n=t[o][1][e];return s(n?n:e)},f,f.exports,e,t,n,r)}return n[o].exports}var i=typeof require=="function"&&require;for(var o=0;o 1 ? slice.call(arguments, 1) : []; return function() { return _apply(f, this, args.concat(slice.call(arguments))); }; } /** * Lift all the functions/methods on src * @param {object|function} src source whose functions will be lifted * @param {function?} combine optional function for customizing the lifting * process. It is passed dst, the lifted function, and the property name of * the original function on src. * @param {(object|function)?} dst option destination host onto which to place lifted * functions. If not provided, liftAll returns a new object. * @returns {*} If dst is provided, returns dst with lifted functions as * properties. If dst not provided, returns a new object with lifted functions. */ function liftAll(src, combine, dst) { return _liftAll(lift, combine, dst, src); } /** * `promisify` is a version of `lift` that allows fine-grained control over the * arguments that passed to the underlying function. It is intended to handle * functions that don't follow the common callback and errback positions. * * The control is done by passing an object whose 'callback' and/or 'errback' * keys, whose values are the corresponding 0-based indexes of the arguments on * the function. Negative values are interpreted as being relative to the end * of the arguments array. * * If arguments are given on the call to the 'promisified' function, they are * intermingled with the callback and errback. If a promise is given among them, * the execution of the function will only occur after its resolution. * * @example * var delay = callbacks.promisify(setTimeout, { * callback: 0 * }); * * delay(100).then(function() { * console.log("This happens 100ms afterwards"); * }); * * @example * function callbackAsLast(errback, followsStandards, callback) { * if(followsStandards) { * callback("well done!"); * } else { * errback("some programmers just want to watch the world burn"); * } * } * * var promisified = callbacks.promisify(callbackAsLast, { * callback: -1, * errback: 0, * }); * * promisified(true).then(console.log, console.error); * promisified(false).then(console.log, console.error); * * @param {Function} asyncFunction traditional function to be decorated * @param {object} positions * @param {number} [positions.callback] index at which asyncFunction expects to * receive a success callback * @param {number} [positions.errback] index at which asyncFunction expects to * receive an error callback * @returns {function} promisified function that accepts * * @deprecated */ function promisify(asyncFunction, positions) { return function() { var thisArg = this; return Promise.all(arguments).then(function(args) { var p = Promise._defer(); var callbackPos, errbackPos; if(typeof positions.callback === 'number') { callbackPos = normalizePosition(args, positions.callback); } if(typeof positions.errback === 'number') { errbackPos = normalizePosition(args, positions.errback); } if(errbackPos < callbackPos) { insertCallback(args, errbackPos, p._handler.reject, p._handler); insertCallback(args, callbackPos, p._handler.resolve, p._handler); } else { insertCallback(args, callbackPos, p._handler.resolve, p._handler); insertCallback(args, errbackPos, p._handler.reject, p._handler); } asyncFunction.apply(thisArg, args); return p; }); }; } function normalizePosition(args, pos) { return pos < 0 ? (args.length + pos + 2) : pos; } function insertCallback(args, pos, callback, thisArg) { if(typeof pos === 'number') { args.splice(pos, 0, alwaysUnary(callback, thisArg)); } } function alwaysUnary(fn, thisArg) { return function() { if (arguments.length > 1) { fn.call(thisArg, slice.call(arguments)); } else { fn.apply(thisArg, arguments); } }; } }); })(typeof define === 'function' && define.amd ? define : function (factory) { module.exports = factory(require); }); },{"./lib/apply":12,"./lib/liftAll":24,"./when":38}],4:[function(require,module,exports){ /** @license MIT License (c) copyright B Cavalier & J Hann */ /** * cancelable.js * @deprecated * * Decorator that makes a deferred "cancelable". It adds a cancel() method that * will call a special cancel handler function and then reject the deferred. The * cancel handler can be used to do resource cleanup, or anything else that should * be done before any other rejection handlers are executed. * * Usage: * * var cancelableDeferred = cancelable(when.defer(), myCancelHandler); * * @author brian@hovercraftstudios.com */ (function(define) { define(function() { /** * Makes deferred cancelable, adding a cancel() method. * @deprecated * * @param deferred {Deferred} the {@link Deferred} to make cancelable * @param canceler {Function} cancel handler function to execute when this deferred * is canceled. This is guaranteed to run before all other rejection handlers. * The canceler will NOT be executed if the deferred is rejected in the standard * way, i.e. deferred.reject(). It ONLY executes if the deferred is canceled, * i.e. deferred.cancel() * * @returns deferred, with an added cancel() method. */ return function(deferred, canceler) { // Add a cancel method to the deferred to reject the delegate // with the special canceled indicator. deferred.cancel = function() { try { deferred.reject(canceler(deferred)); } catch(e) { deferred.reject(e); } return deferred.promise; }; return deferred; }; }); })(typeof define === 'function' && define.amd ? define : function (factory) { module.exports = factory(); }); },{}],5:[function(require,module,exports){ /** @license MIT License (c) copyright 2011-2013 original author or authors */ /** * delay.js * * Helper that returns a promise that resolves after a delay. * * @author Brian Cavalier * @author John Hann */ (function(define) { define(function(require) { var when = require('./when'); /** * @deprecated Use when(value).delay(ms) */ return function delay(msec, value) { return when(value).delay(msec); }; }); })(typeof define === 'function' && define.amd ? define : function (factory) { module.exports = factory(require); }); },{"./when":38}],6:[function(require,module,exports){ /** @license MIT License (c) copyright 2013-2014 original author or authors */ /** * Collection of helper functions for wrapping and executing 'traditional' * synchronous functions in a promise interface. * * @author Brian Cavalier * @contributor Renato Zannon */ (function(define) { define(function(require) { var when = require('./when'); var attempt = when['try']; var _liftAll = require('./lib/liftAll'); var _apply = require('./lib/apply')(when.Promise); var slice = Array.prototype.slice; return { lift: lift, liftAll: liftAll, call: attempt, apply: apply, compose: compose }; /** * Takes a function and an optional array of arguments (that might be promises), * and calls the function. The return value is a promise whose resolution * depends on the value returned by the function. * @param {function} f function to be called * @param {Array} [args] array of arguments to func * @returns {Promise} promise for the return value of func */ function apply(f, args) { // slice args just in case the caller passed an Arguments instance return _apply(f, this, args == null ? [] : slice.call(args)); } /** * Takes a 'regular' function and returns a version of that function that * returns a promise instead of a plain value, and handles thrown errors by * returning a rejected promise. Also accepts a list of arguments to be * prepended to the new function, as does Function.prototype.bind. * * The resulting function is promise-aware, in the sense that it accepts * promise arguments, and waits for their resolution. * @param {Function} f function to be bound * @param {...*} [args] arguments to be prepended for the new function @deprecated * @returns {Function} a promise-returning function */ function lift(f /*, args... */) { var args = arguments.length > 1 ? slice.call(arguments, 1) : []; return function() { return _apply(f, this, args.concat(slice.call(arguments))); }; } /** * Lift all the functions/methods on src * @param {object|function} src source whose functions will be lifted * @param {function?} combine optional function for customizing the lifting * process. It is passed dst, the lifted function, and the property name of * the original function on src. * @param {(object|function)?} dst option destination host onto which to place lifted * functions. If not provided, liftAll returns a new object. * @returns {*} If dst is provided, returns dst with lifted functions as * properties. If dst not provided, returns a new object with lifted functions. */ function liftAll(src, combine, dst) { return _liftAll(lift, combine, dst, src); } /** * Composes multiple functions by piping their return values. It is * transparent to whether the functions return 'regular' values or promises: * the piped argument is always a resolved value. If one of the functions * throws or returns a rejected promise, the composed promise will be also * rejected. * * The arguments (or promises to arguments) given to the returned function (if * any), are passed directly to the first function on the 'pipeline'. * @param {Function} f the function to which the arguments will be passed * @param {...Function} [funcs] functions that will be composed, in order * @returns {Function} a promise-returning composition of the functions */ function compose(f /*, funcs... */) { var funcs = slice.call(arguments, 1); return function() { var thisArg = this; var args = slice.call(arguments); var firstPromise = attempt.apply(thisArg, [f].concat(args)); return when.reduce(funcs, function(arg, func) { return func.call(thisArg, arg); }, firstPromise); }; } }); })(typeof define === 'function' && define.amd ? define : function (factory) { module.exports = factory(require); }); },{"./lib/apply":12,"./lib/liftAll":24,"./when":38}],7:[function(require,module,exports){ /** @license MIT License (c) copyright 2011-2013 original author or authors */ /** * Generalized promise concurrency guard * Adapted from original concept by Sakari Jokinen (Rocket Pack, Ltd.) * * @author Brian Cavalier * @author John Hann * @contributor Sakari Jokinen */ (function(define) { define(function(require) { var when = require('./when'); var slice = Array.prototype.slice; guard.n = n; return guard; /** * Creates a guarded version of f that can only be entered when the supplied * condition allows. * @param {function} condition represents a critical section that may only * be entered when allowed by the condition * @param {function} f function to guard * @returns {function} guarded version of f */ function guard(condition, f) { return function() { var args = slice.call(arguments); return when(condition()).withThis(this).then(function(exit) { return when(f.apply(this, args))['finally'](exit); }); }; } /** * Creates a condition that allows only n simultaneous executions * of a guarded function * @param {number} allowed number of allowed simultaneous executions * @returns {function} condition function which returns a promise that * fulfills when the critical section may be entered. The fulfillment * value is a function ("notifyExit") that must be called when the critical * section has been exited. */ function n(allowed) { var count = 0; var waiting = []; return function enter() { return when.promise(function(resolve) { if(count < allowed) { resolve(exit); } else { waiting.push(resolve); } count += 1; }); }; function exit() { count = Math.max(count - 1, 0); if(waiting.length > 0) { waiting.shift()(exit); } } } }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(require); })); },{"./when":38}],8:[function(require,module,exports){ /** @license MIT License (c) copyright 2011-2013 original author or authors */ /** * Licensed under the MIT License at: * http://www.opensource.org/licenses/mit-license.php * * @author Brian Cavalier * @author John Hann */ (function(define) { 'use strict'; define(function(require) { var when = require('./when'); var Promise = when.Promise; var toPromise = when.resolve; return { all: when.lift(all), map: map, settle: settle }; /** * Resolve all the key-value pairs in the supplied object or promise * for an object. * @param {Promise|object} object or promise for object whose key-value pairs * will be resolved * @returns {Promise} promise for an object with the fully resolved key-value pairs */ function all(object) { var p = Promise._defer(); var resolver = Promise._handler(p); var results = {}; var keys = Object.keys(object); var pending = keys.length; for(var i=0, k; i>>0; var pending = l; var errors = []; for (var h, x, i = 0; i < l; ++i) { x = promises[i]; if(x === void 0 && !(i in promises)) { --pending; continue; } h = Promise._handler(x); if(h.state() > 0) { resolver.become(h); Promise._visitRemaining(promises, i, h); break; } else { h.visit(resolver, handleFulfill, handleReject); } } if(pending === 0) { resolver.reject(new RangeError('any(): array must not be empty')); } return p; function handleFulfill(x) { /*jshint validthis:true*/ errors = null; this.resolve(x); // this === resolver } function handleReject(e) { /*jshint validthis:true*/ if(this.resolved) { // this === resolver return; } errors.push(e); if(--pending === 0) { this.reject(errors); } } } /** * N-winner competitive race * Return a promise that will fulfill when n input promises have * fulfilled, or will reject when it becomes impossible for n * input promises to fulfill (ie when promises.length - n + 1 * have rejected) * @param {array} promises * @param {number} n * @returns {Promise} promise for the earliest n fulfillment values * * @deprecated */ function some(promises, n) { /*jshint maxcomplexity:7*/ var p = Promise._defer(); var resolver = p._handler; var results = []; var errors = []; var l = promises.length>>>0; var nFulfill = 0; var nReject; var x, i; // reused in both for() loops // First pass: count actual array items for(i=0; i nFulfill) { resolver.reject(new RangeError('some(): array must contain at least ' + n + ' item(s), but had ' + nFulfill)); } else if(nFulfill === 0) { resolver.resolve(results); } // Second pass: observe each array item, make progress toward goals for(i=0; i 2 ? ar.call(promises, liftCombine(f), arguments[2]) : ar.call(promises, liftCombine(f)); } /** * Traditional reduce function, similar to `Array.prototype.reduceRight()`, but * input may contain promises and/or values, and reduceFunc * may return either a value or a promise, *and* initialValue may * be a promise for the starting value. * @param {Array|Promise} promises array or promise for an array of anything, * may contain a mix of promises and values. * @param {function(accumulated:*, x:*, index:Number):*} f reduce function * @returns {Promise} that will resolve to the final reduced value */ function reduceRight(promises, f /*, initialValue */) { return arguments.length > 2 ? arr.call(promises, liftCombine(f), arguments[2]) : arr.call(promises, liftCombine(f)); } function liftCombine(f) { return function(z, x, i) { return applyFold(f, void 0, [z,x,i]); }; } }; }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(require); })); },{"../apply":12,"../state":26}],14:[function(require,module,exports){ /** @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 flow(Promise) { var resolve = Promise.resolve; var reject = Promise.reject; var origCatch = Promise.prototype['catch']; /** * Handle the ultimate fulfillment value or rejection reason, and assume * responsibility for all errors. If an error propagates out of result * or handleFatalError, it will be rethrown to the host, resulting in a * loud stack track on most platforms and a crash on some. * @param {function?} onResult * @param {function?} onError * @returns {undefined} */ Promise.prototype.done = function(onResult, onError) { this._handler.visit(this._handler.receiver, onResult, onError); }; /** * Add Error-type and predicate matching to catch. Examples: * promise.catch(TypeError, handleTypeError) * .catch(predicate, handleMatchedErrors) * .catch(handleRemainingErrors) * @param onRejected * @returns {*} */ Promise.prototype['catch'] = Promise.prototype.otherwise = function(onRejected) { if (arguments.length < 2) { return origCatch.call(this, onRejected); } if(typeof onRejected !== 'function') { return this.ensure(rejectInvalidPredicate); } return origCatch.call(this, createCatchFilter(arguments[1], onRejected)); }; /** * Wraps the provided catch handler, so that it will only be called * if the predicate evaluates truthy * @param {?function} handler * @param {function} predicate * @returns {function} conditional catch handler */ function createCatchFilter(handler, predicate) { return function(e) { return evaluatePredicate(e, predicate) ? handler.call(this, e) : reject(e); }; } /** * Ensures that onFulfilledOrRejected will be called regardless of whether * this promise is fulfilled or rejected. onFulfilledOrRejected WILL NOT * receive the promises' value or reason. Any returned value will be disregarded. * onFulfilledOrRejected may throw or return a rejected promise to signal * an additional error. * @param {function} handler handler to be called regardless of * fulfillment or rejection * @returns {Promise} */ Promise.prototype['finally'] = Promise.prototype.ensure = function(handler) { if(typeof handler !== 'function') { return this; } return this.then(function(x) { return runSideEffect(handler, this, identity, x); }, function(e) { return runSideEffect(handler, this, reject, e); }); }; function runSideEffect (handler, thisArg, propagate, value) { var result = handler.call(thisArg); return maybeThenable(result) ? propagateValue(result, propagate, value) : propagate(value); } function propagateValue (result, propagate, x) { return resolve(result).then(function () { return propagate(x); }); } /** * Recover from a failure by returning a defaultValue. If defaultValue * is a promise, it's fulfillment value will be used. If defaultValue is * a promise that rejects, the returned promise will reject with the * same reason. * @param {*} defaultValue * @returns {Promise} new promise */ Promise.prototype['else'] = Promise.prototype.orElse = function(defaultValue) { return this.then(void 0, function() { return defaultValue; }); }; /** * Shortcut for .then(function() { return value; }) * @param {*} value * @return {Promise} a promise that: * - is fulfilled if value is not a promise, or * - if value is a promise, will fulfill with its value, or reject * with its reason. */ Promise.prototype['yield'] = function(value) { return this.then(function() { return value; }); }; /** * Runs a side effect when this promise fulfills, without changing the * fulfillment value. * @param {function} onFulfilledSideEffect * @returns {Promise} */ Promise.prototype.tap = function(onFulfilledSideEffect) { return this.then(onFulfilledSideEffect)['yield'](this); }; return Promise; }; function rejectInvalidPredicate() { throw new TypeError('catch predicate must be a function'); } function evaluatePredicate(e, predicate) { return isError(predicate) ? e instanceof predicate : predicate(e); } function isError(predicate) { return predicate === Error || (predicate != null && predicate.prototype instanceof Error); } function maybeThenable(x) { return (typeof x === 'object' || typeof x === 'function') && x !== null; } function identity(x) { return x; } }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(); })); },{}],15:[function(require,module,exports){ /** @license MIT License (c) copyright 2010-2014 original author or authors */ /** @author Brian Cavalier */ /** @author John Hann */ /** @author Jeff Escalante */ (function(define) { 'use strict'; define(function() { return function fold(Promise) { Promise.prototype.fold = function(f, z) { var promise = this._beget(); this._handler.fold(function(z, x, to) { Promise._handler(z).fold(function(x, z, to) { to.resolve(f.call(this, z, x)); }, x, this, to); }, z, promise._handler.receiver, promise._handler); return promise; }; return Promise; }; }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(); })); },{}],16:[function(require,module,exports){ /** @license MIT License (c) copyright 2010-2014 original author or authors */ /** @author Brian Cavalier */ /** @author John Hann */ (function(define) { 'use strict'; define(function(require) { var inspect = require('../state').inspect; return function inspection(Promise) { Promise.prototype.inspect = function() { return inspect(Promise._handler(this)); }; return Promise; }; }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(require); })); },{"../state":26}],17:[function(require,module,exports){ /** @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 generate(Promise) { var resolve = Promise.resolve; Promise.iterate = iterate; Promise.unfold = unfold; return Promise; /** * @deprecated Use github.com/cujojs/most streams and most.iterate * Generate a (potentially infinite) stream of promised values: * x, f(x), f(f(x)), etc. until condition(x) returns true * @param {function} f function to generate a new x from the previous x * @param {function} condition function that, given the current x, returns * truthy when the iterate should stop * @param {function} handler function to handle the value produced by f * @param {*|Promise} x starting value, may be a promise * @return {Promise} the result of the last call to f before * condition returns true */ function iterate(f, condition, handler, x) { return unfold(function(x) { return [x, f(x)]; }, condition, handler, x); } /** * @deprecated Use github.com/cujojs/most streams and most.unfold * Generate a (potentially infinite) stream of promised values * by applying handler(generator(seed)) iteratively until * condition(seed) returns true. * @param {function} unspool function that generates a [value, newSeed] * given a seed. * @param {function} condition function that, given the current seed, returns * truthy when the unfold should stop * @param {function} handler function to handle the value produced by unspool * @param x {*|Promise} starting value, may be a promise * @return {Promise} the result of the last value produced by unspool before * condition returns true */ function unfold(unspool, condition, handler, x) { return resolve(x).then(function(seed) { return resolve(condition(seed)).then(function(done) { return done ? seed : resolve(unspool(seed)).spread(next); }); }); function next(item, newSeed) { return resolve(handler(item)).then(function() { return unfold(unspool, condition, handler, newSeed); }); } } }; }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(); })); },{}],18:[function(require,module,exports){ /** @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 progress(Promise) { /** * @deprecated * Register a progress handler for this promise * @param {function} onProgress * @returns {Promise} */ Promise.prototype.progress = function(onProgress) { return this.then(void 0, void 0, onProgress); }; return Promise; }; }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(); })); },{}],19:[function(require,module,exports){ /** @license MIT License (c) copyright 2010-2014 original author or authors */ /** @author Brian Cavalier */ /** @author John Hann */ (function(define) { 'use strict'; define(function(require) { var env = require('../env'); var TimeoutError = require('../TimeoutError'); function setTimeout(f, ms, x, y) { return env.setTimer(function() { f(x, y, ms); }, ms); } return function timed(Promise) { /** * Return a new promise whose fulfillment value is revealed only * after ms milliseconds * @param {number} ms milliseconds * @returns {Promise} */ Promise.prototype.delay = function(ms) { var p = this._beget(); this._handler.fold(handleDelay, ms, void 0, p._handler); return p; }; function handleDelay(ms, x, h) { setTimeout(resolveDelay, ms, x, h); } function resolveDelay(x, h) { h.resolve(x); } /** * Return a new promise that rejects after ms milliseconds unless * this promise fulfills earlier, in which case the returned promise * fulfills with the same value. * @param {number} ms milliseconds * @param {Error|*=} reason optional rejection reason to use, defaults * to a TimeoutError if not provided * @returns {Promise} */ Promise.prototype.timeout = function(ms, reason) { var p = this._beget(); var h = p._handler; var t = setTimeout(onTimeout, ms, reason, p._handler); this._handler.visit(h, function onFulfill(x) { env.clearTimer(t); this.resolve(x); // this = h }, function onReject(x) { env.clearTimer(t); this.reject(x); // this = h }, h.notify); return p; }; function onTimeout(reason, h, ms) { var e = typeof reason === 'undefined' ? new TimeoutError('timed out after ' + ms + 'ms') : reason; h.reject(e); } return Promise; }; }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(require); })); },{"../TimeoutError":11,"../env":22}],20:[function(require,module,exports){ /** @license MIT License (c) copyright 2010-2014 original author or authors */ /** @author Brian Cavalier */ /** @author John Hann */ (function(define) { 'use strict'; define(function(require) { var setTimer = require('../env').setTimer; var format = require('../format'); return function unhandledRejection(Promise) { var logError = noop; var logInfo = noop; var localConsole; if(typeof console !== 'undefined') { // Alias console to prevent things like uglify's drop_console option from // removing console.log/error. Unhandled rejections fall into the same // category as uncaught exceptions, and build tools shouldn't silence them. localConsole = console; logError = typeof localConsole.error !== 'undefined' ? function (e) { localConsole.error(e); } : function (e) { localConsole.log(e); }; logInfo = typeof localConsole.info !== 'undefined' ? function (e) { localConsole.info(e); } : function (e) { localConsole.log(e); }; } Promise.onPotentiallyUnhandledRejection = function(rejection) { enqueue(report, rejection); }; Promise.onPotentiallyUnhandledRejectionHandled = function(rejection) { enqueue(unreport, rejection); }; Promise.onFatalRejection = function(rejection) { enqueue(throwit, rejection.value); }; var tasks = []; var reported = []; var running = null; function report(r) { if(!r.handled) { reported.push(r); logError('Potentially unhandled rejection [' + r.id + '] ' + format.formatError(r.value)); } } function unreport(r) { var i = reported.indexOf(r); if(i >= 0) { reported.splice(i, 1); logInfo('Handled previous rejection [' + r.id + '] ' + format.formatObject(r.value)); } } function enqueue(f, x) { tasks.push(f, x); if(running === null) { running = setTimer(flush, 0); } } function flush() { running = null; while(tasks.length > 0) { tasks.shift()(tasks.shift()); } } return Promise; }; function throwit(e) { throw e; } function noop() {} }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(require); })); },{"../env":22,"../format":23}],21:[function(require,module,exports){ /** @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 addWith(Promise) { /** * Returns a promise whose handlers will be called with `this` set to * the supplied receiver. Subsequent promises derived from the * returned promise will also have their handlers called with receiver * as `this`. Calling `with` with undefined or no arguments will return * a promise whose handlers will again be called in the usual Promises/A+ * way (no `this`) thus safely undoing any previous `with` in the * promise chain. * * WARNING: Promises returned from `with`/`withThis` are NOT Promises/A+ * compliant, specifically violating 2.2.5 (http://promisesaplus.com/#point-41) * * @param {object} receiver `this` value for all handlers attached to * the returned promise. * @returns {Promise} */ Promise.prototype['with'] = Promise.prototype.withThis = function(receiver) { var p = this._beget(); var child = p._handler; child.receiver = receiver; this._handler.chain(child, receiver); return p; }; return Promise; }; }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(); })); },{}],22:[function(require,module,exports){ /** @license MIT License (c) copyright 2010-2014 original author or authors */ /** @author Brian Cavalier */ /** @author John Hann */ /*global process,document,setTimeout,clearTimeout,MutationObserver,WebKitMutationObserver*/ (function(define) { 'use strict'; define(function(require) { /*jshint maxcomplexity:6*/ // Sniff "best" async scheduling option // Prefer process.nextTick or MutationObserver, then check for // setTimeout, and finally vertx, since its the only env that doesn't // have setTimeout var MutationObs; var capturedSetTimeout = typeof setTimeout !== 'undefined' && setTimeout; // Default env var setTimer = function(f, ms) { return setTimeout(f, ms); }; var clearTimer = function(t) { return clearTimeout(t); }; var asap = function (f) { return capturedSetTimeout(f, 0); }; // Detect specific env if (isNode()) { // Node asap = function (f) { return process.nextTick(f); }; } else if (MutationObs = hasMutationObserver()) { // Modern browser asap = initMutationObserver(MutationObs); } else if (!capturedSetTimeout) { // vert.x var vertxRequire = require; var vertx = vertxRequire('vertx'); setTimer = function (f, ms) { return vertx.setTimer(ms, f); }; clearTimer = vertx.cancelTimer; asap = vertx.runOnLoop || vertx.runOnContext; } return { setTimer: setTimer, clearTimer: clearTimer, asap: asap }; function isNode () { return typeof process !== 'undefined' && Object.prototype.toString.call(process) === '[object process]'; } function hasMutationObserver () { return (typeof MutationObserver !== 'undefined' && MutationObserver) || (typeof WebKitMutationObserver !== 'undefined' && WebKitMutationObserver); } function initMutationObserver(MutationObserver) { var scheduled; var node = document.createTextNode(''); var o = new MutationObserver(run); o.observe(node, { characterData: true }); function run() { var f = scheduled; scheduled = void 0; f(); } var i = 0; return function (f) { scheduled = f; node.data = (i ^= 1); }; } }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(require); })); },{}],23:[function(require,module,exports){ /** @license MIT License (c) copyright 2010-2014 original author or authors */ /** @author Brian Cavalier */ /** @author John Hann */ (function(define) { 'use strict'; define(function() { return { formatError: formatError, formatObject: formatObject, tryStringify: tryStringify }; /** * Format an error into a string. If e is an Error and has a stack property, * it's returned. Otherwise, e is formatted using formatObject, with a * warning added about e not being a proper Error. * @param {*} e * @returns {String} formatted string, suitable for output to developers */ function formatError(e) { var s = typeof e === 'object' && e !== null && (e.stack || e.message) ? e.stack || e.message : formatObject(e); return e instanceof Error ? s : s + ' (WARNING: non-Error used)'; } /** * Format an object, detecting "plain" objects and running them through * JSON.stringify if possible. * @param {Object} o * @returns {string} */ function formatObject(o) { var s = String(o); if(s === '[object Object]' && typeof JSON !== 'undefined') { s = tryStringify(o, s); } return s; } /** * Try to return the result of JSON.stringify(x). If that fails, return * defaultValue * @param {*} x * @param {*} defaultValue * @returns {String|*} JSON.stringify(x) or defaultValue */ function tryStringify(x, defaultValue) { try { return JSON.stringify(x); } catch(e) { return defaultValue; } } }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(); })); },{}],24:[function(require,module,exports){ /** @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 liftAll(liftOne, combine, dst, src) { if(typeof combine === 'undefined') { combine = defaultCombine; } return Object.keys(src).reduce(function(dst, key) { var f = src[key]; return typeof f === 'function' ? combine(dst, liftOne(f), key) : dst; }, typeof dst === 'undefined' ? defaultDst(src) : dst); }; function defaultCombine(o, f, k) { o[k] = f; return o; } function defaultDst(src) { return typeof src === 'function' ? src.bind() : Object.create(src); } }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(); })); },{}],25:[function(require,module,exports){ /** @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> * @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 0 ? toFulfilledState(handler.value) : toRejectedState(handler.value); } }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(); })); },{}],27:[function(require,module,exports){ /** @license MIT License (c) copyright 2010-2014 original author or authors */ /** @author Brian Cavalier */ /** @author John Hann */ (function(define) { 'use strict'; define(function(require) { var PromiseMonitor = require('./monitor/PromiseMonitor'); var ConsoleReporter = require('./monitor/ConsoleReporter'); var promiseMonitor = new PromiseMonitor(new ConsoleReporter()); return function(Promise) { return promiseMonitor.monitor(Promise); }; }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(require); })); },{"./monitor/ConsoleReporter":28,"./monitor/PromiseMonitor":29}],28:[function(require,module,exports){ /** @license MIT License (c) copyright 2010-2014 original author or authors */ /** @author Brian Cavalier */ /** @author John Hann */ (function(define) { 'use strict'; define(function(require) { var error = require('./error'); var unhandledRejectionsMsg = '[promises] Unhandled rejections: '; var allHandledMsg = '[promises] All previously unhandled rejections have now been handled'; function ConsoleReporter() { this._previouslyReported = false; } ConsoleReporter.prototype = initDefaultLogging(); ConsoleReporter.prototype.log = function(traces) { if(traces.length === 0) { if(this._previouslyReported) { this._previouslyReported = false; this.msg(allHandledMsg); } return; } this._previouslyReported = true; this.groupStart(unhandledRejectionsMsg + traces.length); try { this._log(traces); } finally { this.groupEnd(); } }; ConsoleReporter.prototype._log = function(traces) { for(var i=0; i= 0; --i) { t = this._traces[i]; if(t.handler === handler) { break; } } if(i >= 0) { t.extraContext = extraContext; } else { this._traces.push({ handler: handler, extraContext: extraContext }); } this.logTraces(); }; PromiseMonitor.prototype.removeTrace = function(/*handler*/) { this.logTraces(); }; PromiseMonitor.prototype.fatal = function(handler, extraContext) { var err = new Error(); err.stack = this._createLongTrace(handler.value, handler.context, extraContext).join('\n'); setTimer(function() { throw err; }, 0); }; PromiseMonitor.prototype.logTraces = function() { if(!this._traceTask) { this._traceTask = setTimer(this._doLogTraces, this.logDelay); } }; PromiseMonitor.prototype._logTraces = function() { this._traceTask = void 0; this._traces = this._traces.filter(filterHandled); this._reporter.log(this.formatTraces(this._traces)); }; PromiseMonitor.prototype.formatTraces = function(traces) { return traces.map(function(t) { return this._createLongTrace(t.handler.value, t.handler.context, t.extraContext); }, this); }; PromiseMonitor.prototype._createLongTrace = function(e, context, extraContext) { var trace = error.parse(e) || [String(e) + ' (WARNING: non-Error used)']; trace = filterFrames(this.stackFilter, trace, 0); this._appendContext(trace, context); this._appendContext(trace, extraContext); return this.filterDuplicateFrames ? this._removeDuplicates(trace) : trace; }; PromiseMonitor.prototype._removeDuplicates = function(trace) { var seen = {}; var sep = this.stackJumpSeparator; var count = 0; return trace.reduceRight(function(deduped, line, i) { if(i === 0) { deduped.unshift(line); } else if(line === sep) { if(count > 0) { deduped.unshift(line); count = 0; } } else if(!seen[line]) { seen[line] = true; deduped.unshift(line); ++count; } return deduped; }, []); }; PromiseMonitor.prototype._appendContext = function(trace, context) { trace.push.apply(trace, this._createTrace(context)); }; PromiseMonitor.prototype._createTrace = function(traceChain) { var trace = []; var stack; while(traceChain) { stack = error.parse(traceChain); if (stack) { stack = filterFrames(this.stackFilter, stack); appendStack(trace, stack, this.stackJumpSeparator); } traceChain = traceChain.parent; } return trace; }; function appendStack(trace, stack, separator) { if (stack.length > 1) { stack[0] = separator; trace.push.apply(trace, stack); } } function filterFrames(stackFilter, stack) { return stack.filter(function(frame) { return !stackFilter.test(frame); }); } function filterHandled(t) { return !t.handler.handled; } return PromiseMonitor; }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(require); })); },{"../lib/env":22,"./error":31}],30:[function(require,module,exports){ /** @license MIT License (c) copyright 2010-2014 original author or authors */ /** @author Brian Cavalier */ /** @author John Hann */ (function(define) { 'use strict'; define(function(require) { var monitor = require('../monitor'); var Promise = require('../when').Promise; return monitor(Promise); }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(require); })); },{"../monitor":27,"../when":38}],31:[function(require,module,exports){ /** @license MIT License (c) copyright 2010-2014 original author or authors */ /** @author Brian Cavalier */ /** @author John Hann */ (function(define) { 'use strict'; define(function() { var parse, captureStack, format; if(Error.captureStackTrace) { // Use Error.captureStackTrace if available parse = function(e) { return e && e.stack && e.stack.split('\n'); }; format = formatAsString; captureStack = Error.captureStackTrace; } else { // Otherwise, do minimal feature detection to determine // how to capture and format reasonable stacks. parse = function(e) { var stack = e && e.stack && e.stack.split('\n'); if(stack && e.message) { stack.unshift(e.message); } return stack; }; (function() { var e = new Error(); if(typeof e.stack !== 'string') { format = formatAsString; captureStack = captureSpiderMonkeyStack; } else { format = formatAsErrorWithStack; captureStack = useStackDirectly; } }()); } function captureSpiderMonkeyStack(host) { try { throw new Error(); } catch(err) { host.stack = err.stack; } } function useStackDirectly(host) { host.stack = new Error().stack; } function formatAsString(longTrace) { return join(longTrace); } function formatAsErrorWithStack(longTrace) { var e = new Error(); e.stack = formatAsString(longTrace); return e; } // About 5-10x faster than String.prototype.join o_O function join(a) { var sep = false; var s = ''; for(var i=0; i< a.length; ++i) { if(sep) { s += '\n' + a[i]; } else { s+= a[i]; sep = true; } } return s; } return { parse: parse, format: format, captureStack: captureStack }; }); }(typeof define === 'function' && define.amd ? define : function(factory) { module.exports = factory(); })); },{}],32:[function(require,module,exports){ /** @license MIT License (c) copyright 2013 original author or authors */ /** * Collection of helpers for interfacing with node-style asynchronous functions * using promises. * * @author Brian Cavalier * @contributor Renato Zannon */ (function(define) { define(function(require) { var when = require('./when'); var _liftAll = require('./lib/liftAll'); var setTimer = require('./lib/env').setTimer; var slice = Array.prototype.slice; var _apply = require('./lib/apply')(when.Promise, dispatch); return { lift: lift, liftAll: liftAll, apply: apply, call: call, createCallback: createCallback, bindCallback: bindCallback, liftCallback: liftCallback }; /** * Takes a node-style async function and calls it immediately (with an optional * array of arguments or promises for arguments). It returns a promise whose * resolution depends on whether the async functions calls its callback with the * conventional error argument or not. * * With this it becomes possible to leverage existing APIs while still reaping * the benefits of promises. * * @example * function onlySmallNumbers(n, callback) { * if(n < 10) { * callback(null, n + 10); * } else { * callback(new Error("Calculation failed")); * } * } * * var nodefn = require("when/node/function"); * * // Logs '15' * nodefn.apply(onlySmallNumbers, [5]).then(console.log, console.error); * * // Logs 'Calculation failed' * nodefn.apply(onlySmallNumbers, [15]).then(console.log, console.error); * * @param {function} f node-style function that will be called * @param {Array} [args] array of arguments to func * @returns {Promise} promise for the value func passes to its callback */ function apply(f, args) { return _apply(f, this, args || []); } function dispatch(f, thisArg, args, h) { var cb = createCallback(h); try { switch(args.length) { case 2: f.call(thisArg, args[0], args[1], cb); break; case 1: f.call(thisArg, args[0], cb); break; case 0: f.call(thisArg, cb); break; default: args.push(cb); f.apply(thisArg, args); } } catch(e) { h.reject(e); } } /** * Has the same behavior that {@link apply} has, with the difference that the * arguments to the function are provided individually, while {@link apply} accepts * a single array. * * @example * function sumSmallNumbers(x, y, callback) { * var result = x + y; * if(result < 10) { * callback(null, result); * } else { * callback(new Error("Calculation failed")); * } * } * * // Logs '5' * nodefn.call(sumSmallNumbers, 2, 3).then(console.log, console.error); * * // Logs 'Calculation failed' * nodefn.call(sumSmallNumbers, 5, 10).then(console.log, console.error); * * @param {function} f node-style function that will be called * @param {...*} [args] arguments that will be forwarded to the function * @returns {Promise} promise for the value func passes to its callback */ function call(f /*, args... */) { return _apply(f, this, slice.call(arguments, 1)); } /** * Takes a node-style function and returns new function that wraps the * original and, instead of taking a callback, returns a promise. Also, it * knows how to handle promises given as arguments, waiting for their * resolution before executing. * * Upon execution, the orginal function is executed as well. If it passes * a truthy value as the first argument to the callback, it will be * interpreted as an error condition, and the promise will be rejected * with it. Otherwise, the call is considered a resolution, and the promise * is resolved with the callback's second argument. * * @example * var fs = require("fs"), nodefn = require("when/node/function"); * * var promiseRead = nodefn.lift(fs.readFile); * * // The promise is resolved with the contents of the file if everything * // goes ok * promiseRead('exists.txt').then(console.log, console.error); * * // And will be rejected if something doesn't work out * // (e.g. the files does not exist) * promiseRead('doesnt_exist.txt').then(console.log, console.error); * * * @param {Function} f node-style function to be lifted * @param {...*} [args] arguments to be prepended for the new function @deprecated * @returns {Function} a promise-returning function */ function lift(f /*, args... */) { var args1 = arguments.length > 1 ? slice.call(arguments, 1) : []; return function() { // TODO: Simplify once partialing has been removed var l = args1.length; var al = arguments.length; var args = new Array(al + l); var i; for(i=0; i 2) { resolver.resolve(slice.call(arguments, 1)); } else { resolver.resolve(value); } }; } /** * Attaches a node-style callback to a promise, ensuring the callback is * called for either fulfillment or rejection. Returns a promise with the same * state as the passed-in promise. * * @example * var deferred = when.defer(); * * function callback(err, value) { * // Handle err or use value * } * * bindCallback(deferred.promise, callback); * * deferred.resolve('interesting value'); * * @param {Promise} promise The promise to be attached to. * @param {Function} callback The node-style callback to attach. * @returns {Promise} A promise with the same state as the passed-in promise. */ function bindCallback(promise, callback) { promise = when(promise); if (callback) { promise.then(success, wrapped); } return promise; function success(value) { wrapped(null, value); } function wrapped(err, value) { setTimer(function () { callback(err, value); }, 0); } } /** * Takes a node-style callback and returns new function that accepts a * promise, calling the original callback when the promise is either * fulfilled or rejected with the appropriate arguments. * * @example * var deferred = when.defer(); * * function callback(err, value) { * // Handle err or use value * } * * var wrapped = liftCallback(callback); * * // `wrapped` can now be passed around at will * wrapped(deferred.promise); * * deferred.resolve('interesting value'); * * @param {Function} callback The node-style callback to wrap. * @returns {Function} The lifted, promise-accepting function. */ function liftCallback(callback) { return function(promise) { return bindCallback(promise, callback); }; } }); })(typeof define === 'function' && define.amd ? define : function (factory) { module.exports = factory(require); }); },{"./lib/apply":12,"./lib/env":22,"./lib/liftAll":24,"./when":38}],33:[function(require,module,exports){ /** @license MIT License (c) copyright 2011-2013 original author or authors */ /** * parallel.js * * Run a set of task functions in parallel. All tasks will * receive the same args * * @author Brian Cavalier * @author John Hann */ (function(define) { define(function(require) { var when = require('./when'); var all = when.Promise.all; var slice = Array.prototype.slice; /** * Run array of tasks in parallel * @param tasks {Array|Promise} array or promiseForArray of task functions * @param [args] {*} arguments to be passed to all tasks * @return {Promise} promise for array containing the * result of each task in the array position corresponding * to position of the task in the tasks array */ return function parallel(tasks /*, args... */) { return all(slice.call(arguments, 1)).then(function(args) { return when.map(tasks, function(task) { return task.apply(void 0, args); }); }); }; }); })(typeof define === 'function' && define.amd ? define : function (factory) { module.exports = factory(require); }); },{"./when":38}],34:[function(require,module,exports){ /** @license MIT License (c) copyright 2011-2013 original author or authors */ /** * pipeline.js * * Run a set of task functions in sequence, passing the result * of the previous as an argument to the next. Like a shell * pipeline, e.g. `cat file.txt | grep 'foo' | sed -e 's/foo/bar/g' * * @author Brian Cavalier * @author John Hann */ (function(define) { define(function(require) { var when = require('./when'); var all = when.Promise.all; var slice = Array.prototype.slice; /** * Run array of tasks in a pipeline where the next * tasks receives the result of the previous. The first task * will receive the initialArgs as its argument list. * @param tasks {Array|Promise} array or promise for array of task functions * @param [initialArgs...] {*} arguments to be passed to the first task * @return {Promise} promise for return value of the final task */ return function pipeline(tasks /* initialArgs... */) { // Self-optimizing function to run first task with multiple // args using apply, but subsequence tasks via direct invocation var runTask = function(args, task) { runTask = function(arg, task) { return task(arg); }; return task.apply(null, args); }; return all(slice.call(arguments, 1)).then(function(args) { return when.reduce(tasks, function(arg, task) { return runTask(arg, task); }, args); }); }; }); })(typeof define === 'function' && define.amd ? define : function (factory) { module.exports = factory(require); }); },{"./when":38}],35:[function(require,module,exports){ /** @license MIT License (c) copyright 2012-2013 original author or authors */ /** * poll.js * * Helper that polls until cancelled or for a condition to become true. * * @author Scott Andrews */ (function (define) { 'use strict'; define(function(require) { var when = require('./when'); var attempt = when['try']; var cancelable = require('./cancelable'); /** * Periodically execute the task function on the msec delay. The result of * the task may be verified by watching for a condition to become true. The * returned deferred is cancellable if the polling needs to be cancelled * externally before reaching a resolved state. * * The next vote is scheduled after the results of the current vote are * verified and rejected. * * Polling may be terminated by the verifier returning a truthy value, * invoking cancel() on the returned promise, or the task function returning * a rejected promise. * * Usage: * * var count = 0; * function doSomething() { return count++ } * * // poll until cancelled * var p = poll(doSomething, 1000); * ... * p.cancel(); * * // poll until condition is met * poll(doSomething, 1000, function(result) { return result > 10 }) * .then(function(result) { assert result == 10 }); * * // delay first vote * poll(doSomething, 1000, anyFunc, true); * * @param task {Function} function that is executed after every timeout * @param interval {number|Function} timeout in milliseconds * @param [verifier] {Function} function to evaluate the result of the vote. * May return a {Promise} or a {Boolean}. Rejecting the promise or a * falsey value will schedule the next vote. * @param [delayInitialTask] {boolean} if truthy, the first vote is scheduled * instead of immediate * * @returns {Promise} */ return function poll(task, interval, verifier, delayInitialTask) { var deferred, canceled, reject; canceled = false; deferred = cancelable(when.defer(), function () { canceled = true; }); reject = deferred.reject; verifier = verifier || function () { return false; }; if (typeof interval !== 'function') { interval = (function (interval) { return function () { return when().delay(interval); }; })(interval); } function certify(result) { deferred.resolve(result); } function schedule(result) { attempt(interval).then(vote, reject); if (result !== void 0) { deferred.notify(result); } } function vote() { if (canceled) { return; } when(task(), function (result) { when(verifier(result), function (verification) { return verification ? certify(result) : schedule(result); }, function () { schedule(result); } ); }, reject ); } if (delayInitialTask) { schedule(); } else { // if task() is blocking, vote will also block vote(); } // make the promise cancelable deferred.promise = Object.create(deferred.promise); deferred.promise.cancel = deferred.cancel; return deferred.promise; }; }); })(typeof define === 'function' && define.amd ? define : function (factory) { module.exports = factory(require); }); },{"./cancelable":4,"./when":38}],36:[function(require,module,exports){ /** @license MIT License (c) copyright 2011-2013 original author or authors */ /** * sequence.js * * Run a set of task functions in sequence. All tasks will * receive the same args. * * @author Brian Cavalier * @author John Hann */ (function(define) { define(function(require) { var when = require('./when'); var all = when.Promise.all; var slice = Array.prototype.slice; /** * Run array of tasks in sequence with no overlap * @param tasks {Array|Promise} array or promiseForArray of task functions * @param [args] {*} arguments to be passed to all tasks * @return {Promise} promise for an array containing * the result of each task in the array position corresponding * to position of the task in the tasks array */ return function sequence(tasks /*, args... */) { var results = []; return all(slice.call(arguments, 1)).then(function(args) { return when.reduce(tasks, function(results, task) { return when(task.apply(void 0, args), addResult); }, results); }); function addResult(result) { results.push(result); return results; } }; }); })(typeof define === 'function' && define.amd ? define : function (factory) { module.exports = factory(require); }); },{"./when":38}],37:[function(require,module,exports){ /** @license MIT License (c) copyright 2011-2013 original author or authors */ /** * timeout.js * * Helper that returns a promise that rejects after a specified timeout, * if not explicitly resolved or rejected before that. * * @author Brian Cavalier * @author John Hann */ (function(define) { define(function(require) { var when = require('./when'); /** * @deprecated Use when(trigger).timeout(ms) */ return function timeout(msec, trigger) { return when(trigger).timeout(msec); }; }); })(typeof define === 'function' && define.amd ? define : function (factory) { module.exports = factory(require); }); },{"./when":38}],38:[function(require,module,exports){ /** @license MIT License (c) copyright 2010-2014 original author or authors */ /** * Promises/A+ and when() implementation * when is part of the cujoJS family of libraries (http://cujojs.com/) * @author Brian Cavalier * @author John Hann */ (function(define) { 'use strict'; define(function (require) { var timed = require('./lib/decorators/timed'); var array = require('./lib/decorators/array'); var flow = require('./lib/decorators/flow'); var fold = require('./lib/decorators/fold'); var inspect = require('./lib/decorators/inspect'); var generate = require('./lib/decorators/iterate'); var progress = require('./lib/decorators/progress'); var withThis = require('./lib/decorators/with'); var unhandledRejection = require('./lib/decorators/unhandledRejection'); var TimeoutError = require('./lib/TimeoutError'); var Promise = [array, flow, fold, generate, progress, inspect, withThis, timed, unhandledRejection] .reduce(function(Promise, feature) { return feature(Promise); }, require('./lib/Promise')); var apply = require('./lib/apply')(Promise); // Public API when.promise = promise; // Create a pending promise when.resolve = Promise.resolve; // Create a resolved promise when.reject = Promise.reject; // Create a rejected promise when.lift = lift; // lift a function to return promises when['try'] = attempt; // call a function and return a promise when.attempt = attempt; // alias for when.try when.iterate = Promise.iterate; // DEPRECATED (use cujojs/most streams) Generate a stream of promises when.unfold = Promise.unfold; // DEPRECATED (use cujojs/most streams) Generate a stream of promises when.join = join; // Join 2 or more promises when.all = all; // Resolve a list of promises when.settle = settle; // Settle a list of promises when.any = lift(Promise.any); // One-winner race when.some = lift(Promise.some); // Multi-winner race when.race = lift(Promise.race); // First-to-settle race when.map = map; // Array.map() for promises when.filter = filter; // Array.filter() for promises when.reduce = lift(Promise.reduce); // Array.reduce() for promises when.reduceRight = lift(Promise.reduceRight); // Array.reduceRight() for promises when.isPromiseLike = isPromiseLike; // Is something promise-like, aka thenable when.Promise = Promise; // Promise constructor when.defer = defer; // Create a {promise, resolve, reject} tuple // Error types when.TimeoutError = TimeoutError; /** * Get a trusted promise for x, or by transforming x with onFulfilled * * @param {*} x * @param {function?} onFulfilled callback to be called when x is * successfully fulfilled. If promiseOrValue is an immediate value, callback * will be invoked immediately. * @param {function?} onRejected callback to be called when x is * rejected. * @param {function?} onProgress callback to be called when progress updates * are issued for x. @deprecated * @returns {Promise} a new promise that will fulfill with the return * value of callback or errback or the completion value of promiseOrValue if * callback and/or errback is not supplied. */ function when(x, onFulfilled, onRejected, onProgress) { var p = Promise.resolve(x); if (arguments.length < 2) { return p; } return p.then(onFulfilled, onRejected, onProgress); } /** * Creates a new promise whose fate is determined by resolver. * @param {function} resolver function(resolve, reject, notify) * @returns {Promise} promise whose fate is determine by resolver */ function promise(resolver) { return new Promise(resolver); } /** * Lift the supplied function, creating a version of f that returns * promises, and accepts promises as arguments. * @param {function} f * @returns {Function} version of f that returns promises */ function lift(f) { return function() { for(var i=0, l=arguments.length, a=new Array(l); i