/** * @license AngularJS v1.6.5 * (c) 2010-2017 Google, Inc. http://angularjs.org * License: MIT */ (function (window, angular) { 'use strict'; /** * @ngdoc object * @name angular.mock * @description * * Namespace from 'angular-mocks.js' which contains testing related code. * */ angular.mock = {}; /** * ! This is a private undocumented service ! * * @name $browser * * @description * This service is a mock implementation of {@link ng.$browser}. It provides fake * implementation for commonly used browser apis that are hard to test, e.g. setTimeout, xhr, * cookies, etc. * * The api of this service is the same as that of the real {@link ng.$browser $browser}, except * that there are several helper methods available which can be used in tests. */ angular.mock.$BrowserProvider = function () { this.$get = function () { return new angular.mock.$Browser(); }; }; angular.mock.$Browser = function () { var self = this; this.isMock = true; self.$$url = 'http://server/'; self.$$lastUrl = self.$$url; // used by url polling fn self.pollFns = []; // Testability API var outstandingRequestCount = 0; var outstandingRequestCallbacks = []; self.$$incOutstandingRequestCount = function () { outstandingRequestCount++; }; self.$$completeOutstandingRequest = function (fn) { try { fn(); } finally { outstandingRequestCount--; if (!outstandingRequestCount) { while (outstandingRequestCallbacks.length) { outstandingRequestCallbacks.pop()(); } } } }; self.notifyWhenNoOutstandingRequests = function (callback) { if (outstandingRequestCount) { outstandingRequestCallbacks.push(callback); } else { callback(); } }; // register url polling fn self.onUrlChange = function (listener) { self.pollFns.push( function () { if (self.$$lastUrl !== self.$$url || self.$$state !== self.$$lastState) { self.$$lastUrl = self.$$url; self.$$lastState = self.$$state; listener(self.$$url, self.$$state); } } ); return listener; }; self.$$applicationDestroyed = angular.noop; self.$$checkUrlChange = angular.noop; self.deferredFns = []; self.deferredNextId = 0; self.defer = function (fn, delay) { // Note that we do not use `$$incOutstandingRequestCount` or `$$completeOutstandingRequest` // in this mock implementation. delay = delay || 0; self.deferredFns.push({time: (self.defer.now + delay), fn: fn, id: self.deferredNextId}); self.deferredFns.sort(function (a, b) { return a.time - b.time; }); return self.deferredNextId++; }; /** * @name $browser#defer.now * * @description * Current milliseconds mock time. */ self.defer.now = 0; self.defer.cancel = function (deferId) { var fnIndex; angular.forEach(self.deferredFns, function (fn, index) { if (fn.id === deferId) fnIndex = index; }); if (angular.isDefined(fnIndex)) { self.deferredFns.splice(fnIndex, 1); return true; } return false; }; /** * @name $browser#defer.flush * * @description * Flushes all pending requests and executes the defer callbacks. * * @param {number=} number of milliseconds to flush. See {@link #defer.now} */ self.defer.flush = function (delay) { var nextTime; if (angular.isDefined(delay)) { // A delay was passed so compute the next time nextTime = self.defer.now + delay; } else { if (self.deferredFns.length) { // No delay was passed so set the next time so that it clears the deferred queue nextTime = self.deferredFns[self.deferredFns.length - 1].time; } else { // No delay passed, but there are no deferred tasks so flush - indicates an error! throw new Error('No deferred tasks to be flushed'); } } while (self.deferredFns.length && self.deferredFns[0].time <= nextTime) { // Increment the time and call the next deferred function self.defer.now = self.deferredFns[0].time; self.deferredFns.shift().fn(); } // Ensure that the current time is correct self.defer.now = nextTime; }; self.$$baseHref = '/'; self.baseHref = function () { return this.$$baseHref; }; }; angular.mock.$Browser.prototype = { /** * @name $browser#poll * * @description * run all fns in pollFns */ poll: function poll() { angular.forEach(this.pollFns, function (pollFn) { pollFn(); }); }, url: function (url, replace, state) { if (angular.isUndefined(state)) { state = null; } if (url) { this.$$url = url; // Native pushState serializes & copies the object; simulate it. this.$$state = angular.copy(state); return this; } return this.$$url; }, state: function () { return this.$$state; } }; /** * @ngdoc provider * @name $exceptionHandlerProvider * * @description * Configures the mock implementation of {@link ng.$exceptionHandler} to rethrow or to log errors * passed to the `$exceptionHandler`. */ /** * @ngdoc service * @name $exceptionHandler * * @description * Mock implementation of {@link ng.$exceptionHandler} that rethrows or logs errors passed * to it. See {@link ngMock.$exceptionHandlerProvider $exceptionHandlerProvider} for configuration * information. * * * ```js * describe('$exceptionHandlerProvider', function() { * * it('should capture log messages and exceptions', function() { * * module(function($exceptionHandlerProvider) { * $exceptionHandlerProvider.mode('log'); * }); * * inject(function($log, $exceptionHandler, $timeout) { * $timeout(function() { $log.log(1); }); * $timeout(function() { $log.log(2); throw 'banana peel'; }); * $timeout(function() { $log.log(3); }); * expect($exceptionHandler.errors).toEqual([]); * expect($log.assertEmpty()); * $timeout.flush(); * expect($exceptionHandler.errors).toEqual(['banana peel']); * expect($log.log.logs).toEqual([[1], [2], [3]]); * }); * }); * }); * ``` */ angular.mock.$ExceptionHandlerProvider = function () { var handler; /** * @ngdoc method * @name $exceptionHandlerProvider#mode * * @description * Sets the logging mode. * * @param {string} mode Mode of operation, defaults to `rethrow`. * * - `log`: Sometimes it is desirable to test that an error is thrown, for this case the `log` * mode stores an array of errors in `$exceptionHandler.errors`, to allow later assertion of * them. See {@link ngMock.$log#assertEmpty assertEmpty()} and * {@link ngMock.$log#reset reset()}. * - `rethrow`: If any errors are passed to the handler in tests, it typically means that there * is a bug in the application or test, so this mock will make these tests fail. For any * implementations that expect exceptions to be thrown, the `rethrow` mode will also maintain * a log of thrown errors in `$exceptionHandler.errors`. */ this.mode = function (mode) { switch (mode) { case 'log': case 'rethrow': var errors = []; handler = function (e) { if (arguments.length === 1) { errors.push(e); } else { errors.push([].slice.call(arguments, 0)); } if (mode === 'rethrow') { throw e; } }; handler.errors = errors; break; default: throw new Error('Unknown mode \'' + mode + '\', only \'log\'/\'rethrow\' modes are allowed!'); } }; this.$get = function () { return handler; }; this.mode('rethrow'); }; /** * @ngdoc service * @name $log * * @description * Mock implementation of {@link ng.$log} that gathers all logged messages in arrays * (one array per logging level). These arrays are exposed as `logs` property of each of the * level-specific log function, e.g. for level `error` the array is exposed as `$log.error.logs`. * */ angular.mock.$LogProvider = function () { var debug = true; function concat(array1, array2, index) { return array1.concat(Array.prototype.slice.call(array2, index)); } this.debugEnabled = function (flag) { if (angular.isDefined(flag)) { debug = flag; return this; } else { return debug; } }; this.$get = function () { var $log = { log: function () { $log.log.logs.push(concat([], arguments, 0)); }, warn: function () { $log.warn.logs.push(concat([], arguments, 0)); }, info: function () { $log.info.logs.push(concat([], arguments, 0)); }, error: function () { $log.error.logs.push(concat([], arguments, 0)); }, debug: function () { if (debug) { $log.debug.logs.push(concat([], arguments, 0)); } } }; /** * @ngdoc method * @name $log#reset * * @description * Reset all of the logging arrays to empty. */ $log.reset = function () { /** * @ngdoc property * @name $log#log.logs * * @description * Array of messages logged using {@link ng.$log#log `log()`}. * * @example * ```js * $log.log('Some Log'); * var first = $log.log.logs.unshift(); * ``` */ $log.log.logs = []; /** * @ngdoc property * @name $log#info.logs * * @description * Array of messages logged using {@link ng.$log#info `info()`}. * * @example * ```js * $log.info('Some Info'); * var first = $log.info.logs.unshift(); * ``` */ $log.info.logs = []; /** * @ngdoc property * @name $log#warn.logs * * @description * Array of messages logged using {@link ng.$log#warn `warn()`}. * * @example * ```js * $log.warn('Some Warning'); * var first = $log.warn.logs.unshift(); * ``` */ $log.warn.logs = []; /** * @ngdoc property * @name $log#error.logs * * @description * Array of messages logged using {@link ng.$log#error `error()`}. * * @example * ```js * $log.error('Some Error'); * var first = $log.error.logs.unshift(); * ``` */ $log.error.logs = []; /** * @ngdoc property * @name $log#debug.logs * * @description * Array of messages logged using {@link ng.$log#debug `debug()`}. * * @example * ```js * $log.debug('Some Error'); * var first = $log.debug.logs.unshift(); * ``` */ $log.debug.logs = []; }; /** * @ngdoc method * @name $log#assertEmpty * * @description * Assert that all of the logging methods have no logged messages. If any messages are present, * an exception is thrown. */ $log.assertEmpty = function () { var errors = []; angular.forEach(['error', 'warn', 'info', 'log', 'debug'], function (logLevel) { angular.forEach($log[logLevel].logs, function (log) { angular.forEach(log, function (logItem) { errors.push('MOCK $log (' + logLevel + '): ' + String(logItem) + '\n' + (logItem.stack || '')); }); }); }); if (errors.length) { errors.unshift('Expected $log to be empty! Either a message was logged unexpectedly, or ' + 'an expected log message was not checked and removed:'); errors.push(''); throw new Error(errors.join('\n---------\n')); } }; $log.reset(); return $log; }; }; /** * @ngdoc service * @name $interval * * @description * Mock implementation of the $interval service. * * Use {@link ngMock.$interval#flush `$interval.flush(millis)`} to * move forward by `millis` milliseconds and trigger any functions scheduled to run in that * time. * * @param {function()} fn A function that should be called repeatedly. * @param {number} delay Number of milliseconds between each function call. * @param {number=} [count=0] Number of times to repeat. If not set, or 0, will repeat * indefinitely. * @param {boolean=} [invokeApply=true] If set to `false` skips model dirty checking, otherwise * will invoke `fn` within the {@link ng.$rootScope.Scope#$apply $apply} block. * @param {...*=} Pass additional parameters to the executed function. * @returns {promise} A promise which will be notified on each iteration. */ angular.mock.$IntervalProvider = function () { this.$get = ['$browser', '$rootScope', '$q', '$$q', function ($browser, $rootScope, $q, $$q) { var repeatFns = [], nextRepeatId = 0, now = 0; var $interval = function (fn, delay, count, invokeApply) { var hasParams = arguments.length > 4, args = hasParams ? Array.prototype.slice.call(arguments, 4) : [], iteration = 0, skipApply = (angular.isDefined(invokeApply) && !invokeApply), deferred = (skipApply ? $$q : $q).defer(), promise = deferred.promise; count = (angular.isDefined(count)) ? count : 0; promise.then(null, function () { }, (!hasParams) ? fn : function () { fn.apply(null, args); }); promise.$$intervalId = nextRepeatId; function tick() { deferred.notify(iteration++); if (count > 0 && iteration >= count) { var fnIndex; deferred.resolve(iteration); angular.forEach(repeatFns, function (fn, index) { if (fn.id === promise.$$intervalId) fnIndex = index; }); if (angular.isDefined(fnIndex)) { repeatFns.splice(fnIndex, 1); } } if (skipApply) { $browser.defer.flush(); } else { $rootScope.$apply(); } } repeatFns.push({ nextTime: (now + (delay || 0)), delay: delay || 1, fn: tick, id: nextRepeatId, deferred: deferred }); repeatFns.sort(function (a, b) { return a.nextTime - b.nextTime; }); nextRepeatId++; return promise; }; /** * @ngdoc method * @name $interval#cancel * * @description * Cancels a task associated with the `promise`. * * @param {promise} promise A promise from calling the `$interval` function. * @returns {boolean} Returns `true` if the task was successfully cancelled. */ $interval.cancel = function (promise) { if (!promise) return false; var fnIndex; angular.forEach(repeatFns, function (fn, index) { if (fn.id === promise.$$intervalId) fnIndex = index; }); if (angular.isDefined(fnIndex)) { repeatFns[fnIndex].deferred.promise.then(undefined, function () { }); repeatFns[fnIndex].deferred.reject('canceled'); repeatFns.splice(fnIndex, 1); return true; } return false; }; /** * @ngdoc method * @name $interval#flush * @description * * Runs interval tasks scheduled to be run in the next `millis` milliseconds. * * @param {number=} millis maximum timeout amount to flush up until. * * @return {number} The amount of time moved forward. */ $interval.flush = function (millis) { var before = now; now += millis; while (repeatFns.length && repeatFns[0].nextTime <= now) { var task = repeatFns[0]; task.fn(); if (task.nextTime === before) { // this can only happen the first time // a zero-delay interval gets triggered task.nextTime++; } task.nextTime += task.delay; repeatFns.sort(function (a, b) { return a.nextTime - b.nextTime; }); } return millis; }; return $interval; }]; }; function jsonStringToDate(string) { // The R_ISO8061_STR regex is never going to fit into the 100 char limit! // eslit-disable-next-line max-len var R_ISO8061_STR = /^(-?\d{4})-?(\d\d)-?(\d\d)(?:T(\d\d)(?::?(\d\d)(?::?(\d\d)(?:\.(\d{3}))?)?)?(Z|([+-])(\d\d):?(\d\d)))?$/; var match; if ((match = string.match(R_ISO8061_STR))) { var date = new Date(0), tzHour = 0, tzMin = 0; if (match[9]) { tzHour = toInt(match[9] + match[10]); tzMin = toInt(match[9] + match[11]); } date.setUTCFullYear(toInt(match[1]), toInt(match[2]) - 1, toInt(match[3])); date.setUTCHours(toInt(match[4] || 0) - tzHour, toInt(match[5] || 0) - tzMin, toInt(match[6] || 0), toInt(match[7] || 0)); return date; } return string; } function toInt(str) { return parseInt(str, 10); } function padNumberInMock(num, digits, trim) { var neg = ''; if (num < 0) { neg = '-'; num = -num; } num = '' + num; while (num.length < digits) num = '0' + num; if (trim) { num = num.substr(num.length - digits); } return neg + num; } /** * @ngdoc type * @name angular.mock.TzDate * @description * * *NOTE*: this is not an injectable instance, just a globally available mock class of `Date`. * * Mock of the Date type which has its timezone specified via constructor arg. * * The main purpose is to create Date-like instances with timezone fixed to the specified timezone * offset, so that we can test code that depends on local timezone settings without dependency on * the time zone settings of the machine where the code is running. * * @param {number} offset Offset of the *desired* timezone in hours (fractions will be honored) * @param {(number|string)} timestamp Timestamp representing the desired time in *UTC* * * @example * !!!! WARNING !!!!! * This is not a complete Date object so only methods that were implemented can be called safely. * To make matters worse, TzDate instances inherit stuff from Date via a prototype. * * We do our best to intercept calls to "unimplemented" methods, but since the list of methods is * incomplete we might be missing some non-standard methods. This can result in errors like: * "Date.prototype.foo called on incompatible Object". * * ```js * var newYearInBratislava = new TzDate(-1, '2009-12-31T23:00:00Z'); * newYearInBratislava.getTimezoneOffset() => -60; * newYearInBratislava.getFullYear() => 2010; * newYearInBratislava.getMonth() => 0; * newYearInBratislava.getDate() => 1; * newYearInBratislava.getHours() => 0; * newYearInBratislava.getMinutes() => 0; * newYearInBratislava.getSeconds() => 0; * ``` * */ angular.mock.TzDate = function (offset, timestamp) { var self = new Date(0); if (angular.isString(timestamp)) { var tsStr = timestamp; self.origDate = jsonStringToDate(timestamp); timestamp = self.origDate.getTime(); if (isNaN(timestamp)) { // eslint-disable-next-line no-throw-literal throw { name: 'Illegal Argument', message: 'Arg \'' + tsStr + '\' passed into TzDate constructor is not a valid date string' }; } } else { self.origDate = new Date(timestamp); } var localOffset = new Date(timestamp).getTimezoneOffset(); self.offsetDiff = localOffset * 60 * 1000 - offset * 1000 * 60 * 60; self.date = new Date(timestamp + self.offsetDiff); self.getTime = function () { return self.date.getTime() - self.offsetDiff; }; self.toLocaleDateString = function () { return self.date.toLocaleDateString(); }; self.getFullYear = function () { return self.date.getFullYear(); }; self.getMonth = function () { return self.date.getMonth(); }; self.getDate = function () { return self.date.getDate(); }; self.getHours = function () { return self.date.getHours(); }; self.getMinutes = function () { return self.date.getMinutes(); }; self.getSeconds = function () { return self.date.getSeconds(); }; self.getMilliseconds = function () { return self.date.getMilliseconds(); }; self.getTimezoneOffset = function () { return offset * 60; }; self.getUTCFullYear = function () { return self.origDate.getUTCFullYear(); }; self.getUTCMonth = function () { return self.origDate.getUTCMonth(); }; self.getUTCDate = function () { return self.origDate.getUTCDate(); }; self.getUTCHours = function () { return self.origDate.getUTCHours(); }; self.getUTCMinutes = function () { return self.origDate.getUTCMinutes(); }; self.getUTCSeconds = function () { return self.origDate.getUTCSeconds(); }; self.getUTCMilliseconds = function () { return self.origDate.getUTCMilliseconds(); }; self.getDay = function () { return self.date.getDay(); }; // provide this method only on browsers that already have it if (self.toISOString) { self.toISOString = function () { return padNumberInMock(self.origDate.getUTCFullYear(), 4) + '-' + padNumberInMock(self.origDate.getUTCMonth() + 1, 2) + '-' + padNumberInMock(self.origDate.getUTCDate(), 2) + 'T' + padNumberInMock(self.origDate.getUTCHours(), 2) + ':' + padNumberInMock(self.origDate.getUTCMinutes(), 2) + ':' + padNumberInMock(self.origDate.getUTCSeconds(), 2) + '.' + padNumberInMock(self.origDate.getUTCMilliseconds(), 3) + 'Z'; }; } //hide all methods not implemented in this mock that the Date prototype exposes var unimplementedMethods = ['getUTCDay', 'getYear', 'setDate', 'setFullYear', 'setHours', 'setMilliseconds', 'setMinutes', 'setMonth', 'setSeconds', 'setTime', 'setUTCDate', 'setUTCFullYear', 'setUTCHours', 'setUTCMilliseconds', 'setUTCMinutes', 'setUTCMonth', 'setUTCSeconds', 'setYear', 'toDateString', 'toGMTString', 'toJSON', 'toLocaleFormat', 'toLocaleString', 'toLocaleTimeString', 'toSource', 'toString', 'toTimeString', 'toUTCString', 'valueOf']; angular.forEach(unimplementedMethods, function (methodName) { self[methodName] = function () { throw new Error('Method \'' + methodName + '\' is not implemented in the TzDate mock'); }; }); return self; }; //make "tzDateInstance instanceof Date" return true angular.mock.TzDate.prototype = Date.prototype; /** * @ngdoc service * @name $animate * * @description * Mock implementation of the {@link ng.$animate `$animate`} service. Exposes two additional methods * for testing animations. * * You need to require the `ngAnimateMock` module in your test suite for instance `beforeEach(module('ngAnimateMock'))` */ angular.mock.animate = angular.module('ngAnimateMock', ['ng']) .info({angularVersion: '1.6.5'}) .config(['$provide', function ($provide) { $provide.factory('$$forceReflow', function () { function reflowFn() { reflowFn.totalReflows++; } reflowFn.totalReflows = 0; return reflowFn; }); $provide.factory('$$animateAsyncRun', function () { var queue = []; var queueFn = function () { return function (fn) { queue.push(fn); }; }; queueFn.flush = function () { if (queue.length === 0) return false; for (var i = 0; i < queue.length; i++) { queue[i](); } queue = []; return true; }; return queueFn; }); $provide.decorator('$$animateJs', ['$delegate', function ($delegate) { var runners = []; var animateJsConstructor = function () { var animator = $delegate.apply($delegate, arguments); // If no javascript animation is found, animator is undefined if (animator) { runners.push(animator); } return animator; }; animateJsConstructor.$closeAndFlush = function () { runners.forEach(function (runner) { runner.end(); }); runners = []; }; return animateJsConstructor; }]); $provide.decorator('$animateCss', ['$delegate', function ($delegate) { var runners = []; var animateCssConstructor = function (element, options) { var animator = $delegate(element, options); runners.push(animator); return animator; }; animateCssConstructor.$closeAndFlush = function () { runners.forEach(function (runner) { runner.end(); }); runners = []; }; return animateCssConstructor; }]); $provide.decorator('$animate', ['$delegate', '$timeout', '$browser', '$$rAF', '$animateCss', '$$animateJs', '$$forceReflow', '$$animateAsyncRun', '$rootScope', function ($delegate, $timeout, $browser, $$rAF, $animateCss, $$animateJs, $$forceReflow, $$animateAsyncRun, $rootScope) { var animate = { queue: [], cancel: $delegate.cancel, on: $delegate.on, off: $delegate.off, pin: $delegate.pin, get reflows() { return $$forceReflow.totalReflows; }, enabled: $delegate.enabled, /** * @ngdoc method * @name $animate#closeAndFlush * @description * * This method will close all pending animations (both {@link ngAnimate#javascript-based-animations Javascript} * and {@link ngAnimate.$animateCss CSS}) and it will also flush any remaining animation frames and/or callbacks. */ closeAndFlush: function () { // we allow the flush command to swallow the errors // because depending on whether CSS or JS animations are // used, there may not be a RAF flush. The primary flush // at the end of this function must throw an exception // because it will track if there were pending animations this.flush(true); $animateCss.$closeAndFlush(); $$animateJs.$closeAndFlush(); this.flush(); }, /** * @ngdoc method * @name $animate#flush * @description * * This method is used to flush the pending callbacks and animation frames to either start * an animation or conclude an animation. Note that this will not actually close an * actively running animation (see {@link ngMock.$animate#closeAndFlush `closeAndFlush()`} for that). */ flush: function (hideErrors) { $rootScope.$digest(); var doNextRun, somethingFlushed = false; do { doNextRun = false; if ($$rAF.queue.length) { $$rAF.flush(); doNextRun = somethingFlushed = true; } if ($$animateAsyncRun.flush()) { doNextRun = somethingFlushed = true; } } while (doNextRun); if (!somethingFlushed && !hideErrors) { throw new Error('No pending animations ready to be closed or flushed'); } $rootScope.$digest(); } }; angular.forEach( ['animate', 'enter', 'leave', 'move', 'addClass', 'removeClass', 'setClass'], function (method) { animate[method] = function () { animate.queue.push({ event: method, element: arguments[0], options: arguments[arguments.length - 1], args: arguments }); return $delegate[method].apply($delegate, arguments); }; }); return animate; }]); }]); /** * @ngdoc function * @name angular.mock.dump * @description * * *NOTE*: This is not an injectable instance, just a globally available function. * * Method for serializing common angular objects (scope, elements, etc..) into strings. * It is useful for logging objects to the console when debugging. * * @param {*} object - any object to turn into string. * @return {string} a serialized string of the argument */ angular.mock.dump = function (object) { return serialize(object); function serialize(object) { var out; if (angular.isElement(object)) { object = angular.element(object); out = angular.element('
'); angular.forEach(object, function (element) { out.append(angular.element(element).clone()); }); out = out.html(); } else if (angular.isArray(object)) { out = []; angular.forEach(object, function (o) { out.push(serialize(o)); }); out = '[ ' + out.join(', ') + ' ]'; } else if (angular.isObject(object)) { if (angular.isFunction(object.$eval) && angular.isFunction(object.$apply)) { out = serializeScope(object); } else if (object instanceof Error) { out = object.stack || ('' + object.name + ': ' + object.message); } else { // TODO(i): this prevents methods being logged, // we should have a better way to serialize objects out = angular.toJson(object, true); } } else { out = String(object); } return out; } function serializeScope(scope, offset) { offset = offset || ' '; var log = [offset + 'Scope(' + scope.$id + '): {']; for (var key in scope) { if (Object.prototype.hasOwnProperty.call(scope, key) && !key.match(/^(\$|this)/)) { log.push(' ' + key + ': ' + angular.toJson(scope[key])); } } var child = scope.$$childHead; while (child) { log.push(serializeScope(child, offset + ' ')); child = child.$$nextSibling; } log.push('}'); return log.join('\n' + offset); } }; /** * @ngdoc service * @name $httpBackend * @description * Fake HTTP backend implementation suitable for unit testing applications that use the * {@link ng.$http $http service}. * *
* **Note**: For fake HTTP backend implementation suitable for end-to-end testing or backend-less * development please see {@link ngMockE2E.$httpBackend e2e $httpBackend mock}. *
* * During unit testing, we want our unit tests to run quickly and have no external dependencies so * we don’t want to send [XHR](https://developer.mozilla.org/en/xmlhttprequest) or * [JSONP](http://en.wikipedia.org/wiki/JSONP) requests to a real server. All we really need is * to verify whether a certain request has been sent or not, or alternatively just let the * application make requests, respond with pre-trained responses and assert that the end result is * what we expect it to be. * * This mock implementation can be used to respond with static or dynamic responses via the * `expect` and `when` apis and their shortcuts (`expectGET`, `whenPOST`, etc). * * When an Angular application needs some data from a server, it calls the $http service, which * sends the request to a real server using $httpBackend service. With dependency injection, it is * easy to inject $httpBackend mock (which has the same API as $httpBackend) and use it to verify * the requests and respond with some testing data without sending a request to a real server. * * There are two ways to specify what test data should be returned as http responses by the mock * backend when the code under test makes http requests: * * - `$httpBackend.expect` - specifies a request expectation * - `$httpBackend.when` - specifies a backend definition * * * ## Request Expectations vs Backend Definitions * * Request expectations provide a way to make assertions about requests made by the application and * to define responses for those requests. The test will fail if the expected requests are not made * or they are made in the wrong order. * * Backend definitions allow you to define a fake backend for your application which doesn't assert * if a particular request was made or not, it just returns a trained response if a request is made. * The test will pass whether or not the request gets made during testing. * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
Request expectationsBackend definitions
Syntax.expect(...).respond(...).when(...).respond(...)
Typical usagestrict unit testsloose (black-box) unit testing
Fulfills multiple requestsNOYES
Order of requests mattersYESNO
Request requiredYESNO
Response requiredoptional (see below)YES
* * In cases where both backend definitions and request expectations are specified during unit * testing, the request expectations are evaluated first. * * If a request expectation has no response specified, the algorithm will search your backend * definitions for an appropriate response. * * If a request didn't match any expectation or if the expectation doesn't have the response * defined, the backend definitions are evaluated in sequential order to see if any of them match * the request. The response from the first matched definition is returned. * * * ## Flushing HTTP requests * * The $httpBackend used in production always responds to requests asynchronously. If we preserved * this behavior in unit testing, we'd have to create async unit tests, which are hard to write, * to follow and to maintain. But neither can the testing mock respond synchronously; that would * change the execution of the code under test. For this reason, the mock $httpBackend has a * `flush()` method, which allows the test to explicitly flush pending requests. This preserves * the async api of the backend, while allowing the test to execute synchronously. * * * ## Unit testing with mock $httpBackend * The following code shows how to setup and use the mock backend when unit testing a controller. * First we create the controller under test: * ```js // The module code angular .module('MyApp', []) .controller('MyController', MyController); // The controller code function MyController($scope, $http) { var authToken; $http.get('/auth.py').then(function(response) { authToken = response.headers('A-Token'); $scope.user = response.data; }).catch(function() { $scope.status = 'Failed...'; }); $scope.saveMessage = function(message) { var headers = { 'Authorization': authToken }; $scope.status = 'Saving...'; $http.post('/add-msg.py', message, { headers: headers } ).then(function(response) { $scope.status = ''; }).catch(function() { $scope.status = 'Failed...'; }); }; } ``` * * Now we setup the mock backend and create the test specs: * ```js // testing controller describe('MyController', function() { var $httpBackend, $rootScope, createController, authRequestHandler; // Set up the module beforeEach(module('MyApp')); beforeEach(inject(function($injector) { // Set up the mock http service responses $httpBackend = $injector.get('$httpBackend'); // backend definition common for all tests authRequestHandler = $httpBackend.when('GET', '/auth.py') .respond({userId: 'userX'}, {'A-Token': 'xxx'}); // Get hold of a scope (i.e. the root scope) $rootScope = $injector.get('$rootScope'); // The $controller service is used to create instances of controllers var $controller = $injector.get('$controller'); createController = function() { return $controller('MyController', {'$scope' : $rootScope }); }; })); afterEach(function() { $httpBackend.verifyNoOutstandingExpectation(); $httpBackend.verifyNoOutstandingRequest(); }); it('should fetch authentication token', function() { $httpBackend.expectGET('/auth.py'); var controller = createController(); $httpBackend.flush(); }); it('should fail authentication', function() { // Notice how you can change the response even after it was set authRequestHandler.respond(401, ''); $httpBackend.expectGET('/auth.py'); var controller = createController(); $httpBackend.flush(); expect($rootScope.status).toBe('Failed...'); }); it('should send msg to server', function() { var controller = createController(); $httpBackend.flush(); // now you don’t care about the authentication, but // the controller will still send the request and // $httpBackend will respond without you having to // specify the expectation and response for this request $httpBackend.expectPOST('/add-msg.py', 'message content').respond(201, ''); $rootScope.saveMessage('message content'); expect($rootScope.status).toBe('Saving...'); $httpBackend.flush(); expect($rootScope.status).toBe(''); }); it('should send auth header', function() { var controller = createController(); $httpBackend.flush(); $httpBackend.expectPOST('/add-msg.py', undefined, function(headers) { // check if the header was sent, if it wasn't the expectation won't // match the request and the test will fail return headers['Authorization'] === 'xxx'; }).respond(201, ''); $rootScope.saveMessage('whatever'); $httpBackend.flush(); }); }); ``` * * ## Dynamic responses * * You define a response to a request by chaining a call to `respond()` onto a definition or expectation. * If you provide a **callback** as the first parameter to `respond(callback)` then you can dynamically generate * a response based on the properties of the request. * * The `callback` function should be of the form `function(method, url, data, headers, params)`. * * ### Query parameters * * By default, query parameters on request URLs are parsed into the `params` object. So a request URL * of `/list?q=searchstr&orderby=-name` would set `params` to be `{q: 'searchstr', orderby: '-name'}`. * * ### Regex parameter matching * * If an expectation or definition uses a **regex** to match the URL, you can provide an array of **keys** via a * `params` argument. The index of each **key** in the array will match the index of a **group** in the * **regex**. * * The `params` object in the **callback** will now have properties with these keys, which hold the value of the * corresponding **group** in the **regex**. * * This also applies to the `when` and `expect` shortcut methods. * * * ```js * $httpBackend.expect('GET', /\/user\/(.+)/, undefined, undefined, ['id']) * .respond(function(method, url, data, headers, params) { * // for requested url of '/user/1234' params is {id: '1234'} * }); * * $httpBackend.whenPATCH(/\/user\/(.+)\/article\/(.+)/, undefined, undefined, ['user', 'article']) * .respond(function(method, url, data, headers, params) { * // for url of '/user/1234/article/567' params is {user: '1234', article: '567'} * }); * ``` * * ## Matching route requests * * For extra convenience, `whenRoute` and `expectRoute` shortcuts are available. These methods offer colon * delimited matching of the url path, ignoring the query string. This allows declarations * similar to how application routes are configured with `$routeProvider`. Because these methods convert * the definition url to regex, declaration order is important. Combined with query parameter parsing, * the following is possible: * ```js $httpBackend.whenRoute('GET', '/users/:id') .respond(function(method, url, data, headers, params) { return [200, MockUserList[Number(params.id)]]; }); $httpBackend.whenRoute('GET', '/users') .respond(function(method, url, data, headers, params) { var userList = angular.copy(MockUserList), defaultSort = 'lastName', count, pages, isPrevious, isNext; // paged api response '/v1/users?page=2' params.page = Number(params.page) || 1; // query for last names '/v1/users?q=Archer' if (params.q) { userList = $filter('filter')({lastName: params.q}); } pages = Math.ceil(userList.length / pagingLength); isPrevious = params.page > 1; isNext = params.page < pages; return [200, { count: userList.length, previous: isPrevious, next: isNext, // sort field -> '/v1/users?sortBy=firstName' results: $filter('orderBy')(userList, params.sortBy || defaultSort) .splice((params.page - 1) * pagingLength, pagingLength) }]; }); ``` */ angular.mock.$httpBackendDecorator = ['$rootScope', '$timeout', '$delegate', createHttpBackendMock]; /** * General factory function for $httpBackend mock. * Returns instance for unit testing (when no arguments specified): * - passing through is disabled * - auto flushing is disabled * * Returns instance for e2e testing (when `$delegate` and `$browser` specified): * - passing through (delegating request to real backend) is enabled * - auto flushing is enabled * * @param {Object=} $delegate Real $httpBackend instance (allow passing through if specified) * @param {Object=} $browser Auto-flushing enabled if specified * @return {Object} Instance of $httpBackend mock */ function createHttpBackendMock($rootScope, $timeout, $delegate, $browser) { var definitions = [], expectations = [], responses = [], responsesPush = angular.bind(responses, responses.push), copy = angular.copy, // We cache the original backend so that if both ngMock and ngMockE2E override the // service the ngMockE2E version can pass through to the real backend originalHttpBackend = $delegate.$$originalHttpBackend || $delegate; function createResponse(status, data, headers, statusText) { if (angular.isFunction(status)) return status; return function () { return angular.isNumber(status) ? [status, data, headers, statusText] : [200, status, data, headers]; }; } // TODO(vojta): change params to: method, url, data, headers, callback function $httpBackend(method, url, data, callback, headers, timeout, withCredentials, responseType, eventHandlers, uploadEventHandlers) { var xhr = new MockXhr(), expectation = expectations[0], wasExpected = false; xhr.$$events = eventHandlers; xhr.upload.$$events = uploadEventHandlers; function prettyPrint(data) { return (angular.isString(data) || angular.isFunction(data) || data instanceof RegExp) ? data : angular.toJson(data); } function wrapResponse(wrapped) { if (!$browser && timeout) { if (timeout.then) { timeout.then(handleTimeout); } else { $timeout(handleTimeout, timeout); } } handleResponse.description = method + ' ' + url; return handleResponse; function handleResponse() { var response = wrapped.response(method, url, data, headers, wrapped.params(url)); xhr.$$respHeaders = response[2]; callback(copy(response[0]), copy(response[1]), xhr.getAllResponseHeaders(), copy(response[3] || '')); } function handleTimeout() { for (var i = 0, ii = responses.length; i < ii; i++) { if (responses[i] === handleResponse) { responses.splice(i, 1); callback(-1, undefined, ''); break; } } } } if (expectation && expectation.match(method, url)) { if (!expectation.matchData(data)) { throw new Error('Expected ' + expectation + ' with different data\n' + 'EXPECTED: ' + prettyPrint(expectation.data) + '\nGOT: ' + data); } if (!expectation.matchHeaders(headers)) { throw new Error('Expected ' + expectation + ' with different headers\n' + 'EXPECTED: ' + prettyPrint(expectation.headers) + '\nGOT: ' + prettyPrint(headers)); } expectations.shift(); if (expectation.response) { responses.push(wrapResponse(expectation)); return; } wasExpected = true; } var i = -1, definition; while ((definition = definitions[++i])) { if (definition.match(method, url, data, headers || {})) { if (definition.response) { // if $browser specified, we do auto flush all requests ($browser ? $browser.defer : responsesPush)(wrapResponse(definition)); } else if (definition.passThrough) { originalHttpBackend(method, url, data, callback, headers, timeout, withCredentials, responseType, eventHandlers, uploadEventHandlers); } else throw new Error('No response defined !'); return; } } throw wasExpected ? new Error('No response defined !') : new Error('Unexpected request: ' + method + ' ' + url + '\n' + (expectation ? 'Expected ' + expectation : 'No more request expected')); } /** * @ngdoc method * @name $httpBackend#when * @description * Creates a new backend definition. * * @param {string} method HTTP method. * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(string|RegExp|function(string))=} data HTTP request body or function that receives * data string and returns true if the data is as expected. * @param {(Object|function(Object))=} headers HTTP headers or function that receives http header * object and returns true if the headers match the current definition. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. * * - respond – * ```js * {function([status,] data[, headers, statusText]) * | function(function(method, url, data, headers, params)} * ``` * – The respond method takes a set of static data to be returned or a function that can * return an array containing response status (number), response data (Array|Object|string), * response headers (Object), and the text for the status (string). The respond method returns * the `requestHandler` object for possible overrides. */ $httpBackend.when = function (method, url, data, headers, keys) { assertArgDefined(arguments, 1, 'url'); var definition = new MockHttpExpectation(method, url, data, headers, keys), chain = { respond: function (status, data, headers, statusText) { definition.passThrough = undefined; definition.response = createResponse(status, data, headers, statusText); return chain; } }; if ($browser) { chain.passThrough = function () { definition.response = undefined; definition.passThrough = true; return chain; }; } definitions.push(definition); return chain; }; /** * @ngdoc method * @name $httpBackend#whenGET * @description * Creates a new backend definition for GET requests. For more info see `when()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(Object|function(Object))=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#whenHEAD * @description * Creates a new backend definition for HEAD requests. For more info see `when()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(Object|function(Object))=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#whenDELETE * @description * Creates a new backend definition for DELETE requests. For more info see `when()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(Object|function(Object))=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#whenPOST * @description * Creates a new backend definition for POST requests. For more info see `when()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(string|RegExp|function(string))=} data HTTP request body or function that receives * data string and returns true if the data is as expected. * @param {(Object|function(Object))=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#whenPUT * @description * Creates a new backend definition for PUT requests. For more info see `when()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(string|RegExp|function(string))=} data HTTP request body or function that receives * data string and returns true if the data is as expected. * @param {(Object|function(Object))=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#whenJSONP * @description * Creates a new backend definition for JSONP requests. For more info see `when()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. */ createShortMethods('when'); /** * @ngdoc method * @name $httpBackend#whenRoute * @description * Creates a new backend definition that compares only with the requested route. * * @param {string} method HTTP method. * @param {string} url HTTP url string that supports colon param matching. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. See #when for more info. */ $httpBackend.whenRoute = function (method, url) { var pathObj = parseRoute(url); return $httpBackend.when(method, pathObj.regexp, undefined, undefined, pathObj.keys); }; function parseRoute(url) { var ret = { regexp: url }, keys = ret.keys = []; if (!url || !angular.isString(url)) return ret; url = url .replace(/([().])/g, '\\$1') .replace(/(\/)?:(\w+)([?*])?/g, function (_, slash, key, option) { var optional = option === '?' ? option : null; var star = option === '*' ? option : null; keys.push({name: key, optional: !!optional}); slash = slash || ''; return '' + (optional ? '' : slash) + '(?:' + (optional ? slash : '') + (star && '(.+?)' || '([^/]+)') + (optional || '') + ')' + (optional || ''); }) .replace(/([/$*])/g, '\\$1'); ret.regexp = new RegExp('^' + url, 'i'); return ret; } /** * @ngdoc method * @name $httpBackend#expect * @description * Creates a new request expectation. * * @param {string} method HTTP method. * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(string|RegExp|function(string)|Object)=} data HTTP request body or function that * receives data string and returns true if the data is as expected, or Object if request body * is in JSON format. * @param {(Object|function(Object))=} headers HTTP headers or function that receives http header * object and returns true if the headers match the current expectation. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. * * - respond – * ``` * { function([status,] data[, headers, statusText]) * | function(function(method, url, data, headers, params)} * ``` * – The respond method takes a set of static data to be returned or a function that can * return an array containing response status (number), response data (Array|Object|string), * response headers (Object), and the text for the status (string). The respond method returns * the `requestHandler` object for possible overrides. */ $httpBackend.expect = function (method, url, data, headers, keys) { assertArgDefined(arguments, 1, 'url'); var expectation = new MockHttpExpectation(method, url, data, headers, keys), chain = { respond: function (status, data, headers, statusText) { expectation.response = createResponse(status, data, headers, statusText); return chain; } }; expectations.push(expectation); return chain; }; /** * @ngdoc method * @name $httpBackend#expectGET * @description * Creates a new request expectation for GET requests. For more info see `expect()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {Object=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. See #expect for more info. */ /** * @ngdoc method * @name $httpBackend#expectHEAD * @description * Creates a new request expectation for HEAD requests. For more info see `expect()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {Object=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#expectDELETE * @description * Creates a new request expectation for DELETE requests. For more info see `expect()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {Object=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#expectPOST * @description * Creates a new request expectation for POST requests. For more info see `expect()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(string|RegExp|function(string)|Object)=} data HTTP request body or function that * receives data string and returns true if the data is as expected, or Object if request body * is in JSON format. * @param {Object=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#expectPUT * @description * Creates a new request expectation for PUT requests. For more info see `expect()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(string|RegExp|function(string)|Object)=} data HTTP request body or function that * receives data string and returns true if the data is as expected, or Object if request body * is in JSON format. * @param {Object=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#expectPATCH * @description * Creates a new request expectation for PATCH requests. For more info see `expect()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(string|RegExp|function(string)|Object)=} data HTTP request body or function that * receives data string and returns true if the data is as expected, or Object if request body * is in JSON format. * @param {Object=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#expectJSONP * @description * Creates a new request expectation for JSONP requests. For more info see `expect()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives an url * and returns true if the url matches the current definition. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described above. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. */ createShortMethods('expect'); /** * @ngdoc method * @name $httpBackend#expectRoute * @description * Creates a new request expectation that compares only with the requested route. * * @param {string} method HTTP method. * @param {string} url HTTP url string that supports colon param matching. * @returns {requestHandler} Returns an object with `respond` method that controls how a matched * request is handled. You can save this object for later use and invoke `respond` again in * order to change how a matched request is handled. See #expect for more info. */ $httpBackend.expectRoute = function (method, url) { var pathObj = parseRoute(url); return $httpBackend.expect(method, pathObj.regexp, undefined, undefined, pathObj.keys); }; /** * @ngdoc method * @name $httpBackend#flush * @description * Flushes pending requests using the trained responses. Requests are flushed in the order they * were made, but it is also possible to skip one or more requests (for example to have them * flushed later). This is useful for simulating scenarios where responses arrive from the server * in any order. * * If there are no pending requests to flush when the method is called, an exception is thrown (as * this is typically a sign of programming error). * * @param {number=} count - Number of responses to flush. If undefined/null, all pending requests * (starting after `skip`) will be flushed. * @param {number=} [skip=0] - Number of pending requests to skip. For example, a value of `5` * would skip the first 5 pending requests and start flushing from the 6th onwards. */ $httpBackend.flush = function (count, skip, digest) { if (digest !== false) $rootScope.$digest(); skip = skip || 0; if (skip >= responses.length) throw new Error('No pending request to flush !'); if (angular.isDefined(count) && count !== null) { while (count--) { var part = responses.splice(skip, 1); if (!part.length) throw new Error('No more pending request to flush !'); part[0](); } } else { while (responses.length > skip) { responses.splice(skip, 1)[0](); } } $httpBackend.verifyNoOutstandingExpectation(digest); }; /** * @ngdoc method * @name $httpBackend#verifyNoOutstandingExpectation * @description * Verifies that all of the requests defined via the `expect` api were made. If any of the * requests were not made, verifyNoOutstandingExpectation throws an exception. * * Typically, you would call this method following each test case that asserts requests using an * "afterEach" clause. * * ```js * afterEach($httpBackend.verifyNoOutstandingExpectation); * ``` */ $httpBackend.verifyNoOutstandingExpectation = function (digest) { if (digest !== false) $rootScope.$digest(); if (expectations.length) { throw new Error('Unsatisfied requests: ' + expectations.join(', ')); } }; /** * @ngdoc method * @name $httpBackend#verifyNoOutstandingRequest * @description * Verifies that there are no outstanding requests that need to be flushed. * * Typically, you would call this method following each test case that asserts requests using an * "afterEach" clause. * * ```js * afterEach($httpBackend.verifyNoOutstandingRequest); * ``` */ $httpBackend.verifyNoOutstandingRequest = function (digest) { if (digest !== false) $rootScope.$digest(); if (responses.length) { var unflushedDescriptions = responses.map(function (res) { return res.description; }); throw new Error('Unflushed requests: ' + responses.length + '\n ' + unflushedDescriptions.join('\n ')); } }; /** * @ngdoc method * @name $httpBackend#resetExpectations * @description * Resets all request expectations, but preserves all backend definitions. Typically, you would * call resetExpectations during a multiple-phase test when you want to reuse the same instance of * $httpBackend mock. */ $httpBackend.resetExpectations = function () { expectations.length = 0; responses.length = 0; }; $httpBackend.$$originalHttpBackend = originalHttpBackend; return $httpBackend; function createShortMethods(prefix) { angular.forEach(['GET', 'DELETE', 'JSONP', 'HEAD'], function (method) { $httpBackend[prefix + method] = function (url, headers, keys) { assertArgDefined(arguments, 0, 'url'); // Change url to `null` if `undefined` to stop it throwing an exception further down if (angular.isUndefined(url)) url = null; return $httpBackend[prefix](method, url, undefined, headers, keys); }; }); angular.forEach(['PUT', 'POST', 'PATCH'], function (method) { $httpBackend[prefix + method] = function (url, data, headers, keys) { assertArgDefined(arguments, 0, 'url'); // Change url to `null` if `undefined` to stop it throwing an exception further down if (angular.isUndefined(url)) url = null; return $httpBackend[prefix](method, url, data, headers, keys); }; }); } } function assertArgDefined(args, index, name) { if (args.length > index && angular.isUndefined(args[index])) { throw new Error('Undefined argument `' + name + '`; the argument is provided but not defined'); } } function MockHttpExpectation(method, url, data, headers, keys) { function getUrlParams(u) { var params = u.slice(u.indexOf('?') + 1).split('&'); return params.sort(); } function compareUrl(u) { return (url.slice(0, url.indexOf('?')) === u.slice(0, u.indexOf('?')) && getUrlParams(url).join() === getUrlParams(u).join()); } this.data = data; this.headers = headers; this.match = function (m, u, d, h) { if (method !== m) return false; if (!this.matchUrl(u)) return false; if (angular.isDefined(d) && !this.matchData(d)) return false; if (angular.isDefined(h) && !this.matchHeaders(h)) return false; return true; }; this.matchUrl = function (u) { if (!url) return true; if (angular.isFunction(url.test)) return url.test(u); if (angular.isFunction(url)) return url(u); return (url === u || compareUrl(u)); }; this.matchHeaders = function (h) { if (angular.isUndefined(headers)) return true; if (angular.isFunction(headers)) return headers(h); return angular.equals(headers, h); }; this.matchData = function (d) { if (angular.isUndefined(data)) return true; if (data && angular.isFunction(data.test)) return data.test(d); if (data && angular.isFunction(data)) return data(d); if (data && !angular.isString(data)) { return angular.equals(angular.fromJson(angular.toJson(data)), angular.fromJson(d)); } // eslint-disable-next-line eqeqeq return data == d; }; this.toString = function () { return method + ' ' + url; }; this.params = function (u) { return angular.extend(parseQuery(), pathParams()); function pathParams() { var keyObj = {}; if (!url || !angular.isFunction(url.test) || !keys || keys.length === 0) return keyObj; var m = url.exec(u); if (!m) return keyObj; for (var i = 1, len = m.length; i < len; ++i) { var key = keys[i - 1]; var val = m[i]; if (key && val) { keyObj[key.name || key] = val; } } return keyObj; } function parseQuery() { var obj = {}, key_value, key, queryStr = u.indexOf('?') > -1 ? u.substring(u.indexOf('?') + 1) : ''; angular.forEach(queryStr.split('&'), function (keyValue) { if (keyValue) { key_value = keyValue.replace(/\+/g, '%20').split('='); key = tryDecodeURIComponent(key_value[0]); if (angular.isDefined(key)) { var val = angular.isDefined(key_value[1]) ? tryDecodeURIComponent(key_value[1]) : true; if (!hasOwnProperty.call(obj, key)) { obj[key] = val; } else if (angular.isArray(obj[key])) { obj[key].push(val); } else { obj[key] = [obj[key], val]; } } } }); return obj; } function tryDecodeURIComponent(value) { try { return decodeURIComponent(value); } catch (e) { // Ignore any invalid uri component } } }; } function createMockXhr() { return new MockXhr(); } function MockXhr() { // hack for testing $http, $httpBackend MockXhr.$$lastInstance = this; this.open = function (method, url, async) { this.$$method = method; this.$$url = url; this.$$async = async; this.$$reqHeaders = {}; this.$$respHeaders = {}; }; this.send = function (data) { this.$$data = data; }; this.setRequestHeader = function (key, value) { this.$$reqHeaders[key] = value; }; this.getResponseHeader = function (name) { // the lookup must be case insensitive, // that's why we try two quick lookups first and full scan last var header = this.$$respHeaders[name]; if (header) return header; name = angular.lowercase(name); header = this.$$respHeaders[name]; if (header) return header; header = undefined; angular.forEach(this.$$respHeaders, function (headerVal, headerName) { if (!header && angular.lowercase(headerName) === name) header = headerVal; }); return header; }; this.getAllResponseHeaders = function () { var lines = []; angular.forEach(this.$$respHeaders, function (value, key) { lines.push(key + ': ' + value); }); return lines.join('\n'); }; this.abort = angular.noop; // This section simulates the events on a real XHR object (and the upload object) // When we are testing $httpBackend (inside the angular project) we make partial use of this // but store the events directly ourselves on `$$events`, instead of going through the `addEventListener` this.$$events = {}; this.addEventListener = function (name, listener) { if (angular.isUndefined(this.$$events[name])) this.$$events[name] = []; this.$$events[name].push(listener); }; this.upload = { $$events: {}, addEventListener: this.addEventListener }; } /** * @ngdoc service * @name $timeout * @description * * This service is just a simple decorator for {@link ng.$timeout $timeout} service * that adds a "flush" and "verifyNoPendingTasks" methods. */ angular.mock.$TimeoutDecorator = ['$delegate', '$browser', function ($delegate, $browser) { /** * @ngdoc method * @name $timeout#flush * @description * * Flushes the queue of pending tasks. * * @param {number=} delay maximum timeout amount to flush up until */ $delegate.flush = function (delay) { $browser.defer.flush(delay); }; /** * @ngdoc method * @name $timeout#verifyNoPendingTasks * @description * * Verifies that there are no pending tasks that need to be flushed. */ $delegate.verifyNoPendingTasks = function () { if ($browser.deferredFns.length) { throw new Error('Deferred tasks to flush (' + $browser.deferredFns.length + '): ' + formatPendingTasksAsString($browser.deferredFns)); } }; function formatPendingTasksAsString(tasks) { var result = []; angular.forEach(tasks, function (task) { result.push('{id: ' + task.id + ', time: ' + task.time + '}'); }); return result.join(', '); } return $delegate; }]; angular.mock.$RAFDecorator = ['$delegate', function ($delegate) { var rafFn = function (fn) { var index = rafFn.queue.length; rafFn.queue.push(fn); return function () { rafFn.queue.splice(index, 1); }; }; rafFn.queue = []; rafFn.supported = $delegate.supported; rafFn.flush = function () { if (rafFn.queue.length === 0) { throw new Error('No rAF callbacks present'); } var length = rafFn.queue.length; for (var i = 0; i < length; i++) { rafFn.queue[i](); } rafFn.queue = rafFn.queue.slice(i); }; return rafFn; }]; /** * */ var originalRootElement; angular.mock.$RootElementProvider = function () { this.$get = ['$injector', function ($injector) { originalRootElement = angular.element('
').data('$injector', $injector); return originalRootElement; }]; }; /** * @ngdoc service * @name $controller * @description * A decorator for {@link ng.$controller} with additional `bindings` parameter, useful when testing * controllers of directives that use {@link $compile#-bindtocontroller- `bindToController`}. * * Depending on the value of * {@link ng.$compileProvider#preAssignBindingsEnabled `preAssignBindingsEnabled()`}, the properties * will be bound before or after invoking the constructor. * * * ## Example * * ```js * * // Directive definition ... * * myMod.directive('myDirective', { * controller: 'MyDirectiveController', * bindToController: { * name: '@' * } * }); * * * // Controller definition ... * * myMod.controller('MyDirectiveController', ['$log', function($log) { * this.log = function() { * $log.info(this.name); * }; * }]); * * * // In a test ... * * describe('myDirectiveController', function() { * describe('log()', function() { * it('should write the bound name to the log', inject(function($controller, $log) { * var ctrl = $controller('MyDirectiveController', { /* no locals */ }, { name: 'Clark Kent' }); * ctrl.log(); * * expect(ctrl.name).toEqual('Clark Kent'); * expect($log.info.logs).toEqual(['Clark Kent']); * })); * }); * }); * * ``` * * @param {Function|string} constructor If called with a function then it's considered to be the * controller constructor function. Otherwise it's considered to be a string which is used * to retrieve the controller constructor using the following steps: * * * check if a controller with given name is registered via `$controllerProvider` * * check if evaluating the string on the current scope returns a constructor * * if $controllerProvider#allowGlobals, check `window[constructor]` on the global * `window` object (deprecated, not recommended) * * The string can use the `controller as property` syntax, where the controller instance is published * as the specified property on the `scope`; the `scope` must be injected into `locals` param for this * to work correctly. * * @param {Object} locals Injection locals for Controller. * @param {Object=} bindings Properties to add to the controller instance. This is used to simulate * the `bindToController` feature and simplify certain kinds of tests. * @return {Object} Instance of given controller. */ function createControllerDecorator(compileProvider) { angular.mock.$ControllerDecorator = ['$delegate', function ($delegate) { return function (expression, locals, later, ident) { if (later && typeof later === 'object') { var preAssignBindingsEnabled = compileProvider.preAssignBindingsEnabled(); var instantiate = $delegate(expression, locals, true, ident); if (preAssignBindingsEnabled) { angular.extend(instantiate.instance, later); } var instance = instantiate(); if (!preAssignBindingsEnabled || instance !== instantiate.instance) { angular.extend(instance, later); } return instance; } return $delegate(expression, locals, later, ident); }; }]; return angular.mock.$ControllerDecorator; } /** * @ngdoc service * @name $componentController * @description * A service that can be used to create instances of component controllers. Useful for unit-testing. * * Be aware that the controller will be instantiated and attached to the scope as specified in * the component definition object. If you do not provide a `$scope` object in the `locals` param * then the helper will create a new isolated scope as a child of `$rootScope`. * * If you are using `$element` or `$attrs` in the controller, make sure to provide them as `locals`. * The `$element` must be a jqLite-wrapped DOM element, and `$attrs` should be an object that * has all properties / functions that you are using in the controller. If this is getting too complex, * you should compile the component instead and access the component's controller via the * {@link angular.element#methods `controller`} function. * * See also the section on {@link guide/component#unit-testing-component-controllers unit-testing component controllers} * in the guide. * * @param {string} componentName the name of the component whose controller we want to instantiate * @param {Object} locals Injection locals for Controller. * @param {Object=} bindings Properties to add to the controller before invoking the constructor. This is used * to simulate the `bindToController` feature and simplify certain kinds of tests. * @param {string=} ident Override the property name to use when attaching the controller to the scope. * @return {Object} Instance of requested controller. */ angular.mock.$ComponentControllerProvider = ['$compileProvider', function ComponentControllerProvider($compileProvider) { this.$get = ['$controller', '$injector', '$rootScope', function ($controller, $injector, $rootScope) { return function $componentController(componentName, locals, bindings, ident) { // get all directives associated to the component name var directives = $injector.get(componentName + 'Directive'); // look for those directives that are components var candidateDirectives = directives.filter(function (directiveInfo) { // components have controller, controllerAs and restrict:'E' return directiveInfo.controller && directiveInfo.controllerAs && directiveInfo.restrict === 'E'; }); // check if valid directives found if (candidateDirectives.length === 0) { throw new Error('No component found'); } if (candidateDirectives.length > 1) { throw new Error('Too many components found'); } // get the info of the component var directiveInfo = candidateDirectives[0]; // create a scope if needed locals = locals || {}; locals.$scope = locals.$scope || $rootScope.$new(true); return $controller(directiveInfo.controller, locals, bindings, ident || directiveInfo.controllerAs); }; }]; }]; /** * @ngdoc module * @name ngMock * @packageName angular-mocks * @description * * # ngMock * * The `ngMock` module provides support to inject and mock Angular services into unit tests. * In addition, ngMock also extends various core ng services such that they can be * inspected and controlled in a synchronous manner within test code. * * *
* * @installation * * First, download the file: * * [Google CDN](https://developers.google.com/speed/libraries/devguide#angularjs) e.g. * `"//ajax.googleapis.com/ajax/libs/angularjs/X.Y.Z/angular-mocks.js"` * * [NPM](https://www.npmjs.com/) e.g. `npm install angular-mocks@X.Y.Z` * * [Yarn](https://yarnpkg.com) e.g. `yarn add angular-mocks@X.Y.Z` * * [Bower](http://bower.io) e.g. `bower install angular-mocks#X.Y.Z` * * [code.angularjs.org](https://code.angularjs.org/) (discouraged for production use) e.g. * `"//code.angularjs.org/X.Y.Z/angular-mocks.js"` * * where X.Y.Z is the AngularJS version you are running. * * Then, configure your test runner to load `angular-mocks.js` after `angular.js`. * This example uses Karma: * * ``` * config.set({ * files: [ * 'build/angular.js', // and other module files you need * 'build/angular-mocks.js', * '', * '' * ] * }); * ``` * * Including the `angular-mocks.js` file automatically adds the `ngMock` module, so your tests * are ready to go! */ angular.module('ngMock', ['ng']).provider({ $browser: angular.mock.$BrowserProvider, $exceptionHandler: angular.mock.$ExceptionHandlerProvider, $log: angular.mock.$LogProvider, $interval: angular.mock.$IntervalProvider, $rootElement: angular.mock.$RootElementProvider, $componentController: angular.mock.$ComponentControllerProvider }).config(['$provide', '$compileProvider', function ($provide, $compileProvider) { $provide.decorator('$timeout', angular.mock.$TimeoutDecorator); $provide.decorator('$$rAF', angular.mock.$RAFDecorator); $provide.decorator('$rootScope', angular.mock.$RootScopeDecorator); $provide.decorator('$controller', createControllerDecorator($compileProvider)); $provide.decorator('$httpBackend', angular.mock.$httpBackendDecorator); }]).info({angularVersion: '1.6.5'}); /** * @ngdoc module * @name ngMockE2E * @module ngMockE2E * @packageName angular-mocks * @description * * The `ngMockE2E` is an angular module which contains mocks suitable for end-to-end testing. * Currently there is only one mock present in this module - * the {@link ngMockE2E.$httpBackend e2e $httpBackend} mock. */ angular.module('ngMockE2E', ['ng']).config(['$provide', function ($provide) { $provide.decorator('$httpBackend', angular.mock.e2e.$httpBackendDecorator); }]).info({angularVersion: '1.6.5'}); /** * @ngdoc service * @name $httpBackend * @module ngMockE2E * @description * Fake HTTP backend implementation suitable for end-to-end testing or backend-less development of * applications that use the {@link ng.$http $http service}. * *
* **Note**: For fake http backend implementation suitable for unit testing please see * {@link ngMock.$httpBackend unit-testing $httpBackend mock}. *
* * This implementation can be used to respond with static or dynamic responses via the `when` api * and its shortcuts (`whenGET`, `whenPOST`, etc) and optionally pass through requests to the * real $httpBackend for specific requests (e.g. to interact with certain remote apis or to fetch * templates from a webserver). * * As opposed to unit-testing, in an end-to-end testing scenario or in scenario when an application * is being developed with the real backend api replaced with a mock, it is often desirable for * certain category of requests to bypass the mock and issue a real http request (e.g. to fetch * templates or static files from the webserver). To configure the backend with this behavior * use the `passThrough` request handler of `when` instead of `respond`. * * Additionally, we don't want to manually have to flush mocked out requests like we do during unit * testing. For this reason the e2e $httpBackend flushes mocked out requests * automatically, closely simulating the behavior of the XMLHttpRequest object. * * To setup the application to run with this http backend, you have to create a module that depends * on the `ngMockE2E` and your application modules and defines the fake backend: * * ```js * var myAppDev = angular.module('myAppDev', ['myApp', 'ngMockE2E']); * myAppDev.run(function($httpBackend) { * var phones = [{name: 'phone1'}, {name: 'phone2'}]; * * // returns the current list of phones * $httpBackend.whenGET('/phones').respond(phones); * * // adds a new phone to the phones array * $httpBackend.whenPOST('/phones').respond(function(method, url, data) { * var phone = angular.fromJson(data); * phones.push(phone); * return [200, phone, {}]; * }); * $httpBackend.whenGET(/^\/templates\//).passThrough(); // Requests for templates are handled by the real server * //... * }); * ``` * * Afterwards, bootstrap your app with this new module. * * ## Example * * * var myApp = angular.module('myApp', []); * * myApp.controller('MainCtrl', function MainCtrl($http) { * var ctrl = this; * * ctrl.phones = []; * ctrl.newPhone = { * name: '' * }; * * ctrl.getPhones = function() { * $http.get('/phones').then(function(response) { * ctrl.phones = response.data; * }); * }; * * ctrl.addPhone = function(phone) { * $http.post('/phones', phone).then(function() { * ctrl.newPhone = {name: ''}; * return ctrl.getPhones(); * }); * }; * * ctrl.getPhones(); * }); * * * var myAppDev = angular.module('myAppE2E', ['myApp', 'ngMockE2E']); * * myAppDev.run(function($httpBackend) { * var phones = [{name: 'phone1'}, {name: 'phone2'}]; * * // returns the current list of phones * $httpBackend.whenGET('/phones').respond(phones); * * // adds a new phone to the phones array * $httpBackend.whenPOST('/phones').respond(function(method, url, data) { * var phone = angular.fromJson(data); * phones.push(phone); * return [200, phone, {}]; * }); * }); * * *
*
* * *
*

Phones

*
    *
  • {{phone.name}}
  • *
*
*
*
* * */ /** * @ngdoc method * @name $httpBackend#when * @module ngMockE2E * @description * Creates a new backend definition. * * @param {string} method HTTP method. * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(string|RegExp|function(string))=} data HTTP request body or function that receives * data string and returns true if the data is as expected. * @param {(Object|function(Object))=} headers HTTP headers or function that receives http header * object and returns true if the headers match the current definition. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described on * {@link ngMock.$httpBackend $httpBackend mock}. * @returns {requestHandler} Returns an object with `respond` and `passThrough` methods that * control how a matched request is handled. You can save this object for later use and invoke * `respond` or `passThrough` again in order to change how a matched request is handled. * * - respond – * ``` * { function([status,] data[, headers, statusText]) * | function(function(method, url, data, headers, params)} * ``` * – The respond method takes a set of static data to be returned or a function that can return * an array containing response status (number), response data (Array|Object|string), response * headers (Object), and the text for the status (string). * - passThrough – `{function()}` – Any request matching a backend definition with * `passThrough` handler will be passed through to the real backend (an XHR request will be made * to the server.) * - Both methods return the `requestHandler` object for possible overrides. */ /** * @ngdoc method * @name $httpBackend#whenGET * @module ngMockE2E * @description * Creates a new backend definition for GET requests. For more info see `when()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(Object|function(Object))=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described on * {@link ngMock.$httpBackend $httpBackend mock}. * @returns {requestHandler} Returns an object with `respond` and `passThrough` methods that * control how a matched request is handled. You can save this object for later use and invoke * `respond` or `passThrough` again in order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#whenHEAD * @module ngMockE2E * @description * Creates a new backend definition for HEAD requests. For more info see `when()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(Object|function(Object))=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described on * {@link ngMock.$httpBackend $httpBackend mock}. * @returns {requestHandler} Returns an object with `respond` and `passThrough` methods that * control how a matched request is handled. You can save this object for later use and invoke * `respond` or `passThrough` again in order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#whenDELETE * @module ngMockE2E * @description * Creates a new backend definition for DELETE requests. For more info see `when()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(Object|function(Object))=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described on * {@link ngMock.$httpBackend $httpBackend mock}. * @returns {requestHandler} Returns an object with `respond` and `passThrough` methods that * control how a matched request is handled. You can save this object for later use and invoke * `respond` or `passThrough` again in order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#whenPOST * @module ngMockE2E * @description * Creates a new backend definition for POST requests. For more info see `when()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(string|RegExp|function(string))=} data HTTP request body or function that receives * data string and returns true if the data is as expected. * @param {(Object|function(Object))=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described on * {@link ngMock.$httpBackend $httpBackend mock}. * @returns {requestHandler} Returns an object with `respond` and `passThrough` methods that * control how a matched request is handled. You can save this object for later use and invoke * `respond` or `passThrough` again in order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#whenPUT * @module ngMockE2E * @description * Creates a new backend definition for PUT requests. For more info see `when()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(string|RegExp|function(string))=} data HTTP request body or function that receives * data string and returns true if the data is as expected. * @param {(Object|function(Object))=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described on * {@link ngMock.$httpBackend $httpBackend mock}. * @returns {requestHandler} Returns an object with `respond` and `passThrough` methods that * control how a matched request is handled. You can save this object for later use and invoke * `respond` or `passThrough` again in order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#whenPATCH * @module ngMockE2E * @description * Creates a new backend definition for PATCH requests. For more info see `when()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(string|RegExp|function(string))=} data HTTP request body or function that receives * data string and returns true if the data is as expected. * @param {(Object|function(Object))=} headers HTTP headers. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described on * {@link ngMock.$httpBackend $httpBackend mock}. * @returns {requestHandler} Returns an object with `respond` and `passThrough` methods that * control how a matched request is handled. You can save this object for later use and invoke * `respond` or `passThrough` again in order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#whenJSONP * @module ngMockE2E * @description * Creates a new backend definition for JSONP requests. For more info see `when()`. * * @param {string|RegExp|function(string)=} url HTTP url or function that receives a url * and returns true if the url matches the current definition. * @param {(Array)=} keys Array of keys to assign to regex matches in request url described on * {@link ngMock.$httpBackend $httpBackend mock}. * @returns {requestHandler} Returns an object with `respond` and `passThrough` methods that * control how a matched request is handled. You can save this object for later use and invoke * `respond` or `passThrough` again in order to change how a matched request is handled. */ /** * @ngdoc method * @name $httpBackend#whenRoute * @module ngMockE2E * @description * Creates a new backend definition that compares only with the requested route. * * @param {string} method HTTP method. * @param {string} url HTTP url string that supports colon param matching. * @returns {requestHandler} Returns an object with `respond` and `passThrough` methods that * control how a matched request is handled. You can save this object for later use and invoke * `respond` or `passThrough` again in order to change how a matched request is handled. */ angular.mock.e2e = {}; angular.mock.e2e.$httpBackendDecorator = ['$rootScope', '$timeout', '$delegate', '$browser', createHttpBackendMock]; /** * @ngdoc type * @name $rootScope.Scope * @module ngMock * @description * {@link ng.$rootScope.Scope Scope} type decorated with helper methods useful for testing. These * methods are automatically available on any {@link ng.$rootScope.Scope Scope} instance when * `ngMock` module is loaded. * * In addition to all the regular `Scope` methods, the following helper methods are available: */ angular.mock.$RootScopeDecorator = ['$delegate', function ($delegate) { var $rootScopePrototype = Object.getPrototypeOf($delegate); $rootScopePrototype.$countChildScopes = countChildScopes; $rootScopePrototype.$countWatchers = countWatchers; return $delegate; // ------------------------------------------------------------------------------------------ // /** * @ngdoc method * @name $rootScope.Scope#$countChildScopes * @module ngMock * @this $rootScope.Scope * @description * Counts all the direct and indirect child scopes of the current scope. * * The current scope is excluded from the count. The count includes all isolate child scopes. * * @returns {number} Total number of child scopes. */ function countChildScopes() { var count = 0; // exclude the current scope var pendingChildHeads = [this.$$childHead]; var currentScope; while (pendingChildHeads.length) { currentScope = pendingChildHeads.shift(); while (currentScope) { count += 1; pendingChildHeads.push(currentScope.$$childHead); currentScope = currentScope.$$nextSibling; } } return count; } /** * @ngdoc method * @name $rootScope.Scope#$countWatchers * @this $rootScope.Scope * @module ngMock * @description * Counts all the watchers of direct and indirect child scopes of the current scope. * * The watchers of the current scope are included in the count and so are all the watchers of * isolate child scopes. * * @returns {number} Total number of watchers. */ function countWatchers() { var count = this.$$watchers ? this.$$watchers.length : 0; // include the current scope var pendingChildHeads = [this.$$childHead]; var currentScope; while (pendingChildHeads.length) { currentScope = pendingChildHeads.shift(); while (currentScope) { count += currentScope.$$watchers ? currentScope.$$watchers.length : 0; pendingChildHeads.push(currentScope.$$childHead); currentScope = currentScope.$$nextSibling; } } return count; } }]; (function (jasmineOrMocha) { if (!jasmineOrMocha) { return; } var currentSpec = null, injectorState = new InjectorState(), annotatedFunctions = [], wasInjectorCreated = function () { return !!currentSpec; }; angular.mock.$$annotate = angular.injector.$$annotate; angular.injector.$$annotate = function (fn) { if (typeof fn === 'function' && !fn.$inject) { annotatedFunctions.push(fn); } return angular.mock.$$annotate.apply(this, arguments); }; /** * @ngdoc function * @name angular.mock.module * @description * * *NOTE*: This function is also published on window for easy access.
* *NOTE*: This function is declared ONLY WHEN running tests with jasmine or mocha * * This function registers a module configuration code. It collects the configuration information * which will be used when the injector is created by {@link angular.mock.inject inject}. * * See {@link angular.mock.inject inject} for usage example * * @param {...(string|Function|Object)} fns any number of modules which are represented as string * aliases or as anonymous module initialization functions. The modules are used to * configure the injector. The 'ng' and 'ngMock' modules are automatically loaded. If an * object literal is passed each key-value pair will be registered on the module via * {@link auto.$provide $provide}.value, the key being the string name (or token) to associate * with the value on the injector. */ var module = window.module = angular.mock.module = function () { var moduleFns = Array.prototype.slice.call(arguments, 0); return wasInjectorCreated() ? workFn() : workFn; ///////////////////// function workFn() { if (currentSpec.$injector) { throw new Error('Injector already created, can not register a module!'); } else { var fn, modules = currentSpec.$modules || (currentSpec.$modules = []); angular.forEach(moduleFns, function (module) { if (angular.isObject(module) && !angular.isArray(module)) { fn = ['$provide', function ($provide) { angular.forEach(module, function (value, key) { $provide.value(key, value); }); }]; } else { fn = module; } if (currentSpec.$providerInjector) { currentSpec.$providerInjector.invoke(fn); } else { modules.push(fn); } }); } } }; module.$$beforeAllHook = (window.before || window.beforeAll); module.$$afterAllHook = (window.after || window.afterAll); // purely for testing ngMock itself module.$$currentSpec = function (to) { if (arguments.length === 0) return to; currentSpec = to; }; /** * @ngdoc function * @name angular.mock.module.sharedInjector * @description * * *NOTE*: This function is declared ONLY WHEN running tests with jasmine or mocha * * This function ensures a single injector will be used for all tests in a given describe context. * This contrasts with the default behaviour where a new injector is created per test case. * * Use sharedInjector when you want to take advantage of Jasmine's `beforeAll()`, or mocha's * `before()` methods. Call `module.sharedInjector()` before you setup any other hooks that * will create (i.e call `module()`) or use (i.e call `inject()`) the injector. * * You cannot call `sharedInjector()` from within a context already using `sharedInjector()`. * * ## Example * * Typically beforeAll is used to make many assertions about a single operation. This can * cut down test run-time as the test setup doesn't need to be re-run, and enabling focussed * tests each with a single assertion. * * ```js * describe("Deep Thought", function() { * * module.sharedInjector(); * * beforeAll(module("UltimateQuestion")); * * beforeAll(inject(function(DeepThought) { * expect(DeepThought.answer).toBeUndefined(); * DeepThought.generateAnswer(); * })); * * it("has calculated the answer correctly", inject(function(DeepThought) { * // Because of sharedInjector, we have access to the instance of the DeepThought service * // that was provided to the beforeAll() hook. Therefore we can test the generated answer * expect(DeepThought.answer).toBe(42); * })); * * it("has calculated the answer within the expected time", inject(function(DeepThought) { * expect(DeepThought.runTimeMillennia).toBeLessThan(8000); * })); * * it("has double checked the answer", inject(function(DeepThought) { * expect(DeepThought.absolutelySureItIsTheRightAnswer).toBe(true); * })); * * }); * * ``` */ module.sharedInjector = function () { if (!(module.$$beforeAllHook && module.$$afterAllHook)) { throw Error('sharedInjector() cannot be used unless your test runner defines beforeAll/afterAll'); } var initialized = false; module.$$beforeAllHook(/** @this */ function () { if (injectorState.shared) { injectorState.sharedError = Error('sharedInjector() cannot be called inside a context that has already called sharedInjector()'); throw injectorState.sharedError; } initialized = true; currentSpec = this; injectorState.shared = true; }); module.$$afterAllHook(function () { if (initialized) { injectorState = new InjectorState(); module.$$cleanup(); } else { injectorState.sharedError = null; } }); }; module.$$beforeEach = function () { if (injectorState.shared && currentSpec && currentSpec !== this) { var state = currentSpec; currentSpec = this; angular.forEach(['$injector', '$modules', '$providerInjector', '$injectorStrict'], function (k) { currentSpec[k] = state[k]; state[k] = null; }); } else { currentSpec = this; originalRootElement = null; annotatedFunctions = []; } }; module.$$afterEach = function () { if (injectorState.cleanupAfterEach()) { module.$$cleanup(); } }; module.$$cleanup = function () { var injector = currentSpec.$injector; annotatedFunctions.forEach(function (fn) { delete fn.$inject; }); currentSpec.$injector = null; currentSpec.$modules = null; currentSpec.$providerInjector = null; currentSpec = null; if (injector) { // Ensure `$rootElement` is instantiated, before checking `originalRootElement` var $rootElement = injector.get('$rootElement'); var rootNode = $rootElement && $rootElement[0]; var cleanUpNodes = !originalRootElement ? [] : [originalRootElement[0]]; if (rootNode && (!originalRootElement || rootNode !== originalRootElement[0])) { cleanUpNodes.push(rootNode); } angular.element.cleanData(cleanUpNodes); // Ensure `$destroy()` is available, before calling it // (a mocked `$rootScope` might not implement it (or not even be an object at all)) var $rootScope = injector.get('$rootScope'); if ($rootScope && $rootScope.$destroy) $rootScope.$destroy(); } // clean up jquery's fragment cache angular.forEach(angular.element.fragments, function (val, key) { delete angular.element.fragments[key]; }); MockXhr.$$lastInstance = null; angular.forEach(angular.callbacks, function (val, key) { delete angular.callbacks[key]; }); angular.callbacks.$$counter = 0; }; (window.beforeEach || window.setup)(module.$$beforeEach); (window.afterEach || window.teardown)(module.$$afterEach); /** * @ngdoc function * @name angular.mock.inject * @description * * *NOTE*: This function is also published on window for easy access.
* *NOTE*: This function is declared ONLY WHEN running tests with jasmine or mocha * * The inject function wraps a function into an injectable function. The inject() creates new * instance of {@link auto.$injector $injector} per test, which is then used for * resolving references. * * * ## Resolving References (Underscore Wrapping) * Often, we would like to inject a reference once, in a `beforeEach()` block and reuse this * in multiple `it()` clauses. To be able to do this we must assign the reference to a variable * that is declared in the scope of the `describe()` block. Since we would, most likely, want * the variable to have the same name of the reference we have a problem, since the parameter * to the `inject()` function would hide the outer variable. * * To help with this, the injected parameters can, optionally, be enclosed with underscores. * These are ignored by the injector when the reference name is resolved. * * For example, the parameter `_myService_` would be resolved as the reference `myService`. * Since it is available in the function body as `_myService_`, we can then assign it to a variable * defined in an outer scope. * * ``` * // Defined out reference variable outside * var myService; * * // Wrap the parameter in underscores * beforeEach( inject( function(_myService_){ * myService = _myService_; * })); * * // Use myService in a series of tests. * it('makes use of myService', function() { * myService.doStuff(); * }); * * ``` * * See also {@link angular.mock.module angular.mock.module} * * ## Example * Example of what a typical jasmine tests looks like with the inject method. * ```js * * angular.module('myApplicationModule', []) * .value('mode', 'app') * .value('version', 'v1.0.1'); * * * describe('MyApp', function() { * * // You need to load modules that you want to test, * // it loads only the "ng" module by default. * beforeEach(module('myApplicationModule')); * * * // inject() is used to inject arguments of all given functions * it('should provide a version', inject(function(mode, version) { * expect(version).toEqual('v1.0.1'); * expect(mode).toEqual('app'); * })); * * * // The inject and module method can also be used inside of the it or beforeEach * it('should override a version and test the new version is injected', function() { * // module() takes functions or strings (module aliases) * module(function($provide) { * $provide.value('version', 'overridden'); // override version here * }); * * inject(function(version) { * expect(version).toEqual('overridden'); * }); * }); * }); * * ``` * * @param {...Function} fns any number of functions which will be injected using the injector. */ var ErrorAddingDeclarationLocationStack = function ErrorAddingDeclarationLocationStack(e, errorForStack) { this.message = e.message; this.name = e.name; if (e.line) this.line = e.line; if (e.sourceId) this.sourceId = e.sourceId; if (e.stack && errorForStack) this.stack = e.stack + '\n' + errorForStack.stack; if (e.stackArray) this.stackArray = e.stackArray; }; ErrorAddingDeclarationLocationStack.prototype = Error.prototype; window.inject = angular.mock.inject = function () { var blockFns = Array.prototype.slice.call(arguments, 0); var errorForStack = new Error('Declaration Location'); // IE10+ and PhanthomJS do not set stack trace information, until the error is thrown if (!errorForStack.stack) { try { throw errorForStack; } catch (e) { /* empty */ } } return wasInjectorCreated() ? WorkFn.call(currentSpec) : WorkFn; ///////////////////// function WorkFn() { var modules = currentSpec.$modules || []; var strictDi = !!currentSpec.$injectorStrict; modules.unshift(['$injector', function ($injector) { currentSpec.$providerInjector = $injector; }]); modules.unshift('ngMock'); modules.unshift('ng'); var injector = currentSpec.$injector; if (!injector) { if (strictDi) { // If strictDi is enabled, annotate the providerInjector blocks angular.forEach(modules, function (moduleFn) { if (typeof moduleFn === 'function') { angular.injector.$$annotate(moduleFn); } }); } injector = currentSpec.$injector = angular.injector(modules, strictDi); currentSpec.$injectorStrict = strictDi; } for (var i = 0, ii = blockFns.length; i < ii; i++) { if (currentSpec.$injectorStrict) { // If the injector is strict / strictDi, and the spec wants to inject using automatic // annotation, then annotate the function here. injector.annotate(blockFns[i]); } try { injector.invoke(blockFns[i] || angular.noop, this); } catch (e) { if (e.stack && errorForStack) { throw new ErrorAddingDeclarationLocationStack(e, errorForStack); } throw e; } finally { errorForStack = null; } } } }; angular.mock.inject.strictDi = function (value) { value = arguments.length ? !!value : true; return wasInjectorCreated() ? workFn() : workFn; function workFn() { if (value !== currentSpec.$injectorStrict) { if (currentSpec.$injector) { throw new Error('Injector already created, can not modify strict annotations'); } else { currentSpec.$injectorStrict = value; } } } }; function InjectorState() { this.shared = false; this.sharedError = null; this.cleanupAfterEach = function () { return !this.shared || this.sharedError; }; } })(window.jasmine || window.mocha); 'use strict'; (function () { /** * Triggers a browser event. Attempts to choose the right event if one is * not specified. * * @param {Object} element Either a wrapped jQuery/jqLite node or a DOMElement * @param {string} eventType Optional event type * @param {Object=} eventData An optional object which contains additional event data (such as x,y * coordinates, keys, etc...) that are passed into the event when triggered */ window.browserTrigger = function browserTrigger(element, eventType, eventData) { if (element && !element.nodeName) element = element[0]; if (!element) return; eventData = eventData || {}; var relatedTarget = eventData.relatedTarget || element; var keys = eventData.keys; var x = eventData.x; var y = eventData.y; var inputType = (element.type) ? element.type.toLowerCase() : null, nodeName = element.nodeName.toLowerCase(); if (!eventType) { eventType = { 'text': 'change', 'textarea': 'change', 'hidden': 'change', 'password': 'change', 'button': 'click', 'submit': 'click', 'reset': 'click', 'image': 'click', 'checkbox': 'click', 'radio': 'click', 'select-one': 'change', 'select-multiple': 'change', '_default_': 'click' }[inputType || '_default_']; } if (nodeName === 'option') { element.parentNode.value = element.value; element = element.parentNode; eventType = 'change'; } keys = keys || []; function pressed(key) { return keys.indexOf(key) !== -1; } var evnt; if (/transitionend/.test(eventType)) { if (window.WebKitTransitionEvent) { evnt = new window.WebKitTransitionEvent(eventType, eventData); evnt.initEvent(eventType, false, true); } else { try { evnt = new window.TransitionEvent(eventType, eventData); } catch (e) { evnt = window.document.createEvent('TransitionEvent'); evnt.initTransitionEvent(eventType, null, null, null, eventData.elapsedTime || 0); } } } else if (/animationend/.test(eventType)) { if (window.WebKitAnimationEvent) { evnt = new window.WebKitAnimationEvent(eventType, eventData); evnt.initEvent(eventType, false, true); } else { try { evnt = new window.AnimationEvent(eventType, eventData); } catch (e) { evnt = window.document.createEvent('AnimationEvent'); evnt.initAnimationEvent(eventType, null, null, null, eventData.elapsedTime || 0); } } } else if (/touch/.test(eventType) && supportsTouchEvents()) { evnt = createTouchEvent(element, eventType, x, y); } else if (/key/.test(eventType)) { evnt = window.document.createEvent('Events'); evnt.initEvent(eventType, eventData.bubbles, eventData.cancelable); evnt.view = window; evnt.ctrlKey = pressed('ctrl'); evnt.altKey = pressed('alt'); evnt.shiftKey = pressed('shift'); evnt.metaKey = pressed('meta'); evnt.keyCode = eventData.keyCode; evnt.charCode = eventData.charCode; evnt.which = eventData.which; } else { evnt = window.document.createEvent('MouseEvents'); x = x || 0; y = y || 0; evnt.initMouseEvent(eventType, true, true, window, 0, x, y, x, y, pressed('ctrl'), pressed('alt'), pressed('shift'), pressed('meta'), 0, relatedTarget); } /* we're unable to change the timeStamp value directly so this * is only here to allow for testing where the timeStamp value is * read */ evnt.$manualTimeStamp = eventData.timeStamp; if (!evnt) return; var originalPreventDefault = evnt.preventDefault, appWindow = element.ownerDocument.defaultView, fakeProcessDefault = true, finalProcessDefault, angular = appWindow.angular || {}; // igor: temporary fix for https://bugzilla.mozilla.org/show_bug.cgi?id=684208 angular['ff-684208-preventDefault'] = false; evnt.preventDefault = function () { fakeProcessDefault = false; return originalPreventDefault.apply(evnt, arguments); }; if (!eventData.bubbles || supportsEventBubblingInDetachedTree() || isAttachedToDocument(element)) { element.dispatchEvent(evnt); } else { triggerForPath(element, evnt); } finalProcessDefault = !(angular['ff-684208-preventDefault'] || !fakeProcessDefault); delete angular['ff-684208-preventDefault']; return finalProcessDefault; }; function supportsTouchEvents() { if ('_cached' in supportsTouchEvents) { return supportsTouchEvents._cached; } if (!window.document.createTouch || !window.document.createTouchList) { supportsTouchEvents._cached = false; return false; } try { window.document.createEvent('TouchEvent'); } catch (e) { supportsTouchEvents._cached = false; return false; } supportsTouchEvents._cached = true; return true; } function createTouchEvent(element, eventType, x, y) { var evnt = new window.Event(eventType); x = x || 0; y = y || 0; var touch = window.document.createTouch(window, element, Date.now(), x, y, x, y); var touches = window.document.createTouchList(touch); evnt.touches = touches; return evnt; } function supportsEventBubblingInDetachedTree() { if ('_cached' in supportsEventBubblingInDetachedTree) { return supportsEventBubblingInDetachedTree._cached; } supportsEventBubblingInDetachedTree._cached = false; var doc = window.document; if (doc) { var parent = doc.createElement('div'), child = parent.cloneNode(); parent.appendChild(child); parent.addEventListener('e', function () { supportsEventBubblingInDetachedTree._cached = true; }); var evnt = window.document.createEvent('Events'); evnt.initEvent('e', true, true); child.dispatchEvent(evnt); } return supportsEventBubblingInDetachedTree._cached; } function triggerForPath(element, evnt) { var stop = false; var _stopPropagation = evnt.stopPropagation; evnt.stopPropagation = function () { stop = true; _stopPropagation.apply(evnt, arguments); }; patchEventTargetForBubbling(evnt, element); do { element.dispatchEvent(evnt); // eslint-disable-next-line no-unmodified-loop-condition } while (!stop && (element = element.parentNode)); } function patchEventTargetForBubbling(event, target) { event._target = target; Object.defineProperty(event, 'target', { get: function () { return this._target; } }); } function isAttachedToDocument(element) { while ((element = element.parentNode)) { if (element === window) { return true; } } return false; } })(); })(window, window.angular);